Merge pull request #205 from sun7151887/push-sync-20251222

修复物料不能显示的问题
2026-02-05 13:55:06 +00:00 · 2025-12-25 15:39:26 +08:00 · 2025-12-25 15:35:06 +08:00 · 2025-12-23 17:28:57 +08:00 · 2025-12-23 16:52:05 +08:00 · 2025-12-22 11:12:40 +08:00
131 changed files with 29809 additions and 6515 deletions
--- a/.conda/recipe.yaml
+++ b/.conda/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: unilabos
-  version: 0.10.10
+  version: 0.10.12

 source:
  path: ../unilabos
--- a/README.md
+++ b/README.md
@@ -39,7 +39,9 @@ Uni-Lab-OS recommends using `mamba` for environment management. Choose the appro

 ```bash
 # Create new environment
-mamba create -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
+mamba create -n unilab python=3.11.11
+mamba activate unilab
+mamba install -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
 ```

 ## Install Dev Uni-Lab-OS
--- a/README_zh.md
+++ b/README_zh.md
@@ -41,7 +41,9 @@ Uni-Lab-OS 建议使用 `mamba` 管理环境。根据您的操作系统选择适

 ```bash
 # 创建新环境
-mamba create -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
+mamba create -n unilab python=3.11.11
+mamba activate unilab
+mamba install -n unilab uni-lab::unilabos -c robostack-staging -c conda-forge
 ```

 2. 安装开发版 Uni-Lab-OS:
--- a/bioyond_yihua_YB.json
+++ b/bioyond_yihua_YB.json
--- a/button_battery_station_resources_unilab.json
+++ b/button_battery_station_resources_unilab.json
--- a/docs/advanced_usage/configuration.md
+++ b/docs/advanced_usage/configuration.md
@@ -67,14 +67,6 @@ class WSConfig:
    max_reconnect_attempts = 999  # 最大重连次数
    ping_interval = 30  # ping间隔（秒）

-# OSS上传配置
-class OSSUploadConfig:
-    api_host = ""  # API主机地址
-    authorization = ""  # 授权信息
-    init_endpoint = ""  # 初始化端点
-    complete_endpoint = ""  # 完成端点
-    max_retries = 3  # 最大重试次数
-
 # HTTP配置
 class HTTPConfig:
    remote_addr = "https://uni-lab.bohrium.com/api/v1"  # 远程服务器地址
@@ -294,19 +286,7 @@ HTTP 客户端配置用于与云端服务通信：
 - UAT 环境：`https://uni-lab.uat.bohrium.com/api/v1`
 - 本地环境：`http://127.0.0.1:48197/api/v1`

-### 4. OSSUploadConfig - OSS 上传配置
-
-对象存储服务配置，用于文件上传功能：
-
-| 参数                | 类型 | 默认值 | 说明                 |
-| ------------------- | ---- | ------ | -------------------- |
-| `api_host`          | str  | `""`   | OSS API 主机地址     |
-| `authorization`     | str  | `""`   | 授权认证信息         |
-| `init_endpoint`     | str  | `""`   | 上传初始化端点       |
-| `complete_endpoint` | str  | `""`   | 上传完成端点         |
-| `max_retries`       | int  | `3`    | 上传失败最大重试次数 |
-
-### 5. ROSConfig - ROS 配置
+### 4. ROSConfig - ROS 配置

 配置 ROS 消息转换器需要加载的模块：

--- a/docs/developer_guide/add_registry.md
+++ b/docs/developer_guide/add_registry.md
@@ -4,7 +4,8 @@

 ## 概述

-注册表（Registry）是Uni-Lab的设备配置系统，采用YAML格式定义设备的：
+注册表（Registry）是 Uni-Lab 的设备配置系统，采用 YAML 格式定义设备的：
+
 - 可用动作（Actions）
 - 状态类型（Status Types）
 - 初始化参数（Init Parameters）
@@ -32,19 +33,19 @@

 ### 核心字段说明

-| 字段名            | 类型   | 需要手写 | 说明                                |
-| ----------------- | ------ | -------- | ----------------------------------- |
-| 设备标识符        | string | 是       | 设备的唯一名字，如 `mock_chiller`   |
-| class             | object | 部分     | 设备的核心信息，必须配置            |
-| description       | string | 否       | 设备描述，系统默认给空字符串        |
-| handles           | array  | 否       | 连接关系，默认为空                  |
-| icon              | string | 否       | 图标路径，默认为空                  |
-| init_param_schema | object | 否       | 初始化参数，系统自动分析生成        |
-| version           | string | 否       | 版本号，默认 "1.0.0"                |
-| category          | array  | 否       | 设备分类，默认使用文件名            |
-| config_info       | array  | 否       | 嵌套配置，默认为空                  |
-| file_path         | string | 否       | 文件路径，系统自动设置              |
-| registry_type     | string | 否       | 注册表类型，自动设为 "device"       |
+| 字段名            | 类型   | 需要手写 | 说明                              |
+| ----------------- | ------ | -------- | --------------------------------- |
+| 设备标识符        | string | 是       | 设备的唯一名字，如 `mock_chiller` |
+| class             | object | 部分     | 设备的核心信息，必须配置          |
+| description       | string | 否       | 设备描述，系统默认给空字符串      |
+| handles           | array  | 否       | 连接关系，默认为空                |
+| icon              | string | 否       | 图标路径，默认为空                |
+| init_param_schema | object | 否       | 初始化参数，系统自动分析生成      |
+| version           | string | 否       | 版本号，默认 "1.0.0"              |
+| category          | array  | 否       | 设备分类，默认使用文件名          |
+| config_info       | array  | 否       | 嵌套配置，默认为空                |
+| file_path         | string | 否       | 文件路径，系统自动设置            |
+| registry_type     | string | 否       | 注册表类型，自动设为 "device"     |

 ### class 字段详解

@@ -71,11 +72,11 @@ my_device:
      # 动作配置（详见后文）
      action_name:
        type: UniLabJsonCommand
-        goal: {...}
-        result: {...}
+        goal: { ... }
+        result: { ... }

-  description: "设备描述"
-  version: "1.0.0"
+  description: '设备描述'
+  version: '1.0.0'
  category:
    - device_category
  handles: []
@@ -101,21 +102,22 @@ my_device:

 ## 创建注册表的方式

-### 方式1: 使用注册表编辑器（推荐）
+### 方式 1: 使用注册表编辑器（推荐）

 适合大多数场景，快速高效。

 **步骤**：
-1. 启动Uni-Lab
-2. 访问Web界面的"注册表编辑器"
-3. 上传您的Python设备驱动文件
+
+1. 启动 Uni-Lab
+2. 访问 Web 界面的"注册表编辑器"
+3. 上传您的 Python 设备驱动文件
 4. 点击"分析文件"
 5. 填写描述和图标
 6. 点击"生成注册表"
-7. 复制生成的YAML内容
+7. 复制生成的 YAML 内容
 8. 保存到 `unilabos/registry/devices/your_device.yaml`

-### 方式2: 使用--complete_registry参数（开发调试）
+### 方式 2: 使用--complete_registry 参数（开发调试）

 适合开发阶段，自动补全配置。

@@ -125,7 +127,8 @@ unilab -g dev.json --complete_registry --registry_path ./my_registry
 ```

 系统会：
-1. 扫描Python类
+
+1. 扫描 Python 类
 2. 分析方法签名和类型
 3. 自动生成缺失的字段
 4. 保存到注册表文件
@@ -137,7 +140,7 @@ unilab -g dev.json --complete_registry --registry_path ./my_registry
 启动系统时用 complete_registry=True 参数，让系统自动补全
 ```

-### 方式3: 手动编写（高级）
+### 方式 3: 手动编写（高级）

 适合需要精细控制或特殊需求的场景。

@@ -186,6 +189,7 @@ my_device:
 | ROS 动作类型           | 标准 ROS 动作        | goal_default 和 schema |

 **常用的 ROS 动作类型**：
+
 - `SendCmd`：发送简单命令
 - `NavigateThroughPoses`：导航动作
 - `SingleJointPosition`：单关节位置控制
@@ -251,11 +255,11 @@ heat_chill_start:

 ## 特殊类型的自动识别

-### ResourceSlot和DeviceSlot识别
+### ResourceSlot 和 DeviceSlot 识别

 当您在驱动代码中使用这些特殊类型时，系统会自动识别并生成相应的前端选择器。

-**Python驱动代码示例**：
+**Python 驱动代码示例**：

 ```python
 from unilabos.registry.placeholder_type import ResourceSlot, DeviceSlot
@@ -286,24 +290,24 @@ my_device:
          device: device
          devices: devices
        placeholder_keys:
-          resource: unilabos_resources      # 自动添加！
-          resources: unilabos_resources     # 自动添加！
-          device: unilabos_devices          # 自动添加！
-          devices: unilabos_devices         # 自动添加！
+          resource: unilabos_resources # 自动添加！
+          resources: unilabos_resources # 自动添加！
+          device: unilabos_devices # 自动添加！
+          devices: unilabos_devices # 自动添加！
        result:
          success: success
 ```

 ### 识别规则

-| Python类型 | placeholder_keys值 | 前端效果 |
-|-----------|-------------------|---------|
-| `ResourceSlot` | `unilabos_resources` | 单选资源下拉框 |
+| Python 类型          | placeholder_keys 值  | 前端效果       |
+| -------------------- | -------------------- | -------------- |
+| `ResourceSlot`       | `unilabos_resources` | 单选资源下拉框 |
 | `List[ResourceSlot]` | `unilabos_resources` | 多选资源下拉框 |
-| `DeviceSlot` | `unilabos_devices` | 单选设备下拉框 |
-| `List[DeviceSlot]` | `unilabos_devices` | 多选设备下拉框 |
+| `DeviceSlot`         | `unilabos_devices`   | 单选设备下拉框 |
+| `List[DeviceSlot]`   | `unilabos_devices`   | 多选设备下拉框 |

-### 前端UI效果
+### 前端 UI 效果

 #### 单选资源

@@ -313,6 +317,7 @@ placeholder_keys:
 ```

 **前端渲染**:
+
 ```
 Source: [下拉选择框 ▼]
        ├── plate_1 (96孔板)
@@ -329,6 +334,7 @@ placeholder_keys:
 ```

 **前端渲染**:
+
 ```
 Targets: [多选下拉框 ▼]
         ☑ plate_1 (96孔板)
@@ -345,6 +351,7 @@ placeholder_keys:
 ```

 **前端渲染**:
+
 ```
 Pump: [下拉选择框 ▼]
      ├── pump_1 (注射泵A)
@@ -360,6 +367,7 @@ placeholder_keys:
 ```

 **前端渲染**:
+
 ```
 Sync Devices: [多选下拉框 ▼]
              ☑ heater_1 (加热器A)
@@ -367,11 +375,11 @@ Sync Devices: [多选下拉框 ▼]
              ☐ pump_1 (注射泵)
 ```

-### 手动配置placeholder_keys
+### 手动配置 placeholder_keys

-如果需要手动添加或覆盖自动生成的placeholder_keys：
+如果需要手动添加或覆盖自动生成的 placeholder_keys：

-#### 场景1: 非标准参数名
+#### 场景 1: 非标准参数名

 ```yaml
 action_value_mappings:
@@ -384,7 +392,7 @@ action_value_mappings:
      my_device_param: unilabos_devices
 ```

-#### 场景2: 混合类型
+#### 场景 2: 混合类型

 ```python
 def mixed_params(
@@ -398,32 +406,33 @@ def mixed_params(

 ```yaml
 placeholder_keys:
-  resource: unilabos_resources    # 资源选择
-  device: unilabos_devices        # 设备选择
+  resource: unilabos_resources # 资源选择
+  device: unilabos_devices # 设备选择
  # normal_param不需要placeholder_keys
 ```

-#### 场景3: 自定义选择器
+#### 场景 3: 自定义选择器

 ```yaml
 placeholder_keys:
-  special_param: custom_selector   # 使用自定义选择器
+  special_param: custom_selector # 使用自定义选择器
 ```

 ## 系统自动生成的字段

 ### status_types

-系统会扫描你的 Python 类，从状态方法（property或get_方法）自动生成这部分：
+系统会扫描你的 Python 类，从状态方法（property 或 get\_方法）自动生成这部分：

 ```yaml
 status_types:
  current_temperature: float # 从 get_current_temperature() 或 @property current_temperature
-  is_heating: bool           # 从 get_is_heating() 或 @property is_heating
-  status: str               # 从 get_status() 或 @property status
+  is_heating: bool # 从 get_is_heating() 或 @property is_heating
+  status: str # 从 get_status() 或 @property status
 ```

 **注意事项**：
+
 - 系统会查找所有 `get_` 开头的方法和 `@property` 装饰的属性
 - 类型会自动转成相应的类型（如 `str`、`float`、`bool`）
 - 如果类型是 `Any`、`None` 或未知的，默认使用 `String`
@@ -459,20 +468,21 @@ init_param_schema:
 ```

 **生成规则**：
+
 - `config` 部分：分析 `__init__` 方法的参数、类型和默认值
 - `data` 部分：根据 `status_types` 生成前端显示用的类型定义

 ### 其他自动填充的字段

 ```yaml
-version: '1.0.0'          # 默认版本
-category: ['文件名']       # 使用 yaml 文件名作为类别
-description: ''           # 默认为空
-icon: ''                  # 默认为空
-handles: []               # 默认空数组
-config_info: []           # 默认空数组
+version: '1.0.0' # 默认版本
+category: ['文件名'] # 使用 yaml 文件名作为类别
+description: '' # 默认为空
+icon: '' # 默认为空
+handles: [] # 默认空数组
+config_info: [] # 默认空数组
 file_path: '/path/to/file' # 系统自动填写
-registry_type: 'device'   # 自动设为设备类型
+registry_type: 'device' # 自动设为设备类型
 ```

 ### handles 字段
@@ -510,7 +520,7 @@ config_info: # 嵌套配置，用于包含子设备

 ## 完整示例

-### Python驱动代码
+### Python 驱动代码

 ```python
 # unilabos/devices/my_lab/liquid_handler.py
@@ -520,22 +530,22 @@ from typing import List, Dict, Any, Optional

 class AdvancedLiquidHandler:
    """高级液体处理工作站"""
-    
+
    def __init__(self, config: Dict[str, Any]):
        self.simulation = config.get('simulation', False)
        self._status = "idle"
        self._temperature = 25.0
-    
+
    @property
    def status(self) -> str:
        """设备状态"""
        return self._status
-    
+
    @property
    def temperature(self) -> float:
        """当前温度"""
        return self._temperature
-    
+
    def transfer(
        self,
        source: ResourceSlot,
@@ -545,7 +555,7 @@ class AdvancedLiquidHandler:
    ) -> Dict[str, Any]:
        """转移液体"""
        return {"success": True}
-    
+
    def multi_transfer(
        self,
        source: ResourceSlot,
@@ -554,7 +564,7 @@ class AdvancedLiquidHandler:
    ) -> Dict[str, Any]:
        """多目标转移"""
        return {"success": True}
-    
+
    def coordinate_with_heater(
        self,
        plate: ResourceSlot,
@@ -574,12 +584,12 @@ advanced_liquid_handler:
  class:
    module: unilabos.devices.my_lab.liquid_handler:AdvancedLiquidHandler
    type: python
-    
+
    # 自动提取的状态类型
    status_types:
      status: str
      temperature: float
-    
+
    # 自动生成的初始化参数
    init_param_schema:
      config:
@@ -597,7 +607,7 @@ advanced_liquid_handler:
        required:
          - status
        type: object
-    
+
    # 动作映射
    action_value_mappings:
      transfer:
@@ -613,28 +623,28 @@ advanced_liquid_handler:
          volume: 0.0
          tip: null
        placeholder_keys:
-          source: unilabos_resources      # 自动添加
-          target: unilabos_resources      # 自动添加
-          tip: unilabos_resources         # 自动添加
+          source: unilabos_resources # 自动添加
+          target: unilabos_resources # 自动添加
+          tip: unilabos_resources # 自动添加
        result:
          success: success
        schema:
-          description: "转移液体"
+          description: '转移液体'
          properties:
            goal:
              properties:
                source:
                  type: object
-                  description: "源容器"
+                  description: '源容器'
                target:
                  type: object
-                  description: "目标容器"
+                  description: '目标容器'
                volume:
                  type: number
-                  description: "体积(μL)"
+                  description: '体积(μL)'
                tip:
                  type: object
-                  description: "枪头(可选)"
+                  description: '枪头(可选)'
              required:
                - source
                - target
@@ -643,7 +653,7 @@ advanced_liquid_handler:
          required:
            - goal
          type: object
-      
+
      multi_transfer:
        type: UniLabJsonCommand
        goal:
@@ -651,11 +661,11 @@ advanced_liquid_handler:
          targets: targets
          volumes: volumes
        placeholder_keys:
-          source: unilabos_resources      # 单选
-          targets: unilabos_resources     # 多选
+          source: unilabos_resources # 单选
+          targets: unilabos_resources # 多选
        result:
          success: success
-      
+
      coordinate_with_heater:
        type: UniLabJsonCommand
        goal:
@@ -663,17 +673,17 @@ advanced_liquid_handler:
          heater: heater
          temperature: temperature
        placeholder_keys:
-          plate: unilabos_resources       # 资源选择
-          heater: unilabos_devices        # 设备选择
+          plate: unilabos_resources # 资源选择
+          heater: unilabos_devices # 设备选择
        result:
          success: success
-  
-  description: "高级液体处理工作站，支持多目标转移和设备协同"
-  version: "1.0.0"
+
+  description: '高级液体处理工作站，支持多目标转移和设备协同'
+  version: '1.0.0'
  category:
    - liquid_handling
  handles: []
-  icon: ""
+  icon: ''
 ```

 ### 另一个完整示例：温度控制器
@@ -892,17 +902,18 @@ unilab -g dev.json --complete_registry
 cat unilabos/registry/devices/my_device.yaml
 ```

-### 2. 验证placeholder_keys
+### 2. 验证 placeholder_keys

 确认：
- ResourceSlot参数有 `unilabos_resources`
- DeviceSlot参数有 `unilabos_devices`
- List类型被正确识别
+
+- ResourceSlot 参数有 `unilabos_resources`
+- DeviceSlot 参数有 `unilabos_devices`
+- List 类型被正确识别

 ### 3. 测试前端效果

-1. 启动Uni-Lab
-2. 访问Web界面
+1. 启动 Uni-Lab
+2. 访问 Web 界面
 3. 选择设备
 4. 调用动作
 5. 检查是否显示正确的选择器
@@ -916,18 +927,21 @@ python -c "from unilabos.devices.my_module.my_device import MyDevice"

 ## 常见问题

-### Q1: placeholder_keys没有自动生成
+### Q1: placeholder_keys 没有自动生成

 **检查**:
+
 1. 是否使用了`--complete_registry`参数？
 2. 类型注解是否正确？
+
   ```python
   # ✓ 正确
   def method(self, resource: ResourceSlot):
-   
+
   # ✗ 错误（缺少类型注解）
   def method(self, resource):
   ```
+
 3. 是否正确导入？
   ```python
   from unilabos.registry.placeholder_type import ResourceSlot, DeviceSlot
@@ -935,9 +949,10 @@ python -c "from unilabos.devices.my_module.my_device import MyDevice"

 ### Q2: 前端显示普通输入框而不是选择器

-**原因**: placeholder_keys未正确配置
+**原因**: placeholder_keys 未正确配置

 **解决**:
+
 ```yaml
 # 检查YAML中是否有
 placeholder_keys:
@@ -947,6 +962,7 @@ placeholder_keys:
 ### Q3: 多选不工作

 **检查类型注解**:
+
 ```python
 # ✓ 正确 - 会生成多选
 def method(self, resources: List[ResourceSlot]):
@@ -960,13 +976,15 @@ def method(self, resources: ResourceSlot):
 **说明**: 运行时会自动转换

 前端传递：
+
 ```json
 {
-  "resource": "plate_1"  // 字符串ID
+  "resource": "plate_1" // 字符串ID
 }
 ```

 运行时收到：
+
 ```python
 resource.id        # "plate_1"
 resource.name      # "96孔板"
@@ -977,6 +995,7 @@ resource.type      # "resource"
 ### Q5: 设备加载不了

 **检查**:
+
 1. 确认 `class.module` 路径是否正确
 2. 确认 Python 驱动类能否正常导入
 3. 使用 yaml 验证器检查文件格式
@@ -985,6 +1004,7 @@ resource.type      # "resource"
 ### Q6: 自动生成失败

 **检查**:
+
 1. 确认类继承了正确的基类
 2. 确保状态方法的返回类型注解清晰
 3. 检查类能否被动态导入
@@ -993,6 +1013,7 @@ resource.type      # "resource"
 ### Q7: 前端显示问题

 **解决步骤**:
+
 1. 删除旧的 yaml 文件，用编辑器重新生成
 2. 清除浏览器缓存，重新加载页面
 3. 确认必需字段（如 `schema`）都存在
@@ -1001,6 +1022,7 @@ resource.type      # "resource"
 ### Q8: 动作执行出错

 **检查**:
+
 1. 确认动作方法名符合规范（如 `execute_<action_name>`）
 2. 检查 `goal` 字段的参数映射是否正确
 3. 确认方法返回值格式符合 `result` 映射
@@ -1041,7 +1063,7 @@ def transfer(self, r1: ResourceSlot, r2: ResourceSlot):
    pass
 ```

-3. **使用Optional表示可选参数**
+3. **使用 Optional 表示可选参数**

 ```python
 from typing import Optional
@@ -1063,11 +1085,11 @@ def method(
    targets: List[ResourceSlot]  # 目标容器列表
 ) -> Dict[str, Any]:
    """方法说明
-    
+
    Args:
        source: 源容器，必须包含足够的液体
        targets: 目标容器列表，每个容器应该为空
-    
+
    Returns:
        包含操作结果的字典
    """
@@ -1075,6 +1097,7 @@ def method(
 ```

 5. **方法命名规范**
+
   - 状态方法使用 `@property` 装饰器或 `get_` 前缀
   - 动作方法使用动词开头
   - 保持命名清晰、一致
@@ -1111,8 +1134,6 @@ def method(

 - {doc}`add_device` - 设备驱动编写指南
 - {doc}`04_add_device_testing` - 设备测试指南
- Python [typing模块](https://docs.python.org/3/library/typing.html)
- [YAML语法](https://yaml.org/)
+- Python [typing 模块](https://docs.python.org/3/library/typing.html)
+- [YAML 语法](https://yaml.org/)
 - [JSON Schema](https://json-schema.org/)
-
-
--- a/docs/developer_guide/examples/battery_plc_workstation.md
+++ b/docs/developer_guide/examples/battery_plc_workstation.md
@@ -1,4 +1,4 @@
-# 实例：电池装配工站接入（PLC控制）
+# 实例：电池装配工站接入（PLC 控制）

 > **文档类型**：实际应用案例  
 > **适用场景**：使用 PLC 控制的电池装配工站接入  
@@ -50,8 +50,6 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
        self.client = tcp.register_node_list(self.nodes)
 ```

-
-
 ## 2. 编写驱动与寄存器读写

 ### 2.1 寄存器示例
@@ -95,9 +93,9 @@ def start_and_read_metrics(self):

 完成工站类与驱动后，需要生成（或更新）工站注册表供系统识别。

-
 ### 3.1 新增工站设备（或资源）首次生成注册表
-首先通过以下命令启动unilab。进入unilab系统状态检查页面
+
+首先通过以下命令启动 unilab。进入 unilab 系统状态检查页面

 ```bash
 python unilabos\app\main.py -g celljson.json --ak <user的AK> --sk <user的SK>
@@ -112,35 +110,32 @@ python unilabos\app\main.py -g celljson.json --ak <user的AK> --sk <user的SK>
 ![注册表生成流程](image_battery_plc/unilab_registry_process.png)

 步骤说明：
+
 1. 选择新增的工站`coin_cell_assembly.py`文件
 2. 点击分析按钮，分析`coin_cell_assembly.py`文件
 3. 选择`coin_cell_assembly.py`文件中继承`WorkstationBase`类
-4. 填写新增的工站.py文件与`unilabos`目录的距离。例如，新增的工站文件`coin_cell_assembly.py`路径为`unilabos\devices\workstation\coin_cell_assembly\coin_cell_assembly.py`，则此处填写`unilabos.devices.workstation.coin_cell_assembly`。
+4. 填写新增的工站.py 文件与`unilabos`目录的距离。例如，新增的工站文件`coin_cell_assembly.py`路径为`unilabos\devices\workstation\coin_cell_assembly\coin_cell_assembly.py`，则此处填写`unilabos.devices.workstation.coin_cell_assembly`。
 5. 此处填写新定义工站的类的名字（名称可以自拟）
 6. 填写新的工站注册表备注信息
 7. 生成注册表

-以上操作步骤完成，则会生成的新的注册表YAML文件，如下图：
+以上操作步骤完成，则会生成的新的注册表 YAML 文件，如下图：

 ![生成的YAML文件](image_battery_plc/unilab_new_yaml.png)

-
-
-
-
-
 ### 3.2 添加新生成注册表
-在`unilabos\registry\devices`目录下新建一个yaml文件，此处新建文件命名为`coincellassemblyworkstation_device.yaml`，将上面生成的新的注册表信息粘贴到`coincellassemblyworkstation_device.yaml`文件中。   
+
+在`unilabos\registry\devices`目录下新建一个 yaml 文件，此处新建文件命名为`coincellassemblyworkstation_device.yaml`，将上面生成的新的注册表信息粘贴到`coincellassemblyworkstation_device.yaml`文件中。

 在终端输入以下命令进行注册表补全操作。
+
 ```bash
 python unilabos\app\register.py --complete_registry
 ```

-
 ### 3.3 启动并上传注册表

-新增设备之后，启动unilab需要增加`--upload_registry`参数，来上传注册表信息。
+新增设备之后，启动 unilab 需要增加`--upload_registry`参数，来上传注册表信息。

 ```bash
 python unilabos\app\main.py -g celljson.json --ak <user的AK> --sk <user的SK> --upload_registry
@@ -159,6 +154,7 @@ module: unilabos.devices.workstation.coin_cell_assembly.coin_cell_assembly:CoinC
 ### 4.2 首次接入流程

 首次新增设备（或资源）需要完整流程：
+
 1. ✅ 在网页端生成注册表信息
 2. ✅ 使用 `--complete_registry` 补全注册表
 3. ✅ 使用 `--upload_registry` 上传注册表信息
@@ -166,11 +162,12 @@ module: unilabos.devices.workstation.coin_cell_assembly.coin_cell_assembly:CoinC
 ### 4.3 驱动更新流程

 如果不是新增设备，仅修改了工站驱动的 `.py` 文件：
+
 1. ✅ 运行 `--complete_registry` 补全注册表
 2. ✅ 运行 `--upload_registry` 上传注册表
 3. ❌ 不需要在网页端重新生成注册表

-### 4.4 PLC通信注意事项
+### 4.4 PLC 通信注意事项

 - **握手机制**：若需参数下发，建议在 PLC 端设置标志寄存器并完成握手复位，避免粘连与竞争
 - **字节序**：FLOAT32 等多字节数据类型需要正确指定字节序（如 `WorderOrder.LITTLE`）
@@ -203,5 +200,3 @@ module: unilabos.devices.workstation.coin_cell_assembly.coin_cell_assembly:CoinC
 5. ✅ 新增设备与更新驱动的区别

 这个案例展示了完整的 PLC 设备接入流程，可以作为其他类似设备接入的参考模板。
-
-
--- a/docs/developer_guide/examples/workstation_architecture.md
+++ b/docs/developer_guide/examples/workstation_architecture.md
@@ -16,8 +16,8 @@

 这类工站由开发者自研，组合所有子设备和实验耗材、希望让他们在工作站这一级协调配合；

-1. 工作站包含大量已经注册的子设备，可能各自通信组态很不相同；部分设备可能会拥有同一个通信设备作为出口，如2个泵共用1个串口、所有设备共同接入PLC等。
-2. 任务系统是统一实现的 protocols，protocols 中会将高层指令处理成各子设备配合的工作流 json并管理执行、同时更改物料信息
+1. 工作站包含大量已经注册的子设备，可能各自通信组态很不相同；部分设备可能会拥有同一个通信设备作为出口，如 2 个泵共用 1 个串口、所有设备共同接入 PLC 等。
+2. 任务系统是统一实现的 protocols，protocols 中会将高层指令处理成各子设备配合的工作流 json 并管理执行、同时更改物料信息
 3. 物料系统较为简单直接，如常量有机化学仅为工作站内固定的瓶子，初始化时就已固定；随后在任务执行过程中，记录试剂量更改信息

 ### 0.2 移液工作站：物料系统和工作流模板管理
@@ -35,7 +35,7 @@
 由厂家开发，具备完善的物料系统、任务系统甚至调度系统；由 PLC 或 OpenAPI TCP 协议统一通信

 1. 在监控状态时，希望展现子设备的状态；但子设备仅为逻辑概念，通信由工作站上位机接口提供；部分情况下，子设备状态是被记录在文件中的，需要读取
-2. 工作站有自己的工作流系统甚至调度系统；可以通过脚本/PLC连续读写来配置工作站可用的工作流；
+2. 工作站有自己的工作流系统甚至调度系统；可以通过脚本/PLC 连续读写来配置工作站可用的工作流；
 3. 部分拥有完善的物料入库、出库、过程记录，需要与 Uni-Lab-OS 物料系统对接

 ## 1. 整体架构图
@@ -49,7 +49,7 @@ graph TB
        RPN[ROS2WorkstationNode<br/>Protocol执行引擎]
        WB -.post_init关联.-> RPN
    end
-    
+
    subgraph "物料管理系统"
        DECK[Deck<br/>PLR本地物料系统]
        RS[ResourceSynchronizer<br/>外部物料同步器]
@@ -57,7 +57,7 @@ graph TB
        WB --> RS
        RS --> DECK
    end
-    
+
    subgraph "通信与子设备管理"
        HW[hardware_interface<br/>硬件通信接口]
        SUBDEV[子设备集合<br/>pumps/grippers/sensors]
@@ -65,7 +65,7 @@ graph TB
        RPN --> SUBDEV
        HW -.代理模式.-> RPN
    end
-    
+
    subgraph "工作流任务系统"
        PROTO[Protocol定义<br/>LiquidHandling/PlateHandling]
        WORKFLOW[Workflow执行器<br/>步骤管理与编排]
@@ -85,32 +85,32 @@ graph LR
        HW2[通信接口<br/>hardware_interface]
        HTTP[HTTP服务<br/>WorkstationHTTPService]
    end
-    
+
    subgraph "外部物料系统"
        BIOYOND[Bioyond物料管理]
        LIMS[LIMS系统]
        WAREHOUSE[第三方仓储]
    end
-    
+
    subgraph "外部硬件系统"
        PLC[PLC设备]
        SERIAL[串口设备]
        ROBOT[机械臂/机器人]
    end
-    
+
    subgraph "云端系统"
        CLOUD[UniLab云端<br/>资源管理]
        MONITOR[监控与调度]
    end
-    
+
    BIOYOND <-->|RPC双向同步| DECK2
    LIMS -->|HTTP报送| HTTP
    WAREHOUSE <-->|API对接| DECK2
-    
+
    PLC <-->|Modbus TCP| HW2
    SERIAL <-->|串口通信| HW2
    ROBOT <-->|SDK/API| HW2
-    
+
    WS -->|ROS消息| CLOUD
    CLOUD -->|任务下发| WS
    MONITOR -->|状态查询| WS
@@ -123,40 +123,40 @@ graph TB
    subgraph "工作站基类"
        BASE[WorkstationBase<br/>抽象基类]
    end
-    
+
    subgraph "Bioyond集成工作站"
        BW[BioyondWorkstation]
        BW_DECK[Deck + Warehouses]
        BW_SYNC[BioyondResourceSynchronizer]
        BW_HW[BioyondV1RPC]
        BW_HTTP[HTTP报送服务]
-        
+
        BW --> BW_DECK
        BW --> BW_SYNC
        BW --> BW_HW
        BW --> BW_HTTP
    end
-    
+
    subgraph "纯协议节点"
        PN[ProtocolNode]
        PN_SUB[子设备集合]
        PN_PROTO[Protocol工作流]
-        
+
        PN --> PN_SUB
        PN --> PN_PROTO
    end
-    
+
    subgraph "PLC控制工作站"
        PW[PLCWorkstation]
        PW_DECK[Deck物料系统]
        PW_PLC[Modbus PLC客户端]
        PW_WF[工作流定义]
-        
+
        PW --> PW_DECK
        PW --> PW_PLC
        PW --> PW_WF
    end
-    
+
    BASE -.继承.-> BW
    BASE -.继承.-> PN
    BASE -.继承.-> PW
@@ -175,25 +175,25 @@ classDiagram
        +hardware_interface: Union[Any, str]
        +current_workflow_status: WorkflowStatus
        +supported_workflows: Dict[str, WorkflowInfo]
-    
+
        +post_init(ros_node)*
        +set_hardware_interface(interface)
        +call_device_method(method, *args, **kwargs)
        +get_device_status()
        +is_device_available()
-    
+
        +get_deck()
        +get_all_resources()
        +find_resource_by_name(name)
        +find_resources_by_type(type)
        +sync_with_external_system()
-    
+
        +execute_workflow(name, params)
        +stop_workflow(emergency)
        +workflow_status
        +is_busy
    }
-  
+
    class ROS2WorkstationNode {
        +device_id: str
        +children: Dict[str, Any]
@@ -202,7 +202,7 @@ classDiagram
        +_action_clients: Dict
        +_action_servers: Dict
        +resource_tracker: DeviceNodeResourceTracker
-    
+
        +initialize_device(device_id, config)
        +create_ros_action_server(action_name, mapping)
        +execute_single_action(device_id, action, kwargs)
@@ -210,14 +210,14 @@ classDiagram
        +transfer_resource_to_another(resources, target, sites)
        +_setup_hardware_proxy(device, comm_device, read, write)
    }
-  
+
    %% 物料管理相关类
    class Deck {
        +name: str
        +children: List
        +assign_child_resource()
    }
-  
+
    class ResourceSynchronizer {
        <<abstract>>
        +workstation: WorkstationBase
@@ -225,23 +225,23 @@ classDiagram
        +sync_to_external(plr_resource)*
        +handle_external_change(change_info)*
    }
-  
+
    class BioyondResourceSynchronizer {
        +bioyond_api_client: BioyondV1RPC
        +sync_interval: int
        +last_sync_time: float
-    
+
        +initialize()
        +sync_from_external()
        +sync_to_external(resource)
        +handle_external_change(change_info)
    }
-  
+
    %% 硬件接口相关类
    class HardwareInterface {
        <<interface>>
    }
-  
+
    class BioyondV1RPC {
        +base_url: str
        +api_key: str
@@ -249,7 +249,7 @@ classDiagram
        +add_material()
        +material_inbound()
    }
-  
+
    %% 服务类
    class WorkstationHTTPService {
        +workstation: WorkstationBase
@@ -257,7 +257,7 @@ classDiagram
        +port: int
        +server: HTTPServer
        +running: bool
-    
+
        +start()
        +stop()
        +_handle_step_finish_report()
@@ -266,13 +266,13 @@ classDiagram
        +_handle_material_change_report()
        +_handle_error_handling_report()
    }
-  
+
    %% 具体实现类
    class BioyondWorkstation {
        +bioyond_config: Dict
        +workflow_mappings: Dict
        +workflow_sequence: List
-    
+
        +post_init(ros_node)
        +transfer_resource_to_another()
        +resource_tree_add(resources)
@@ -280,25 +280,25 @@ classDiagram
        +get_all_workflows()
        +get_bioyond_status()
    }
-  
+
    class ProtocolNode {
        +post_init(ros_node)
    }
-  
+
    %% 核心关系
    WorkstationBase o-- ROS2WorkstationNode : post_init关联
    WorkstationBase o-- WorkstationHTTPService : 可选服务
-  
+
    %% 物料管理侧
    WorkstationBase *-- Deck : deck
    WorkstationBase *-- ResourceSynchronizer : 可选组合
    ResourceSynchronizer <|-- BioyondResourceSynchronizer
-  
+
    %% 硬件接口侧
    WorkstationBase o-- HardwareInterface : hardware_interface
    HardwareInterface <|.. BioyondV1RPC : 实现
    BioyondResourceSynchronizer --> BioyondV1RPC : 使用
-  
+
    %% 继承关系
    BioyondWorkstation --|> WorkstationBase
    ProtocolNode --|> WorkstationBase
@@ -316,49 +316,49 @@ sequenceDiagram
    participant HW as HardwareInterface
    participant ROS as ROS2WorkstationNode
    participant HTTP as HTTPService
-  
+
    APP->>WS: 创建工作站实例(__init__)
    WS->>DECK: 初始化PLR Deck
    DECK->>DECK: 创建Warehouse等子资源
    DECK-->>WS: Deck创建完成
-  
+
    WS->>HW: 创建硬件接口(如BioyondV1RPC)
    HW->>HW: 建立连接(PLC/RPC/串口等)
    HW-->>WS: 硬件接口就绪
-  
+
    WS->>SYNC: 创建ResourceSynchronizer(可选)
    SYNC->>HW: 使用hardware_interface
    SYNC->>SYNC: 初始化同步配置
    SYNC-->>WS: 同步器创建完成
-  
+
    WS->>SYNC: sync_from_external()
    SYNC->>HW: 查询外部物料系统
    HW-->>SYNC: 返回物料数据
    SYNC->>DECK: 转换并添加到Deck
    SYNC-->>WS: 同步完成
-  
+
    Note over WS: __init__完成,等待ROS节点
-  
+
    APP->>ROS: 初始化ROS2WorkstationNode
    ROS->>ROS: 初始化子设备(children)
    ROS->>ROS: 创建Action客户端
    ROS->>ROS: 设置硬件接口代理
    ROS-->>APP: ROS节点就绪
-  
+
    APP->>WS: post_init(ros_node)
    WS->>WS: self._ros_node = ros_node
    WS->>ROS: update_resource([deck])
    ROS->>ROS: 上传物料到云端
    ROS-->>WS: 上传完成
-  
+
    WS->>HTTP: 创建WorkstationHTTPService(可选)
    HTTP->>HTTP: 启动HTTP服务器线程
    HTTP-->>WS: HTTP服务启动
-  
+
    WS-->>APP: 工作站完全就绪
 ```

-## 4. 工作流执行时序图（Protocol模式）
+## 4. 工作流执行时序图（Protocol 模式）

 ```{mermaid}
 sequenceDiagram
@@ -369,15 +369,15 @@ sequenceDiagram
    participant DECK as PLR Deck
    participant CLOUD as 云端资源管理
    participant DEV as 子设备
-  
+
    CLIENT->>ROS: 发送Protocol Action请求
    ROS->>ROS: execute_protocol回调
    ROS->>ROS: 从Goal提取参数
    ROS->>ROS: 调用protocol_steps_generator
    ROS->>ROS: 生成action步骤列表
-  
+
    ROS->>WS: 更新workflow_status = RUNNING
-  
+
    loop 执行每个步骤
        alt 调用子设备
            ROS->>ROS: execute_single_action(device_id, action, params)
@@ -398,19 +398,19 @@ sequenceDiagram
            end
            WS-->>ROS: 返回结果
        end
-    
+
        ROS->>DECK: 更新本地物料状态
        DECK->>DECK: 修改PLR资源属性
    end
-  
+
    ROS->>CLOUD: 同步物料到云端(可选)
    CLOUD-->>ROS: 同步完成
-  
+
    ROS->>WS: 更新workflow_status = COMPLETED
    ROS-->>CLIENT: 返回Protocol Result
 ```

-## 5. HTTP报送处理时序图
+## 5. HTTP 报送处理时序图

 ```{mermaid}
 sequenceDiagram
@@ -420,25 +420,25 @@ sequenceDiagram
    participant DECK as PLR Deck
    participant SYNC as ResourceSynchronizer
    participant CLOUD as 云端
-  
+
    EXT->>HTTP: POST /report/step_finish
    HTTP->>HTTP: 解析请求数据
    HTTP->>HTTP: 验证LIMS协议字段
    HTTP->>WS: process_step_finish_report(request)
-  
+
    WS->>WS: 增加接收计数(_reports_received_count++)
    WS->>WS: 记录步骤完成事件
    WS->>DECK: 更新相关物料状态(可选)
    DECK->>DECK: 修改PLR资源状态
-  
+
    WS->>WS: 保存报送记录到内存
-  
+
    WS-->>HTTP: 返回处理结果
    HTTP->>HTTP: 构造HTTP响应
    HTTP-->>EXT: 200 OK + acknowledgment_id
-  
+
    Note over EXT,CLOUD: 类似处理sample_finish, order_finish等报送
-  
+
    alt 物料变更报送
        EXT->>HTTP: POST /report/material_change
        HTTP->>WS: process_material_change_report(data)
@@ -463,7 +463,7 @@ sequenceDiagram
    participant HW as HardwareInterface
    participant HTTP as HTTPService
    participant LOG as 日志系统
-  
+
    alt 设备错误(ROS Action失败)
        DEV->>ROS: Action返回失败结果
        ROS->>ROS: 记录错误信息
@@ -475,7 +475,7 @@ sequenceDiagram
        WS->>WS: 记录错误历史
        WS->>LOG: 记录错误日志
    end
-  
+
    alt 关键错误需要停止
        WS->>ROS: stop_workflow(emergency=True)
        ROS->>ROS: 取消所有进行中的Action
@@ -487,44 +487,44 @@ sequenceDiagram
        WS->>ROS: 触发重试逻辑(可选)
        ROS->>DEV: 重新发送Action
    end
-  
+
    WS-->>HTTP: 返回错误处理结果
    HTTP-->>DEV: 200 OK + 处理状态
 ```

 ## 7. 典型工作站实现示例

-### 7.1 Bioyond集成工作站实现
+### 7.1 Bioyond 集成工作站实现

 ```python
 class BioyondWorkstation(WorkstationBase):
    def __init__(self, bioyond_config: Dict, deck: Deck, *args, **kwargs):
        # 初始化deck
        super().__init__(deck=deck, *args, **kwargs)
-      
+
        # 设置硬件接口为Bioyond RPC客户端
        self.hardware_interface = BioyondV1RPC(bioyond_config)
-      
+
        # 创建资源同步器
        self.resource_synchronizer = BioyondResourceSynchronizer(self)
-      
+
        # 从Bioyond同步物料到本地deck
        self.resource_synchronizer.sync_from_external()
-      
+
        # 配置工作流
        self.workflow_mappings = bioyond_config.get("workflow_mappings", {})
-  
+
    def post_init(self, ros_node: ROS2WorkstationNode):
        """ROS节点就绪后的初始化"""
        self._ros_node = ros_node
-      
+
        # 上传deck(包括所有物料)到云端
        ROS2DeviceNode.run_async_func(
-            self._ros_node.update_resource, 
-            True, 
+            self._ros_node.update_resource,
+            True,
            resources=[self.deck]
        )
-  
+
    def resource_tree_add(self, resources: List[ResourcePLR]):
        """添加物料并同步到Bioyond"""
        for resource in resources:
@@ -537,24 +537,24 @@ class BioyondWorkstation(WorkstationBase):
 ```python
 class ProtocolNode(WorkstationBase):
    """纯协议节点,不需要物料管理和外部通信"""
-  
+
    def __init__(self, deck: Optional[Deck] = None, *args, **kwargs):
        super().__init__(deck=deck, *args, **kwargs)
        # 不设置hardware_interface和resource_synchronizer
        # 所有功能通过子设备协同完成
-  
+
    def post_init(self, ros_node: ROS2WorkstationNode):
        self._ros_node = ros_node
        # 不需要上传物料或其他初始化
 ```

-### 7.3 PLC直接控制工作站
+### 7.3 PLC 直接控制工作站

 ```python
 class PLCWorkstation(WorkstationBase):
    def __init__(self, plc_config: Dict, deck: Deck, *args, **kwargs):
        super().__init__(deck=deck, *args, **kwargs)
-      
+
        # 设置硬件接口为Modbus客户端
        from pymodbus.client import ModbusTcpClient
        self.hardware_interface = ModbusTcpClient(
@@ -562,7 +562,7 @@ class PLCWorkstation(WorkstationBase):
            port=plc_config["port"]
        )
        self.hardware_interface.connect()
-      
+
        # 定义支持的工作流
        self.supported_workflows = {
            "battery_assembly": WorkflowInfo(
@@ -574,49 +574,49 @@ class PLCWorkstation(WorkstationBase):
                parameters_schema={"quantity": int, "model": str}
            )
        }
-  
+
    def execute_workflow(self, workflow_name: str, parameters: Dict):
        """通过PLC执行工作流"""
        workflow_id = self._get_workflow_id(workflow_name)
-      
+
        # 写入PLC寄存器启动工作流
        self.hardware_interface.write_register(100, workflow_id)
        self.hardware_interface.write_register(101, parameters["quantity"])
-      
+
        self.current_workflow_status = WorkflowStatus.RUNNING
        return True
 ```

 ## 8. 核心接口说明

-### 8.1 WorkstationBase核心属性
+### 8.1 WorkstationBase 核心属性

-| 属性                        | 类型                    | 说明                          |
-| --------------------------- | ----------------------- | ----------------------------- |
-| `_ros_node`               | ROS2WorkstationNode     | ROS节点引用，由post_init设置  |
-| `deck`                    | Deck                    | PyLabRobot Deck，本地物料系统 |
-| `plr_resources`           | Dict[str, PLRResource]  | 物料资源映射                  |
-| `resource_synchronizer`   | ResourceSynchronizer    | 外部物料同步器(可选)          |
-| `hardware_interface`      | Union[Any, str]         | 硬件接口或代理字符串          |
-| `current_workflow_status` | WorkflowStatus          | 当前工作流状态                |
-| `supported_workflows`     | Dict[str, WorkflowInfo] | 支持的工作流定义              |
+| 属性                      | 类型                    | 说明                            |
+| ------------------------- | ----------------------- | ------------------------------- |
+| `_ros_node`               | ROS2WorkstationNode     | ROS 节点引用，由 post_init 设置 |
+| `deck`                    | Deck                    | PyLabRobot Deck，本地物料系统   |
+| `plr_resources`           | Dict[str, PLRResource]  | 物料资源映射                    |
+| `resource_synchronizer`   | ResourceSynchronizer    | 外部物料同步器(可选)            |
+| `hardware_interface`      | Union[Any, str]         | 硬件接口或代理字符串            |
+| `current_workflow_status` | WorkflowStatus          | 当前工作流状态                  |
+| `supported_workflows`     | Dict[str, WorkflowInfo] | 支持的工作流定义                |

 ### 8.2 必须实现的方法

- `post_init(ros_node)`: ROS节点就绪后的初始化，必须实现
+- `post_init(ros_node)`: ROS 节点就绪后的初始化，必须实现

 ### 8.3 硬件接口相关方法

 - `set_hardware_interface(interface)`: 设置硬件接口
 - `call_device_method(method, *args, **kwargs)`: 统一设备方法调用
-  - 支持直接模式: 直接调用hardware_interface的方法
-  - 支持代理模式: hardware_interface="proxy:device_id"通过ROS转发
+  - 支持直接模式: 直接调用 hardware_interface 的方法
+  - 支持代理模式: hardware_interface="proxy:device_id"通过 ROS 转发
 - `get_device_status()`: 获取设备状态
 - `is_device_available()`: 检查设备可用性

 ### 8.4 物料管理方法

- `get_deck()`: 获取PLR Deck
+- `get_deck()`: 获取 PLR Deck
 - `get_all_resources()`: 获取所有物料
 - `find_resource_by_name(name)`: 按名称查找物料
 - `find_resources_by_type(type)`: 按类型查找物料
@@ -630,7 +630,7 @@ class PLCWorkstation(WorkstationBase):
 - `is_busy`: 检查是否忙碌(属性)
 - `workflow_runtime`: 获取运行时间(属性)

-### 8.6 可选的HTTP报送处理方法
+### 8.6 可选的 HTTP 报送处理方法

 - `process_step_finish_report()`: 步骤完成处理
 - `process_sample_finish_report()`: 样本完成处理
@@ -638,10 +638,10 @@ class PLCWorkstation(WorkstationBase):
 - `process_material_change_report()`: 物料变更处理
 - `handle_external_error()`: 错误处理

-### 8.7 ROS2WorkstationNode核心方法
+### 8.7 ROS2WorkstationNode 核心方法

 - `initialize_device(device_id, config)`: 初始化子设备
- `create_ros_action_server(action_name, mapping)`: 创建Action服务器
+- `create_ros_action_server(action_name, mapping)`: 创建 Action 服务器
 - `execute_single_action(device_id, action, kwargs)`: 执行单个动作
 - `update_resource(resources)`: 同步物料到云端
 - `transfer_resource_to_another(...)`: 跨设备物料转移
@@ -698,7 +698,7 @@ workstation = BioyondWorkstation(
                "config": {...}
            },
            "gripper_1": {
-                "type": "device", 
+                "type": "device",
                "driver": "RobotiqGripperDriver",
                "communication": "io_modbus_1",
                "config": {...}
@@ -720,7 +720,7 @@ workstation = BioyondWorkstation(
 }
 ```

-### 9.3 HTTP服务配置
+### 9.3 HTTP 服务配置

 ```python
 from unilabos.devices.workstation.workstation_http_service import WorkstationHTTPService
@@ -741,31 +741,31 @@ http_service.start()
 ### 10.1 清晰的职责分离

 - **WorkstationBase**: 负责物料管理(deck)、硬件接口(hardware_interface)、工作流状态管理
- **ROS2WorkstationNode**: 负责子设备管理、Protocol执行、云端物料同步
- **ResourceSynchronizer**: 可选的外部物料系统同步(如Bioyond)
- **WorkstationHTTPService**: 可选的HTTP报送接收服务
+- **ROS2WorkstationNode**: 负责子设备管理、Protocol 执行、云端物料同步
+- **ResourceSynchronizer**: 可选的外部物料系统同步(如 Bioyond)
+- **WorkstationHTTPService**: 可选的 HTTP 报送接收服务

 ### 10.2 灵活的硬件接口模式

-1. **直接模式**: hardware_interface是具体对象(如BioyondV1RPC、ModbusClient)
-2. **代理模式**: hardware_interface="proxy:device_id"，通过ROS节点转发到子设备
+1. **直接模式**: hardware_interface 是具体对象(如 BioyondV1RPC、ModbusClient)
+2. **代理模式**: hardware_interface="proxy:device_id"，通过 ROS 节点转发到子设备
 3. **混合模式**: 工作站有自己的接口，同时管理多个子设备

 ### 10.3 统一的物料系统

- 基于PyLabRobot Deck的标准化物料表示
- 通过ResourceSynchronizer实现与外部系统(如Bioyond、LIMS)的双向同步
- 通过ROS2WorkstationNode实现与云端的物料状态同步
+- 基于 PyLabRobot Deck 的标准化物料表示
+- 通过 ResourceSynchronizer 实现与外部系统(如 Bioyond、LIMS)的双向同步
+- 通过 ROS2WorkstationNode 实现与云端的物料状态同步

-### 10.4 Protocol驱动的工作流
+### 10.4 Protocol 驱动的工作流

- ROS2WorkstationNode负责Protocol的执行和步骤管理
- 支持子设备协同(通过Action Client调用)
- 支持工作站直接控制(通过hardware_interface)
+- ROS2WorkstationNode 负责 Protocol 的执行和步骤管理
+- 支持子设备协同(通过 Action Client 调用)
+- 支持工作站直接控制(通过 hardware_interface)

-### 10.5 可选的HTTP报送服务
+### 10.5 可选的 HTTP 报送服务

- 基于LIMS协议规范的统一报送接口
+- 基于 LIMS 协议规范的统一报送接口
 - 支持步骤完成、样本完成、任务完成、物料变更等多种报送类型
 - 与工作站解耦，可独立启停

--- a/docs/developer_guide/http_api.md
+++ b/docs/developer_guide/http_api.md
@@ -0,0 +1,334 @@
+# HTTP API 指南
+
+本文档介绍如何通过 HTTP API 与 Uni-Lab-OS 进行交互，包括查询设备、提交任务和获取结果。
+
+## 概述
+
+Uni-Lab-OS 提供 RESTful HTTP API，允许外部系统通过标准 HTTP 请求控制实验室设备。API 基于 FastAPI 构建，默认运行在 `http://localhost:8002`。
+
+### 基础信息
+
+- **Base URL**: `http://localhost:8002/api/v1`
+- **Content-Type**: `application/json`
+- **响应格式**: JSON
+
+### 通用响应结构
+
+```json
+{
+    "code": 0,
+    "data": { ... },
+    "message": "success"
+}
+```
+
+| 字段      | 类型   | 说明               |
+| --------- | ------ | ------------------ |
+| `code`    | int    | 状态码，0 表示成功 |
+| `data`    | object | 响应数据           |
+| `message` | string | 响应消息           |
+
+## 快速开始
+
+以下是一个完整的工作流示例：查询设备 → 获取动作 → 提交任务 → 获取结果。
+
+### 步骤 1: 获取在线设备
+
+```bash
+curl -X GET "http://localhost:8002/api/v1/online-devices"
+```
+
+**响应示例**:
+
+```json
+{
+  "code": 0,
+  "data": {
+    "online_devices": {
+      "host_node": {
+        "device_key": "/host_node",
+        "namespace": "",
+        "machine_name": "本地",
+        "uuid": "xxx-xxx-xxx",
+        "node_name": "host_node"
+      }
+    },
+    "total_count": 1,
+    "timestamp": 1732612345.123
+  },
+  "message": "success"
+}
+```
+
+### 步骤 2: 获取设备可用动作
+
+```bash
+curl -X GET "http://localhost:8002/api/v1/devices/host_node/actions"
+```
+
+**响应示例**:
+
+```json
+{
+  "code": 0,
+  "data": {
+    "device_id": "host_node",
+    "actions": {
+      "test_latency": {
+        "type_name": "unilabos_msgs.action._empty_in.EmptyIn",
+        "type_name_convert": "unilabos_msgs/action/_empty_in/EmptyIn",
+        "action_path": "/devices/host_node/test_latency",
+        "goal_info": "{}",
+        "is_busy": false,
+        "current_job_id": null
+      },
+      "create_resource": {
+        "type_name": "unilabos_msgs.action._resource_create_from_outer_easy.ResourceCreateFromOuterEasy",
+        "action_path": "/devices/host_node/create_resource",
+        "goal_info": "{res_id: '', device_id: '', class_name: '', ...}",
+        "is_busy": false,
+        "current_job_id": null
+      }
+    },
+    "action_count": 5
+  },
+  "message": "success"
+}
+```
+
+**动作状态字段说明**:
+
+| 字段             | 说明                          |
+| ---------------- | ----------------------------- |
+| `type_name`      | 动作类型的完整名称            |
+| `action_path`    | ROS2 动作路径                 |
+| `goal_info`      | 动作参数模板                  |
+| `is_busy`        | 动作是否正在执行              |
+| `current_job_id` | 当前执行的任务 ID（如果繁忙） |
+
+### 步骤 3: 提交任务
+
+```bash
+curl -X POST "http://localhost:8002/api/v1/job/add" \
+  -H "Content-Type: application/json" \
+  -d '{"device_id":"host_node","action":"test_latency","action_args":{}}'
+```
+
+**请求体**:
+
+```json
+{
+  "device_id": "host_node",
+  "action": "test_latency",
+  "action_args": {}
+}
+```
+
+**请求参数说明**:
+
+| 字段          | 类型   | 必填 | 说明                               |
+| ------------- | ------ | ---- | ---------------------------------- |
+| `device_id`   | string | ✓    | 目标设备 ID                        |
+| `action`      | string | ✓    | 动作名称                           |
+| `action_args` | object | ✓    | 动作参数（根据动作类型不同而变化） |
+
+**响应示例**:
+
+```json
+{
+  "code": 0,
+  "data": {
+    "jobId": "b6acb586-733a-42ab-9f73-55c9a52aa8bd",
+    "status": 1,
+    "result": {}
+  },
+  "message": "success"
+}
+```
+
+**任务状态码**:
+
+| 状态码 | 含义      | 说明                           |
+| ------ | --------- | ------------------------------ |
+| 0      | UNKNOWN   | 未知状态                       |
+| 1      | ACCEPTED  | 任务已接受，等待执行           |
+| 2      | EXECUTING | 任务执行中                     |
+| 3      | CANCELING | 任务取消中                     |
+| 4      | SUCCEEDED | 任务成功完成                   |
+| 5      | CANCELED  | 任务已取消                     |
+| 6      | ABORTED   | 任务中止（设备繁忙或执行失败） |
+
+### 步骤 4: 查询任务状态和结果
+
+```bash
+curl -X GET "http://localhost:8002/api/v1/job/b6acb586-733a-42ab-9f73-55c9a52aa8bd/status"
+```
+
+**响应示例（执行中）**:
+
+```json
+{
+  "code": 0,
+  "data": {
+    "jobId": "b6acb586-733a-42ab-9f73-55c9a52aa8bd",
+    "status": 2,
+    "result": {}
+  },
+  "message": "success"
+}
+```
+
+**响应示例（执行完成）**:
+
+```json
+{
+  "code": 0,
+  "data": {
+    "jobId": "b6acb586-733a-42ab-9f73-55c9a52aa8bd",
+    "status": 4,
+    "result": {
+      "error": "",
+      "suc": true,
+      "return_value": {
+        "avg_rtt_ms": 103.99,
+        "avg_time_diff_ms": 7181.55,
+        "max_time_error_ms": 7210.57,
+        "task_delay_ms": -1,
+        "raw_delay_ms": 33.19,
+        "test_count": 5,
+        "status": "success"
+      }
+    }
+  },
+  "message": "success"
+}
+```
+
+> **注意**: 任务结果在首次查询后会被自动删除，请确保保存返回的结果数据。
+
+## API 端点列表
+
+### 设备相关
+
+| 端点                                                       | 方法 | 说明                   |
+| ---------------------------------------------------------- | ---- | ---------------------- |
+| `/api/v1/online-devices`                                   | GET  | 获取在线设备列表       |
+| `/api/v1/devices`                                          | GET  | 获取设备配置           |
+| `/api/v1/devices/{device_id}/actions`                      | GET  | 获取指定设备的可用动作 |
+| `/api/v1/devices/{device_id}/actions/{action_name}/schema` | GET  | 获取动作参数 Schema    |
+| `/api/v1/actions`                                          | GET  | 获取所有设备的可用动作 |
+
+### 任务相关
+
+| 端点                          | 方法 | 说明               |
+| ----------------------------- | ---- | ------------------ |
+| `/api/v1/job/add`             | POST | 提交新任务         |
+| `/api/v1/job/{job_id}/status` | GET  | 查询任务状态和结果 |
+
+### 资源相关
+
+| 端点                | 方法 | 说明         |
+| ------------------- | ---- | ------------ |
+| `/api/v1/resources` | GET  | 获取资源列表 |
+
+## 常见动作示例
+
+### test_latency - 延迟测试
+
+测试系统延迟，无需参数。
+
+```bash
+curl -X POST "http://localhost:8002/api/v1/job/add" \
+  -H "Content-Type: application/json" \
+  -d '{"device_id":"host_node","action":"test_latency","action_args":{}}'
+```
+
+### create_resource - 创建资源
+
+在设备上创建新资源。
+
+```bash
+curl -X POST "http://localhost:8002/api/v1/job/add" \
+  -H "Content-Type: application/json" \
+  -d '{
+    "device_id": "host_node",
+    "action": "create_resource",
+    "action_args": {
+        "res_id": "my_plate",
+        "device_id": "host_node",
+        "class_name": "Plate",
+        "parent": "deck",
+        "bind_locations": {"x": 0, "y": 0, "z": 0}
+    }
+}'
+```
+
+## 错误处理
+
+### 设备繁忙
+
+当设备正在执行其他任务时，提交新任务会返回 `status: 6`（ABORTED）：
+
+```json
+{
+  "code": 0,
+  "data": {
+    "jobId": "xxx",
+    "status": 6,
+    "result": {}
+  },
+  "message": "success"
+}
+```
+
+此时应等待当前任务完成后重试，或使用 `/devices/{device_id}/actions` 检查动作的 `is_busy` 状态。
+
+### 参数错误
+
+```json
+{
+    "code": 2002,
+    "data": { ... },
+    "message": "device_id is required"
+}
+```
+
+## 轮询策略
+
+推荐的任务状态轮询策略：
+
+```python
+import requests
+import time
+
+def wait_for_job(job_id, timeout=60, interval=0.5):
+    """等待任务完成并返回结果"""
+    start_time = time.time()
+
+    while time.time() - start_time < timeout:
+        response = requests.get(f"http://localhost:8002/api/v1/job/{job_id}/status")
+        data = response.json()["data"]
+
+        status = data["status"]
+        if status in (4, 5, 6):  # SUCCEEDED, CANCELED, ABORTED
+            return data
+
+        time.sleep(interval)
+
+    raise TimeoutError(f"Job {job_id} did not complete within {timeout} seconds")
+
+# 使用示例
+response = requests.post(
+    "http://localhost:8002/api/v1/job/add",
+    json={"device_id": "host_node", "action": "test_latency", "action_args": {}}
+)
+job_id = response.json()["data"]["jobId"]
+result = wait_for_job(job_id)
+print(result)
+```
+
+## 相关文档
+
+- [设备注册指南](add_device.md)
+- [动作定义指南](add_action.md)
+- [网络架构概述](networking_overview.md)
--- a/docs/developer_guide/networking_overview.md
+++ b/docs/developer_guide/networking_overview.md
@@ -592,4 +592,3 @@ ros2 topic list
 - [ROS2 网络配置](https://docs.ros.org/en/humble/Tutorials/Advanced/Networking.html)
 - [DDS 配置](https://fast-dds.docs.eprosima.com/)
 - Uni-Lab 云平台文档
-
--- a/docs/index.md
+++ b/docs/index.md
@@ -7,3 +7,17 @@ Uni-Lab-OS 是一个开源的实验室自动化操作系统，提供统一的设

 intro.md
 ```
+
+## 开发者指南
+
+```{toctree}
+:maxdepth: 2
+
+developer_guide/http_api.md
+developer_guide/networking_overview.md
+developer_guide/add_device.md
+developer_guide/add_action.md
+developer_guide/add_registry.md
+developer_guide/add_yaml.md
+developer_guide/action_includes.md
+```
--- a/docs/logo.png
+++ b/docs/logo.png
--- a/docs/user_guide/installation.md
+++ b/docs/user_guide/installation.md
@@ -317,45 +317,6 @@ unilab --help

 如果所有命令都正常输出，说明开发环境配置成功！

-### 开发工具推荐
-
-#### IDE
-
- **PyCharm Professional**: 强大的 Python IDE，支持远程调试
- **VS Code**: 轻量级，配合 Python 扩展使用
- **Vim/Emacs**: 适合终端开发
-
-#### 推荐的 VS Code 扩展
-
- Python
- Pylance
- ROS
- URDF
- YAML
-
-#### 调试工具
-
-```bash
-# 安装调试工具
-pip install ipdb pytest pytest-cov -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple
-
-# 代码质量检查
-pip install black flake8 mypy -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple
-```
-
-### 设置 pre-commit 钩子（可选）
-
-```bash
-# 安装 pre-commit
-pip install pre-commit -i https://mirrors.tuna.tsinghua.edu.cn/pypi/web/simple
-
-# 设置钩子
-pre-commit install
-
-# 手动运行检查
-pre-commit run --all-files
-```
-
 ---

 ## 验证安装
--- a/new_cellconfig.json
+++ b/new_cellconfig.json
@@ -0,0 +1,54 @@
+{
+  "nodes": [
+    {
+      "id": "BatteryStation",
+      "name": "扣电工作站",
+      "parent": null,
+      "children": [
+        "coin_cell_deck"
+      ],
+      "type": "device",
+      "class":"coincellassemblyworkstation_device",
+      "position": {
+        "x": 0,
+        "y": 0,
+        "z": 0
+      },
+      "config": {
+        "deck": {
+          "data": {
+            "_resource_child_name": "YB_YH_Deck",
+            "_resource_type": "unilabos.devices.workstation.coin_cell_assembly.YB_YH_materials:CoincellDeck"
+          }
+        },
+        "debug_mode": true,
+        "protocol_type": []
+      }
+    },
+    {
+      "id": "YB_YH_Deck",
+      "name": "YB_YH_Deck",
+      "children": [],
+      "parent": "BatteryStation",
+      "type": "deck",
+      "class": "CoincellDeck",
+      "position": {
+        "x": 0,
+        "y": 0,
+        "z": 0
+      },
+      "config": {
+        "type": "CoincellDeck",
+        "setup": true,
+        "rotation": {
+          "x": 0,
+          "y": 0,
+          "z": 0,
+          "type": "Rotation"
+        }
+      },
+      "data": {}
+    }
+  ],
+  "links": []
+}
--- a/new_cellconfig3c.json
+++ b/new_cellconfig3c.json
@@ -0,0 +1,95 @@
+{
+  "nodes": [
+    {
+      "id": "bioyond_cell_workstation",
+      "name": "配液分液工站",
+      "parent": null,
+      "children": [
+        "YB_Bioyond_Deck"
+      ],
+      "type": "device",
+      "class": "bioyond_cell",
+      "config": {
+        "deck": {
+          "data": {
+            "_resource_child_name": "YB_Bioyond_Deck",
+            "_resource_type": "unilabos.resources.bioyond.decks:BIOYOND_YB_Deck"
+          }
+        },
+        "protocol_type": []
+      },
+      "data": {}
+    },
+    {
+      "id": "YB_Bioyond_Deck",
+      "name": "YB_Bioyond_Deck",
+      "children": [],
+      "parent": "bioyond_cell_workstation",
+      "type": "deck",
+      "class": "BIOYOND_YB_Deck",
+      "position": {
+        "x": 0,
+        "y": 0,
+        "z": 0
+      },
+      "config": {
+        "type": "BIOYOND_YB_Deck",
+        "setup": true,
+        "rotation": {
+          "x": 0,
+          "y": 0,
+          "z": 0,
+          "type": "Rotation"
+        }
+      },
+      "data": {}
+    },
+    {
+      "id": "BatteryStation",
+      "name": "扣电工作站",
+      "parent": null,
+      "children": [
+        "coin_cell_deck"
+      ],
+      "type": "device",
+      "class":"coincellassemblyworkstation_device",
+      "config": {
+        "deck": {
+          "data": {
+            "_resource_child_name": "YB_YH_Deck",
+            "_resource_type": "unilabos.devices.workstation.coin_cell_assembly.YB_YH_materials:CoincellDeck"
+          }
+        },
+        "protocol_type": []
+      },
+      "position": {
+        "size": {"height": 1450, "width": 1450, "depth": 2100},
+        "position": {
+          "x": -1500,
+          "y": 0,
+          "z": 0
+        }
+      }
+    },
+    {
+      "id": "YB_YH_Deck",
+      "name": "YB_YH_Deck",
+      "children": [],
+      "parent": "BatteryStation",
+      "type": "deck",
+      "class": "CoincellDeck",
+      "config": {
+        "type": "CoincellDeck",
+        "setup": true,
+        "rotation": {
+          "x": 0,
+          "y": 0,
+          "z": 0,
+          "type": "Rotation"
+        }
+      },
+      "data": {}
+    }
+  ],
+  "links": []
+}
--- a/recipes/msgs/recipe.yaml
+++ b/recipes/msgs/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: ros-humble-unilabos-msgs
-  version: 0.10.10
+  version: 0.10.12
 source:
  path: ../../unilabos_msgs
  target_directory: src
--- a/recipes/unilabos/recipe.yaml
+++ b/recipes/unilabos/recipe.yaml
@@ -1,6 +1,6 @@
 package:
  name: unilabos
-  version: "0.10.10"
+  version: "0.10.12"

 source:
  path: ../..
--- a/scripts/workflow.py
+++ b/scripts/workflow.py
@@ -2,7 +2,6 @@ import json
 import logging
 import traceback
 import uuid
-import xml.etree.ElementTree as ET
 from typing import Any, Dict, List

 import networkx as nx
@@ -25,7 +24,15 @@ class SimpleGraph:

    def add_edge(self, source, target, **attrs):
        """添加边"""
-        edge = {"source": source, "target": target, **attrs}
+        # edge = {"source": source, "target": target, **attrs}
+        edge = {
+            "source": source, "target": target,
+            "source_node_uuid": source,
+            "target_node_uuid": target,
+            "source_handle_io": "source",
+            "target_handle_io": "target",
+            **attrs
+        }
        self.edges.append(edge)

    def to_dict(self):
@@ -42,6 +49,7 @@ class SimpleGraph:
            "multigraph": False,
            "graph": {},
            "nodes": nodes_list,
+            "edges": self.edges,
            "links": self.edges,
        }

@@ -58,495 +66,8 @@ def extract_json_from_markdown(text: str) -> str:
    return text


-def convert_to_type(val: str) -> Any:
-    """将字符串值转换为适当的数据类型"""
-    if val == "True":
-        return True
-    if val == "False":
-        return False
-    if val == "?":
-        return None
-    if val.endswith(" g"):
-        return float(val.split(" ")[0])
-    if val.endswith("mg"):
-        return float(val.split("mg")[0])
-    elif val.endswith("mmol"):
-        return float(val.split("mmol")[0]) / 1000
-    elif val.endswith("mol"):
-        return float(val.split("mol")[0])
-    elif val.endswith("ml"):
-        return float(val.split("ml")[0])
-    elif val.endswith("RPM"):
-        return float(val.split("RPM")[0])
-    elif val.endswith(" °C"):
-        return float(val.split(" ")[0])
-    elif val.endswith(" %"):
-        return float(val.split(" ")[0])
-    return val


-def refactor_data(data: List[Dict[str, Any]]) -> List[Dict[str, Any]]:
-    """统一的数据重构函数，根据操作类型自动选择模板"""
-    refactored_data = []
-
-    # 定义操作映射，包含生物实验和有机化学的所有操作
-    OPERATION_MAPPING = {
-        # 生物实验操作
-        "transfer_liquid": "SynBioFactory-liquid_handler.prcxi-transfer_liquid",
-        "transfer": "SynBioFactory-liquid_handler.biomek-transfer",
-        "incubation": "SynBioFactory-liquid_handler.biomek-incubation",
-        "move_labware": "SynBioFactory-liquid_handler.biomek-move_labware",
-        "oscillation": "SynBioFactory-liquid_handler.biomek-oscillation",
-        # 有机化学操作
-        "HeatChillToTemp": "SynBioFactory-workstation-HeatChillProtocol",
-        "StopHeatChill": "SynBioFactory-workstation-HeatChillStopProtocol",
-        "StartHeatChill": "SynBioFactory-workstation-HeatChillStartProtocol",
-        "HeatChill": "SynBioFactory-workstation-HeatChillProtocol",
-        "Dissolve": "SynBioFactory-workstation-DissolveProtocol",
-        "Transfer": "SynBioFactory-workstation-TransferProtocol",
-        "Evaporate": "SynBioFactory-workstation-EvaporateProtocol",
-        "Recrystallize": "SynBioFactory-workstation-RecrystallizeProtocol",
-        "Filter": "SynBioFactory-workstation-FilterProtocol",
-        "Dry": "SynBioFactory-workstation-DryProtocol",
-        "Add": "SynBioFactory-workstation-AddProtocol",
-    }
-
-    UNSUPPORTED_OPERATIONS = ["Purge", "Wait", "Stir", "ResetHandling"]
-
-    for step in data:
-        operation = step.get("action")
-        if not operation or operation in UNSUPPORTED_OPERATIONS:
-            continue
-
-        # 处理重复操作
-        if operation == "Repeat":
-            times = step.get("times", step.get("parameters", {}).get("times", 1))
-            sub_steps = step.get("steps", step.get("parameters", {}).get("steps", []))
-            for i in range(int(times)):
-                sub_data = refactor_data(sub_steps)
-                refactored_data.extend(sub_data)
-            continue
-
-        # 获取模板名称
-        template = OPERATION_MAPPING.get(operation)
-        if not template:
-            # 自动推断模板类型
-            if operation.lower() in ["transfer", "incubation", "move_labware", "oscillation"]:
-                template = f"SynBioFactory-liquid_handler.biomek-{operation}"
-            else:
-                template = f"SynBioFactory-workstation-{operation}Protocol"
-
-        # 创建步骤数据
-        step_data = {
-            "template": template,
-            "description": step.get("description", step.get("purpose", f"{operation} operation")),
-            "lab_node_type": "Device",
-            "parameters": step.get("parameters", step.get("action_args", {})),
-        }
-        refactored_data.append(step_data)
-
-    return refactored_data
-
-
-def build_protocol_graph(
-    labware_info: List[Dict[str, Any]], protocol_steps: List[Dict[str, Any]], workstation_name: str
-) -> SimpleGraph:
-    """统一的协议图构建函数，根据设备类型自动选择构建逻辑"""
-    G = SimpleGraph()
-    resource_last_writer = {}
-    LAB_NAME = "SynBioFactory"
-
-    protocol_steps = refactor_data(protocol_steps)
-
-    # 检查协议步骤中的模板来判断协议类型
-    has_biomek_template = any(
-        ("biomek" in step.get("template", "")) or ("prcxi" in step.get("template", ""))
-        for step in protocol_steps
-    )
-
-    if has_biomek_template:
-        # 生物实验协议图构建
-        for labware_id, labware in labware_info.items():
-            node_id = str(uuid.uuid4())
-
-            labware_attrs = labware.copy()
-            labware_id = labware_attrs.pop("id", labware_attrs.get("name", f"labware_{uuid.uuid4()}"))
-            labware_attrs["description"] = labware_id
-            labware_attrs["lab_node_type"] = (
-                "Reagent" if "Plate" in str(labware_id) else "Labware" if "Rack" in str(labware_id) else "Sample"
-            )
-            labware_attrs["device_id"] = workstation_name
-
-            G.add_node(node_id, template=f"{LAB_NAME}-host_node-create_resource", **labware_attrs)
-            resource_last_writer[labware_id] = f"{node_id}:labware"
-
-        # 处理协议步骤
-        prev_node = None
-        for i, step in enumerate(protocol_steps):
-            node_id = str(uuid.uuid4())
-            G.add_node(node_id, **step)
-
-            # 添加控制流边
-            if prev_node is not None:
-                G.add_edge(prev_node, node_id, source_port="ready", target_port="ready")
-            prev_node = node_id
-
-            # 处理物料流
-            params = step.get("parameters", {})
-            if "sources" in params and params["sources"] in resource_last_writer:
-                source_node, source_port = resource_last_writer[params["sources"]].split(":")
-                G.add_edge(source_node, node_id, source_port=source_port, target_port="labware")
-
-            if "targets" in params:
-                resource_last_writer[params["targets"]] = f"{node_id}:labware"
-
-        # 添加协议结束节点
-        end_id = str(uuid.uuid4())
-        G.add_node(end_id, template=f"{LAB_NAME}-liquid_handler.biomek-run_protocol")
-        if prev_node is not None:
-            G.add_edge(prev_node, end_id, source_port="ready", target_port="ready")
-
-    else:
-        # 有机化学协议图构建
-        WORKSTATION_ID = workstation_name
-
-        # 为所有labware创建资源节点
-        for item_id, item in labware_info.items():
-            # item_id = item.get("id") or item.get("name", f"item_{uuid.uuid4()}")
-            node_id = str(uuid.uuid4())
-
-            # 判断节点类型
-            if item.get("type") == "hardware" or "reactor" in str(item_id).lower():
-                if "reactor" not in str(item_id).lower():
-                    continue
-                lab_node_type = "Sample"
-                description = f"Prepare Reactor: {item_id}"
-                liquid_type = []
-                liquid_volume = []
-            else:
-                lab_node_type = "Reagent"
-                description = f"Add Reagent to Flask: {item_id}"
-                liquid_type = [item_id]
-                liquid_volume = [1e5]
-
-            G.add_node(
-                node_id,
-                template=f"{LAB_NAME}-host_node-create_resource",
-                description=description,
-                lab_node_type=lab_node_type,
-                res_id=item_id,
-                device_id=WORKSTATION_ID,
-                class_name="container",
-                parent=WORKSTATION_ID,
-                bind_locations={"x": 0.0, "y": 0.0, "z": 0.0},
-                liquid_input_slot=[-1],
-                liquid_type=liquid_type,
-                liquid_volume=liquid_volume,
-                slot_on_deck="",
-                role=item.get("role", ""),
-            )
-            resource_last_writer[item_id] = f"{node_id}:labware"
-
-        last_control_node_id = None
-
-        # 处理协议步骤
-        for step in protocol_steps:
-            node_id = str(uuid.uuid4())
-            G.add_node(node_id, **step)
-
-            # 控制流
-            if last_control_node_id is not None:
-                G.add_edge(last_control_node_id, node_id, source_port="ready", target_port="ready")
-            last_control_node_id = node_id
-
-            # 物料流
-            params = step.get("parameters", {})
-            input_resources = {
-                "Vessel": params.get("vessel"),
-                "ToVessel": params.get("to_vessel"),
-                "FromVessel": params.get("from_vessel"),
-                "reagent": params.get("reagent"),
-                "solvent": params.get("solvent"),
-                "compound": params.get("compound"),
-                "sources": params.get("sources"),
-                "targets": params.get("targets"),
-            }
-
-            for target_port, resource_name in input_resources.items():
-                if resource_name and resource_name in resource_last_writer:
-                    source_node, source_port = resource_last_writer[resource_name].split(":")
-                    G.add_edge(source_node, node_id, source_port=source_port, target_port=target_port)
-
-            output_resources = {
-                "VesselOut": params.get("vessel"),
-                "FromVesselOut": params.get("from_vessel"),
-                "ToVesselOut": params.get("to_vessel"),
-                "FiltrateOut": params.get("filtrate_vessel"),
-                "reagent": params.get("reagent"),
-                "solvent": params.get("solvent"),
-                "compound": params.get("compound"),
-                "sources_out": params.get("sources"),
-                "targets_out": params.get("targets"),
-            }
-
-            for source_port, resource_name in output_resources.items():
-                if resource_name:
-                    resource_last_writer[resource_name] = f"{node_id}:{source_port}"
-
-    return G
-
-
-def draw_protocol_graph(protocol_graph: SimpleGraph, output_path: str):
-    """
-    (辅助功能) 使用 networkx 和 matplotlib 绘制协议工作流图，用于可视化。
-    """
-    if not protocol_graph:
-        print("Cannot draw graph: Graph object is empty.")
-        return
-
-    G = nx.DiGraph()
-
-    for node_id, attrs in protocol_graph.nodes.items():
-        label = attrs.get("description", attrs.get("template", node_id[:8]))
-        G.add_node(node_id, label=label, **attrs)
-
-    for edge in protocol_graph.edges:
-        G.add_edge(edge["source"], edge["target"])
-
-    plt.figure(figsize=(20, 15))
-    try:
-        pos = nx.nx_agraph.graphviz_layout(G, prog="dot")
-    except Exception:
-        pos = nx.shell_layout(G)  # Fallback layout
-
-    node_labels = {node: data["label"] for node, data in G.nodes(data=True)}
-    nx.draw(
-        G,
-        pos,
-        with_labels=False,
-        node_size=2500,
-        node_color="skyblue",
-        node_shape="o",
-        edge_color="gray",
-        width=1.5,
-        arrowsize=15,
-    )
-    nx.draw_networkx_labels(G, pos, labels=node_labels, font_size=8, font_weight="bold")
-
-    plt.title("Chemical Protocol Workflow Graph", size=15)
-    plt.savefig(output_path, dpi=300, bbox_inches="tight")
-    plt.close()
-    print(f"  - Visualization saved to '{output_path}'")
-
-
-from networkx.drawing.nx_agraph import to_agraph
-import re
-
-COMPASS = {"n","e","s","w","ne","nw","se","sw","c"}
-
-def _is_compass(port: str) -> bool:
-    return isinstance(port, str) and port.lower() in COMPASS
-
-def draw_protocol_graph_with_ports(protocol_graph, output_path: str, rankdir: str = "LR"):
-    """
-    使用 Graphviz 端口语法绘制协议工作流图。
-    - 若边上的 source_port/target_port 是 compass（n/e/s/w/...），直接用 compass。
-    - 否则自动为节点创建 record 形状并定义命名端口 <portname>。
-    最终由 PyGraphviz 渲染并输出到 output_path（后缀决定格式，如 .png/.svg/.pdf）。
-    """
-    if not protocol_graph:
-        print("Cannot draw graph: Graph object is empty.")
-        return
-
-    # 1) 先用 networkx 搭建有向图，保留端口属性
-    G = nx.DiGraph()
-    for node_id, attrs in protocol_graph.nodes.items():
-        label = attrs.get("description", attrs.get("template", node_id[:8]))
-        # 保留一个干净的“中心标签”，用于放在 record 的中间槽
-        G.add_node(node_id, _core_label=str(label), **{k:v for k,v in attrs.items() if k not in ("label",)})
-
-    edges_data = []
-    in_ports_by_node  = {}  # 收集命名输入端口
-    out_ports_by_node = {}  # 收集命名输出端口
-
-    for edge in protocol_graph.edges:
-        u = edge["source"]
-        v = edge["target"]
-        sp = edge.get("source_port")
-        tp = edge.get("target_port")
-
-        # 记录到图里（保留原始端口信息）
-        G.add_edge(u, v, source_port=sp, target_port=tp)
-        edges_data.append((u, v, sp, tp))
-
-        # 如果不是 compass，就按“命名端口”先归类，等会儿给节点造 record
-        if sp and not _is_compass(sp):
-            out_ports_by_node.setdefault(u, set()).add(str(sp))
-        if tp and not _is_compass(tp):
-            in_ports_by_node.setdefault(v, set()).add(str(tp))
-
-    # 2) 转为 AGraph，使用 Graphviz 渲染
-    A = to_agraph(G)
-    A.graph_attr.update(rankdir=rankdir, splines="true", concentrate="false", fontsize="10")
-    A.node_attr.update(shape="box", style="rounded,filled", fillcolor="lightyellow", color="#999999", fontname="Helvetica")
-    A.edge_attr.update(arrowsize="0.8", color="#666666")
-
-    # 3) 为需要命名端口的节点设置 record 形状与 label
-    #    左列 = 输入端口；中间 = 核心标签；右列 = 输出端口
-    for n in A.nodes():
-        node = A.get_node(n)
-        core = G.nodes[n].get("_core_label", n)
-
-        in_ports  = sorted(in_ports_by_node.get(n, []))
-        out_ports = sorted(out_ports_by_node.get(n, []))
-
-        # 如果该节点涉及命名端口，则用 record；否则保留原 box
-        if in_ports or out_ports:
-            def port_fields(ports):
-                if not ports:
-                    return " "  # 必须留一个空槽占位
-                # 每个端口一个小格子，<p> name
-                return "|".join(f"<{re.sub(r'[^A-Za-z0-9_:.|-]', '_', p)}> {p}" for p in ports)
-
-            left  = port_fields(in_ports)
-            right = port_fields(out_ports)
-
-            # 三栏：左(入) | 中(节点名) | 右(出)
-            record_label = f"{{ {left} | {core} | {right} }}"
-            node.attr.update(shape="record", label=record_label)
-        else:
-            # 没有命名端口：普通盒子，显示核心标签
-            node.attr.update(label=str(core))
-
-    # 4) 给边设置 headport / tailport
-    #    - 若端口为 compass：直接用 compass（e.g., headport="e"）
-    #    - 若端口为命名端口：使用在 record 中定义的 <port> 名（同名即可）
-    for (u, v, sp, tp) in edges_data:
-        e = A.get_edge(u, v)
-
-        # Graphviz 属性：tail 是源，head 是目标
-        if sp:
-            if _is_compass(sp):
-                e.attr["tailport"] = sp.lower()
-            else:
-                # 与 record label 中 <port> 名一致；特殊字符已在 label 中做了清洗
-                e.attr["tailport"] = re.sub(r'[^A-Za-z0-9_:.|-]', '_', str(sp))
-
-        if tp:
-            if _is_compass(tp):
-                e.attr["headport"] = tp.lower()
-            else:
-                e.attr["headport"] = re.sub(r'[^A-Za-z0-9_:.|-]', '_', str(tp))
-
-        # 可选：若想让边更贴边缘，可设置 constraint/spline 等
-        # e.attr["arrowhead"] = "vee"
-
-    # 5) 输出
-    A.draw(output_path, prog="dot")
-    print(f"  - Port-aware workflow rendered to '{output_path}'")
-
-
-def flatten_xdl_procedure(procedure_elem: ET.Element) -> List[ET.Element]:
-    """展平嵌套的XDL程序结构"""
-    flattened_operations = []
-    TEMP_UNSUPPORTED_PROTOCOL = ["Purge", "Wait", "Stir", "ResetHandling"]
-
-    def extract_operations(element: ET.Element):
-        if element.tag not in ["Prep", "Reaction", "Workup", "Purification", "Procedure"]:
-            if element.tag not in TEMP_UNSUPPORTED_PROTOCOL:
-                flattened_operations.append(element)
-
-        for child in element:
-            extract_operations(child)
-
-    for child in procedure_elem:
-        extract_operations(child)
-
-    return flattened_operations
-
-
-def parse_xdl_content(xdl_content: str) -> tuple:
-    """解析XDL内容"""
-    try:
-        xdl_content_cleaned = "".join(c for c in xdl_content if c.isprintable())
-        root = ET.fromstring(xdl_content_cleaned)
-
-        synthesis_elem = root.find("Synthesis")
-        if synthesis_elem is None:
-            return None, None, None
-
-        # 解析硬件组件
-        hardware_elem = synthesis_elem.find("Hardware")
-        hardware = []
-        if hardware_elem is not None:
-            hardware = [{"id": c.get("id"), "type": c.get("type")} for c in hardware_elem.findall("Component")]
-
-        # 解析试剂
-        reagents_elem = synthesis_elem.find("Reagents")
-        reagents = []
-        if reagents_elem is not None:
-            reagents = [{"name": r.get("name"), "role": r.get("role", "")} for r in reagents_elem.findall("Reagent")]
-
-        # 解析程序
-        procedure_elem = synthesis_elem.find("Procedure")
-        if procedure_elem is None:
-            return None, None, None
-
-        flattened_operations = flatten_xdl_procedure(procedure_elem)
-        return hardware, reagents, flattened_operations
-
-    except ET.ParseError as e:
-        raise ValueError(f"Invalid XDL format: {e}")
-
-
-def convert_xdl_to_dict(xdl_content: str) -> Dict[str, Any]:
-    """
-    将XDL XML格式转换为标准的字典格式
-
-    Args:
-        xdl_content: XDL XML内容
-
-    Returns:
-        转换结果，包含步骤和器材信息
-    """
-    try:
-        hardware, reagents, flattened_operations = parse_xdl_content(xdl_content)
-        if hardware is None:
-            return {"error": "Failed to parse XDL content", "success": False}
-
-        # 将XDL元素转换为字典格式
-        steps_data = []
-        for elem in flattened_operations:
-            # 转换参数类型
-            parameters = {}
-            for key, val in elem.attrib.items():
-                converted_val = convert_to_type(val)
-                if converted_val is not None:
-                    parameters[key] = converted_val
-
-            step_dict = {
-                "operation": elem.tag,
-                "parameters": parameters,
-                "description": elem.get("purpose", f"Operation: {elem.tag}"),
-            }
-            steps_data.append(step_dict)
-
-        # 合并硬件和试剂为统一的labware_info格式
-        labware_data = []
-        labware_data.extend({"id": hw["id"], "type": "hardware", **hw} for hw in hardware)
-        labware_data.extend({"name": reagent["name"], "type": "reagent", **reagent} for reagent in reagents)
-
-        return {
-            "success": True,
-            "steps": steps_data,
-            "labware": labware_data,
-            "message": f"Successfully converted XDL to dict format. Found {len(steps_data)} steps and {len(labware_data)} labware items.",
-        }
-
-    except Exception as e:
-        error_msg = f"XDL conversion failed: {str(e)}"
-        logger.error(error_msg)
-        return {"error": error_msg, "success": False}


 def create_workflow(
--- a/setup.py
+++ b/setup.py
@@ -4,7 +4,7 @@ package_name = 'unilabos'

 setup(
    name=package_name,
-    version='0.10.10',
+    version='0.10.12',
    packages=find_packages(),
    include_package_data=True,
    install_requires=['setuptools'],
--- a/test/experiments/reaction_station_bioyond.json
+++ b/test/experiments/reaction_station_bioyond.json
@@ -0,0 +1,72 @@
+{
+    "nodes": [
+        {
+            "id": "reaction_station_bioyond",
+            "name": "reaction_station_bioyond",
+            "parent": null,
+            "children": [
+                "Bioyond_Deck"
+            ],
+            "type": "device",
+            "class": "reaction_station.bioyond",
+            "config": {
+                "config": {
+                    "api_key": "DE9BDDA0",
+                    "api_host": "http://192.168.1.200:44402",
+                    "workflow_mappings": {
+                        "reactor_taken_out": "3a16081e-4788-ca37-eff4-ceed8d7019d1",
+                        "reactor_taken_in": "3a160df6-76b3-0957-9eb0-cb496d5721c6",
+                        "Solid_feeding_vials": "3a160877-87e7-7699-7bc6-ec72b05eb5e6",
+                        "Liquid_feeding_vials(non-titration)": "3a167d99-6158-c6f0-15b5-eb030f7d8e47",
+                        "Liquid_feeding_solvents": "3a160824-0665-01ed-285a-51ef817a9046",
+                        "Liquid_feeding(titration)": "3a16082a-96ac-0449-446a-4ed39f3365b6",
+                        "liquid_feeding_beaker": "3a16087e-124f-8ddb-8ec1-c2dff09ca784",
+                        "Drip_back": "3a162cf9-6aac-565a-ddd7-682ba1796a4a"
+                    },
+                    "material_type_mappings": {
+                        "烧杯": ["YB_1FlaskCarrier", "3a14196b-24f2-ca49-9081-0cab8021bf1a"],
+                        "试剂瓶": ["YB_1BottleCarrier", ""],
+                        "样品板": ["YB_6StockCarrier", "3a14196e-b7a0-a5da-1931-35f3000281e9"],
+                        "分装板": ["YB_6VialCarrier", "3a14196e-5dfe-6e21-0c79-fe2036d052c4"],
+                        "样品瓶": ["YB_Solid_Stock", "3a14196a-cf7d-8aea-48d8-b9662c7dba94"],
+                        "90%分装小瓶": ["YB_Solid_Vial", "3a14196c-cdcf-088d-dc7d-5cf38f0ad9ea"],
+                        "10%分装小瓶": ["YB_Liquid_Vial", "3a14196c-76be-2279-4e22-7310d69aed68"]
+                    }
+                },
+                "deck": {
+                    "data": {
+                        "_resource_child_name": "Bioyond_Deck",
+                        "_resource_type": "unilabos.resources.bioyond.decks:BIOYOND_PolymerReactionStation_Deck"
+                    }
+                },
+                "protocol_type": []
+            },
+            "data": {}
+        },
+        {
+            "id": "Bioyond_Deck",
+            "name": "Bioyond_Deck",
+            "children": [
+            ],
+            "parent": "reaction_station_bioyond",
+            "type": "deck",
+            "class": "BIOYOND_PolymerReactionStation_Deck",
+            "position": {
+                "x": 0,
+                "y": 0,
+                "z": 0
+            },
+            "config": {
+                "type": "BIOYOND_PolymerReactionStation_Deck",
+                "setup": true,
+                "rotation": {
+                    "x": 0,
+                    "y": 0,
+                    "z": 0,
+                    "type": "Rotation"
+                }
+            },
+            "data": {}
+        }
+    ]
+}
--- a/test/resources/YB_materials_info.json
+++ b/test/resources/YB_materials_info.json
@@ -0,0 +1,52 @@
+[
+    {
+        "id": "3a1d377b-299d-d0f2-ced9-48257f60dfad",
+        "typeName": "加样头(大)",
+        "code": "0005-00145",
+        "barCode": "",
+        "name": "LiDFOB",
+        "quantity": 9999.0,
+        "lockQuantity": 0.0,
+        "unit": "个",
+        "status": 1,
+        "isUse": false,
+        "locations": [
+            {
+                "id": "3a19da56-1379-ff7c-1745-07e200b44ce2",
+                "whid": "3a19da56-1378-613b-29f2-871e1a287aa5",
+                "whName": "粉末加样头堆栈",
+                "code": "0005-0001",
+                "x": 1,
+                "y": 1,
+                "z": 1,
+                "quantity": 0
+            }
+        ],
+        "detail": []
+    },
+    {
+        "id": "3a1d377b-6a81-6a7e-147c-f89f6463656d",
+        "typeName": "液",
+        "code": "0006-00141",
+        "barCode": "",
+        "name": "EMC",
+        "quantity": 99999.0,
+        "lockQuantity": 0.0,
+        "unit": "g",
+        "status": 1,
+        "isUse": false,
+        "locations": [
+            {
+                "id": "3a1baa20-a7b1-c665-8b9c-d8099d07d2f6",
+                "whid": "3a1baa20-a7b0-5c19-8844-5de8924d4e78",
+                "whName": "4号手套箱内部堆栈",
+                "code": "0015-0001",
+                "x": 1,
+                "y": 1,
+                "z": 1,
+                "quantity": 0
+            }
+        ],
+        "detail": []
+    }
+]
--- a/unilabos/test/resources/init.py
+++ b/unilabos/test/resources/init.py
--- a/unilabos/test/resources/bioyond_materials_liquidhandling_1.json
+++ b/unilabos/test/resources/bioyond_materials_liquidhandling_1.json
--- a/unilabos/test/resources/bioyond_materials_liquidhandling_2.json
+++ b/unilabos/test/resources/bioyond_materials_liquidhandling_2.json
--- a/unilabos/test/resources/bioyond_materials_reaction.json
+++ b/unilabos/test/resources/bioyond_materials_reaction.json
--- a/test/resources/test
+++ b/test/resources/test
@@ -0,0 +1,99 @@
+ {
+        "typeId": "3a190c8b-3284-af78-d29f-9a69463ad047",
+        "code": "",
+        "barCode": "",
+        "name": "test",
+        "unit": "",
+        "parameters": "{}",
+        "quantity": "",
+        "details": [
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)11",
+                "quantity": "1",
+                "x": 1,
+                "y": 1,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)21",
+                "quantity": "1",
+                "x": 2,
+                "y": 1,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)12",
+                "quantity": "1",
+                "x": 1,
+                "y": 2,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)22",
+                "quantity": "1",
+                "x": 2,
+                "y": 2,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)13",
+                "quantity": "1",
+                "x": 1,
+                "y": 3,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)23",
+                "quantity": "1",
+                "x": 2,
+                "y": 3,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)14",
+                "quantity": "1",
+                "x": 1,
+                "y": 4,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            },
+            {
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb",
+                "code": "",
+                "name": "配液瓶(小)24",
+                "quantity": "1",
+                "x": 2,
+                "y": 4,
+                "z": 1,
+                "unit": "",
+                "parameters": "{}"
+            }
+        ]
+    }
--- a/test/resources/test.json
+++ b/test/resources/test.json
@@ -0,0 +1,148 @@
+[
+    {
+        "id": "3a1d4c14-a9fb-d7dc-9e96-7a3ad6e50219",
+        "typeName": "配液瓶(小)板",
+        "code": "0001-00093",
+        "barCode": "",
+        "name": "test",
+        "quantity": 2.0,
+        "lockQuantity": 0.0,
+        "unit": "块",
+        "status": 1,
+        "isUse": false,
+        "locations": [
+            {
+                "id": "3a19deae-2c7a-36f5-5e41-02c5b66feaea",
+                "whid": "3a19deae-2c79-05a3-9c76-8e6760424841",
+                "whName": "手动堆栈",
+                "code": "1",
+                "x": 1,
+                "y": 1,
+                "z": 1,
+                "quantity": 0
+            }
+        ],
+        "detail": [
+            {
+                "id": "3a1d4c14-a9fc-1daa-71fa-146cb1ccb930",
+                "detailMaterialId": "3a1d4c14-a9fc-4f38-4c48-68486c391c42",
+                "code": "0001-00093 - 05",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 1,
+                "y": 3,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-3659-ea61-cd587da9e131",
+                "detailMaterialId": "3a1d4c14-a9fc-018f-93e5-c49343d37758",
+                "code": "0001-00093 - 08",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 2,
+                "y": 4,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-3f94-de83-979d2646e313",
+                "detailMaterialId": "3a1d4c14-a9fc-9987-c0ef-4b7cbad49e6b",
+                "code": "0001-00093 - 01",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 1,
+                "y": 1,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-8c35-6b25-913b11dbaf4e",
+                "detailMaterialId": "3a1d4c14-a9fc-9a83-865b-0c26ea5e8cc4",
+                "code": "0001-00093 - 03",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 1,
+                "y": 2,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-b41f-e968-64953bfddccd",
+                "detailMaterialId": "3a1d4c14-a9fc-daf7-9d64-e5ec8d3ae0e2",
+                "code": "0001-00093 - 07",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 1,
+                "y": 4,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-c20f-c26e-b1bb2cdc3bca",
+                "detailMaterialId": "3a1d4c14-a9fc-673b-ac83-aaaf71287f1f",
+                "code": "0001-00093 - 06",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 2,
+                "y": 3,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-cf21-059c-fde361d82b6f",
+                "detailMaterialId": "3a1d4c14-a9fc-25b1-e736-6b0d8dac0fae",
+                "code": "0001-00093 - 02",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 2,
+                "y": 1,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            },
+            {
+                "id": "3a1d4c14-a9fc-d732-2b93-9b2bd2bf581b",
+                "detailMaterialId": "3a1d4c14-a9fc-7f5d-b6b6-8bcb2e15f320",
+                "code": "0001-00093 - 04",
+                "name": "配液瓶(小)",
+                "quantity": "1",
+                "lockQuantity": "0",
+                "unit": "个",
+                "x": 2,
+                "y": 2,
+                "z": 1,
+                "associateId": null,
+                "typeName": "配液瓶(小)",
+                "typeId": "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"
+            }
+        ]
+    }
+]
--- a/unilabos/test/resources/test_bottle_carrier.py
+++ b/unilabos/test/resources/test_bottle_carrier.py
@@ -1,7 +1,7 @@
 import pytest

 from unilabos.resources.bioyond.bottle_carriers import BIOYOND_Electrolyte_6VialCarrier, BIOYOND_Electrolyte_1BottleCarrier
-from unilabos.resources.bioyond.bottles import BIOYOND_PolymerStation_Solid_Vial, BIOYOND_PolymerStation_Solution_Beaker, BIOYOND_PolymerStation_Reagent_Bottle
+from unilabos.resources.bioyond.bottles import YB_Solid_Vial, YB_Solution_Beaker, YB_Reagent_Bottle


 def test_bottle_carrier() -> "BottleCarrier":
@@ -16,9 +16,9 @@ def test_bottle_carrier() -> "BottleCarrier":
    print(f"1烧杯载架: {beaker_carrier.name}, 位置数: {len(beaker_carrier.sites)}")

    # 创建瓶子和烧杯
-    powder_bottle = BIOYOND_PolymerStation_Solid_Vial("powder_bottle_01")
-    solution_beaker = BIOYOND_PolymerStation_Solution_Beaker("solution_beaker_01")
-    reagent_bottle = BIOYOND_PolymerStation_Reagent_Bottle("reagent_bottle_01")
+    powder_bottle = YB_Solid_Vial("powder_bottle_01")
+    solution_beaker = YB_Solution_Beaker("solution_beaker_01")
+    reagent_bottle = YB_Reagent_Bottle("reagent_bottle_01")

    print(f"\n创建的物料:")
    print(f"粉末瓶: {powder_bottle.name} - {powder_bottle.diameter}mm x {powder_bottle.height}mm, {powder_bottle.max_volume}μL")
--- a/unilabos/test/resources/test_converter_bioyond.py
+++ b/unilabos/test/resources/test_converter_bioyond.py
@@ -12,13 +12,13 @@ lab_registry.setup()


 type_mapping = {
-    "烧杯": ("BIOYOND_PolymerStation_1FlaskCarrier", "3a14196b-24f2-ca49-9081-0cab8021bf1a"),
-    "试剂瓶": ("BIOYOND_PolymerStation_1BottleCarrier", ""),
-    "样品板": ("BIOYOND_PolymerStation_6StockCarrier", "3a14196e-b7a0-a5da-1931-35f3000281e9"),
-    "分装板": ("BIOYOND_PolymerStation_6VialCarrier", "3a14196e-5dfe-6e21-0c79-fe2036d052c4"),
-    "样品瓶": ("BIOYOND_PolymerStation_Solid_Stock", "3a14196a-cf7d-8aea-48d8-b9662c7dba94"),
-    "90%分装小瓶": ("BIOYOND_PolymerStation_Solid_Vial", "3a14196c-cdcf-088d-dc7d-5cf38f0ad9ea"),
-    "10%分装小瓶": ("BIOYOND_PolymerStation_Liquid_Vial", "3a14196c-76be-2279-4e22-7310d69aed68"),
+    "烧杯": ("YB_1FlaskCarrier", "3a14196b-24f2-ca49-9081-0cab8021bf1a"),
+    "试剂瓶": ("YB_1BottleCarrier", ""),
+    "样品板": ("YB_6StockCarrier", "3a14196e-b7a0-a5da-1931-35f3000281e9"),
+    "分装板": ("YB_6VialCarrier", "3a14196e-5dfe-6e21-0c79-fe2036d052c4"),
+    "样品瓶": ("YB_Solid_Stock", "3a14196a-cf7d-8aea-48d8-b9662c7dba94"),
+    "90%分装小瓶": ("YB_Solid_Vial", "3a14196c-cdcf-088d-dc7d-5cf38f0ad9ea"),
+    "10%分装小瓶": ("YB_Liquid_Vial", "3a14196c-76be-2279-4e22-7310d69aed68"),
 }


--- a/unilabos/test/resources/test_itemized_carrier.py
+++ b/unilabos/test/resources/test_itemized_carrier.py
--- a/unilabos/test/resources/test_resourcetreeset.py
+++ b/unilabos/test/resources/test_resourcetreeset.py
@@ -1,3 +1,4 @@
+from ast import If
 import pytest
 import json
 import os
@@ -8,18 +9,16 @@ from unilabos.ros.nodes.resource_tracker import ResourceTreeSet
 from unilabos.registry.registry import lab_registry

 from unilabos.resources.bioyond.decks import BIOYOND_PolymerReactionStation_Deck
+from unilabos.resources.bioyond.decks import YB_Deck

 lab_registry.setup()


 type_mapping = {
-    "烧杯": ("BIOYOND_PolymerStation_1FlaskCarrier", "3a14196b-24f2-ca49-9081-0cab8021bf1a"),
-    "试剂瓶": ("BIOYOND_PolymerStation_1BottleCarrier", ""),
-    "样品板": ("BIOYOND_PolymerStation_6StockCarrier", "3a14196e-b7a0-a5da-1931-35f3000281e9"),
-    "分装板": ("BIOYOND_PolymerStation_6VialCarrier", "3a14196e-5dfe-6e21-0c79-fe2036d052c4"),
-    "样品瓶": ("BIOYOND_PolymerStation_Solid_Stock", "3a14196a-cf7d-8aea-48d8-b9662c7dba94"),
-    "90%分装小瓶": ("BIOYOND_PolymerStation_Solid_Vial", "3a14196c-cdcf-088d-dc7d-5cf38f0ad9ea"),
-    "10%分装小瓶": ("BIOYOND_PolymerStation_Liquid_Vial", "3a14196c-76be-2279-4e22-7310d69aed68"),
+    "加样头(大)": ("YB_jia_yang_tou_da", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    "液": ("YB_1BottleCarrier", "3a190ca1-2add-2b23-f8e1-bbd348b7f790"),
+    "配液瓶(小)板": ("YB_peiyepingxiaoban", "3a190c8b-3284-af78-d29f-9a69463ad047"),
+    "配液瓶(小)": ("YB_pei_ye_xiao_Bottler", "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"),
 }


@@ -57,12 +56,20 @@ def bioyond_materials_liquidhandling_2() -> list[dict]:
    "bioyond_materials_reaction",
    "bioyond_materials_liquidhandling_1",
 ])
-def test_resourcetreeset_from_plr(materials_fixture, request) -> list[dict]:
-    materials = request.getfixturevalue(materials_fixture)
-    deck = BIOYOND_PolymerReactionStation_Deck("test_deck")
+def test_resourcetreeset_from_plr() -> list[dict]:
+    # 直接加载 bioyond_materials_reaction.json 文件
+    current_dir = os.path.dirname(os.path.abspath(__file__))
+    json_path = os.path.join(current_dir, "test.json")
+    with open(json_path, "r", encoding="utf-8") as f:
+        materials = json.load(f)
+    deck = YB_Deck("test_deck")
    output = resource_bioyond_to_plr(materials, type_mapping=type_mapping, deck=deck)
-    print(deck.summary())
+    print(output)
+    # print(deck.summary())

    r = ResourceTreeSet.from_plr_resources([deck])
    print(r.dump())
    # json.dump(deck.serialize(), open("test.json", "w", encoding="utf-8"), indent=4)
+
+if __name__ == "__main__":
+    test_resourcetreeset_from_plr()
--- a/unilabos/test/ros/init.py
+++ b/unilabos/test/ros/init.py
--- a/unilabos/test/ros/msgs/init.py
+++ b/unilabos/test/ros/msgs/init.py
--- a/unilabos/test/ros/msgs/test_basic.py
+++ b/unilabos/test/ros/msgs/test_basic.py
--- a/unilabos/test/ros/msgs/test_conversion.py
+++ b/unilabos/test/ros/msgs/test_conversion.py
--- a/unilabos/test/ros/msgs/test_mapping.py
+++ b/unilabos/test/ros/msgs/test_mapping.py
--- a/unilabos/test/ros/msgs/test_runner.py
+++ b/unilabos/test/ros/msgs/test_runner.py
--- a/unilabos/test/workflow/init.py
+++ b/unilabos/test/workflow/init.py
--- a/unilabos/test/workflow/example_bio.json
+++ b/unilabos/test/workflow/example_bio.json
--- a/unilabos/test/workflow/example_bio_graph.png
+++ b/unilabos/test/workflow/example_bio_graph.png
--- a/unilabos/test/workflow/example_prcxi.json
+++ b/unilabos/test/workflow/example_prcxi.json
--- a/unilabos/test/workflow/example_prcxi_graph.png
+++ b/unilabos/test/workflow/example_prcxi_graph.png
--- a/unilabos/test/workflow/example_prcxi_graph_20251022_1359.png
+++ b/unilabos/test/workflow/example_prcxi_graph_20251022_1359.png
--- a/test/workflow/merge_workflow.py
+++ b/test/workflow/merge_workflow.py
@@ -0,0 +1,35 @@
+import sys
+from datetime import datetime
+from pathlib import Path
+
+ROOT_DIR = Path(__file__).resolve().parents[2]
+if str(ROOT_DIR) not in sys.path:
+    sys.path.insert(0, str(ROOT_DIR))
+
+import pytest
+
+from unilabos.workflow.convert_from_json import (
+    convert_from_json,
+    normalize_steps as _normalize_steps,
+    normalize_labware as _normalize_labware,
+)
+from unilabos.workflow.common import draw_protocol_graph_with_ports
+
+
+@pytest.mark.parametrize(
+    "protocol_name",
+    [
+        "example_bio",
+        # "bioyond_materials_liquidhandling_1",
+        "example_prcxi",
+    ],
+)
+def test_build_protocol_graph(protocol_name):
+    data_path = Path(__file__).with_name(f"{protocol_name}.json")
+
+    graph = convert_from_json(data_path, workstation_name="PRCXi")
+
+    timestamp = datetime.now().strftime("%Y%m%d_%H%M")
+    output_path = data_path.with_name(f"{protocol_name}_graph_{timestamp}.png")
+    draw_protocol_graph_with_ports(graph, str(output_path))
+    print(graph)
--- a/unilabos/init.py
+++ b/unilabos/init.py
@@ -1 +1 @@
-__version__ = "0.10.10"
+__version__ = "0.10.12"
--- a/unilabos/app/communication.py
+++ b/unilabos/app/communication.py
@@ -141,7 +141,7 @@ class CommunicationClientFactory:
        """
        if cls._client_cache is None:
            cls._client_cache = cls.create_client(protocol)
-            logger.info(f"[CommunicationFactory] Created {type(cls._client_cache).__name__} client")
+            logger.trace(f"[CommunicationFactory] Created {type(cls._client_cache).__name__} client")

        return cls._client_cache

--- a/unilabos/app/main.py
+++ b/unilabos/app/main.py
@@ -20,6 +20,7 @@ if unilabos_dir not in sys.path:
 from unilabos.utils.banner_print import print_status, print_unilab_banner
 from unilabos.config.config import load_config, BasicConfig, HTTPConfig

+
 def load_config_from_file(config_path):
    if config_path is None:
        config_path = os.environ.get("UNILABOS_BASICCONFIG_CONFIG_PATH", None)
@@ -41,7 +42,7 @@ def convert_argv_dashes_to_underscores(args: argparse.ArgumentParser):
    for i, arg in enumerate(sys.argv):
        for option_string in option_strings:
            if arg.startswith(option_string):
-                new_arg = arg[:2] + arg[2:len(option_string)].replace("-", "_") + arg[len(option_string):]
+                new_arg = arg[:2] + arg[2 : len(option_string)].replace("-", "_") + arg[len(option_string) :]
                sys.argv[i] = new_arg
                break

@@ -49,6 +50,8 @@ def convert_argv_dashes_to_underscores(args: argparse.ArgumentParser):
 def parse_args():
    """解析命令行参数"""
    parser = argparse.ArgumentParser(description="Start Uni-Lab Edge server.")
+    subparsers = parser.add_subparsers(title="Valid subcommands", dest="command")
+
    parser.add_argument("-g", "--graph", help="Physical setup graph file path.")
    parser.add_argument("-c", "--controllers", default=None, help="Controllers config file path.")
    parser.add_argument(
@@ -105,7 +108,7 @@ def parse_args():
    parser.add_argument(
        "--port",
        type=int,
-        default=8002,
+        default=None,
        help="Port for web service information page",
    )
    parser.add_argument(
@@ -153,21 +156,54 @@ def parse_args():
        default=False,
        help="Complete registry information",
    )
+    # workflow upload subcommand
+    workflow_parser = subparsers.add_parser(
+        "workflow_upload",
+        aliases=["wf"],
+        help="Upload workflow from xdl/json/python files",
+    )
+    workflow_parser.add_argument(
+        "-f",
+        "--workflow_file",
+        type=str,
+        required=True,
+        help="Path to the workflow file (JSON format)",
+    )
+    workflow_parser.add_argument(
+        "-n",
+        "--workflow_name",
+        type=str,
+        default=None,
+        help="Workflow name, if not provided will use the name from file or filename",
+    )
+    workflow_parser.add_argument(
+        "--tags",
+        type=str,
+        nargs="*",
+        default=[],
+        help="Tags for the workflow (space-separated)",
+    )
+    workflow_parser.add_argument(
+        "--published",
+        action="store_true",
+        default=False,
+        help="Whether to publish the workflow (default: False)",
+    )
    return parser


 def main():
    """主函数"""
    # 解析命令行参数
-    args = parse_args()
-    convert_argv_dashes_to_underscores(args)
-    args_dict = vars(args.parse_args())
+    parser = parse_args()
+    convert_argv_dashes_to_underscores(parser)
+    args = parser.parse_args()
+    args_dict = vars(args)

    # 环境检查 - 检查并自动安装必需的包 (可选)
    if not args_dict.get("skip_env_check", False):
        from unilabos.utils.environment_check import check_environment

-        print_status("正在进行环境依赖检查...", "info")
        if not check_environment(auto_install=True):
            print_status("环境检查失败，程序退出", "error")
            os._exit(1)
@@ -218,19 +254,20 @@ def main():

    if hasattr(BasicConfig, "log_level"):
        logger.info(f"Log level set to '{BasicConfig.log_level}' from config file.")
-        configure_logger(loglevel=BasicConfig.log_level)
+    configure_logger(loglevel=BasicConfig.log_level, working_dir=working_dir)

-    if args_dict["addr"] == "test":
-        print_status("使用测试环境地址", "info")
-        HTTPConfig.remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
-    elif args_dict["addr"] == "uat":
-        print_status("使用uat环境地址", "info")
-        HTTPConfig.remote_addr = "https://uni-lab.uat.bohrium.com/api/v1"
-    elif args_dict["addr"] == "local":
-        print_status("使用本地环境地址", "info")
-        HTTPConfig.remote_addr = "http://127.0.0.1:48197/api/v1"
-    else:
-        HTTPConfig.remote_addr = args_dict.get("addr", "")
+    if args.addr != parser.get_default("addr"):
+        if args.addr == "test":
+            print_status("使用测试环境地址", "info")
+            HTTPConfig.remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
+        elif args.addr == "uat":
+            print_status("使用uat环境地址", "info")
+            HTTPConfig.remote_addr = "https://uni-lab.uat.bohrium.com/api/v1"
+        elif args.addr == "local":
+            print_status("使用本地环境地址", "info")
+            HTTPConfig.remote_addr = "http://127.0.0.1:48197/api/v1"
+        else:
+            HTTPConfig.remote_addr = args.addr

    # 设置BasicConfig参数
    if args_dict.get("ak", ""):
@@ -239,9 +276,12 @@ def main():
    if args_dict.get("sk", ""):
        BasicConfig.sk = args_dict.get("sk", "")
        print_status("传入了sk参数，优先采用传入参数！", "info")
+    BasicConfig.working_dir = working_dir
+
+    workflow_upload = args_dict.get("command") in ("workflow_upload", "wf")

    # 使用远程资源启动
-    if args_dict["use_remote_resource"]:
+    if not workflow_upload and args_dict["use_remote_resource"]:
        print_status("使用远程资源启动", "info")
        from unilabos.app.web import http_client

@@ -252,7 +292,8 @@ def main():
        else:
            print_status("远程资源不存在，本地将进行首次上报！", "info")

-    BasicConfig.working_dir = working_dir
+    BasicConfig.port = args_dict["port"] if args_dict["port"] else BasicConfig.port
+    BasicConfig.disable_browser = args_dict["disable_browser"] or BasicConfig.disable_browser
    BasicConfig.is_host_mode = not args_dict.get("is_slave", False)
    BasicConfig.slave_no_host = args_dict.get("slave_no_host", False)
    BasicConfig.upload_registry = args_dict.get("upload_registry", False)
@@ -281,9 +322,31 @@ def main():

    # 注册表
    lab_registry = build_registry(
-        args_dict["registry_path"], args_dict.get("complete_registry", False), args_dict["upload_registry"]
+        args_dict["registry_path"], args_dict.get("complete_registry", False), BasicConfig.upload_registry
    )

+    if BasicConfig.upload_registry:
+        # 设备注册到服务端 - 需要 ak 和 sk
+        if BasicConfig.ak and BasicConfig.sk:
+            print_status("开始注册设备到服务端...", "info")
+            try:
+                register_devices_and_resources(lab_registry)
+                print_status("设备注册完成", "info")
+            except Exception as e:
+                print_status(f"设备注册失败: {e}", "error")
+        else:
+            print_status("未提供 ak 和 sk，跳过设备注册", "info")
+    else:
+        print_status("本次启动注册表不报送云端，如果您需要联网调试，请在启动命令增加--upload_registry", "warning")
+
+    # 处理 workflow_upload 子命令
+    if workflow_upload:
+        from unilabos.workflow.wf_utils import handle_workflow_upload_command
+
+        handle_workflow_upload_command(args_dict)
+        print_status("工作流上传完成，程序退出", "info")
+        os._exit(0)
+
    if not BasicConfig.ak or not BasicConfig.sk:
        print_status("后续运行必须拥有一个实验室，请前往 https://uni-lab.bohrium.com 注册实验室！", "warning")
        os._exit(1)
@@ -291,7 +354,9 @@ def main():
    resource_tree_set: ResourceTreeSet
    resource_links: List[Dict[str, Any]]
    request_startup_json = http_client.request_startup_json()
-    if args_dict["graph"] is None:
+
+    file_path = args_dict.get("graph", BasicConfig.startup_json_path)
+    if file_path is None:
        if not request_startup_json:
            print_status(
                "未指定设备加载文件路径，尝试从HTTP获取失败，请检查网络或者使用-g参数指定设备加载文件路径", "error"
@@ -301,7 +366,6 @@ def main():
            print_status("联网获取设备加载文件成功", "info")
        graph, resource_tree_set, resource_links = read_node_link_json(request_startup_json)
    else:
-        file_path = args_dict["graph"]
        if not os.path.isfile(file_path):
            temp_file_path = os.path.abspath(str(os.path.join(__file__, "..", "..", file_path)))
            if os.path.isfile(temp_file_path):
@@ -359,20 +423,6 @@ def main():
    args_dict["devices_config"] = resource_tree_set
    args_dict["graph"] = graph_res.physical_setup_graph

-    if BasicConfig.upload_registry:
-        # 设备注册到服务端 - 需要 ak 和 sk
-        if BasicConfig.ak and BasicConfig.sk:
-            print_status("开始注册设备到服务端...", "info")
-            try:
-                register_devices_and_resources(lab_registry)
-                print_status("设备注册完成", "info")
-            except Exception as e:
-                print_status(f"设备注册失败: {e}", "error")
-        else:
-            print_status("未提供 ak 和 sk，跳过设备注册", "info")
-    else:
-        print_status("本次启动注册表不报送云端，如果您需要联网调试，请在启动命令增加--upload_registry", "warning")
-
    if args_dict["controllers"] is not None:
        args_dict["controllers_config"] = yaml.safe_load(open(args_dict["controllers"], encoding="utf-8"))
    else:
@@ -387,6 +437,7 @@ def main():
        comm_client = get_communication_client()
        if "websocket" in args_dict["app_bridges"]:
            args_dict["bridges"].append(comm_client)
+
            def _exit(signum, frame):
                comm_client.stop()
                sys.exit(0)
@@ -418,8 +469,8 @@ def main():
            server_thread = threading.Thread(
                target=start_server,
                kwargs=dict(
-                    open_browser=not args_dict["disable_browser"],
-                    port=args_dict["port"],
+                    open_browser=not BasicConfig.disable_browser,
+                    port=BasicConfig.port,
                ),
            )
            server_thread.start()
@@ -428,16 +479,13 @@ def main():
                resource_visualization.start()
            except OSError as e:
                if "AMENT_PREFIX_PATH" in str(e):
-                    print_status(
-                        f"ROS 2环境未正确设置，跳过3D可视化启动。错误详情: {e}",
-                        "warning"
-                    )
+                    print_status(f"ROS 2环境未正确设置，跳过3D可视化启动。错误详情: {e}", "warning")
                    print_status(
                        "建议解决方案：\n"
                        "1. 激活Conda环境: conda activate unilab\n"
                        "2. 或使用 --backend simple 参数\n"
                        "3. 或使用 --visual disable 参数禁用可视化",
-                        "info"
+                        "info",
                    )
                else:
                    raise
@@ -447,13 +495,13 @@ def main():
            start_backend(**args_dict)
            start_server(
                open_browser=not args_dict["disable_browser"],
-                port=args_dict["port"],
+                port=BasicConfig.port,
            )
    else:
        start_backend(**args_dict)
        start_server(
            open_browser=not args_dict["disable_browser"],
-            port=args_dict["port"],
+            port=BasicConfig.port,
        )


--- a/unilabos/app/model.py
+++ b/unilabos/app/model.py
@@ -51,21 +51,25 @@ class Resp(BaseModel):
 class JobAddReq(BaseModel):
    device_id: str = Field(examples=["Gripper"], description="device id")
    action: str = Field(examples=["_execute_driver_command_async"], description="action name", default="")
-    action_type: str = Field(examples=["unilabos_msgs.action._str_single_input.StrSingleInput"], description="action name", default="")
-    action_args: dict = Field(examples=[{'string': 'string'}], description="action name", default="")
-    task_id: str = Field(examples=["task_id"], description="task uuid")
-    job_id: str = Field(examples=["job_id"], description="goal uuid")
-    node_id: str = Field(examples=["node_id"], description="node uuid")
-    server_info: dict = Field(examples=[{"send_timestamp": 1717000000.0}], description="server info")
+    action_type: str = Field(
+        examples=["unilabos_msgs.action._str_single_input.StrSingleInput"], description="action type", default=""
+    )
+    action_args: dict = Field(examples=[{"string": "string"}], description="action arguments", default_factory=dict)
+    task_id: str = Field(examples=["task_id"], description="task uuid (auto-generated if empty)", default="")
+    job_id: str = Field(examples=["job_id"], description="goal uuid (auto-generated if empty)", default="")
+    node_id: str = Field(examples=["node_id"], description="node uuid", default="")
+    server_info: dict = Field(
+        examples=[{"send_timestamp": 1717000000.0}],
+        description="server info (auto-generated if empty)",
+        default_factory=dict,
+    )

-    data: dict = Field(examples=[{"position": 30, "torque": 5, "action": "push_to"}], default={})
+    data: dict = Field(examples=[{"position": 30, "torque": 5, "action": "push_to"}], default_factory=dict)


 class JobStepFinishReq(BaseModel):
    token: str = Field(examples=["030944"], description="token")
-    request_time: str = Field(
-        examples=["2024-12-12 12:12:12.xxx"], description="requestTime"
-    )
+    request_time: str = Field(examples=["2024-12-12 12:12:12.xxx"], description="requestTime")
    data: dict = Field(
        examples=[
            {
@@ -83,9 +87,7 @@ class JobStepFinishReq(BaseModel):

 class JobPreintakeFinishReq(BaseModel):
    token: str = Field(examples=["030944"], description="token")
-    request_time: str = Field(
-        examples=["2024-12-12 12:12:12.xxx"], description="requestTime"
-    )
+    request_time: str = Field(examples=["2024-12-12 12:12:12.xxx"], description="requestTime")
    data: dict = Field(
        examples=[
            {
@@ -102,9 +104,7 @@ class JobPreintakeFinishReq(BaseModel):

 class JobFinishReq(BaseModel):
    token: str = Field(examples=["030944"], description="token")
-    request_time: str = Field(
-        examples=["2024-12-12 12:12:12.xxx"], description="requestTime"
-    )
+    request_time: str = Field(examples=["2024-12-12 12:12:12.xxx"], description="requestTime")
    data: dict = Field(
        examples=[
            {
@@ -133,6 +133,10 @@ class JobData(BaseModel):
        default=0,
        description="0:UNKNOWN, 1:ACCEPTED, 2:EXECUTING, 3:CANCELING, 4:SUCCEEDED, 5:CANCELED, 6:ABORTED",
    )
+    result: dict = Field(
+        default_factory=dict,
+        description="Job result data (available when status is SUCCEEDED/CANCELED/ABORTED)",
+    )


 class JobStatusResp(Resp):
--- a/unilabos/app/oss_upload.py
+++ b/unilabos/app/oss_upload.py
@@ -1,161 +1,158 @@
 import argparse
 import os
 import time
-from typing import Dict, Optional, Tuple
+from datetime import datetime
+from pathlib import Path
+from typing import Dict, Optional, Tuple, Union

 import requests

-from unilabos.config.config import OSSUploadConfig
+from unilabos.app.web.client import http_client, HTTPClient
+from unilabos.utils import logger


-def _init_upload(file_path: str, oss_path: str, filename: Optional[str] = None,
-                process_key: str = "file-upload", device_id: str = "default",
-                expires_hours: int = 1) -> Tuple[bool, Dict]:
+def _get_oss_token(
+    filename: str,
+    driver_name: str = "default",
+    exp_type: str = "default",
+    client: Optional[HTTPClient] = None,
+) -> Tuple[bool, Dict]:
    """
-    初始化上传过程
+    获取OSS上传Token

    Args:
-        file_path: 本地文件路径
-        oss_path: OSS目标路径
-        filename: 文件名，如果为None则使用file_path的文件名
-        process_key: 处理键
-        device_id: 设备ID
-        expires_hours: 链接过期小时数
+        filename: 文件名
+        driver_name: 驱动名称
+        exp_type: 实验类型
+        client: HTTPClient实例，如果不提供则使用默认的http_client

    Returns:
-        (成功标志, 响应数据)
+        (成功标志, Token数据字典包含token/path/host/expires)
    """
-    if filename is None:
-        filename = os.path.basename(file_path)
+    # 使用提供的client或默认的http_client
+    if client is None:
+        client = http_client

-    # 构造初始化请求
-    url = f"{OSSUploadConfig.api_host}{OSSUploadConfig.init_endpoint}"
-    headers = {
-        "Authorization": OSSUploadConfig.authorization,
-        "Content-Type": "application/json"
-    }
+    # 构造scene参数: driver_name-exp_type
+    sub_path = f"{driver_name}-{exp_type}"

-    payload = {
-        "device_id": device_id,
-        "process_key": process_key,
-        "filename": filename,
-        "path": oss_path,
-        "expires_hours": expires_hours
-    }
+    # 构造请求URL，使用client的remote_addr（已包含/api/v1/）
+    url = f"{client.remote_addr}/applications/token"
+    params = {"sub_path": sub_path, "filename": filename, "scene": "job"}

    try:
-        response = requests.post(url, headers=headers, json=payload)
-        if response.status_code == 201:
-            result = response.json()
-            if result.get("code") == "10000":
-                return True, result.get("data", {})
+        logger.info(f"[OSS] 请求预签名URL: sub_path={sub_path}, filename={filename}")
+        response = requests.get(url, params=params, headers={"Authorization": f"Lab {client.auth}"}, timeout=10)

-        print(f"初始化上传失败: {response.status_code}, {response.text}")
+        if response.status_code == 200:
+            result = response.json()
+            if result.get("code") == 0:
+                data = result.get("data", {})
+
+                # 转换expires时间戳为可读格式
+                expires_timestamp = data.get("expires", 0)
+                expires_datetime = datetime.fromtimestamp(expires_timestamp)
+                expires_str = expires_datetime.strftime("%Y-%m-%d %H:%M:%S")
+
+                logger.info(f"[OSS] 获取预签名URL成功")
+                logger.info(f"[OSS]   - URL: {data.get('url', 'N/A')}")
+                logger.info(f"[OSS]   - Expires: {expires_str} (timestamp: {expires_timestamp})")
+
+                return True, data
+
+        logger.error(f"[OSS] 获取预签名URL失败: {response.status_code}, {response.text}")
        return False, {}
    except Exception as e:
-        print(f"初始化上传异常: {str(e)}")
+        logger.error(f"[OSS] 获取预签名URL异常: {str(e)}")
        return False, {}


 def _put_upload(file_path: str, upload_url: str) -> bool:
    """
-    执行PUT上传
+    使用预签名URL上传文件到OSS

    Args:
        file_path: 本地文件路径
-        upload_url: 上传URL
+        upload_url: 完整的预签名上传URL

    Returns:
        是否成功
    """
    try:
+        logger.info(f"[OSS] 开始上传文件: {file_path}")
+
        with open(file_path, "rb") as f:
-            response = requests.put(upload_url, data=f)
+            # 使用预签名URL上传，不需要额外的认证header
+            response = requests.put(upload_url, data=f, timeout=300)
+
            if response.status_code == 200:
+                logger.info(f"[OSS] 文件上传成功")
                return True

-        print(f"PUT上传失败: {response.status_code}, {response.text}")
+        logger.error(f"[OSS] 上传失败: {response.status_code}")
+        logger.error(f"[OSS] 响应内容: {response.text[:500] if response.text else '无响应内容'}")
        return False
    except Exception as e:
-        print(f"PUT上传异常: {str(e)}")
+        logger.error(f"[OSS] 上传异常: {str(e)}")
        return False


-def _complete_upload(uuid: str) -> bool:
-    """
-    完成上传过程
-
-    Args:
-        uuid: 上传的UUID
-
-    Returns:
-        是否成功
-    """
-    url = f"{OSSUploadConfig.api_host}{OSSUploadConfig.complete_endpoint}"
-    headers = {
-        "Authorization": OSSUploadConfig.authorization,
-        "Content-Type": "application/json"
-    }
-
-    payload = {
-        "uuid": uuid
-    }
-
-    try:
-        response = requests.post(url, headers=headers, json=payload)
-        if response.status_code == 200:
-            result = response.json()
-            if result.get("code") == "10000":
-                return True
-
-        print(f"完成上传失败: {response.status_code}, {response.text}")
-        return False
-    except Exception as e:
-        print(f"完成上传异常: {str(e)}")
-        return False
-
-
-def oss_upload(file_path: str, oss_path: str, filename: Optional[str] = None,
-              process_key: str = "file-upload", device_id: str = "default") -> bool:
+def oss_upload(
+    file_path: Union[str, Path],
+    filename: Optional[str] = None,
+    driver_name: str = "default",
+    exp_type: str = "default",
+    max_retries: int = 3,
+    client: Optional[HTTPClient] = None,
+) -> Dict:
    """
    文件上传主函数，包含重试机制

    Args:
        file_path: 本地文件路径
-        oss_path: OSS目标路径
        filename: 文件名，如果为None则使用file_path的文件名
-        process_key: 处理键
-        device_id: 设备ID
+        driver_name: 驱动名称，用于构造scene
+        exp_type: 实验类型，用于构造scene
+        max_retries: 最大重试次数
+        client: HTTPClient实例，如果不提供则使用默认的http_client

    Returns:
-        是否成功上传
+        Dict: {
+            "success": bool,  # 是否上传成功
+            "original_path": str,  # 原始文件路径
+            "oss_path": str  # OSS路径（成功时）或空字符串（失败时）
+        }
    """
-    max_retries = OSSUploadConfig.max_retries
+    file_path = Path(file_path)
+    if filename is None:
+        filename = os.path.basename(file_path)
+
+    if not os.path.exists(file_path):
+        logger.error(f"[OSS] 文件不存在: {file_path}")
+        return {"success": False, "original_path": file_path, "oss_path": ""}
+
    retry_count = 0
+    oss_path = ""

    while retry_count < max_retries:
        try:
-            # 步骤1：初始化上传
-            init_success, init_data = _init_upload(
-                file_path=file_path,
-                oss_path=oss_path,
-                filename=filename,
-                process_key=process_key,
-                device_id=device_id
+            # 步骤1：获取预签名URL
+            token_success, token_data = _get_oss_token(
+                filename=filename, driver_name=driver_name, exp_type=exp_type, client=client
            )

-            if not init_success:
-                print(f"初始化上传失败，重试 {retry_count + 1}/{max_retries}")
+            if not token_success:
+                logger.warning(f"[OSS] 获取预签名URL失败，重试 {retry_count + 1}/{max_retries}")
                retry_count += 1
-                time.sleep(1)  # 等待1秒后重试
+                time.sleep(1)
                continue

-            # 获取UUID和上传URL
-            uuid = init_data.get("uuid")
-            upload_url = init_data.get("upload_url")
+            # 获取预签名URL和OSS路径
+            upload_url = token_data.get("url")
+            oss_path = token_data.get("path", "")

-            if not uuid or not upload_url:
-                print(f"初始化上传返回数据不完整，重试 {retry_count + 1}/{max_retries}")
+            if not upload_url:
+                logger.warning(f"[OSS] 无法获取上传URL，API未返回url字段")
                retry_count += 1
                time.sleep(1)
                continue
@@ -163,69 +160,82 @@ def oss_upload(file_path: str, oss_path: str, filename: Optional[str] = None,
            # 步骤2：PUT上传文件
            put_success = _put_upload(file_path, upload_url)
            if not put_success:
-                print(f"PUT上传失败，重试 {retry_count + 1}/{max_retries}")
-                retry_count += 1
-                time.sleep(1)
-                continue
-
-            # 步骤3：完成上传
-            complete_success = _complete_upload(uuid)
-            if not complete_success:
-                print(f"完成上传失败，重试 {retry_count + 1}/{max_retries}")
+                logger.warning(f"[OSS] PUT上传失败，重试 {retry_count + 1}/{max_retries}")
                retry_count += 1
                time.sleep(1)
                continue

            # 所有步骤都成功
-            print(f"文件 {file_path} 上传成功")
-            return True
+            logger.info(f"[OSS] 文件 {file_path} 上传成功")
+            return {"success": True, "original_path": file_path, "oss_path": oss_path}

        except Exception as e:
-            print(f"上传过程异常: {str(e)}，重试 {retry_count + 1}/{max_retries}")
+            logger.error(f"[OSS] 上传过程异常: {str(e)}，重试 {retry_count + 1}/{max_retries}")
            retry_count += 1
            time.sleep(1)

-    print(f"文件 {file_path} 上传失败，已达到最大重试次数 {max_retries}")
-    return False
+    logger.error(f"[OSS] 文件 {file_path} 上传失败，已达到最大重试次数 {max_retries}")
+    return {"success": False, "original_path": file_path, "oss_path": oss_path}


 if __name__ == "__main__":
-    # python -m unilabos.app.oss_upload -f /path/to/your/file.txt
+    # python -m unilabos.app.oss_upload -f /path/to/your/file.txt --driver HPLC --type test
+    # python -m unilabos.app.oss_upload -f /path/to/your/file.txt --driver HPLC --type test \
+    #        --ak xxx --sk yyy --remote-addr http://xxx/api/v1
    # 命令行参数解析
-    parser = argparse.ArgumentParser(description='文件上传测试工具')
-    parser.add_argument('--file', '-f', type=str, required=True, help='要上传的本地文件路径')
-    parser.add_argument('--path', '-p', type=str, default='/HPLC1/Any', help='OSS目标路径')
-    parser.add_argument('--device', '-d', type=str, default='test-device', help='设备ID')
-    parser.add_argument('--process', '-k', type=str, default='HPLC-txt-result', help='处理键')
+    parser = argparse.ArgumentParser(description="文件上传测试工具")
+    parser.add_argument("--file", "-f", type=str, required=True, help="要上传的本地文件路径")
+    parser.add_argument("--driver", "-d", type=str, default="default", help="驱动名称")
+    parser.add_argument("--type", "-t", type=str, default="default", help="实验类型")
+    parser.add_argument("--ak", type=str, help="Access Key，如果提供则覆盖配置")
+    parser.add_argument("--sk", type=str, help="Secret Key，如果提供则覆盖配置")
+    parser.add_argument("--remote-addr", type=str, help="远程服务器地址（包含/api/v1），如果提供则覆盖配置")

    args = parser.parse_args()

    # 检查文件是否存在
    if not os.path.exists(args.file):
-        print(f"错误：文件 {args.file} 不存在")
+        logger.error(f"错误：文件 {args.file} 不存在")
        exit(1)

-    print("=" * 50)
-    print(f"开始上传文件: {args.file}")
-    print(f"目标路径: {args.path}")
-    print(f"设备ID: {args.device}")
-    print(f"处理键: {args.process}")
-    print("=" * 50)
+    # 如果提供了ak/sk/remote_addr，创建临时HTTPClient
+    temp_client = None
+    if args.ak and args.sk:
+        import base64
+
+        auth = base64.b64encode(f"{args.ak}:{args.sk}".encode("utf-8")).decode("utf-8")
+        remote_addr = args.remote_addr if args.remote_addr else http_client.remote_addr
+        temp_client = HTTPClient(remote_addr=remote_addr, auth=auth)
+        logger.info(f"[配置] 使用自定义配置: remote_addr={remote_addr}")
+    elif args.remote_addr:
+        temp_client = HTTPClient(remote_addr=args.remote_addr, auth=http_client.auth)
+        logger.info(f"[配置] 使用自定义remote_addr: {args.remote_addr}")
+    else:
+        logger.info(f"[配置] 使用默认配置: remote_addr={http_client.remote_addr}")
+
+    logger.info("=" * 50)
+    logger.info(f"开始上传文件: {args.file}")
+    logger.info(f"驱动名称: {args.driver}")
+    logger.info(f"实验类型: {args.type}")
+    logger.info(f"Scene: {args.driver}-{args.type}")
+    logger.info("=" * 50)

    # 执行上传
-    success = oss_upload(
+    result = oss_upload(
        file_path=args.file,
-        oss_path=args.path,
        filename=None,  # 使用默认文件名
-        process_key=args.process,
-        device_id=args.device
+        driver_name=args.driver,
+        exp_type=args.type,
+        client=temp_client,
    )

    # 输出结果
-    if success:
-        print("\n√ 文件上传成功！")
+    if result["success"]:
+        logger.info(f"\n√ 文件上传成功！")
+        logger.info(f"原始路径: {result['original_path']}")
+        logger.info(f"OSS路径: {result['oss_path']}")
        exit(0)
    else:
-        print("\n× 文件上传失败！")
+        logger.error(f"\n× 文件上传失败！")
+        logger.error(f"原始路径: {result['original_path']}")
        exit(1)
-
--- a/unilabos/app/web/api.py
+++ b/unilabos/app/web/api.py
@@ -9,13 +9,22 @@ import asyncio

 import yaml

-from unilabos.app.web.controler import devices, job_add, job_info
+from unilabos.app.web.controller import (
+    devices,
+    job_add,
+    job_info,
+    get_online_devices,
+    get_device_actions,
+    get_action_schema,
+    get_all_available_actions,
+)
 from unilabos.app.model import (
    Resp,
    RespCode,
    JobStatusResp,
    JobAddResp,
    JobAddReq,
+    JobData,
 )
 from unilabos.app.web.utils.host_utils import get_host_node_info
 from unilabos.registry.registry import lab_registry
@@ -1234,6 +1243,65 @@ def get_devices():
    return Resp(data=dict(data))


+@api.get("/online-devices", summary="Online devices list", response_model=Resp)
+def api_get_online_devices():
+    """获取在线设备列表
+
+    返回当前在线的设备列表，包含设备ID、命名空间、机器名等信息
+    """
+    isok, data = get_online_devices()
+    if not isok:
+        return Resp(code=RespCode.ErrorHostNotInit, message=data.get("error", "Unknown error"))
+
+    return Resp(data=data)
+
+
+@api.get("/devices/{device_id}/actions", summary="Device actions list", response_model=Resp)
+def api_get_device_actions(device_id: str):
+    """获取设备可用的动作列表
+
+    Args:
+        device_id: 设备ID
+
+    返回指定设备的所有可用动作，包含动作名称、类型、是否繁忙等信息
+    """
+    isok, data = get_device_actions(device_id)
+    if not isok:
+        return Resp(code=RespCode.ErrorInvalidReq, message=data.get("error", "Unknown error"))
+
+    return Resp(data=data)
+
+
+@api.get("/devices/{device_id}/actions/{action_name}/schema", summary="Action schema", response_model=Resp)
+def api_get_action_schema(device_id: str, action_name: str):
+    """获取动作的Schema详情
+
+    Args:
+        device_id: 设备ID
+        action_name: 动作名称
+
+    返回动作的参数Schema、默认值、类型等详细信息
+    """
+    isok, data = get_action_schema(device_id, action_name)
+    if not isok:
+        return Resp(code=RespCode.ErrorInvalidReq, message=data.get("error", "Unknown error"))
+
+    return Resp(data=data)
+
+
+@api.get("/actions", summary="All available actions", response_model=Resp)
+def api_get_all_actions():
+    """获取所有设备的可用动作
+
+    返回所有已注册设备的动作列表，包含设备信息和各动作的状态
+    """
+    isok, data = get_all_available_actions()
+    if not isok:
+        return Resp(code=RespCode.ErrorHostNotInit, message=data.get("error", "Unknown error"))
+
+    return Resp(data=data)
+
+
@api.get("/job/{id}/status", summary="Job status", response_model=JobStatusResp)
 def job_status(id: str):
    """获取任务状态"""
@@ -1244,11 +1312,22 @@ def job_status(id: str):
@api.post("/job/add", summary="Create job", response_model=JobAddResp)
 def post_job_add(req: JobAddReq):
    """创建任务"""
-    device_id = req.device_id
-    if not req.data:
-        return Resp(code=RespCode.ErrorInvalidReq, message="Invalid request data")
+    # 检查必要参数：device_id 和 action
+    if not req.device_id:
+        return JobAddResp(
+            data=JobData(jobId="", status=6),
+            code=RespCode.ErrorInvalidReq,
+            message="device_id is required",
+        )
+
+    action_name = req.data.get("action", req.action) if req.data else req.action
+    if not action_name:
+        return JobAddResp(
+            data=JobData(jobId="", status=6),
+            code=RespCode.ErrorInvalidReq,
+            message="action is required",
+        )

-    req.device_id = device_id
    data = job_add(req)
    return JobAddResp(data=data)

--- a/unilabos/app/web/client.py
+++ b/unilabos/app/web/client.py
@@ -76,7 +76,8 @@ class HTTPClient:
            Dict[str, str]: 旧UUID到新UUID的映射关系 {old_uuid: new_uuid}
        """
        with open(os.path.join(BasicConfig.working_dir, "req_resource_tree_add.json"), "w", encoding="utf-8") as f:
-            f.write(json.dumps({"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid}, indent=4))
+            payload = {"nodes": [x for xs in resources.dump() for x in xs], "mount_uuid": mount_uuid}
+            f.write(json.dumps(payload, indent=4))
        # 从序列化数据中提取所有节点的UUID（保存旧UUID）
        old_uuids = {n.res_content.uuid: n for n in resources.all_nodes}
        if not self.initialized or first_add:
@@ -331,6 +332,67 @@ class HTTPClient:
                logger.error(f"响应内容: {response.text}")
        return None

+    def workflow_import(
+        self,
+        name: str,
+        workflow_uuid: str,
+        workflow_name: str,
+        nodes: List[Dict[str, Any]],
+        edges: List[Dict[str, Any]],
+        tags: Optional[List[str]] = None,
+        published: bool = False,
+    ) -> Dict[str, Any]:
+        """
+        导入工作流到服务器
+
+        Args:
+            name: 工作流名称（顶层）
+            workflow_uuid: 工作流UUID
+            workflow_name: 工作流名称（data内部）
+            nodes: 工作流节点列表
+            edges: 工作流边列表
+            tags: 工作流标签列表，默认为空列表
+            published: 是否发布工作流，默认为False
+
+        Returns:
+            Dict: API响应数据，包含 code 和 data (uuid, name)
+        """
+        # target_lab_uuid 暂时使用默认值，后续由后端根据 ak/sk 获取
+        payload = {
+            "target_lab_uuid": "28c38bb0-63f6-4352-b0d8-b5b8eb1766d5",
+            "name": name,
+            "data": {
+                "workflow_uuid": workflow_uuid,
+                "workflow_name": workflow_name,
+                "nodes": nodes,
+                "edges": edges,
+                "tags": tags if tags is not None else [],
+                "published": published,
+            },
+        }
+        # 保存请求到文件
+        with open(os.path.join(BasicConfig.working_dir, "req_workflow_upload.json"), "w", encoding="utf-8") as f:
+            f.write(json.dumps(payload, indent=4, ensure_ascii=False))
+
+        response = requests.post(
+            f"{self.remote_addr}/lab/workflow/owner/import",
+            json=payload,
+            headers={"Authorization": f"Lab {self.auth}"},
+            timeout=60,
+        )
+        # 保存响应到文件
+        with open(os.path.join(BasicConfig.working_dir, "res_workflow_upload.json"), "w", encoding="utf-8") as f:
+            f.write(f"{response.status_code}" + "\n" + response.text)
+
+        if response.status_code == 200:
+            res = response.json()
+            if "code" in res and res["code"] != 0:
+                logger.error(f"导入工作流失败: {response.text}")
+            return res
+        else:
+            logger.error(f"导入工作流失败: {response.status_code}, {response.text}")
+            return {"code": response.status_code, "message": response.text}
+

 # 创建默认客户端实例
 http_client = HTTPClient()
--- a/unilabos/app/web/controler.py
+++ b/unilabos/app/web/controler.py
@@ -1,45 +0,0 @@
-
-import json
-import traceback
-import uuid
-from unilabos.app.model import JobAddReq, JobData
-from unilabos.ros.nodes.presets.host_node import HostNode
-from unilabos.utils.type_check import serialize_result_info
-
-
-def get_resources() -> tuple:
-    if HostNode.get_instance() is None:
-        return False, "Host node not initialized"
-
-    return True, HostNode.get_instance().resources_config
-
-def devices() -> tuple:
-    if HostNode.get_instance() is None:
-        return False, "Host node not initialized"
-    
-    return True, HostNode.get_instance().devices_config
-
-def job_info(id: str):
-    get_goal_status = HostNode.get_instance().get_goal_status(id)
-    return JobData(jobId=id, status=get_goal_status)
-
-def job_add(req: JobAddReq) -> JobData:
-    if req.job_id is None:
-        req.job_id = str(uuid.uuid4())
-    action_name = req.data["action"]
-    action_type = req.data.get("action_type", "LocalUnknown")
-    action_args = req.data.get("action_kwargs", None)  # 兼容老版本，后续删除
-    if action_args is None:
-        action_args = req.data.get("action_args")
-    else:
-        if "command" in action_args:
-            action_args = action_args["command"]
-    # print(f"job_add:{req.device_id} {action_name} {action_kwargs}")
-    try:
-        HostNode.get_instance().send_goal(req.device_id, action_type=action_type, action_name=action_name, action_kwargs=action_args, goal_uuid=req.job_id, server_info=req.server_info)
-    except Exception as e:
-        for bridge in HostNode.get_instance().bridges:
-            traceback.print_exc()
-            if hasattr(bridge, "publish_job_status"):
-                bridge.publish_job_status({}, req.job_id, "failed", serialize_result_info(traceback.format_exc(), False, {}))
-    return JobData(jobId=req.job_id)
--- a/unilabos/app/web/controller.py
+++ b/unilabos/app/web/controller.py
@@ -0,0 +1,587 @@
+"""
+Web API Controller
+
+提供Web API的控制器函数，处理设备、任务和动作相关的业务逻辑
+"""
+
+import threading
+import time
+import traceback
+import uuid
+from dataclasses import dataclass, field
+from typing import Optional, Dict, Any, Tuple
+
+from unilabos.app.model import JobAddReq, JobData
+from unilabos.ros.nodes.presets.host_node import HostNode
+from unilabos.utils import logger
+
+
+@dataclass
+class JobResult:
+    """任务结果数据"""
+
+    job_id: str
+    status: int  # 4:SUCCEEDED, 5:CANCELED, 6:ABORTED
+    result: Dict[str, Any] = field(default_factory=dict)
+    feedback: Dict[str, Any] = field(default_factory=dict)
+    timestamp: float = field(default_factory=time.time)
+
+
+class JobResultStore:
+    """任务结果存储（单例）"""
+
+    _instance: Optional["JobResultStore"] = None
+    _lock = threading.Lock()
+
+    def __init__(self):
+        if not hasattr(self, "_initialized"):
+            self._results: Dict[str, JobResult] = {}
+            self._results_lock = threading.RLock()
+            self._initialized = True
+
+    def __new__(cls):
+        if cls._instance is None:
+            with cls._lock:
+                if cls._instance is None:
+                    cls._instance = super().__new__(cls)
+        return cls._instance
+
+    def store_result(
+        self, job_id: str, status: int, result: Optional[Dict[str, Any]], feedback: Optional[Dict[str, Any]] = None
+    ):
+        """存储任务结果"""
+        with self._results_lock:
+            self._results[job_id] = JobResult(
+                job_id=job_id,
+                status=status,
+                result=result or {},
+                feedback=feedback or {},
+                timestamp=time.time(),
+            )
+            logger.debug(f"[JobResultStore] Stored result for job {job_id[:8]}, status={status}")
+
+    def get_and_remove(self, job_id: str) -> Optional[JobResult]:
+        """获取并删除任务结果"""
+        with self._results_lock:
+            result = self._results.pop(job_id, None)
+            if result:
+                logger.debug(f"[JobResultStore] Retrieved and removed result for job {job_id[:8]}")
+            return result
+
+    def get_result(self, job_id: str) -> Optional[JobResult]:
+        """仅获取任务结果（不删除）"""
+        with self._results_lock:
+            return self._results.get(job_id)
+
+    def cleanup_old_results(self, max_age_seconds: float = 3600):
+        """清理过期的结果"""
+        current_time = time.time()
+        with self._results_lock:
+            expired_jobs = [
+                job_id for job_id, result in self._results.items() if current_time - result.timestamp > max_age_seconds
+            ]
+            for job_id in expired_jobs:
+                del self._results[job_id]
+                logger.debug(f"[JobResultStore] Cleaned up expired result for job {job_id[:8]}")
+
+
+# 全局结果存储实例
+job_result_store = JobResultStore()
+
+
+def store_job_result(
+    job_id: str, status: str, result: Optional[Dict[str, Any]], feedback: Optional[Dict[str, Any]] = None
+):
+    """存储任务结果（供外部调用）
+
+    Args:
+        job_id: 任务ID
+        status: 状态字符串 ("success", "failed", "cancelled")
+        result: 结果数据
+        feedback: 反馈数据
+    """
+    # 转换状态字符串为整数
+    status_map = {
+        "success": 4,  # SUCCEEDED
+        "failed": 6,  # ABORTED
+        "cancelled": 5,  # CANCELED
+        "running": 2,  # EXECUTING
+    }
+    status_int = status_map.get(status, 0)
+
+    # 只存储最终状态
+    if status_int in (4, 5, 6):
+        job_result_store.store_result(job_id, status_int, result, feedback)
+
+
+def get_resources() -> Tuple[bool, Any]:
+    """获取资源配置
+
+    Returns:
+        Tuple[bool, Any]: (是否成功, 资源配置或错误信息)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, "Host node not initialized"
+
+    return True, host_node.resources_config
+
+
+def devices() -> Tuple[bool, Any]:
+    """获取设备配置
+
+    Returns:
+        Tuple[bool, Any]: (是否成功, 设备配置或错误信息)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, "Host node not initialized"
+
+    return True, host_node.devices_config
+
+
+def job_info(job_id: str, remove_after_read: bool = True) -> JobData:
+    """获取任务信息
+
+    Args:
+        job_id: 任务ID
+        remove_after_read: 是否在读取后删除结果（默认True）
+
+    Returns:
+        JobData: 任务数据
+    """
+    # 首先检查结果存储中是否有已完成的结果
+    if remove_after_read:
+        stored_result = job_result_store.get_and_remove(job_id)
+    else:
+        stored_result = job_result_store.get_result(job_id)
+
+    if stored_result:
+        # 有存储的结果，直接返回
+        return JobData(
+            jobId=job_id,
+            status=stored_result.status,
+            result=stored_result.result,
+        )
+
+    # 没有存储的结果，从 HostNode 获取当前状态
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return JobData(jobId=job_id, status=0)
+
+    get_goal_status = host_node.get_goal_status(job_id)
+    return JobData(jobId=job_id, status=get_goal_status)
+
+
+def check_device_action_busy(device_id: str, action_name: str) -> Tuple[bool, Optional[str]]:
+    """检查设备动作是否正在执行（被占用）
+
+    Args:
+        device_id: 设备ID
+        action_name: 动作名称
+
+    Returns:
+        Tuple[bool, Optional[str]]: (是否繁忙, 当前执行的job_id或None)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, None
+
+    device_action_key = f"/devices/{device_id}/{action_name}"
+
+    # 检查 _device_action_status 中是否有正在执行的任务
+    if device_action_key in host_node._device_action_status:
+        status = host_node._device_action_status[device_action_key]
+        if status.job_ids:
+            # 返回第一个正在执行的job_id
+            current_job_id = next(iter(status.job_ids.keys()), None)
+            return True, current_job_id
+
+    return False, None
+
+
+def _get_action_type(device_id: str, action_name: str) -> Optional[str]:
+    """从注册表自动获取动作类型
+
+    Args:
+        device_id: 设备ID
+        action_name: 动作名称
+
+    Returns:
+        动作类型字符串，未找到返回None
+    """
+    try:
+        from unilabos.ros.nodes.base_device_node import registered_devices
+
+        # 方法1: 从运行时注册设备获取
+        if device_id in registered_devices:
+            device_info = registered_devices[device_id]
+            base_node = device_info.get("base_node_instance")
+            if base_node and hasattr(base_node, "_action_value_mappings"):
+                action_mappings = base_node._action_value_mappings
+                # 尝试直接匹配或 auto- 前缀匹配
+                for key in [action_name, f"auto-{action_name}"]:
+                    if key in action_mappings:
+                        action_type = action_mappings[key].get("type")
+                        if action_type:
+                            # 转换为字符串格式
+                            if hasattr(action_type, "__module__") and hasattr(action_type, "__name__"):
+                                return f"{action_type.__module__}.{action_type.__name__}"
+                            return str(action_type)
+
+        # 方法2: 从lab_registry获取
+        from unilabos.registry.registry import lab_registry
+
+        host_node = HostNode.get_instance(0)
+        if host_node and lab_registry:
+            devices_config = host_node.devices_config
+            device_class = None
+
+            for tree in devices_config.trees:
+                node = tree.root_node
+                if node.res_content.id == device_id:
+                    device_class = node.res_content.klass
+                    break
+
+            if device_class and device_class in lab_registry.device_type_registry:
+                device_type_info = lab_registry.device_type_registry[device_class]
+                class_info = device_type_info.get("class", {})
+                action_mappings = class_info.get("action_value_mappings", {})
+
+                for key in [action_name, f"auto-{action_name}"]:
+                    if key in action_mappings:
+                        action_type = action_mappings[key].get("type")
+                        if action_type:
+                            if hasattr(action_type, "__module__") and hasattr(action_type, "__name__"):
+                                return f"{action_type.__module__}.{action_type.__name__}"
+                            return str(action_type)
+
+    except Exception as e:
+        logger.warning(f"[Controller] Failed to get action type for {device_id}/{action_name}: {str(e)}")
+
+    return None
+
+
+def job_add(req: JobAddReq) -> JobData:
+    """添加任务（检查设备是否繁忙，繁忙则返回失败）
+
+    Args:
+        req: 任务添加请求
+
+    Returns:
+        JobData: 任务数据（包含状态）
+    """
+    # 服务端自动生成 job_id 和 task_id
+    job_id = str(uuid.uuid4())
+    task_id = str(uuid.uuid4())
+
+    # 服务端自动生成 server_info
+    server_info = {"send_timestamp": time.time()}
+
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        logger.error(f"[Controller] Host node not initialized for job: {job_id[:8]}")
+        return JobData(jobId=job_id, status=6)  # 6 = ABORTED
+
+    # 解析动作信息
+    action_name = req.data.get("action", req.action) if req.data else req.action
+    action_args = req.data.get("action_kwargs") or req.data.get("action_args") if req.data else req.action_args
+
+    if action_args is None:
+        action_args = req.action_args or {}
+    elif isinstance(action_args, dict) and "command" in action_args:
+        action_args = action_args["command"]
+
+    # 自动获取 action_type
+    action_type = _get_action_type(req.device_id, action_name)
+    if action_type is None:
+        logger.error(f"[Controller] Action type not found for {req.device_id}/{action_name}")
+        return JobData(jobId=job_id, status=6)  # ABORTED
+
+    # 检查设备动作是否繁忙
+    is_busy, current_job_id = check_device_action_busy(req.device_id, action_name)
+
+    if is_busy:
+        logger.warning(
+            f"[Controller] Device action busy: {req.device_id}/{action_name}, "
+            f"current job: {current_job_id[:8] if current_job_id else 'unknown'}"
+        )
+        # 返回失败状态，status=6 表示 ABORTED
+        return JobData(jobId=job_id, status=6)
+
+    # 设备空闲，提交任务执行
+    try:
+        from unilabos.app.ws_client import QueueItem
+
+        device_action_key = f"/devices/{req.device_id}/{action_name}"
+        queue_item = QueueItem(
+            task_type="job_call_back_status",
+            device_id=req.device_id,
+            action_name=action_name,
+            task_id=task_id,
+            job_id=job_id,
+            device_action_key=device_action_key,
+        )
+
+        host_node.send_goal(
+            queue_item,
+            action_type=action_type,
+            action_kwargs=action_args,
+            server_info=server_info,
+        )
+
+        logger.info(f"[Controller] Job submitted: {job_id[:8]} -> {req.device_id}/{action_name}")
+        # 返回已接受状态，status=1 表示 ACCEPTED
+        return JobData(jobId=job_id, status=1)
+
+    except ValueError as e:
+        # ActionClient not found 等错误
+        logger.error(f"[Controller] Action not available: {str(e)}")
+        return JobData(jobId=job_id, status=6)  # ABORTED
+
+    except Exception as e:
+        logger.error(f"[Controller] Error submitting job: {str(e)}")
+        traceback.print_exc()
+        return JobData(jobId=job_id, status=6)  # ABORTED
+
+
+def get_online_devices() -> Tuple[bool, Dict[str, Any]]:
+    """获取在线设备列表
+
+    Returns:
+        Tuple[bool, Dict]: (是否成功, 在线设备信息)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, {"error": "Host node not initialized"}
+
+    try:
+        from unilabos.ros.nodes.base_device_node import registered_devices
+
+        online_devices = {}
+        for device_key in host_node._online_devices:
+            # device_key 格式: "namespace/device_id"
+            parts = device_key.split("/")
+            if len(parts) >= 2:
+                device_id = parts[-1]
+            else:
+                device_id = device_key
+
+            # 获取设备详细信息
+            device_info = registered_devices.get(device_id, {})
+            machine_name = host_node.device_machine_names.get(device_id, "未知")
+
+            online_devices[device_id] = {
+                "device_key": device_key,
+                "namespace": host_node.devices_names.get(device_id, ""),
+                "machine_name": machine_name,
+                "uuid": device_info.get("uuid", "") if device_info else "",
+                "node_name": device_info.get("node_name", "") if device_info else "",
+            }
+
+        return True, {
+            "online_devices": online_devices,
+            "total_count": len(online_devices),
+            "timestamp": time.time(),
+        }
+
+    except Exception as e:
+        logger.error(f"[Controller] Error getting online devices: {str(e)}")
+        traceback.print_exc()
+        return False, {"error": str(e)}
+
+
+def get_device_actions(device_id: str) -> Tuple[bool, Dict[str, Any]]:
+    """获取设备可用的动作列表
+
+    Args:
+        device_id: 设备ID
+
+    Returns:
+        Tuple[bool, Dict]: (是否成功, 动作列表信息)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, {"error": "Host node not initialized"}
+
+    try:
+        from unilabos.ros.nodes.base_device_node import registered_devices
+        from unilabos.app.web.utils.action_utils import get_action_info
+
+        # 检查设备是否已注册
+        if device_id not in registered_devices:
+            return False, {"error": f"Device not found: {device_id}"}
+
+        device_info = registered_devices[device_id]
+        actions = device_info.get("actions", {})
+
+        actions_list = {}
+        for action_name, action_server in actions.items():
+            try:
+                action_info = get_action_info(action_server, action_name)
+                # 检查动作是否繁忙
+                is_busy, current_job = check_device_action_busy(device_id, action_name)
+                actions_list[action_name] = {
+                    **action_info,
+                    "is_busy": is_busy,
+                    "current_job_id": current_job[:8] if current_job else None,
+                }
+            except Exception as e:
+                logger.warning(f"[Controller] Error getting action info for {action_name}: {str(e)}")
+                actions_list[action_name] = {
+                    "type_name": "unknown",
+                    "action_path": f"/devices/{device_id}/{action_name}",
+                    "is_busy": False,
+                    "error": str(e),
+                }
+
+        return True, {
+            "device_id": device_id,
+            "actions": actions_list,
+            "action_count": len(actions_list),
+        }
+
+    except Exception as e:
+        logger.error(f"[Controller] Error getting device actions: {str(e)}")
+        traceback.print_exc()
+        return False, {"error": str(e)}
+
+
+def get_action_schema(device_id: str, action_name: str) -> Tuple[bool, Dict[str, Any]]:
+    """获取动作的Schema详情
+
+    Args:
+        device_id: 设备ID
+        action_name: 动作名称
+
+    Returns:
+        Tuple[bool, Dict]: (是否成功, Schema信息)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, {"error": "Host node not initialized"}
+
+    try:
+        from unilabos.registry.registry import lab_registry
+        from unilabos.ros.nodes.base_device_node import registered_devices
+
+        result = {
+            "device_id": device_id,
+            "action_name": action_name,
+            "schema": None,
+            "goal_default": None,
+            "action_type": None,
+            "is_busy": False,
+        }
+
+        # 检查动作是否繁忙
+        is_busy, current_job = check_device_action_busy(device_id, action_name)
+        result["is_busy"] = is_busy
+        result["current_job_id"] = current_job[:8] if current_job else None
+
+        # 方法1: 从 registered_devices 获取运行时信息
+        if device_id in registered_devices:
+            device_info = registered_devices[device_id]
+            base_node = device_info.get("base_node_instance")
+
+            if base_node and hasattr(base_node, "_action_value_mappings"):
+                action_mappings = base_node._action_value_mappings
+                if action_name in action_mappings:
+                    mapping = action_mappings[action_name]
+                    result["schema"] = mapping.get("schema")
+                    result["goal_default"] = mapping.get("goal_default")
+                    result["action_type"] = str(mapping.get("type", ""))
+
+        # 方法2: 从 lab_registry 获取注册表信息（如果运行时没有）
+        if result["schema"] is None and lab_registry:
+            # 尝试查找设备类型
+            devices_config = host_node.devices_config
+            device_class = None
+
+            # 从配置中获取设备类型
+            for tree in devices_config.trees:
+                node = tree.root_node
+                if node.res_content.id == device_id:
+                    device_class = node.res_content.klass
+                    break
+
+            if device_class and device_class in lab_registry.device_type_registry:
+                device_type_info = lab_registry.device_type_registry[device_class]
+                class_info = device_type_info.get("class", {})
+                action_mappings = class_info.get("action_value_mappings", {})
+
+                # 尝试直接匹配或 auto- 前缀匹配
+                for key in [action_name, f"auto-{action_name}"]:
+                    if key in action_mappings:
+                        mapping = action_mappings[key]
+                        result["schema"] = mapping.get("schema")
+                        result["goal_default"] = mapping.get("goal_default")
+                        result["action_type"] = str(mapping.get("type", ""))
+                        result["handles"] = mapping.get("handles", {})
+                        result["placeholder_keys"] = mapping.get("placeholder_keys", {})
+                        break
+
+        if result["schema"] is None:
+            return False, {"error": f"Action schema not found: {device_id}/{action_name}"}
+
+        return True, result
+
+    except Exception as e:
+        logger.error(f"[Controller] Error getting action schema: {str(e)}")
+        traceback.print_exc()
+        return False, {"error": str(e)}
+
+
+def get_all_available_actions() -> Tuple[bool, Dict[str, Any]]:
+    """获取所有设备的可用动作
+
+    Returns:
+        Tuple[bool, Dict]: (是否成功, 所有设备的动作信息)
+    """
+    host_node = HostNode.get_instance(0)
+    if host_node is None:
+        return False, {"error": "Host node not initialized"}
+
+    try:
+        from unilabos.ros.nodes.base_device_node import registered_devices
+        from unilabos.app.web.utils.action_utils import get_action_info
+
+        all_actions = {}
+        total_action_count = 0
+
+        for device_id, device_info in registered_devices.items():
+            actions = device_info.get("actions", {})
+            device_actions = {}
+
+            for action_name, action_server in actions.items():
+                try:
+                    action_info = get_action_info(action_server, action_name)
+                    is_busy, current_job = check_device_action_busy(device_id, action_name)
+                    device_actions[action_name] = {
+                        "type_name": action_info.get("type_name", ""),
+                        "action_path": action_info.get("action_path", ""),
+                        "is_busy": is_busy,
+                        "current_job_id": current_job[:8] if current_job else None,
+                    }
+                    total_action_count += 1
+                except Exception as e:
+                    logger.warning(f"[Controller] Error processing action {device_id}/{action_name}: {str(e)}")
+
+            if device_actions:
+                all_actions[device_id] = {
+                    "actions": device_actions,
+                    "action_count": len(device_actions),
+                    "machine_name": host_node.device_machine_names.get(device_id, "未知"),
+                }
+
+        return True, {
+            "devices": all_actions,
+            "device_count": len(all_actions),
+            "total_action_count": total_action_count,
+            "timestamp": time.time(),
+        }
+
+    except Exception as e:
+        logger.error(f"[Controller] Error getting all available actions: {str(e)}")
+        traceback.print_exc()
+        return False, {"error": str(e)}
--- a/unilabos/app/ws_client.py
+++ b/unilabos/app/ws_client.py
@@ -359,6 +359,7 @@ class MessageProcessor:
        self.device_manager = device_manager
        self.queue_processor = None  # 延迟设置
        self.websocket_client = None  # 延迟设置
+        self.session_id = ""

        # WebSocket连接
        self.websocket = None
@@ -388,7 +389,7 @@ class MessageProcessor:
        self.is_running = True
        self.thread = threading.Thread(target=self._run, daemon=True, name="MessageProcessor")
        self.thread.start()
-        logger.info("[MessageProcessor] Started")
+        logger.trace("[MessageProcessor] Started")

    def stop(self) -> None:
        """停止消息处理线程"""
@@ -420,21 +421,24 @@ class MessageProcessor:
                    ssl_context = ssl_module.create_default_context()

                ws_logger = logging.getLogger("websockets.client")
-                ws_logger.setLevel(logging.INFO)
+                # 日志级别已在 unilabos.utils.log 中统一配置为 WARNING

                async with websockets.connect(
                    self.websocket_url,
                    ssl=ssl_context,
                    ping_interval=WSConfig.ping_interval,
                    ping_timeout=10,
-                    additional_headers={"Authorization": f"Lab {BasicConfig.auth_secret()}"},
+                    additional_headers={
+                        "Authorization": f"Lab {BasicConfig.auth_secret()}",
+                        "EdgeSession": f"{self.session_id}",
+                    },
                    logger=ws_logger,
                ) as websocket:
                    self.websocket = websocket
                    self.connected = True
                    self.reconnect_count = 0

-                    logger.info(f"[MessageProcessor] Connected to {self.websocket_url}")
+                    logger.trace(f"[MessageProcessor] Connected to {self.websocket_url}")

                    # 启动发送协程
                    send_task = asyncio.create_task(self._send_handler())
@@ -499,7 +503,7 @@ class MessageProcessor:

    async def _send_handler(self):
        """处理发送队列中的消息"""
-        logger.debug("[MessageProcessor] Send handler started")
+        logger.trace("[MessageProcessor] Send handler started")

        try:
            while self.connected and self.websocket:
@@ -572,6 +576,9 @@ class MessageProcessor:
                await self._handle_resource_tree_update(message_data, "update")
            elif message_type == "remove_material":
                await self._handle_resource_tree_update(message_data, "remove")
+            elif message_type == "session_id":
+                self.session_id = message_data.get("session_id")
+                logger.info(f"[MessageProcessor] Session ID: {self.session_id}")
            else:
                logger.debug(f"[MessageProcessor] Unknown message type: {message_type}")

@@ -932,7 +939,7 @@ class QueueProcessor:
        # 事件通知机制
        self.queue_update_event = threading.Event()

-        logger.info("[QueueProcessor] Initialized")
+        logger.trace("[QueueProcessor] Initialized")

    def set_websocket_client(self, websocket_client: "WebSocketClient"):
        """设置WebSocket客户端引用"""
@@ -947,7 +954,7 @@ class QueueProcessor:
        self.is_running = True
        self.thread = threading.Thread(target=self._run, daemon=True, name="QueueProcessor")
        self.thread.start()
-        logger.info("[QueueProcessor] Started")
+        logger.trace("[QueueProcessor] Started")

    def stop(self) -> None:
        """停止队列处理线程"""
@@ -958,7 +965,7 @@ class QueueProcessor:

    def _run(self):
        """运行队列处理主循环"""
-        logger.debug("[QueueProcessor] Queue processor started")
+        logger.trace("[QueueProcessor] Queue processor started")

        while self.is_running:
            try:
@@ -1168,7 +1175,6 @@ class WebSocketClient(BaseCommunicationClient):
        else:
            url = f"{scheme}://{parsed.netloc}/api/v1/ws/schedule"

-        logger.debug(f"[WebSocketClient] URL: {url}")
        return url

    def start(self) -> None:
@@ -1181,13 +1187,11 @@ class WebSocketClient(BaseCommunicationClient):
            logger.error("[WebSocketClient] WebSocket URL not configured")
            return

-        logger.info(f"[WebSocketClient] Starting connection to {self.websocket_url}")
-
        # 启动两个核心线程
        self.message_processor.start()
        self.queue_processor.start()

-        logger.info("[WebSocketClient] All threads started")
+        logger.trace("[WebSocketClient] All threads started")

    def stop(self) -> None:
        """停止WebSocket客户端"""
@@ -1196,6 +1200,18 @@ class WebSocketClient(BaseCommunicationClient):

        logger.info("[WebSocketClient] Stopping connection")

+        # 发送 normal_exit 消息
+        if self.is_connected():
+            try:
+                session_id = self.message_processor.session_id
+                message = {"action": "normal_exit", "data": {"session_id": session_id}}
+                self.message_processor.send_message(message)
+                logger.info(f"[WebSocketClient] Sent normal_exit message with session_id: {session_id}")
+                # 给一点时间让消息发送出去
+                time.sleep(1)
+            except Exception as e:
+                logger.warning(f"[WebSocketClient] Failed to send normal_exit message: {str(e)}")
+
        # 停止两个核心线程
        self.message_processor.stop()
        self.queue_processor.stop()
@@ -1224,7 +1240,7 @@ class WebSocketClient(BaseCommunicationClient):
            },
        }
        self.message_processor.send_message(message)
-        logger.debug(f"[WebSocketClient] Device status published: {device_id}.{property_name}")
+        logger.trace(f"[WebSocketClient] Device status published: {device_id}.{property_name}")

    def publish_job_status(
        self, feedback_data: dict, item: QueueItem, status: str, return_info: Optional[dict] = None
@@ -1295,3 +1311,19 @@ class WebSocketClient(BaseCommunicationClient):
            logger.info(f"[WebSocketClient] Job {job_log} cancelled successfully")
        else:
            logger.warning(f"[WebSocketClient] Failed to cancel job {job_log}")
+
+    def publish_host_ready(self) -> None:
+        """发布host_node ready信号"""
+        if self.is_disabled or not self.is_connected():
+            logger.debug("[WebSocketClient] Not connected, cannot publish host ready signal")
+            return
+
+        message = {
+            "action": "host_node_ready",
+            "data": {
+                "status": "ready",
+                "timestamp": time.time(),
+            },
+        }
+        self.message_processor.send_message(message)
+        logger.info("[WebSocketClient] Host node ready signal published")
--- a/unilabos/config/config.py
+++ b/unilabos/config/config.py
@@ -18,7 +18,11 @@ class BasicConfig:
    vis_2d_enable = False
    enable_resource_load = True
    communication_protocol = "websocket"
-    log_level: Literal['TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'] = "DEBUG"  # 'TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'
+    startup_json_path = None  # 填写绝对路径
+    disable_browser = False  # 禁止浏览器自动打开
+    port = 8002  # 本地HTTP服务
+    # 'TRACE', 'DEBUG', 'INFO', 'WARNING', 'ERROR', 'CRITICAL'
+    log_level: Literal["TRACE", "DEBUG", "INFO", "WARNING", "ERROR", "CRITICAL"] = "DEBUG"

    @classmethod
    def auth_secret(cls):
@@ -36,18 +40,9 @@ class WSConfig:
    ping_interval = 30  # ping间隔（秒）


-# OSS上传配置
-class OSSUploadConfig:
-    api_host = ""
-    authorization = ""
-    init_endpoint = ""
-    complete_endpoint = ""
-    max_retries = 3
-
-
 # HTTP配置
 class HTTPConfig:
-    remote_addr = "http://127.0.0.1:48197/api/v1"
+    remote_addr = "https://uni-lab.bohrium.com/api/v1"


 # ROS配置
@@ -71,13 +66,14 @@ def _update_config_from_module(module):
                    if not attr.startswith("_"):
                        setattr(obj, attr, getattr(getattr(module, name), attr))

+
 def _update_config_from_env():
    prefix = "UNILABOS_"
    for env_key, env_value in os.environ.items():
        if not env_key.startswith(prefix):
            continue
        try:
-            key_path = env_key[len(prefix):]  # Remove UNILAB_ prefix
+            key_path = env_key[len(prefix) :]  # Remove UNILAB_ prefix
            class_field = key_path.upper().split("_", 1)
            if len(class_field) != 2:
                logger.warning(f"[ENV] 环境变量格式不正确：{env_key}")
--- a/unilabos/devices/electrolysis_water_platfrom/electrolysis_water_platfrom.py
+++ b/unilabos/devices/electrolysis_water_platfrom/electrolysis_water_platfrom.py
@@ -0,0 +1,296 @@
+# -*- coding: utf-8 -*-
+import serial
+import time
+import csv
+import threading
+import os
+from collections import deque
+from typing import Dict, Any, Optional
+from pylabrobot.resources import Deck
+
+from unilabos.devices.workstation.workstation_base import WorkstationBase
+
+
+class ElectrolysisWaterPlatform(WorkstationBase):
+    """
+    电解水平台工作站
+    基于 WorkstationBase 的电解水实验平台，支持串口通信和数据采集
+    """
+    
+    def __init__(
+        self, 
+        deck: Deck,
+        port: str = "COM10",
+        baudrate: int = 115200,
+        csv_path: Optional[str] = None,
+        timeout: float = 0.2,
+        **kwargs
+    ):
+        super().__init__(deck, **kwargs)
+        
+        # ========== 配置 ==========
+        self.port = port
+        self.baudrate = baudrate
+        # 如果没有指定路径，默认保存在代码文件所在目录
+        if csv_path is None:
+            current_dir = os.path.dirname(os.path.abspath(__file__))
+            self.csv_path = os.path.join(current_dir, "stm32_data.csv")
+        else:
+            self.csv_path = csv_path
+        self.ser_timeout = timeout
+        self.chunk_read = 128
+        
+        # 串口对象
+        self.ser: Optional[serial.Serial] = None
+        self.stop_flag = False
+        
+        # 线程对象
+        self.rx_thread: Optional[threading.Thread] = None
+        self.tx_thread: Optional[threading.Thread] = None
+        
+        # ==== 接收（下位机->上位机）：固定 1+13+1 = 15 字节 ====
+        self.RX_HEAD = 0x3E
+        self.RX_TAIL = 0x3E
+        self.RX_FRAME_LEN = 1 + 13 + 1  # 15
+        
+        # ==== 发送（上位机->下位机）：固定 1+9+1 = 11 字节 ====
+        self.TX_HEAD = 0x3E
+        self.TX_TAIL = 0xE3  # 协议图中标注 E3 作为帧尾
+        self.TX_FRAME_LEN = 1 + 9 + 1  # 11
+    
+    def open_serial(self, port: Optional[str] = None, baudrate: Optional[int] = None, timeout: Optional[float] = None) -> Optional[serial.Serial]:
+        """打开串口"""
+        port = port or self.port
+        baudrate = baudrate or self.baudrate
+        timeout = timeout or self.ser_timeout
+        try:
+            ser = serial.Serial(port, baudrate, timeout=timeout)
+            print(f"[OK] 串口 {port} 已打开，波特率 {baudrate}")
+            ser.reset_input_buffer()
+            ser.reset_output_buffer()
+            self.ser = ser
+            return ser
+        except serial.SerialException as e:
+            print(f"[ERR] 无法打开串口 {port}: {e}")
+            return None
+
+    def close_serial(self):
+        """关闭串口"""
+        if self.ser and self.ser.is_open:
+            self.ser.close()
+            print("[INFO] 串口已关闭")
+
+    @staticmethod
+    def u16_be(h: int, l: int) -> int:
+        """将两个字节组合成16位无符号整数（大端序）"""
+        return ((h & 0xFF) << 8) | (l & 0xFF)
+
+    @staticmethod
+    def split_u16_be(val: int) -> tuple:
+        """返回 (高字节, 低字节)，输入会夹到 0..65535"""
+        v = int(max(0, min(65535, int(val))))
+        return (v >> 8) & 0xFF, v & 0xFF
+
+    # ================== 接收：固定15字节 ==================
+    def parse_rx_payload(self, dat13: bytes) -> Optional[Dict[str, Any]]:
+        """解析 13 字节数据区（下位机发送到上位机）"""
+        if len(dat13) != 13:
+            return None
+        current_mA      = self.u16_be(dat13[0], dat13[1])
+        voltage_mV      = self.u16_be(dat13[2], dat13[3])
+        temperature_raw = self.u16_be(dat13[4], dat13[5])
+        tds_ppm         = self.u16_be(dat13[6], dat13[7])
+        gas_sccm        = self.u16_be(dat13[8], dat13[9])
+        liquid_mL       = self.u16_be(dat13[10], dat13[11])
+        ph_raw          = dat13[12] & 0xFF
+
+        return {
+            "Current_mA": current_mA,
+            "Voltage_mV": voltage_mV,
+            "Temperature_C": round(temperature_raw / 100.0, 2),
+            "TDS_ppm": tds_ppm,
+            "GasFlow_sccm": gas_sccm,
+            "LiquidFlow_mL": liquid_mL,
+            "pH": round(ph_raw / 10.0, 2)
+        }
+
+    def try_parse_rx_frame(self, frame15: bytes) -> Optional[Dict[str, Any]]:
+        """尝试解析接收帧"""
+        if len(frame15) != self.RX_FRAME_LEN:
+            return None
+        if frame15[0] != self.RX_HEAD or frame15[-1] != self.RX_TAIL:
+            return None
+        return self.parse_rx_payload(frame15[1:-1])
+
+    def rx_thread_fn(self):
+        """接收线程函数"""
+        headers = ["Timestamp", "Current_mA", "Voltage_mV",
+                   "Temperature_C", "TDS_ppm", "GasFlow_sccm", "LiquidFlow_mL", "pH"]
+
+        new_file = not os.path.exists(self.csv_path)
+        f = open(self.csv_path, mode='a', newline='', encoding='utf-8')
+        writer = csv.writer(f)
+        if new_file:
+            writer.writerow(headers)
+            f.flush()
+
+        buf = deque(maxlen=8192)
+        print(f"[RX] 开始接收（帧长 {self.RX_FRAME_LEN} 字节）；写入：{self.csv_path}")
+
+        try:
+            while not self.stop_flag and self.ser and self.ser.is_open:
+                chunk = self.ser.read(self.chunk_read)
+                if chunk:
+                    buf.extend(chunk)
+                    while True:
+                        # 找帧头
+                        try:
+                            start = next(i for i, b in enumerate(buf) if b == self.RX_HEAD)
+                        except StopIteration:
+                            buf.clear()
+                            break
+                        if start > 0:
+                            for _ in range(start):
+                                buf.popleft()
+                        if len(buf) < self.RX_FRAME_LEN:
+                            break
+                        candidate = bytes([buf[i] for i in range(self.RX_FRAME_LEN)])
+                        if candidate[-1] == self.RX_TAIL:
+                            parsed = self.try_parse_rx_frame(candidate)
+                            for _ in range(self.RX_FRAME_LEN):
+                                buf.popleft()
+                            if parsed:
+                                ts = time.strftime("%Y-%m-%d %H:%M:%S")
+                                row = [ts,
+                                       parsed["Current_mA"], parsed["Voltage_mV"],
+                                       parsed["Temperature_C"], parsed["TDS_ppm"],
+                                       parsed["GasFlow_sccm"], parsed["LiquidFlow_mL"],
+                                       parsed["pH"]]
+                                writer.writerow(row)
+                                f.flush()
+                                # 若不想打印可注释下一行
+                                # print(f"[{ts}] I={parsed['Current_mA']} mA, V={parsed['Voltage_mV']} mV, "
+                                #       f"T={parsed['Temperature_C']} °C, TDS={parsed['TDS_ppm']}, "
+                                #       f"Gas={parsed['GasFlow_sccm']} sccm, Liq={parsed['LiquidFlow_mL']} mL, pH={parsed['pH']}")
+                        else:
+                            # 头不变，尾不对，丢1字节继续对齐
+                            buf.popleft()
+                else:
+                    time.sleep(0.01)
+        finally:
+            f.close()
+            print("[RX] 接收线程退出，CSV 已关闭")
+
+    # ================== 发送：固定11字节 ==================
+    def build_tx_frame(self, mode: int, current_ma: int, voltage_mv: int, temp_c: float, ki: float, pump_percent: float) -> bytes:
+        """
+        发送帧：HEAD + [mode, I_hi, I_lo, V_hi, V_lo, T_hi, T_lo, Ki_byte, Pump_byte] + TAIL
+        - mode: 0=恒压, 1=恒流
+        - current_ma: mA (0..65535)
+        - voltage_mv: mV (0..65535)
+        - temp_c: ℃，将 *100 后拆分为高/低字节
+        - ki: 0.0..20.0  -> byte = round(ki * 10) 夹到 0..200
+        - pump_percent: 0..100 -> byte = round(pump * 2) 夹到 0..200
+        """
+        mode_b = 1 if int(mode) == 1 else 0
+
+        i_hi, i_lo = self.split_u16_be(current_ma)
+        v_hi, v_lo = self.split_u16_be(voltage_mv)
+
+        t100 = int(round(float(temp_c) * 100.0))
+        t_hi, t_lo = self.split_u16_be(t100)
+
+        ki_b = int(max(0, min(200, round(float(ki) * 10))))
+        pump_b = int(max(0, min(200, round(float(pump_percent) * 2))))
+
+        return bytes((
+            self.TX_HEAD,
+            mode_b,
+            i_hi, i_lo,
+            v_hi, v_lo,
+            t_hi, t_lo,
+            ki_b,
+            pump_b,
+            self.TX_TAIL
+        ))
+
+    def tx_thread_fn(self):
+        """
+        发送线程函数
+        用户输入 6 个用逗号分隔的数值：
+        mode,current_mA,voltage_mV,set_temp_C,Ki,pump_percent
+        例如： 0,1000,500,0,0,50
+        """
+        print("\n输入 6 个值（用英文逗号分隔），顺序为：")
+        print("mode,current_mA,voltage_mV,set_temp_C,Ki,pump_percent")
+        print("示例恒压：0,500,1000,25,0,100   （stop 结束）\n")
+        print("示例恒流：1,1000,500,25,0,100   （stop 结束）\n")
+        print("示例恒流：1,2000,500,25,0,100   （stop 结束）\n")
+        # 1,2000,500,25,0,100
+
+        while not self.stop_flag and self.ser and self.ser.is_open:
+            try:
+                line = input(">>> ").strip()
+            except EOFError:
+                self.stop_flag = True
+                break
+
+            if not line:
+                continue
+            if line.lower() == "stop":
+                self.stop_flag = True
+                print("[SYS] 停止程序")
+                break
+
+            try:
+                parts = [p.strip() for p in line.split(",")]
+                if len(parts) != 6:
+                    raise ValueError("需要 6 个逗号分隔的数值")
+                mode = int(parts[0])
+                i_ma = int(float(parts[1]))
+                v_mv = int(float(parts[2]))
+                t_c  = float(parts[3])
+                ki   = float(parts[4])
+                pump = float(parts[5])
+
+                frame = self.build_tx_frame(mode, i_ma, v_mv, t_c, ki, pump)
+                self.ser.write(frame)
+                print("[TX]", " ".join(f"{b:02X}" for b in frame))
+            except Exception as e:
+                print("[TX] 输入/打包失败：", e)
+                print("格式：mode,current_mA,voltage_mV,set_temp_C,Ki,pump_percent")
+                continue
+    
+    def start(self):
+        """启动电解水平台"""
+        self.ser = self.open_serial()
+        if self.ser:
+            try:
+                self.rx_thread = threading.Thread(target=self.rx_thread_fn, daemon=True)
+                self.tx_thread = threading.Thread(target=self.tx_thread_fn, daemon=True)
+                self.rx_thread.start()
+                self.tx_thread.start()
+                print("[INFO] 电解水平台已启动")
+                self.tx_thread.join()  # 等待用户输入线程结束（输入 stop）
+            finally:
+                self.close_serial()
+    
+    def stop(self):
+        """停止电解水平台"""
+        self.stop_flag = True
+        if self.rx_thread and self.rx_thread.is_alive():
+            self.rx_thread.join(timeout=2.0)
+        if self.tx_thread and self.tx_thread.is_alive():
+            self.tx_thread.join(timeout=2.0)
+        self.close_serial()
+        print("[INFO] 电解水平台已停止")
+
+
+# ================== 主入口 ==================
+if __name__ == "__main__":
+    # 创建一个简单的 Deck 用于测试
+    from pylabrobot.resources import Deck
+    
+    deck = Deck()
+    platform = ElectrolysisWaterPlatform(deck)
+    platform.start()
--- a/unilabos/devices/hplc/AgilentHPLC.py
+++ b/unilabos/devices/hplc/AgilentHPLC.py
@@ -405,9 +405,19 @@ class RunningResultChecker(DriverChecker):
                for i in range(self.driver._finished, temp):
                    sample_id = self.driver._get_resource_sample_id(self.driver._wf_name, i)  # 从0开始计数
                    pdf, txt = self.driver.get_data_file(i + 1)
-                    device_id = self.driver.device_id if hasattr(self.driver, "device_id") else "default"
-                    oss_upload(pdf, f"hplc/{sample_id}/{os.path.basename(pdf)}", process_key="example", device_id=device_id)
-                    oss_upload(txt, f"hplc/{sample_id}/{os.path.basename(txt)}", process_key="HPLC-txt-result", device_id=device_id)
+                    # 使用新的OSS上传接口，传入driver_name和exp_type
+                    pdf_result = oss_upload(pdf, filename=os.path.basename(pdf), driver_name="HPLC", exp_type="analysis")
+                    txt_result = oss_upload(txt, filename=os.path.basename(txt), driver_name="HPLC", exp_type="result")
+                    
+                    if pdf_result["success"]:
+                        print(f"PDF上传成功: {pdf_result['oss_path']}")
+                    else:
+                        print(f"PDF上传失败: {pdf_result['original_path']}")
+                    
+                    if txt_result["success"]:
+                        print(f"TXT上传成功: {txt_result['oss_path']}")
+                    else:
+                        print(f"TXT上传失败: {txt_result['original_path']}")
                    # self.driver.extract_data_from_txt()
        except Exception as ex:
            self.driver._finished = 0
@@ -456,8 +466,12 @@ if __name__ == "__main__":
    }
    sample_id = obj._get_resource_sample_id("test", 0)
    pdf, txt = obj.get_data_file("1", after_time=datetime(2024, 11, 6, 19, 3, 6))
-    oss_upload(pdf, f"hplc/{sample_id}/{os.path.basename(pdf)}", process_key="example")
-    oss_upload(txt, f"hplc/{sample_id}/{os.path.basename(txt)}", process_key="HPLC-txt-result")
+    # 使用新的OSS上传接口，传入driver_name和exp_type
+    pdf_result = oss_upload(pdf, filename=os.path.basename(pdf), driver_name="HPLC", exp_type="analysis")
+    txt_result = oss_upload(txt, filename=os.path.basename(txt), driver_name="HPLC", exp_type="result")
+    
+    print(f"PDF上传结果: {pdf_result}")
+    print(f"TXT上传结果: {txt_result}")
    # driver = HPLCDriver()
    # for i in range(10000):
    #     print({k: v for k, v in driver._device_status.items() if isinstance(v, str)})
--- a/unilabos/devices/laiyu_liquid_test/init.py
+++ b/unilabos/devices/laiyu_liquid_test/init.py
--- a/unilabos/devices/liquid_handling/laiyu/init.py
+++ b/unilabos/devices/liquid_handling/laiyu/init.py
--- a/unilabos/devices/liquid_handling/liquid_handler_abstract.py
+++ b/unilabos/devices/liquid_handling/liquid_handler_abstract.py
@@ -147,6 +147,9 @@ class LiquidHandlerMiddleware(LiquidHandler):
        offsets: Optional[List[Coordinate]] = None,
        **backend_kwargs,
    ):
+        # 如果 use_channels 为 None，使用默认值（所有通道）
+        if use_channels is None:
+            use_channels = list(range(self.channel_num))
        if not offsets or (isinstance(offsets, list) and len(offsets) != len(use_channels)):
            offsets = [Coordinate.zero()] * len(use_channels)
        if self._simulator:
@@ -759,7 +762,7 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
                            blow_out_air_volume=current_dis_blow_out_air_volume,
                            spread=spread,
                        )
-                        if delays is not None:
+                        if delays is not None and len(delays) > 1:
                            await self.custom_delay(seconds=delays[1])
                        await self.touch_tip(current_targets)
                        await self.discard_tips()        
@@ -833,17 +836,19 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
                            spread=spread,
                        )

-                        if delays is not None:
+                        if delays is not None and len(delays) > 1:
                            await self.custom_delay(seconds=delays[1])
-                        await self.mix(
-                            targets=[targets[_]],
-                            mix_time=mix_time,
-                            mix_vol=mix_vol,
-                            offsets=offsets if offsets else None,
-                            height_to_bottom=mix_liquid_height if mix_liquid_height else None,
-                            mix_rate=mix_rate if mix_rate else None,
-                        )
-                        if delays is not None:
+                        # 只有在 mix_time 有效时才调用 mix
+                        if mix_time is not None and mix_time > 0:
+                            await self.mix(
+                                targets=[targets[_]],
+                                mix_time=mix_time,
+                                mix_vol=mix_vol,
+                                offsets=offsets if offsets else None,
+                                height_to_bottom=mix_liquid_height if mix_liquid_height else None,
+                                mix_rate=mix_rate if mix_rate else None,
+                            )
+                        if delays is not None and len(delays) > 1:
                            await self.custom_delay(seconds=delays[1])
                        await self.touch_tip(targets[_])
                        await self.discard_tips()
@@ -893,18 +898,20 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
                            blow_out_air_volume=current_dis_blow_out_air_volume,
                            spread=spread,
                        )
-                        if delays is not None:
+                        if delays is not None and len(delays) > 1:
                            await self.custom_delay(seconds=delays[1])

-                        await self.mix(
-                            targets=current_targets,
-                            mix_time=mix_time,
-                            mix_vol=mix_vol,
-                            offsets=offsets if offsets else None,
-                            height_to_bottom=mix_liquid_height if mix_liquid_height else None,
-                            mix_rate=mix_rate if mix_rate else None,
-                        )
-                        if delays is not None:
+                        # 只有在 mix_time 有效时才调用 mix
+                        if mix_time is not None and mix_time > 0:
+                            await self.mix(
+                                targets=current_targets,
+                                mix_time=mix_time,
+                                mix_vol=mix_vol,
+                                offsets=offsets if offsets else None,
+                                height_to_bottom=mix_liquid_height if mix_liquid_height else None,
+                                mix_rate=mix_rate if mix_rate else None,
+                            )
+                        if delays is not None and len(delays) > 1:
                            await self.custom_delay(seconds=delays[1])
                        await self.touch_tip(current_targets)
                        await self.discard_tips()
@@ -942,60 +949,158 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
        delays: Optional[List[int]] = None,
        none_keys: List[str] = [],
    ):
-        """Transfer liquid from each *source* well/plate to the corresponding *target*.
+        """Transfer liquid with automatic mode detection.
+
+        Supports three transfer modes:
+        1. One-to-many (1 source -> N targets): Distribute from one source to multiple targets
+        2. One-to-one (N sources -> N targets): Standard transfer, each source to corresponding target
+        3. Many-to-one (N sources -> 1 target): Combine multiple sources into one target

        Parameters
        ----------
        asp_vols, dis_vols
-            Single volume (µL) or list matching the number of transfers.
+            Single volume (µL) or list. Automatically expanded based on transfer mode.
        sources, targets
-            Same‑length sequences of containers (wells or plates). In 96‑well mode
-            each must contain exactly one plate.
+            Containers (wells or plates). Length determines transfer mode:
+            - len(sources) == 1, len(targets) > 1: One-to-many mode
+            - len(sources) == len(targets): One-to-one mode
+            - len(sources) > 1, len(targets) == 1: Many-to-one mode
        tip_racks
            One or more TipRacks providing fresh tips.
        is_96_well
            Set *True* to use the 96‑channel head.
        """
-
-
+        
+        # 确保 use_channels 有默认值
+        if use_channels is None:
+            use_channels = [0] if self.channel_num >= 1 else list(range(self.channel_num))
+        
        if is_96_well:
            pass  # This mode is not verified.
        else:
-            if len(asp_vols) != len(targets):
-                raise ValueError(f"Length of `asp_vols` {len(asp_vols)} must match `targets` {len(targets)}.")
+            # 转换体积参数为列表
+            if isinstance(asp_vols, (int, float)):
+                asp_vols = [float(asp_vols)]
+            else:
+                asp_vols = [float(v) for v in asp_vols]
+            
+            if isinstance(dis_vols, (int, float)):
+                dis_vols = [float(dis_vols)]
+            else:
+                dis_vols = [float(v) for v in dis_vols]

-            # 首先应该对任务分组，然后每次1个/8个进行操作处理
-            if len(use_channels) == 1:
-                for _ in range(len(targets)):
-                    tip = []
-                    for ___ in range(len(use_channels)):
-                        tip.extend(next(self.current_tip))
-                    await self.pick_up_tips(tip)
+        # 统一混合次数为标量，防止数组/列表与 int 比较时报错
+        if mix_times is not None and not isinstance(mix_times, (int, float)):
+            try:
+                mix_times = mix_times[0] if len(mix_times) > 0 else None
+            except Exception:
+                try:
+                    mix_times = next(iter(mix_times))
+                except Exception:
+                    pass
+        if mix_times is not None:
+            mix_times = int(mix_times)
+            
+            # 识别传输模式
+            num_sources = len(sources)
+            num_targets = len(targets)
+            
+            if num_sources == 1 and num_targets > 1:
+                # 模式1: 一对多 (1 source -> N targets)
+                await self._transfer_one_to_many(
+                    sources[0], targets, tip_racks, use_channels,
+                    asp_vols, dis_vols, asp_flow_rates, dis_flow_rates,
+                    offsets, touch_tip, liquid_height, blow_out_air_volume,
+                    spread, mix_stage, mix_times, mix_vol, mix_rate,
+                    mix_liquid_height, delays
+                )
+            elif num_sources > 1 and num_targets == 1:
+                # 模式2: 多对一 (N sources -> 1 target)
+                await self._transfer_many_to_one(
+                    sources, targets[0], tip_racks, use_channels,
+                    asp_vols, dis_vols, asp_flow_rates, dis_flow_rates,
+                    offsets, touch_tip, liquid_height, blow_out_air_volume,
+                    spread, mix_stage, mix_times, mix_vol, mix_rate,
+                    mix_liquid_height, delays
+                )
+            elif num_sources == num_targets:
+                # 模式3: 一对一 (N sources -> N targets) - 原有逻辑
+                await self._transfer_one_to_one(
+                    sources, targets, tip_racks, use_channels,
+                    asp_vols, dis_vols, asp_flow_rates, dis_flow_rates,
+                    offsets, touch_tip, liquid_height, blow_out_air_volume,
+                    spread, mix_stage, mix_times, mix_vol, mix_rate,
+                    mix_liquid_height, delays
+                )
+            else:
+                raise ValueError(
+                    f"Unsupported transfer mode: {num_sources} sources -> {num_targets} targets. "
+                    "Supported modes: 1->N, N->1, or N->N."
+                )

-                    await self.aspirate(
-                        resources=[sources[_]],
-                        vols=[asp_vols[_]],
-                        use_channels=use_channels,
-                        flow_rates=[asp_flow_rates[0]] if asp_flow_rates else None,
-                        offsets=[offsets[0]] if offsets else None,
-                        liquid_height=[liquid_height[0]] if liquid_height else None,
-                        blow_out_air_volume=[blow_out_air_volume[0]] if blow_out_air_volume else None,
-                        spread=spread,
-                    )
-                    if delays is not None:
-                        await self.custom_delay(seconds=delays[0])
-                    await self.dispense(
-                        resources=[targets[_]],
-                        vols=[dis_vols[_]],
-                        use_channels=use_channels,
-                        flow_rates=[dis_flow_rates[1]] if dis_flow_rates else None,
-                        offsets=[offsets[1]] if offsets else None,
-                        blow_out_air_volume=[blow_out_air_volume[1]] if blow_out_air_volume else None,
-                        liquid_height=[liquid_height[1]] if liquid_height else None,
-                        spread=spread,
-                    )
-                    if delays is not None:
-                        await self.custom_delay(seconds=delays[1])
+    async def _transfer_one_to_one(
+        self,
+        sources: Sequence[Container],
+        targets: Sequence[Container],
+        tip_racks: Sequence[TipRack],
+        use_channels: List[int],
+        asp_vols: List[float],
+        dis_vols: List[float],
+        asp_flow_rates: Optional[List[Optional[float]]],
+        dis_flow_rates: Optional[List[Optional[float]]],
+        offsets: Optional[List[Coordinate]],
+        touch_tip: bool,
+        liquid_height: Optional[List[Optional[float]]],
+        blow_out_air_volume: Optional[List[Optional[float]]],
+        spread: Literal["wide", "tight", "custom"],
+        mix_stage: Optional[Literal["none", "before", "after", "both"]],
+        mix_times: Optional[int],
+        mix_vol: Optional[int],
+        mix_rate: Optional[int],
+        mix_liquid_height: Optional[float],
+        delays: Optional[List[int]],
+    ):
+        """一对一传输模式：N sources -> N targets"""
+        # 验证参数长度
+        if len(asp_vols) != len(targets):
+            raise ValueError(f"Length of `asp_vols` {len(asp_vols)} must match `targets` {len(targets)}.")
+        if len(dis_vols) != len(targets):
+            raise ValueError(f"Length of `dis_vols` {len(dis_vols)} must match `targets` {len(targets)}.")
+        if len(sources) != len(targets):
+            raise ValueError(f"Length of `sources` {len(sources)} must match `targets` {len(targets)}.")
+
+        if len(use_channels) == 1:
+            for _ in range(len(targets)):
+                tip = []
+                for ___ in range(len(use_channels)):
+                    tip.extend(next(self.current_tip))
+                await self.pick_up_tips(tip)
+
+                await self.aspirate(
+                    resources=[sources[_]],
+                    vols=[asp_vols[_]],
+                    use_channels=use_channels,
+                    flow_rates=[asp_flow_rates[_]] if asp_flow_rates and len(asp_flow_rates) > _ else None,
+                    offsets=[offsets[_]] if offsets and len(offsets) > _ else None,
+                    liquid_height=[liquid_height[_]] if liquid_height and len(liquid_height) > _ else None,
+                    blow_out_air_volume=[blow_out_air_volume[_]] if blow_out_air_volume and len(blow_out_air_volume) > _ else None,
+                    spread=spread,
+                )
+                if delays is not None:
+                    await self.custom_delay(seconds=delays[0])
+                await self.dispense(
+                    resources=[targets[_]],
+                    vols=[dis_vols[_]],
+                    use_channels=use_channels,
+                    flow_rates=[dis_flow_rates[_]] if dis_flow_rates and len(dis_flow_rates) > _ else None,
+                    offsets=[offsets[_]] if offsets and len(offsets) > _ else None,
+                    blow_out_air_volume=[blow_out_air_volume[_]] if blow_out_air_volume and len(blow_out_air_volume) > _ else None,
+                    liquid_height=[liquid_height[_]] if liquid_height and len(liquid_height) > _ else None,
+                    spread=spread,
+                )
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                if mix_stage in ["after", "both"] and mix_times is not None and mix_times > 0:
                    await self.mix(
                        targets=[targets[_]],
                        mix_time=mix_times,
@@ -1004,63 +1109,60 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
                        height_to_bottom=mix_liquid_height if mix_liquid_height else None,
                        mix_rate=mix_rate if mix_rate else None,
                    )
-                    if delays is not None:
-                        await self.custom_delay(seconds=delays[1])
-                    await self.touch_tip(targets[_])
-                    await self.discard_tips()
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                await self.touch_tip(targets[_])
+                await self.discard_tips(use_channels=use_channels)

-            elif len(use_channels) == 8:
-                # 对于8个的情况，需要判断此时任务是不是能被8通道移液站来成功处理
-                if len(targets) % 8 != 0:
-                    raise ValueError(f"Length of `targets` {len(targets)} must be a multiple of 8 for 8-channel mode.")
+        elif len(use_channels) == 8:
+            if len(targets) % 8 != 0:
+                raise ValueError(f"Length of `targets` {len(targets)} must be a multiple of 8 for 8-channel mode.")

-                # 8个8个来取任务序列
+            for i in range(0, len(targets), 8):
+                tip = []
+                for _ in range(len(use_channels)):
+                    tip.extend(next(self.current_tip))
+                await self.pick_up_tips(tip)
+                current_targets = targets[i:i + 8]
+                current_reagent_sources = sources[i:i + 8]
+                current_asp_vols = asp_vols[i:i + 8]
+                current_dis_vols = dis_vols[i:i + 8]
+                current_asp_flow_rates = asp_flow_rates[i:i + 8] if asp_flow_rates else None
+                current_asp_offset = offsets[i:i + 8] if offsets else [None] * 8
+                current_dis_offset = offsets[i:i + 8] if offsets else [None] * 8
+                current_asp_liquid_height = liquid_height[i:i + 8] if liquid_height else [None] * 8
+                current_dis_liquid_height = liquid_height[i:i + 8] if liquid_height else [None] * 8
+                current_asp_blow_out_air_volume = blow_out_air_volume[i:i + 8] if blow_out_air_volume else [None] * 8
+                current_dis_blow_out_air_volume = blow_out_air_volume[i:i + 8] if blow_out_air_volume else [None] * 8
+                current_dis_flow_rates = dis_flow_rates[i:i + 8] if dis_flow_rates else None

-                for i in range(0, len(targets), 8):
-                    # 取出8个任务
-                    tip = []
-                    for _ in range(len(use_channels)):
-                        tip.extend(next(self.current_tip))
-                    await self.pick_up_tips(tip)
-                    current_targets = targets[i:i + 8]
-                    current_reagent_sources = sources[i:i + 8]
-                    current_asp_vols = asp_vols[i:i + 8]
-                    current_dis_vols = dis_vols[i:i + 8]
-                    current_asp_flow_rates = asp_flow_rates[i:i + 8]
-                    current_asp_offset = offsets[i:i + 8] if offsets else [None] * 8
-                    current_dis_offset = offsets[-i*8-8:len(offsets)-i*8] if offsets else [None] * 8
-                    current_asp_liquid_height = liquid_height[i:i + 8] if liquid_height else [None] * 8
-                    current_dis_liquid_height = liquid_height[-i*8-8:len(liquid_height)-i*8] if liquid_height else [None] * 8
-                    current_asp_blow_out_air_volume = blow_out_air_volume[i:i + 8] if blow_out_air_volume else [None] * 8
-                    current_dis_blow_out_air_volume = blow_out_air_volume[-i*8-8:len(blow_out_air_volume)-i*8] if blow_out_air_volume else [None] * 8
-                    current_dis_flow_rates = dis_flow_rates[i:i + 8] if dis_flow_rates else [None] * 8
+                await self.aspirate(
+                    resources=current_reagent_sources,
+                    vols=current_asp_vols,
+                    use_channels=use_channels,
+                    flow_rates=current_asp_flow_rates,
+                    offsets=current_asp_offset,
+                    blow_out_air_volume=current_asp_blow_out_air_volume,
+                    liquid_height=current_asp_liquid_height,
+                    spread=spread,
+                )

-                    await self.aspirate(
-                        resources=current_reagent_sources,
-                        vols=current_asp_vols,
-                        use_channels=use_channels,
-                        flow_rates=current_asp_flow_rates,
-                        offsets=current_asp_offset,
-                        blow_out_air_volume=current_asp_blow_out_air_volume,
-                        liquid_height=current_asp_liquid_height,
-                        spread=spread,
-                    )
-
-                    if delays is not None:
-                        await self.custom_delay(seconds=delays[0])
-                    await self.dispense(
-                        resources=current_targets,
-                        vols=current_dis_vols,
-                        use_channels=use_channels,
-                        flow_rates=current_dis_flow_rates,
-                        offsets=current_dis_offset,
-                        blow_out_air_volume=current_dis_blow_out_air_volume,
-                        liquid_height=current_dis_liquid_height,
-                        spread=spread,
-                    )
-                    if delays is not None:
-                        await self.custom_delay(seconds=delays[1])
+                if delays is not None:
+                    await self.custom_delay(seconds=delays[0])
+                await self.dispense(
+                    resources=current_targets,
+                    vols=current_dis_vols,
+                    use_channels=use_channels,
+                    flow_rates=current_dis_flow_rates,
+                    offsets=current_dis_offset,
+                    blow_out_air_volume=current_dis_blow_out_air_volume,
+                    liquid_height=current_dis_liquid_height,
+                    spread=spread,
+                )
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])

+                if mix_stage in ["after", "both"] and mix_times is not None and mix_times > 0:
                    await self.mix(
                        targets=current_targets,
                        mix_time=mix_times,
@@ -1069,10 +1171,363 @@ class LiquidHandlerAbstract(LiquidHandlerMiddleware):
                        height_to_bottom=mix_liquid_height if mix_liquid_height else None,
                        mix_rate=mix_rate if mix_rate else None,
                    )
-                    if delays is not None:
-                        await self.custom_delay(seconds=delays[1])
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                await self.touch_tip(current_targets)
+                await self.discard_tips([0,1,2,3,4,5,6,7])
+
+    async def _transfer_one_to_many(
+        self,
+        source: Container,
+        targets: Sequence[Container],
+        tip_racks: Sequence[TipRack],
+        use_channels: List[int],
+        asp_vols: List[float],
+        dis_vols: List[float],
+        asp_flow_rates: Optional[List[Optional[float]]],
+        dis_flow_rates: Optional[List[Optional[float]]],
+        offsets: Optional[List[Coordinate]],
+        touch_tip: bool,
+        liquid_height: Optional[List[Optional[float]]],
+        blow_out_air_volume: Optional[List[Optional[float]]],
+        spread: Literal["wide", "tight", "custom"],
+        mix_stage: Optional[Literal["none", "before", "after", "both"]],
+        mix_times: Optional[int],
+        mix_vol: Optional[int],
+        mix_rate: Optional[int],
+        mix_liquid_height: Optional[float],
+        delays: Optional[List[int]],
+    ):
+        """一对多传输模式：1 source -> N targets"""
+        # 验证和扩展体积参数
+        if len(asp_vols) == 1:
+            # 如果只提供一个吸液体积，计算总吸液体积（所有分液体积之和）
+            total_asp_vol = sum(dis_vols)
+            asp_vol = asp_vols[0] if asp_vols[0] >= total_asp_vol else total_asp_vol
+        else:
+            raise ValueError("For one-to-many mode, `asp_vols` should be a single value or list with one element.")
+        
+        if len(dis_vols) != len(targets):
+            raise ValueError(f"Length of `dis_vols` {len(dis_vols)} must match `targets` {len(targets)}.")
+
+        if len(use_channels) == 1:
+            # 单通道模式：一次吸液，多次分液
+            tip = []
+            for _ in range(len(use_channels)):
+                tip.extend(next(self.current_tip))
+            await self.pick_up_tips(tip)
+
+            # 从源容器吸液（总体积）
+            await self.aspirate(
+                resources=[source],
+                vols=[asp_vol],
+                use_channels=use_channels,
+                flow_rates=[asp_flow_rates[0]] if asp_flow_rates and len(asp_flow_rates) > 0 else None,
+                offsets=[offsets[0]] if offsets and len(offsets) > 0 else None,
+                liquid_height=[liquid_height[0]] if liquid_height and len(liquid_height) > 0 else None,
+                blow_out_air_volume=[blow_out_air_volume[0]] if blow_out_air_volume and len(blow_out_air_volume) > 0 else None,
+                spread=spread,
+            )
+            
+            if delays is not None:
+                await self.custom_delay(seconds=delays[0])
+            
+            # 分多次分液到不同的目标容器
+            for idx, target in enumerate(targets):
+                await self.dispense(
+                    resources=[target],
+                    vols=[dis_vols[idx]],
+                    use_channels=use_channels,
+                    flow_rates=[dis_flow_rates[idx]] if dis_flow_rates and len(dis_flow_rates) > idx else None,
+                    offsets=[offsets[idx]] if offsets and len(offsets) > idx else None,
+                    blow_out_air_volume=[blow_out_air_volume[idx]] if blow_out_air_volume and len(blow_out_air_volume) > idx else None,
+                    liquid_height=[liquid_height[idx]] if liquid_height and len(liquid_height) > idx else None,
+                    spread=spread,
+                )
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                if mix_stage in ["after", "both"] and mix_times is not None and mix_times > 0:
+                    await self.mix(
+                        targets=[target],
+                        mix_time=mix_times,
+                        mix_vol=mix_vol,
+                        offsets=offsets[idx:idx+1] if offsets else None,
+                        height_to_bottom=mix_liquid_height if mix_liquid_height else None,
+                        mix_rate=mix_rate if mix_rate else None,
+                    )
+                if touch_tip:
+                    await self.touch_tip([target])
+            
+            await self.discard_tips(use_channels=use_channels)
+        
+        elif len(use_channels) == 8:
+            # 8通道模式：需要确保目标数量是8的倍数
+            if len(targets) % 8 != 0:
+                raise ValueError(f"For 8-channel mode, number of targets {len(targets)} must be a multiple of 8.")
+            
+            # 每次处理8个目标
+            for i in range(0, len(targets), 8):
+                tip = []
+                for _ in range(len(use_channels)):
+                    tip.extend(next(self.current_tip))
+                await self.pick_up_tips(tip)
+                
+                current_targets = targets[i:i + 8]
+                current_dis_vols = dis_vols[i:i + 8]
+                
+                # 8个通道都从同一个源容器吸液，每个通道的吸液体积等于对应的分液体积
+                current_asp_flow_rates = asp_flow_rates[0:1] * 8 if asp_flow_rates and len(asp_flow_rates) > 0 else None
+                current_asp_offset = offsets[0:1] * 8 if offsets and len(offsets) > 0 else [None] * 8
+                current_asp_liquid_height = liquid_height[0:1] * 8 if liquid_height and len(liquid_height) > 0 else [None] * 8
+                current_asp_blow_out_air_volume = blow_out_air_volume[0:1] * 8 if blow_out_air_volume and len(blow_out_air_volume) > 0 else [None] * 8
+                
+                # 从源容器吸液（8个通道都从同一个源，但每个通道的吸液体积不同）
+                await self.aspirate(
+                    resources=[source] * 8,  # 8个通道都从同一个源
+                    vols=current_dis_vols,  # 每个通道的吸液体积等于对应的分液体积
+                    use_channels=use_channels,
+                    flow_rates=current_asp_flow_rates,
+                    offsets=current_asp_offset,
+                    liquid_height=current_asp_liquid_height,
+                    blow_out_air_volume=current_asp_blow_out_air_volume,
+                    spread=spread,
+                )
+                
+                if delays is not None:
+                    await self.custom_delay(seconds=delays[0])
+                
+                # 分液到8个目标
+                current_dis_flow_rates = dis_flow_rates[i:i + 8] if dis_flow_rates else None
+                current_dis_offset = offsets[i:i + 8] if offsets else [None] * 8
+                current_dis_liquid_height = liquid_height[i:i + 8] if liquid_height else [None] * 8
+                current_dis_blow_out_air_volume = blow_out_air_volume[i:i + 8] if blow_out_air_volume else [None] * 8
+                
+                await self.dispense(
+                    resources=current_targets,
+                    vols=current_dis_vols,
+                    use_channels=use_channels,
+                    flow_rates=current_dis_flow_rates,
+                    offsets=current_dis_offset,
+                    blow_out_air_volume=current_dis_blow_out_air_volume,
+                    liquid_height=current_dis_liquid_height,
+                    spread=spread,
+                )
+                
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                
+                if mix_stage in ["after", "both"] and mix_times is not None and mix_times > 0:
+                    await self.mix(
+                        targets=current_targets,
+                        mix_time=mix_times,
+                        mix_vol=mix_vol,
+                        offsets=offsets if offsets else None,
+                        height_to_bottom=mix_liquid_height if mix_liquid_height else None,
+                        mix_rate=mix_rate if mix_rate else None,
+                    )
+                
+                if touch_tip:
                    await self.touch_tip(current_targets)
-                    await self.discard_tips([0,1,2,3,4,5,6,7])
+                
+                await self.discard_tips([0,1,2,3,4,5,6,7])
+
+    async def _transfer_many_to_one(
+        self,
+        sources: Sequence[Container],
+        target: Container,
+        tip_racks: Sequence[TipRack],
+        use_channels: List[int],
+        asp_vols: List[float],
+        dis_vols: List[float],
+        asp_flow_rates: Optional[List[Optional[float]]],
+        dis_flow_rates: Optional[List[Optional[float]]],
+        offsets: Optional[List[Coordinate]],
+        touch_tip: bool,
+        liquid_height: Optional[List[Optional[float]]],
+        blow_out_air_volume: Optional[List[Optional[float]]],
+        spread: Literal["wide", "tight", "custom"],
+        mix_stage: Optional[Literal["none", "before", "after", "both"]],
+        mix_times: Optional[int],
+        mix_vol: Optional[int],
+        mix_rate: Optional[int],
+        mix_liquid_height: Optional[float],
+        delays: Optional[List[int]],
+    ):
+        """多对一传输模式：N sources -> 1 target（汇总/混合）"""
+        # 验证和扩展体积参数
+        if len(asp_vols) != len(sources):
+            raise ValueError(f"Length of `asp_vols` {len(asp_vols)} must match `sources` {len(sources)}.")
+        
+        # 支持两种模式：
+        # 1. dis_vols 为单个值：所有源汇总，使用总吸液体积或指定分液体积
+        # 2. dis_vols 长度等于 asp_vols：每个源按不同比例分液（按比例混合）
+        if len(dis_vols) == 1:
+            # 模式1：使用单个分液体积
+            total_dis_vol = sum(asp_vols)
+            dis_vol = dis_vols[0] if dis_vols[0] >= total_dis_vol else total_dis_vol
+            use_proportional_mixing = False
+        elif len(dis_vols) == len(asp_vols):
+            # 模式2：按不同比例混合
+            use_proportional_mixing = True
+        else:
+            raise ValueError(
+                f"For many-to-one mode, `dis_vols` should be a single value or list with length {len(asp_vols)} "
+                f"(matching `asp_vols`). Got length {len(dis_vols)}."
+            )
+
+        if len(use_channels) == 1:
+            # 单通道模式：多次吸液，一次分液
+            # 先混合前（如果需要）
+            if mix_stage in ["before", "both"] and mix_times is not None and mix_times > 0:
+                # 注意：在吸液前混合源容器通常不常见，这里跳过
+                pass
+            
+            # 从每个源容器吸液并分液到目标容器
+            for idx, source in enumerate(sources):
+                tip = []
+                for _ in range(len(use_channels)):
+                    tip.extend(next(self.current_tip))
+                await self.pick_up_tips(tip)
+
+                await self.aspirate(
+                    resources=[source],
+                    vols=[asp_vols[idx]],
+                    use_channels=use_channels,
+                    flow_rates=[asp_flow_rates[idx]] if asp_flow_rates and len(asp_flow_rates) > idx else None,
+                    offsets=[offsets[idx]] if offsets and len(offsets) > idx else None,
+                    liquid_height=[liquid_height[idx]] if liquid_height and len(liquid_height) > idx else None,
+                    blow_out_air_volume=[blow_out_air_volume[idx]] if blow_out_air_volume and len(blow_out_air_volume) > idx else None,
+                    spread=spread,
+                )
+                
+                if delays is not None:
+                    await self.custom_delay(seconds=delays[0])
+                
+                # 分液到目标容器
+                if use_proportional_mixing:
+                    # 按不同比例混合：使用对应的 dis_vols
+                    dis_vol = dis_vols[idx]
+                    dis_flow_rate = dis_flow_rates[idx] if dis_flow_rates and len(dis_flow_rates) > idx else None
+                    dis_offset = offsets[idx] if offsets and len(offsets) > idx else None
+                    dis_liquid_height = liquid_height[idx] if liquid_height and len(liquid_height) > idx else None
+                    dis_blow_out = blow_out_air_volume[idx] if blow_out_air_volume and len(blow_out_air_volume) > idx else None
+                else:
+                    # 标准模式：分液体积等于吸液体积
+                    dis_vol = asp_vols[idx]
+                    dis_flow_rate = dis_flow_rates[0] if dis_flow_rates and len(dis_flow_rates) > 0 else None
+                    dis_offset = offsets[0] if offsets and len(offsets) > 0 else None
+                    dis_liquid_height = liquid_height[0] if liquid_height and len(liquid_height) > 0 else None
+                    dis_blow_out = blow_out_air_volume[0] if blow_out_air_volume and len(blow_out_air_volume) > 0 else None
+                
+                await self.dispense(
+                    resources=[target],
+                    vols=[dis_vol],
+                    use_channels=use_channels,
+                    flow_rates=[dis_flow_rate] if dis_flow_rate is not None else None,
+                    offsets=[dis_offset] if dis_offset is not None else None,
+                    blow_out_air_volume=[dis_blow_out] if dis_blow_out is not None else None,
+                    liquid_height=[dis_liquid_height] if dis_liquid_height is not None else None,
+                    spread=spread,
+                )
+                
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                
+                await self.discard_tips(use_channels=use_channels)
+            
+            # 最后在目标容器中混合（如果需要）
+            if mix_stage in ["after", "both"] and mix_times is not None and mix_times > 0:
+                await self.mix(
+                    targets=[target],
+                    mix_time=mix_times,
+                    mix_vol=mix_vol,
+                    offsets=offsets[0:1] if offsets else None,
+                    height_to_bottom=mix_liquid_height if mix_liquid_height else None,
+                    mix_rate=mix_rate if mix_rate else None,
+                )
+            
+            if touch_tip:
+                await self.touch_tip([target])
+        
+        elif len(use_channels) == 8:
+            # 8通道模式：需要确保源数量是8的倍数
+            if len(sources) % 8 != 0:
+                raise ValueError(f"For 8-channel mode, number of sources {len(sources)} must be a multiple of 8.")
+            
+            # 每次处理8个源
+            for i in range(0, len(sources), 8):
+                tip = []
+                for _ in range(len(use_channels)):
+                    tip.extend(next(self.current_tip))
+                await self.pick_up_tips(tip)
+                
+                current_sources = sources[i:i + 8]
+                current_asp_vols = asp_vols[i:i + 8]
+                current_asp_flow_rates = asp_flow_rates[i:i + 8] if asp_flow_rates else None
+                current_asp_offset = offsets[i:i + 8] if offsets else [None] * 8
+                current_asp_liquid_height = liquid_height[i:i + 8] if liquid_height else [None] * 8
+                current_asp_blow_out_air_volume = blow_out_air_volume[i:i + 8] if blow_out_air_volume else [None] * 8
+                
+                # 从8个源容器吸液
+                await self.aspirate(
+                    resources=current_sources,
+                    vols=current_asp_vols,
+                    use_channels=use_channels,
+                    flow_rates=current_asp_flow_rates,
+                    offsets=current_asp_offset,
+                    blow_out_air_volume=current_asp_blow_out_air_volume,
+                    liquid_height=current_asp_liquid_height,
+                    spread=spread,
+                )
+                
+                if delays is not None:
+                    await self.custom_delay(seconds=delays[0])
+                
+                # 分液到目标容器（每个通道分液到同一个目标）
+                if use_proportional_mixing:
+                    # 按比例混合：使用对应的 dis_vols
+                    current_dis_vols = dis_vols[i:i + 8]
+                    current_dis_flow_rates = dis_flow_rates[i:i + 8] if dis_flow_rates else None
+                    current_dis_offset = offsets[i:i + 8] if offsets else [None] * 8
+                    current_dis_liquid_height = liquid_height[i:i + 8] if liquid_height else [None] * 8
+                    current_dis_blow_out_air_volume = blow_out_air_volume[i:i + 8] if blow_out_air_volume else [None] * 8
+                else:
+                    # 标准模式：每个通道分液体积等于其吸液体积
+                    current_dis_vols = current_asp_vols
+                    current_dis_flow_rates = dis_flow_rates[0:1] * 8 if dis_flow_rates else None
+                    current_dis_offset = offsets[0:1] * 8 if offsets else [None] * 8
+                    current_dis_liquid_height = liquid_height[0:1] * 8 if liquid_height else [None] * 8
+                    current_dis_blow_out_air_volume = blow_out_air_volume[0:1] * 8 if blow_out_air_volume else [None] * 8
+                
+                await self.dispense(
+                    resources=[target] * 8,  # 8个通道都分到同一个目标
+                    vols=current_dis_vols,
+                    use_channels=use_channels,
+                    flow_rates=current_dis_flow_rates,
+                    offsets=current_dis_offset,
+                    blow_out_air_volume=current_dis_blow_out_air_volume,
+                    liquid_height=current_dis_liquid_height,
+                    spread=spread,
+                )
+                
+                if delays is not None and len(delays) > 1:
+                    await self.custom_delay(seconds=delays[1])
+                
+                await self.discard_tips([0,1,2,3,4,5,6,7])
+            
+            # 最后在目标容器中混合（如果需要）
+            if mix_stage in ["after", "both"] and mix_times is not None and mix_times > 0:
+                await self.mix(
+                    targets=[target],
+                    mix_time=mix_times,
+                    mix_vol=mix_vol,
+                    offsets=offsets[0:1] if offsets else None,
+                    height_to_bottom=mix_liquid_height if mix_liquid_height else None,
+                    mix_rate=mix_rate if mix_rate else None,
+                )
+            
+            if touch_tip:
+                await self.touch_tip([target])

    # except Exception as e:
    #     traceback.print_exc()
--- a/unilabos/devices/liquid_handling/prcxi/prcxi.py
+++ b/unilabos/devices/liquid_handling/prcxi/prcxi.py
@@ -5,6 +5,7 @@ import json
 import os
 import socket
 import time
+import uuid
 from typing import Any, List, Dict, Optional, Tuple, TypedDict, Union, Sequence, Iterator, Literal

 from pylabrobot.liquid_handling import (
@@ -856,7 +857,30 @@ class PRCXI9300Api:

    def _raw_request(self, payload: str) -> str:
        if self.debug:
-            return " "
+            # 调试/仿真模式下直接返回可解析的模拟 JSON，避免后续 json.loads 报错
+            try:
+                req = json.loads(payload)
+                method = req.get("MethodName")
+            except Exception:
+                method = None
+
+            data: Any = True
+            if method in {"AddSolution"}:
+                data = str(uuid.uuid4())
+            elif method in {"AddWorkTabletMatrix", "AddWorkTabletMatrix2"}:
+                data = {"Success": True, "Message": "debug mock"}
+            elif method in {"GetErrorCode"}:
+                data = ""
+            elif method in {"RemoveErrorCodet", "Reset", "Start", "LoadSolution", "Pause", "Resume", "Stop"}:
+                data = True
+            elif method in {"GetStepStateList", "GetStepStatus", "GetStepState"}:
+                data = []
+            elif method in {"GetLocation"}:
+                data = {"X": 0, "Y": 0, "Z": 0}
+            elif method in {"GetResetStatus"}:
+                data = False
+
+            return json.dumps({"Success": True, "Msg": "debug mock", "Data": data})
        with contextlib.closing(socket.socket()) as sock:
            sock.settimeout(self.timeout)
            sock.connect((self.host, self.port))
--- a/unilabos/devices/separator/chinwe.py
+++ b/unilabos/devices/separator/chinwe.py
@@ -1,282 +1,649 @@
-import sys
-import threading
-import serial
-import serial.tools.list_ports
-import re
-import time
-from typing import Optional, List, Dict, Tuple
+# -*- coding: utf-8 -*-
+"""
+Contains drivers for:
+1. SyringePump: Runze Fluid SY-03B (ASCII)
+2. EmmMotor: Emm V5.0 Closed-loop Stepper (Modbus-RTU variant)
+3. XKCSensor: XKC Non-contact Level Sensor (Modbus-RTU)
+"""

-class ChinweDevice:
+import socket
+import serial
+import time
+import threading
+import struct
+import re
+import traceback
+import queue
+from typing import Optional, Dict, List, Any
+
+try:
+    from unilabos.device_comms.universal_driver import UniversalDriver
+except ImportError:
+    import logging
+    class UniversalDriver:
+        def __init__(self):
+            self.logger = logging.getLogger(self.__class__.__name__)
+
+        def execute_command_from_outer(self, command: str):
+            pass
+
+# ==============================================================================
+# 1. Transport Layer (通信层)
+# ==============================================================================
+
+class TransportManager:
    """
-    ChinWe设备控制类
-    提供串口通信、电机控制、传感器数据读取等功能
+    统一通信管理类。
+    自动识别 串口 (Serial) 或 网络 (TCP) 连接。
    """
-    
-    def __init__(self, port: str, baudrate: int = 115200, debug: bool = False):
-        """
-        初始化ChinWe设备
-        
-        Args:
-            port: 串口名称，如果为None则自动检测
-            baudrate: 波特率，默认115200
-        """
-        self.debug = debug
+    def __init__(self, port: str, baudrate: int = 9600, timeout: float = 3.0, logger=None):
        self.port = port
        self.baudrate = baudrate
-        self.serial_port: Optional[serial.Serial] = None
-        self._voltage: float = 0.0
-        self._ec_value: float = 0.0
-        self._ec_adc_value: int = 0
+        self.timeout = timeout
+        self.logger = logger
+        self.lock = threading.RLock() # 线程锁，确保多设备共用一个连接时不冲突
+
+        self.is_tcp = False
+        self.serial = None
+        self.socket = None
+
+        # 简单判断: 如果包含 ':' (如 192.168.1.1:8899) 或者看起来像 IP，则认为是 TCP
+        if ':' in self.port or (self.port.count('.') == 3 and not self.port.startswith('/')):
+            self.is_tcp = True
+            self._connect_tcp()
+        else:
+            self._connect_serial()
+
+    def _log(self, msg):
+        if self.logger:
+             pass
+            # self.logger.debug(f"[Transport] {msg}")
+
+    def _connect_tcp(self):
+        try:
+            if ':' in self.port:
+                host, p = self.port.split(':')
+                self.tcp_host = host
+                self.tcp_port = int(p)
+            else:
+                self.tcp_host = self.port
+                self.tcp_port = 8899 # 默认端口
+
+            # if self.logger: self.logger.info(f"Connecting TCP {self.tcp_host}:{self.tcp_port} ...")
+            self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
+            self.socket.settimeout(self.timeout)
+            self.socket.connect((self.tcp_host, self.tcp_port))
+        except Exception as e:
+            raise ConnectionError(f"TCP connection failed: {e}")
+
+    def _connect_serial(self):
+        try:
+            # if self.logger: self.logger.info(f"Opening Serial {self.port} (Baud: {self.baudrate}) ...")
+            self.serial = serial.Serial(
+                port=self.port,
+                baudrate=self.baudrate,
+                timeout=self.timeout
+            )
+        except Exception as e:
+            raise ConnectionError(f"Serial open failed: {e}")
+
+    def close(self):
+        """关闭连接"""
+        if self.is_tcp and self.socket:
+            try: self.socket.close()
+            except: pass
+        elif not self.is_tcp and self.serial and self.serial.is_open:
+            self.serial.close()
+
+    def clear_buffer(self):
+        """清空缓冲区 (Thread-safe)"""
+        with self.lock:
+            if self.is_tcp:
+                self.socket.setblocking(False)
+                try:
+                    while True:
+                        if not self.socket.recv(1024): break
+                except: pass
+                finally: self.socket.settimeout(self.timeout)
+            else:
+                self.serial.reset_input_buffer()
+
+    def write(self, data: bytes):
+        """发送原始字节"""
+        with self.lock:
+            if self.is_tcp:
+                self.socket.sendall(data)
+            else:
+                self.serial.write(data)
+
+    def read(self, size: int) -> bytes:
+        """读取指定长度字节"""
+        if self.is_tcp:
+            data = b''
+            start = time.time()
+            while len(data) < size:
+                if time.time() - start > self.timeout: break
+                try:
+                    chunk = self.socket.recv(size - len(data))
+                    if not chunk: break
+                    data += chunk
+                except socket.timeout: break
+            return data
+        else:
+            return self.serial.read(size)
+
+    def send_ascii_command(self, command: str) -> str:
+        """
+        发送 ASCII 字符串命令 (如注射泵指令)，读取直到 '\r'。
+        """
+        with self.lock:
+            data = command.encode('ascii') if isinstance(command, str) else command
+            self.clear_buffer()
+            self.write(data)
+
+            # Read until \r
+            if self.is_tcp:
+                resp = b''
+                start = time.time()
+                while True:
+                    if time.time() - start > self.timeout: break
+                    try:
+                        char = self.socket.recv(1)
+                        if not char: break
+                        resp += char
+                        if char == b'\r': break
+                    except: break
+                return resp.decode('ascii', errors='ignore').strip()
+            else:
+                return self.serial.read_until(b'\r').decode('ascii', errors='ignore').strip()
+
+# ==============================================================================
+# 2. Syringe Pump Driver (注射泵)
+# ==============================================================================
+
+class SyringePump:
+    """SY-03B 注射泵驱动 (ASCII协议)"""
+
+    CMD_INITIALIZE = "Z{speed},{drain_port},{output_port}R"
+    CMD_SWITCH_VALVE = "I{port}R"
+    CMD_ASPIRATE = "P{vol}R"
+    CMD_DISPENSE = "D{vol}R"
+    CMD_DISPENSE_ALL = "A0R"
+    CMD_STOP = "TR"
+    CMD_QUERY_STATUS = "Q"
+    CMD_QUERY_PLUNGER = "?0"
+
+    def __init__(self, device_id: int, transport: TransportManager):
+        if not 1 <= device_id <= 15:
+            pass # Allow all IDs for now
+        self.id = str(device_id)
+        self.transport = transport
+
+    def _send(self, template: str, **kwargs) -> str:
+        cmd = f"/{self.id}" + template.format(**kwargs) + "\r"
+        return self.transport.send_ascii_command(cmd)
+
+    def is_busy(self) -> bool:
+        """查询繁忙状态"""
+        resp = self._send(self.CMD_QUERY_STATUS)
+        # 响应如 /0` (Ready, 0x60) 或 /0@ (Busy, 0x40)
+        if len(resp) >= 3:
+            status_byte = ord(resp[2])
+            # Bit 5: 1=Ready, 0=Busy
+            return (status_byte & 0x20) == 0
+        return False
+
+    def wait_until_idle(self, timeout=30):
+        """阻塞等待直到空闲"""
+        start = time.time()
+        while time.time() - start < timeout:
+            if not self.is_busy(): return
+            time.sleep(0.5)
+        # raise TimeoutError(f"Pump {self.id} wait idle timeout")
+        pass
+
+    def initialize(self, drain_port=0, output_port=0, speed=10):
+        """初始化"""
+        self._send(self.CMD_INITIALIZE, speed=speed, drain_port=drain_port, output_port=output_port)
+
+    def switch_valve(self, port: int):
+        """切换阀门 (1-8)"""
+        self._send(self.CMD_SWITCH_VALVE, port=port)
+
+    def aspirate(self, steps: int):
+        """吸液 (相对步数)"""
+        self._send(self.CMD_ASPIRATE, vol=steps)
+
+    def dispense(self, steps: int):
+        """排液 (相对步数)"""
+        self._send(self.CMD_DISPENSE, vol=steps)
+
+    def stop(self):
+        """停止"""
+        self._send(self.CMD_STOP)
+
+    def get_position(self) -> int:
+        """获取柱塞位置 (步数)"""
+        resp = self._send(self.CMD_QUERY_PLUNGER)
+        m = re.search(r'\d+', resp)
+        return int(m.group()) if m else -1
+
+# ==============================================================================
+# 3. Stepper Motor Driver (步进电机)
+# ==============================================================================
+
+class EmmMotor:
+    """Emm V5.0 闭环步进电机驱动"""
+
+    def __init__(self, device_id: int, transport: TransportManager):
+        self.id = device_id
+        self.transport = transport
+
+    def _send(self, func_code: int, payload: list) -> bytes:
+        with self.transport.lock:
+            self.transport.clear_buffer()
+            # 格式: [ID] [Func] [Data...] [Check=0x6B]
+            body = [self.id, func_code] + payload
+            body.append(0x6B) # Checksum
+            self.transport.write(bytes(body))
+
+            # 根据指令不同，读取不同长度响应
+            read_len = 10 if func_code in [0x31, 0x32, 0x35, 0x24, 0x27] else 4
+            return self.transport.read(read_len)
+
+    def enable(self, on=True):
+        """使能 (True=锁轴, False=松轴)"""
+        state = 1 if on else 0
+        self._send(0xF3, [0xAB, state, 0])
+
+    def run_speed(self, speed_rpm: int, direction=0, acc=10):
+        """速度模式运行"""
+        sp = struct.pack('>H', int(speed_rpm))
+        self._send(0xF6, [direction, sp[0], sp[1], acc, 0])
+
+    def run_position(self, pulses: int, speed_rpm: int, direction=0, acc=10, absolute=False):
+        """位置模式运行"""
+        sp = struct.pack('>H', int(speed_rpm))
+        pl = struct.pack('>I', int(pulses))
+        is_abs = 1 if absolute else 0
+        self._send(0xFD, [direction, sp[0], sp[1], acc, pl[0], pl[1], pl[2], pl[3], is_abs, 0])
+
+    def stop(self):
+        """停止"""
+        self._send(0xFE, [0x98, 0])
+
+    def set_zero(self):
+        """清零位置"""
+        self._send(0x0A, [])
+
+    def get_position(self) -> int:
+        """获取当前脉冲位置"""
+        resp = self._send(0x32, [])
+        if len(resp) >= 8:
+            sign = resp[2]
+            val = struct.unpack('>I', resp[3:7])[0]
+            return -val if sign == 1 else val
+        return 0
+
+# ==============================================================================
+# 4. Liquid Sensor Driver (液位传感器)
+# ==============================================================================
+
+class XKCSensor:
+    """XKC RS485 液位传感器 (Modbus RTU)"""
+
+    def __init__(self, device_id: int, transport: TransportManager, threshold: int = 300):
+        self.id = device_id
+        self.transport = transport
+        self.threshold = threshold
+
+    def _crc(self, data: bytes) -> bytes:
+        crc = 0xFFFF
+        for byte in data:
+            crc ^= byte
+            for _ in range(8):
+                if crc & 0x0001: crc = (crc >> 1) ^ 0xA001
+                else: crc >>= 1
+        return struct.pack('<H', crc)
+
+    def read_level(self) -> Optional[Dict[str, Any]]:
+        """
+        读取液位。
+        返回: {'level': bool, 'rssi': int}
+        """
+        with self.transport.lock:
+            self.transport.clear_buffer()
+            # Modbus Read Registers: 01 03 00 01 00 02 CRC
+            payload = struct.pack('>HH', 0x0001, 0x0002)
+            msg = struct.pack('BB', self.id, 0x03) + payload
+            msg += self._crc(msg)
+            self.transport.write(msg)
+
+            # Read header
+            h = self.transport.read(3) # Addr, Func, Len
+            if len(h) < 3: return None
+            length = h[2]
+
+            # Read body + CRC
+            body = self.transport.read(length + 2)
+            if len(body) < length + 2:
+                # Firmware bug fix specific to some modules
+                if len(body) == 4 and length == 4:
+                    pass
+                else:
+                    return None
+
+            data = body[:-2]
+            if len(data) == 2:
+                rssi = data[1]
+            elif len(data) >= 4:
+                rssi = (data[2] << 8) | data[3]
+            else:
+                return None
+
+            return {
+                'level': rssi > self.threshold,
+                'rssi': rssi
+            }
+
+# ==============================================================================
+# 5. Main Device Class (ChinweDevice)
+# ==============================================================================
+
+class ChinweDevice(UniversalDriver):
+    """
+    ChinWe 工作站主驱动
+    继承自 UniversalDriver，管理所有子设备（泵、电机、传感器）
+    """
+
+    def __init__(self, port: str = "192.168.1.200:8899", baudrate: int = 9600,
+                 pump_ids: List[int] = None, motor_ids: List[int] = None,
+                 sensor_id: int = 6, sensor_threshold: int = 300,
+                 timeout: float = 10.0):
+        """
+        初始化 ChinWe 工作站
+        :param port: 串口号 或 IP:Port
+        :param baudrate: 串口波特率
+        :param pump_ids: 注射泵 ID列表 (默认 [1, 2, 3])
+        :param motor_ids: 步进电机 ID列表 (默认 [4, 5])
+        :param sensor_id: 液位传感器 ID (默认 6)
+        :param sensor_threshold: 传感器液位判定阈值
+        :param timeout: 通信超时时间 (默认 10秒)
+        """
+        super().__init__()
+        self.port = port
+        self.baudrate = baudrate
+        self.timeout = timeout
+        self.mgr = None
        self._is_connected = False
-        self.connect()
-    
+
+        # 默认配置
+        if pump_ids is None: pump_ids = [1, 2, 3]
+        if motor_ids is None: motor_ids = [4, 5]
+
+        # 配置信息
+        self.pump_ids = pump_ids
+        self.motor_ids = motor_ids
+        self.sensor_id = sensor_id
+        self.sensor_threshold = sensor_threshold
+
+        # 子设备实例容器
+        self.pumps: Dict[int, SyringePump] = {}
+        self.motors: Dict[int, EmmMotor] = {}
+        self.sensor: Optional[XKCSensor] = None
+
+        # 轮询线程控制
+        self._stop_event = threading.Event()
+        self._poll_thread = None
+
+        # 实时状态缓存
+        self.status_cache = {
+             "sensor_rssi": 0,
+             "sensor_level": False,
+             "connected": False
+        }
+
+        # 自动连接
+        if self.port:
+            self.connect()
+
+    def connect(self) -> bool:
+        if self._is_connected: return True
+        try:
+            self.logger.info(f"Connecting to {self.port} (timeout={self.timeout})...")
+            self.mgr = TransportManager(self.port, baudrate=self.baudrate, timeout=self.timeout, logger=self.logger)
+
+            # 初始化所有泵
+            for pid in self.pump_ids:
+                self.pumps[pid] = SyringePump(pid, self.mgr)
+
+            # 初始化所有电机
+            for mid in self.motor_ids:
+                self.motors[mid] = EmmMotor(mid, self.mgr)
+
+            # 初始化传感器
+            self.sensor = XKCSensor(self.sensor_id, self.mgr, self.sensor_threshold)
+
+            self._is_connected = True
+            self.status_cache["connected"] = True
+
+            # 启动轮询线程
+            self._start_polling()
+            return True
+        except Exception as e:
+            self.logger.error(f"Connection failed: {e}")
+            self._is_connected = False
+            self.status_cache["connected"] = False
+            return False
+
+    def disconnect(self):
+        self._stop_event.set()
+        if self._poll_thread:
+            self._poll_thread.join(timeout=2.0)
+
+        if self.mgr:
+            self.mgr.close()
+
+        self._is_connected = False
+        self.status_cache["connected"] = False
+        self.logger.info("Disconnected.")
+
+    def _start_polling(self):
+        """启动传感器轮询线程"""
+        if self._poll_thread and self._poll_thread.is_alive():
+            return
+
+        self._stop_event.clear()
+        self._poll_thread = threading.Thread(target=self._polling_loop, daemon=True, name="ChinwePoll")
+        self._poll_thread.start()
+
+    def _polling_loop(self):
+        """轮询主循环"""
+        self.logger.info("Sensor polling started.")
+        error_count = 0
+        while not self._stop_event.is_set():
+            if not self._is_connected or not self.sensor:
+                time.sleep(1)
+                continue
+
+            try:
+                # 获取传感器数据
+                data = self.sensor.read_level()
+                if data:
+                    self.status_cache["sensor_rssi"] = data['rssi']
+                    self.status_cache["sensor_level"] = data['level']
+                    error_count = 0
+                else:
+                    error_count += 1
+
+                # 降低轮询频率防止总线拥塞
+                time.sleep(0.2)
+
+            except Exception as e:
+                error_count += 1
+                if error_count > 10: # 连续错误记录日志
+                    # self.logger.error(f"Polling error: {e}")
+                    error_count = 0
+                time.sleep(1)
+
+    # --- 对外暴露属性 (Properties) ---
+
+    @property
+    def sensor_level(self) -> bool:
+        return self.status_cache["sensor_level"]
+
+    @property
+    def sensor_rssi(self) -> int:
+        return self.status_cache["sensor_rssi"]
+
    @property
    def is_connected(self) -> bool:
-        """获取连接状态"""
-        return self._is_connected and self.serial_port and self.serial_port.is_open
-    
-    @property
-    def voltage(self) -> float:
-        """获取电源电压值"""
-        return self._voltage
-    
-    @property
-    def ec_value(self) -> float:
-        """获取电导率值 (ms/cm)"""
-        return self._ec_value
+        return self._is_connected

-    @property
-    def ec_adc_value(self) -> int:
-        """获取EC ADC原始值"""
-        return self._ec_adc_value
-    
+    # --- 对外功能指令 (Actions) ---

-    @property
-    def device_status(self) -> Dict[str, any]:
-        """
-        获取设备状态信息
-        
-        Returns:
-            包含设备状态的字典
-        """
-        return {
-            "connected": self.is_connected,
-            "port": self.port,
-            "baudrate": self.baudrate,
-            "voltage": self.voltage,
-            "ec_value": self.ec_value,
-            "ec_adc_value": self.ec_adc_value
-        }
-    
-    def connect(self, port: Optional[str] = None, baudrate: Optional[int] = None) -> bool:
-        """
-        连接到串口设备
-        
-        Args:
-            port: 串口名称，如果为None则使用初始化时的port或自动检测
-            baudrate: 波特率，如果为None则使用初始化时的baudrate
-            
-        Returns:
-            连接是否成功
-        """
-        if self.is_connected:
+    def pump_initialize(self, pump_id: int, drain_port=0, output_port=0, speed=10):
+        """指定泵初始化"""
+        pump_id = int(pump_id)
+        if pump_id in self.pumps:
+            self.pumps[pump_id].initialize(drain_port, output_port, speed)
+            self.pumps[pump_id].wait_until_idle()
            return True
-            
-        target_port = port or self.port
-        target_baudrate = baudrate or self.baudrate
-        
-        try:
-            self.serial_port = serial.Serial(target_port, target_baudrate, timeout=0.5)
-            self._is_connected = True
-            self.port = target_port
-            self.baudrate = target_baudrate
-            connect_allow_times = 5
-            while not self.serial_port.is_open and connect_allow_times > 0:
-                time.sleep(0.5)
-                connect_allow_times -= 1
-                print(f"尝试连接到 {target_port} @ {target_baudrate}，剩余尝试次数: {connect_allow_times}", self.debug)
-                raise ValueError("串口未打开，请检查设备连接")
-            print(f"已连接到 {target_port} @ {target_baudrate}", self.debug)
-            threading.Thread(target=self._read_data, daemon=True).start()
+        return False
+
+    def pump_aspirate(self, pump_id: int, volume: int, valve_port: int):
+        """
+        泵吸液 (阻塞)
+        :param valve_port: 阀门端口 (1-8)
+        """
+        pump_id = int(pump_id)
+        valve_port = int(valve_port)
+        if pump_id in self.pumps:
+            pump = self.pumps[pump_id]
+            # 1. 切换阀门
+            pump.switch_valve(valve_port)
+            pump.wait_until_idle()
+            # 2. 吸液
+            pump.aspirate(volume)
+            pump.wait_until_idle()
            return True
-        except Exception as e:
-            print(f"ChinweDevice连接失败: {e}")
-            self._is_connected = False
-            return False
-    
-    def disconnect(self) -> bool:
+        return False
+
+    def pump_dispense(self, pump_id: int, volume: int, valve_port: int):
        """
-        断开串口连接
-        
-        Returns:
-            断开是否成功
+        泵排液 (阻塞)
+        :param valve_port: 阀门端口 (1-8)
        """
-        if self.serial_port and self.serial_port.is_open:
-            try:
-                self.serial_port.close()
-                self._is_connected = False
-                print("已断开串口连接")
-                return True
-            except Exception as e:
-                print(f"断开连接失败: {e}")
-                return False
+        pump_id = int(pump_id)
+        valve_port = int(valve_port)
+        if pump_id in self.pumps:
+            pump = self.pumps[pump_id]
+            # 1. 切换阀门
+            pump.switch_valve(valve_port)
+            pump.wait_until_idle()
+            # 2. 排液
+            pump.dispense(volume)
+            pump.wait_until_idle()
+            return True
+        return False
+
+    def pump_valve(self, pump_id: int, port: int):
+        """泵切换阀门 (阻塞)"""
+        pump_id = int(pump_id)
+        port = int(port)
+        if pump_id in self.pumps:
+            pump = self.pumps[pump_id]
+            pump.switch_valve(port)
+            pump.wait_until_idle()
+            return True
+        return False
+
+    def motor_run_continuous(self, motor_id: int, speed: int, direction: str = "顺时针"):
+        """
+        电机一直旋转 (速度模式)
+        :param direction: "顺时针" or "逆时针"
+        """
+        motor_id = int(motor_id)
+        if motor_id not in self.motors: return False
+
+        dir_val = 0 if direction == "顺时针" else 1
+        self.motors[motor_id].run_speed(speed, dir_val)
        return True
-    
-    def _send_motor_command(self, command: str) -> bool:
+
+    def motor_rotate_quarter(self, motor_id: int, speed: int = 60, direction: str = "顺时针"):
        """
-        发送电机控制命令
-        
-        Args:
-            command: 电机命令字符串，例如 "M 1 CW 1.5"
-            
-        Returns:
-            发送是否成功
+        电机旋转1/4圈 (阻塞)
+        假设电机设置为 3200 脉冲/圈，1/4圈 = 800脉冲
        """
-        if not self.is_connected:
-            print("设备未连接")
-            return False
-            
-        try:
-            self.serial_port.write((command + "\n").encode('utf-8'))
-            print(f"发送命令: {command}")
+        motor_id = int(motor_id)
+        if motor_id not in self.motors: return False
+
+        pulses = 800
+        dir_val = 0 if direction == "顺时针" else 1
+
+        self.motors[motor_id].run_position(pulses, speed, dir_val, absolute=False)
+
+        # 预估时间阻塞 (单位: 分钟 -> 秒)
+        # Time(s) = revs / (RPM/60). revs = 0.25. time = 15 / RPM.
+        estimated_time = 15.0 / max(1, speed)
+        time.sleep(estimated_time + 0.5)
+
+        return True
+
+    def motor_stop(self, motor_id: int):
+        """电机停止"""
+        motor_id = int(motor_id)
+        if motor_id in self.motors:
+            self.motors[motor_id].stop()
            return True
-        except Exception as e:
-            print(f"发送命令失败: {e}")
-            return False
-    
-    def rotate_motor(self, motor_id: int, turns: float, clockwise: bool = True) -> bool:
-        """
-        使电机转动指定圈数
-        
-        Args:
-            motor_id: 电机ID（1, 2, 3...）
-            turns: 转动圈数，支持小数
-            clockwise: True为顺时针，False为逆时针
-            
-        Returns:
-            命令发送是否成功
-        """
-        if clockwise:
-            command = f"M {motor_id} CW {turns}"
-        else:
-            command = f"M {motor_id} CCW {turns}"
-        return self._send_motor_command(command)
+        return False

-    def set_motor_speed(self, motor_id: int, speed: float) -> bool:
+    def wait_sensor_level(self, target_state: str = "有液", timeout: int = 30) -> bool:
        """
-        设置电机转速（如果设备支持）
-        
-        Args:
-            motor_id: 电机ID（1, 2, 3...）
-            speed: 转速值
-            
-        Returns:
-            命令发送是否成功
+        等待传感器达到指定电平
+        :param target_state: "有液" or "无液"
        """
-        command = f"M {motor_id} SPEED {speed}"
-        return self._send_motor_command(command)
+        target_bool = True if target_state == "有液" else False

-    def _read_data(self) -> List[str]:
-        """
-        读取串口数据并解析
-        
-        Returns:
-            读取到的数据行列表
-        """
-        print("开始读取串口数据...")
-        if not self.is_connected:
-            return []
-            
-        data_lines = []
-        try:
-            while self.serial_port.in_waiting:
-                time.sleep(0.1)  # 等待数据稳定
-                try:
-                    line = self.serial_port.readline().decode('utf-8', errors='ignore').strip()
-                    if line:
-                        data_lines.append(line)
-                        self._parse_sensor_data(line)
-                except Exception as ex:
-                    print(f"解码数据错误: {ex}")
-        except Exception as e:
-            print(f"读取串口数据错误: {e}")
-            
-        return data_lines
-    
-    def _parse_sensor_data(self, line: str) -> None:
-        """
-        解析传感器数据
-        
-        Args:
-            line: 接收到的数据行
-        """
-        # 解析电源电压
-        if "电源电压" in line:
-            try:
-                val = float(line.split("：")[1].replace("V", "").strip())
-                self._voltage = val
-                if self.debug:
-                    print(f"电源电压更新: {val}V")
-            except Exception:
-                pass
+        self.logger.info(f"Wait sensor: {target_state} ({target_bool}), timeout: {timeout}")
+        start = time.time()
+        while time.time() - start < timeout:
+            if self.sensor_level == target_bool:
+                return True
+            time.sleep(0.1)
+        self.logger.warning("Wait sensor level timeout")
+        return False

-        # 解析电导率和ADC原始值（支持两种格式）
-        if "电导率" in line and "ADC原始值" in line:
-            try:
-                # 支持格式如：电导率：2.50ms/cm, ADC原始值：2052
-                ec_match = re.search(r"电导率[:：]\s*([\d\.]+)", line)
-                adc_match = re.search(r"ADC原始值[:：]\s*(\d+)", line)
-                if ec_match:
-                    ec_val = float(ec_match.group(1))
-                    self._ec_value = ec_val
-                    if self.debug:
-                        print(f"电导率更新: {ec_val:.2f} ms/cm")
-                if adc_match:
-                    adc_val = int(adc_match.group(1))
-                    self._ec_adc_value = adc_val
-                    if self.debug:
-                        print(f"EC ADC原始值更新: {adc_val}")
-            except Exception:
-                pass
-        # 仅电导率，无ADC原始值
-        elif "电导率" in line:
-            try:
-                val = float(line.split("：")[1].replace("ms/cm", "").strip())
-                self._ec_value = val
-                if self.debug:
-                    print(f"电导率更新: {val:.2f} ms/cm")
-            except Exception:
-                pass
-        # 仅ADC原始值（如有分开回传场景）
-        elif "ADC原始值" in line:
-            try:
-                adc_val = int(line.split("：")[1].strip())
-                self._ec_adc_value = adc_val
-                if self.debug:
-                    print(f"EC ADC原始值更新: {adc_val}")
-            except Exception:
-                pass
-    
-    def spin_when_ec_ge_0():
-        pass
-    
+    def wait_time(self, duration: int) -> bool:
+        """
+        等待指定时间 (秒)
+        :param duration: 秒
+        """
+        self.logger.info(f"Waiting for {duration} seconds...")
+        time.sleep(duration)
+        return True
+
+    def execute_command_from_outer(self, command_dict: Dict[str, Any]) -> bool:
+        """支持标准 JSON 指令调用"""
+        return super().execute_command_from_outer(command_dict)

-def main():
-    """测试函数"""
-    print("=== ChinWe设备测试 ===")
-    
-    # 创建设备实例
-    device = ChinweDevice("/dev/tty.usbserial-A5069RR4", debug=True)
-    try:
-        # 测试5: 发送电机命令
-        print("\n5. 发送电机命令测试:")
-        print("  5.3 使用通用函数控制电机20顺时针转2圈:")
-        device.rotate_motor(2, 20.0, clockwise=True)
-        time.sleep(0.5)
-    finally:
-        time.sleep(10)
-        # 测试7: 断开连接
-        print("\n7. 断开连接:")
-        device.disconnect()
 if __name__ == "__main__":
-    main()
+    # Test
+    logging.basicConfig(level=logging.INFO)
+    dev = ChinweDevice(port="192.168.31.201:8899")
+    try:
+        if dev.is_connected:
+            print(f"Status: Level={dev.sensor_level}, RSSI={dev.sensor_rssi}")
+
+            # Test pump 1
+            # dev.pump_valve(1, 1)
+            # dev.pump_move(1, 1000, "aspirate")
+
+            # Test motor 4
+             # dev.motor_run(4, 60, 0, 2)
+
+            for _ in range(5):
+                print(f"Level={dev.sensor_level}, RSSI={dev.sensor_rssi}")
+                time.sleep(1)
+    finally:
+        dev.disconnect()
--- a/unilabos/devices/virtual/virtual_multiway_valve.py
+++ b/unilabos/devices/virtual/virtual_multiway_valve.py
@@ -7,7 +7,7 @@ class VirtualMultiwayValve:
    """
    虚拟九通阀门 - 0号位连接transfer pump，1-8号位连接其他设备 🔄
    """
-    def __init__(self, port: str = "VIRTUAL", positions: int = 8):
+    def __init__(self, port: str = "VIRTUAL", positions: int = 8, **kwargs):
        self.port = port
        self.max_positions = positions  # 1-8号位
        self.total_positions = positions + 1  # 0-8号位，共9个位置
--- a/unilabos/devices/workstation/bioyond_studio/bioyond_cell/2025092701.xlsx
+++ b/unilabos/devices/workstation/bioyond_studio/bioyond_cell/2025092701.xlsx
--- a/unilabos/devices/workstation/bioyond_studio/bioyond_cell/bioyond_cell_workstation.py
+++ b/unilabos/devices/workstation/bioyond_studio/bioyond_cell/bioyond_cell_workstation.py
--- a/unilabos/devices/workstation/bioyond_studio/bioyond_cell/bioyond_yihua_YB.json
+++ b/unilabos/devices/workstation/bioyond_studio/bioyond_cell/bioyond_yihua_YB.json
@@ -1,8 +1,23 @@
 {
  "nodes": [
+    {
+      "id": "bioyond_cell_workstation",
+      "name": "配液分液工站",
+      "children": [
+      ],
+      "parent": null,
+      "type": "device",
+      "class": "bioyond_cell",
+      "config": {
+          "protocol_type": [],
+          "station_resource": {}
+
+      },
+      "data": {}
+  },
    {
      "id": "BatteryStation",
-      "name": "扣电工作站",
+      "name": "扣电组装工作站",
      "children": [
          "coin_cell_deck"
      ],
@@ -98,7 +113,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine_four",
+        "type": "MagazineHolder_4",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -139,7 +154,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -234,7 +249,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -329,7 +344,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -424,7 +439,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -522,7 +537,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine_four",
+        "type": "MagazineHolder_4",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -563,7 +578,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -658,7 +673,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -753,7 +768,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -848,7 +863,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -948,7 +963,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine",
+        "type": "MagazineHolder_6",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -991,7 +1006,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1086,7 +1101,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1181,7 +1196,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1276,7 +1291,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1371,7 +1386,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1466,7 +1481,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1566,7 +1581,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine",
+        "type": "MagazineHolder_6",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -1609,7 +1624,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1704,7 +1719,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1799,7 +1814,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1894,7 +1909,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -1989,7 +2004,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2084,7 +2099,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2184,7 +2199,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine",
+        "type": "MagazineHolder_6",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -2227,7 +2242,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2322,7 +2337,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2417,7 +2432,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2512,7 +2527,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2607,7 +2622,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2702,7 +2717,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2802,7 +2817,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine",
+        "type": "MagazineHolder_6",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -2845,7 +2860,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -2940,7 +2955,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3035,7 +3050,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3130,7 +3145,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3225,7 +3240,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3320,7 +3335,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3420,7 +3435,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine",
+        "type": "MagazineHolder_6",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -3463,7 +3478,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3558,7 +3573,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3653,7 +3668,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3748,7 +3763,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3843,7 +3858,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -3938,7 +3953,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -4038,7 +4053,7 @@
        "z": 0
      },
      "config": {
-        "type": "ClipMagazine",
+        "type": "MagazineHolder_6",
        "size_x": 80,
        "size_y": 80,
        "size_z": 10,
@@ -4081,7 +4096,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -4176,7 +4191,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -4271,7 +4286,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -4366,7 +4381,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -4461,7 +4476,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
@@ -4556,7 +4571,7 @@
        "z": 10
      },
      "config": {
-        "type": "ClipMagazineHole",
+        "type": "Magazine",
        "size_x": 14.0,
        "size_y": 14.0,
        "size_z": 10.0,
--- a/unilabos/devices/workstation/bioyond_studio/bioyond_cell/material_template.xlsx
+++ b/unilabos/devices/workstation/bioyond_studio/bioyond_cell/material_template.xlsx
--- a/unilabos/devices/workstation/bioyond_studio/bioyond_cell/solid_materials.csv
+++ b/unilabos/devices/workstation/bioyond_studio/bioyond_cell/solid_materials.csv
@@ -0,0 +1,7 @@
+material_name
+LiPF6
+LiDFOB
+DTD
+LiFSI
+LiPO2F2
+
--- a/unilabos/devices/workstation/bioyond_studio/bioyond_rpc.py
+++ b/unilabos/devices/workstation/bioyond_studio/bioyond_rpc.py
@@ -47,8 +47,8 @@ class BioyondV1RPC(BaseRequest):
        super().__init__()
        print("开始初始化 BioyondV1RPC")
        self.config = config
-        self.api_key = config["api_key"]
-        self.host = config["api_host"]
+        self.api_key = config.get("api_key", "")
+        self.host = config.get("api_host", "") or config.get("base_url", "")
        self._logger = SimpleLogger()
        self.material_cache = {}
        self._load_material_cache()
@@ -61,7 +61,7 @@ class BioyondV1RPC(BaseRequest):

        :return: 当前时间的 ISO 8601 格式字符串
        """
-        current_time = datetime.now(timezone.utc).isoformat(
+        current_time = datetime.now().isoformat(
            timespec='milliseconds'
        )
        # 替换时区部分为 'Z'
@@ -212,14 +212,8 @@ class BioyondV1RPC(BaseRequest):
            })

        if not response or response['code'] != 1:
-            if response:
-                error_msg = response.get('message', '未知错误')
-                print(f"[ERROR] 物料入库失败: code={response.get('code')}, message={error_msg}")
-            else:
-                print(f"[ERROR] 物料入库失败: API 无响应")
            return {}
-        # 入库成功时，即使没有 data 字段，也返回成功标识
-        return response.get("data") or {"success": True}
+        return response.get("data", {})

    def delete_material(self, material_id: str) -> dict:
        """
@@ -239,7 +233,7 @@ class BioyondV1RPC(BaseRequest):
        return response.get("data", {})

    def material_outbound(self, material_id: str, location_name: str, quantity: int) -> dict:
-        """指定库位出库物料（通过库位名称）"""
+        """指定库位出库物料"""
        location_id = LOCATION_MAPPING.get(location_name, location_name)

        params = {
@@ -257,36 +251,7 @@ class BioyondV1RPC(BaseRequest):
            })

        if not response or response['code'] != 1:
-            return None
-        return response
-
-    def material_outbound_by_id(self, material_id: str, location_id: str, quantity: int) -> dict:
-        """指定库位出库物料（直接使用location_id）
-
-        Args:
-            material_id: 物料ID
-            location_id: 库位ID（不是库位名称，是UUID）
-            quantity: 数量
-
-        Returns:
-            dict: API响应，失败返回None
-        """
-        params = {
-            "materialId": material_id,
-            "locationId": location_id,
-            "quantity": quantity
-        }
-
-        response = self.post(
-            url=f'{self.host}/api/lims/storage/outbound',
-            params={
-                "apiKey": self.api_key,
-                "requestTime": self.get_current_time_iso8601(),
-                "data": params
-            })
-
-        if not response or response['code'] != 1:
-            return None
+            return {}
        return response

    # ==================== 工作流查询相关接口 ====================
@@ -507,7 +472,7 @@ class BioyondV1RPC(BaseRequest):
            return {}

        response = self.post(
-            url=f'{self.host}/api/lims/order/project-order-report',
+            url=f'{self.host}/api/lims/order/order-report',
            params={
                "apiKey": self.api_key,
                "requestTime": self.get_current_time_iso8601(),
@@ -684,7 +649,7 @@ class BioyondV1RPC(BaseRequest):
    def scheduler_pause(self) -> int:
        """描述：暂停调度器"""
        response = self.post(
-            url=f'{self.host}/api/lims/scheduler/pause',
+            url=f'{self.host}/api/lims/scheduler/scheduler-pause',
            params={
                "apiKey": self.api_key,
                "requestTime": self.get_current_time_iso8601(),
@@ -695,9 +660,8 @@ class BioyondV1RPC(BaseRequest):
        return response.get("code", 0)

    def scheduler_continue(self) -> int:
-        """描述：继续调度器"""
        response = self.post(
-            url=f'{self.host}/api/lims/scheduler/continue',
+            url=f'{self.host}/api/lims/scheduler/scheduler-continue',
            params={
                "apiKey": self.api_key,
                "requestTime": self.get_current_time_iso8601(),
@@ -710,7 +674,7 @@ class BioyondV1RPC(BaseRequest):
    def scheduler_stop(self) -> int:
        """描述：停止调度器"""
        response = self.post(
-            url=f'{self.host}/api/lims/scheduler/stop',
+            url=f'{self.host}/api/lims/scheduler/scheduler-stop',
            params={
                "apiKey": self.api_key,
                "requestTime": self.get_current_time_iso8601(),
@@ -721,9 +685,9 @@ class BioyondV1RPC(BaseRequest):
        return response.get("code", 0)

    def scheduler_reset(self) -> int:
-        """描述：复位调度器"""
+        """描述：重置调度器"""
        response = self.post(
-            url=f'{self.host}/api/lims/scheduler/reset',
+            url=f'{self.host}/api/lims/scheduler/scheduler-reset',
            params={
                "apiKey": self.api_key,
                "requestTime": self.get_current_time_iso8601(),
@@ -739,10 +703,10 @@ class BioyondV1RPC(BaseRequest):
        """预加载材料列表到缓存中"""
        try:
            print("正在加载材料列表缓存...")
-
+            
            # 加载所有类型的材料：耗材(0)、样品(1)、试剂(2)
-            material_types = [0, 1, 2]
-
+            material_types = [1, 2]
+            
            for type_mode in material_types:
                print(f"正在加载类型 {type_mode} 的材料...")
                stock_query = f'{{"typeMode": {type_mode}, "includeDetail": true}}'
@@ -759,7 +723,7 @@ class BioyondV1RPC(BaseRequest):
                    material_id = material.get("id")
                    if material_name and material_id:
                        self.material_cache[material_name] = material_id
-
+                    
                    # 处理样品板等容器中的detail材料
                    detail_materials = material.get("detail", [])
                    for detail_material in detail_materials:
@@ -795,4 +759,4 @@ class BioyondV1RPC(BaseRequest):

    def get_available_materials(self):
        """获取所有可用的材料名称列表"""
-        return list(self.material_cache.keys())
+        return list(self.material_cache.keys())
--- a/unilabos/devices/workstation/bioyond_studio/config.py
+++ b/unilabos/devices/workstation/bioyond_studio/config.py
@@ -2,141 +2,330 @@
 """
 配置文件 - 包含所有配置信息和映射关系
 """
+import os

-# API配置
+# ==================== API 基础配置 ====================
+# BioyondCellWorkstation 默认配置（包含所有必需参数）
 API_CONFIG = {
-    "api_key": "",
-    "api_host": ""
-}
-
-# 工作流映射配置
-WORKFLOW_MAPPINGS = {
-    "reactor_taken_out": "",
-    "reactor_taken_in": "",
-    "Solid_feeding_vials": "",
-    "Liquid_feeding_vials(non-titration)": "",
-    "Liquid_feeding_solvents": "",
-    "Liquid_feeding(titration)": "",
-    "liquid_feeding_beaker": "",
-    "Drip_back": "",
-}
-
-# 工作流名称到DisplaySectionName的映射
-WORKFLOW_TO_SECTION_MAP = {
-    'reactor_taken_in': '反应器放入',
-    'liquid_feeding_beaker': '液体投料-烧杯',
-    'Liquid_feeding_vials(non-titration)': '液体投料-小瓶（非滴定）',
-    'Liquid_feeding_solvents': '液体投料-溶剂',
-    'Solid_feeding_vials': '固体投料-小瓶',
-    'Liquid_feeding(titration)': '液体投料-滴定',
-    'reactor_taken_out': '反应器取出'
+    # API 连接配置
+    # "api_host": os.getenv("BIOYOND_API_HOST", "http://172.16.11.118:44389"),#实机
+    "api_host": os.getenv("BIOYOND_API_HOST", "http://172.16.11.219:44388"),# 仿真机
+    "api_key": os.getenv("BIOYOND_API_KEY", "8A819E5C"),
+    "timeout": int(os.getenv("BIOYOND_TIMEOUT", "30")),
+    
+    # 报送配置
+    "report_token": os.getenv("BIOYOND_REPORT_TOKEN", "CHANGE_ME_TOKEN"),
+    
+    # HTTP 服务配置
+    "HTTP_host": os.getenv("BIOYOND_HTTP_HOST", "172.16.10.148"),  # HTTP服务监听地址，监听计算机飞连ip地址
+    "HTTP_port": int(os.getenv("BIOYOND_HTTP_PORT", "8080")),
+    "debug_mode": False,# 调试模式
 }

 # 库位映射配置
 WAREHOUSE_MAPPING = {
-    "粉末堆栈": {
+    "粉末加样头堆栈": {
        "uuid": "",
        "site_uuids": {
-            # 样品板
-            "A1": "3a14198e-6929-31f0-8a22-0f98f72260df",
-            "A2": "3a14198e-6929-4379-affa-9a2935c17f99",
-            "A3": "3a14198e-6929-56da-9a1c-7f5fbd4ae8af",
-            "A4": "3a14198e-6929-5e99-2b79-80720f7cfb54",
-            "B1": "3a14198e-6929-f525-9a1b-1857552b28ee",
-            "B2": "3a14198e-6929-bf98-0fd5-26e1d68bf62d",
-            "B3": "3a14198e-6929-2d86-a468-602175a2b5aa",
-            "B4": "3a14198e-6929-1a98-ae57-e97660c489ad",
-            # 分装板
-            "C1": "3a14198e-6929-46fe-841e-03dd753f1e4a",
-            "C2": "3a14198e-6929-1bc9-a9bd-3b7ca66e7f95",
-            "C3": "3a14198e-6929-72ac-32ce-9b50245682b8",
-            "C4": "3a14198e-6929-3bd8-e6c7-4a9fd93be118",
-            "D1": "3a14198e-6929-8a0b-b686-6f4a2955c4e2",
-            "D2": "3a14198e-6929-dde1-fc78-34a84b71afdf",
-            "D3": "3a14198e-6929-a0ec-5f15-c0f9f339f963",
-            "D4": "3a14198e-6929-7ac8-915a-fea51cb2e884"
+            "A01": "3a19da56-1379-ff7c-1745-07e200b44ce2",
+            "B01": "3a19da56-1379-2424-d751-fe6e94cef938",
+            "C01": "3a19da56-1379-271c-03e3-6bdb590e395e",
+            "D01": "3a19da56-1379-277f-2b1b-0d11f7cf92c6",
+            "E01": "3a19da56-1379-2f1c-a15b-e01db90eb39a",
+            "F01": "3a19da56-1379-3fa1-846b-088158ac0b3d",
+            "G01": "3a19da56-1379-5aeb-d0cd-d3b4609d66e1",
+            "H01": "3a19da56-1379-6077-8258-bdc036870b78",
+            "I01": "3a19da56-1379-863b-a120-f606baf04617",
+            "J01": "3a19da56-1379-8a74-74e5-35a9b41d4fd5",
+            "K01": "3a19da56-1379-b270-b7af-f18773918abe",
+            "L01": "3a19da56-1379-ba54-6d78-fd770a671ffc",
+            "M01": "3a19da56-1379-c22d-c96f-0ceb5eb54a04",
+            "N01": "3a19da56-1379-d64e-c6c5-c72ea4829888",
+            "O01": "3a19da56-1379-d887-1a3c-6f9cce90f90e",
+            "P01": "3a19da56-1379-e77d-0e65-7463b238a3b9",
+            "Q01": "3a19da56-1379-edf6-1472-802ddb628774",
+            "R01": "3a19da56-1379-f281-0273-e0ef78f0fd97",
+            "S01": "3a19da56-1379-f924-7f68-df1fa51489f4",
+            "T01": "3a19da56-1379-ff7c-1745-07e200b44ce2"
        }
    },
-    "溶液堆栈": {
+    "配液站内试剂仓库": {
        "uuid": "",
        "site_uuids": {
-            "A1": "3a14198e-d724-e036-afdc-2ae39a7f3383",
-            "A2": "3a14198e-d724-afa4-fc82-0ac8a9016791",
-            "A3": "3a14198e-d724-ca48-bb9e-7e85751e55b6",
-            "A4": "3a14198e-d724-df6d-5e32-5483b3cab583",
-            "B1": "3a14198e-d724-d818-6d4f-5725191a24b5",
-            "B2": "3a14198e-d724-be8a-5e0b-012675e195c6",
-            "B3": "3a14198e-d724-cc1e-5c2c-228a130f40a8",
-            "B4": "3a14198e-d724-1e28-c885-574c3df468d0",
-            "C1": "3a14198e-d724-b5bb-adf3-4c5a0da6fb31",
-            "C2": "3a14198e-d724-ab4e-48cb-817c3c146707",
-            "C3": "3a14198e-d724-7f18-1853-39d0c62e1d33",
-            "C4": "3a14198e-d724-28a2-a760-baa896f46b66",
-            "D1": "3a14198e-d724-d378-d266-2508a224a19f",
-            "D2": "3a14198e-d724-f56e-468b-0110a8feb36a",
-            "D3": "3a14198e-d724-0cf1-dea9-a1f40fe7e13c",
-            "D4": "3a14198e-d724-0ddd-9654-f9352a421de9"
+            "A01": "3a19da43-57b5-294f-d663-154a1cc32270",
+            "B01": "3a19da43-57b5-7394-5f49-54efe2c9bef2",
+            "C01": "3a19da43-57b5-5e75-552f-8dbd0ad1075f",
+            "A02": "3a19da43-57b5-8441-db94-b4d3875a4b6c",
+            "B02": "3a19da43-57b5-3e41-c181-5119dddaf50c",
+            "C02": "3a19da43-57b5-269b-282d-fba61fe8ce96",
+            "A03": "3a19da43-57b5-7c1e-d02e-c40e8c33f8a1",
+            "B03": "3a19da43-57b5-659f-621f-1dcf3f640363",
+            "C03": "3a19da43-57b5-855a-6e71-f398e376dee1",
        }
    },
-    "试剂堆栈": {
+    "试剂替换仓库": {
        "uuid": "",
        "site_uuids": {
-            "A1": "3a14198c-c2cf-8b40-af28-b467808f1c36",
-            "A2": "3a14198c-c2d0-f3e7-871a-e470d144296f",
-            "A3": "3a14198c-c2d0-dc7d-b8d0-e1d88cee3094",
-            "A4": "3a14198c-c2d0-2070-efc8-44e245f10c6f",
-            "B1": "3a14198c-c2d0-354f-39ad-642e1a72fcb8",
-            "B2": "3a14198c-c2d0-1559-105d-0ea30682cab4",
-            "B3": "3a14198c-c2d0-725e-523d-34c037ac2440",
-            "B4": "3a14198c-c2d0-efce-0939-69ca5a7dfd39"
+            "A01": "3a19da51-8f4e-30f3-ea08-4f8498e9b097",
+            "B01": "3a19da51-8f4e-1da7-beb0-80a4a01e67a8",
+            "C01": "3a19da51-8f4e-337d-2675-bfac46880b06",
+            "D01": "3a19da51-8f4e-e514-b92c-9c44dc5e489d",
+            "E01": "3a19da51-8f4e-22d1-dd5b-9774ddc80402",
+            "F01": "3a19da51-8f4e-273a-4871-dff41c29bfd9",
+            "G01": "3a19da51-8f4e-b32f-454f-74bc1a665653",
+            "H01": "3a19da51-8f4e-8c93-68c9-0b4382320f59",
+            "I01": "3a19da51-8f4e-360c-0149-291b47c6089b",
+            "J01": "3a19da51-8f4e-4152-9bca-8d64df8c1af0"
+        }
+    },
+    "自动堆栈-左": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a19debc-84b5-4c1c-d3a1-26830cf273ff",
+            "A02": "3a19debc-84b5-033b-b31f-6b87f7c2bf52",
+            "B01": "3a19debc-84b5-3924-172f-719ab01b125c",
+            "B02": "3a19debc-84b5-aad8-70c6-b8c6bb2d8750"
+        }
+    },
+    "自动堆栈-右": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a19debe-5200-7df2-1dd9-7d202f158864",
+            "A02": "3a19debe-5200-573b-6120-8b51f50e1e50",
+            "B01": "3a19debe-5200-7cd8-7666-851b0a97e309",
+            "B02": "3a19debe-5200-e6d3-96a3-baa6e3d5e484"
+        }
+    },
+    "手动堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a19deae-2c7a-36f5-5e41-02c5b66feaea",
+            "A02": "3a19deae-2c7a-dc6d-c41e-ef285d946cfe",
+            "A03": "3a19deae-2c7a-5876-c454-6b7e224ca927",
+            "B01": "3a19deae-2c7a-2426-6d71-e9de3cb158b1",
+            "B02": "3a19deae-2c7a-79b0-5e44-efaafd1e4cf3",
+            "B03": "3a19deae-2c7a-b9eb-f4e3-e308e0cf839a",
+            "C01": "3a19deae-2c7a-32bc-768e-556647e292f3",
+            "C02": "3a19deae-2c7a-e97a-8484-f5a4599447c4",
+            "C03": "3a19deae-2c7a-3056-6504-10dc73fbc276",
+            "D01": "3a19deae-2c7a-ffad-875e-8c4cda61d440",
+            "D02": "3a19deae-2c7a-61be-601c-b6fb5610499a",
+            "D03": "3a19deae-2c7a-c0f7-05a7-e3fe2491e560",
+            "E01": "3a19deae-2c7a-a6f4-edd1-b436a7576363",
+            "E02": "3a19deae-2c7a-4367-96dd-1ca2186f4910",
+            "E03": "3a19deae-2c7a-b163-2219-23df15200311",
+            "F01": "3a19deae-2c7a-d594-fd6a-0d20de3c7c4a",
+            "F02": "3a19deae-2c7a-a194-ea63-8b342b8d8679",
+            "F03": "3a19deae-2c7a-f7c4-12bd-425799425698",
+            "G01": "3a19deae-2c7a-0b56-72f1-8ab86e53b955",
+            "G02": "3a19deae-2c7a-204e-95ed-1f1950f28343",
+            "G03": "3a19deae-2c7a-392b-62f1-4907c66343f8",
+            "H01": "3a19deae-2c7a-5602-e876-d27aca4e3201",
+            "H02": "3a19deae-2c7a-f15c-70e0-25b58a8c9702",
+            "H03": "3a19deae-2c7a-780b-8965-2e1345f7e834",
+            "I01": "3a19deae-2c7a-8849-e172-07de14ede928",
+            "I02": "3a19deae-2c7a-4772-a37f-ff99270bafc0",
+            "I03": "3a19deae-2c7a-cce7-6e4a-25ea4a2068c4",
+            "J01": "3a19deae-2c7a-1848-de92-b5d5ed054cc6",
+            "J02": "3a19deae-2c7a-1d45-b4f8-6f866530e205",
+            "J03": "3a19deae-2c7a-f237-89d9-8fe19025dee9"
+        }
+    },
+    "4号手套箱内部堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1baa20-a7b1-c665-8b9c-d8099d07d2f6",
+            "A02": "3a1baa20-a7b1-93a7-c988-f9c8ad6c58c9",
+            "A03": "3a1baa20-a7b1-00ee-f751-da9b20b6c464",
+            "A04": "3a1baa20-a7b1-4712-c37b-0b5b658ef7b9",
+            "B01": "3a1baa20-a7b1-9847-fc9c-96d604cd1a8e",
+            "B02": "3a1baa20-a7b1-4ae9-e604-0601db06249c",
+            "B03": "3a1baa20-a7b1-8329-ea75-81ca559d9ce1",
+            "B04": "3a1baa20-a7b1-89c5-d96f-36e98a8f7268",
+            "C01": "3a1baa20-a7b1-32ec-39e6-8044733839d6",
+            "C02": "3a1baa20-a7b1-b573-e426-4c86040348b2",
+            "C03": "3a1baa20-a7b1-cca7-781e-0522b729bf5d",
+            "C04": "3a1baa20-a7b1-7c98-5fd9-5855355ae4b3"
+        }
+    },
+    "大分液瓶堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a19da3d-4f3d-bcac-2932-7542041e10e0",
+            "A02": "3a19da3d-4f3d-4d75-38ac-fb58ad0687c3",
+            "A03": "3a19da3d-4f3d-b25e-f2b1-85342a5b7eae",
+            "B01": "3a19da3d-4f3d-fd3e-058a-2733a0925767",
+            "B02": "3a19da3d-4f3d-37bd-a944-c391ad56857f",
+            "B03": "3a19da3d-4f3d-e353-7862-c6d1d4bc667f",
+            "C01": "3a19da3d-4f3d-9519-5da7-76179c958e70",
+            "C02": "3a19da3d-4f3d-b586-d7ed-9ec244f6f937",
+            "C03": "3a19da3d-4f3d-5061-249b-35dfef732811"
+        }
+    },
+    "小分液瓶堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "C03": "3a19da40-55bf-8943-d20d-a8b3ea0d16c0"
+        }
+    },
+    "站内Tip头盒堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a19deab-d5cc-be1e-5c37-4e9e5a664388",
+            "A02": "3a19deab-d5cc-b394-8141-27cb3853e8ea",
+            "B01": "3a19deab-d5cc-4dca-596e-ca7414d5f501",
+            "B02": "3a19deab-d5cc-9bc0-442b-12d9d59aa62a",
+            "C01": "3a19deab-d5cc-2eaf-b6a4-f0d54e4f1246",
+            "C02": "3a19deab-d5cc-d9f4-25df-b8018c372bc7"
+        }
+    },
+    "配液站内配液大板仓库(无需提前上料)": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1a21dc-06af-3915-9cb9-80a9dc42f386"
+        }
+    },
+    "配液站内配液小板仓库(无需以前入料)": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1a21de-8e8b-7938-2d06-858b36c10e31"
+        }
+    },
+    "移液站内大瓶板仓库(无需提前如料)": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1a224c-c727-fa62-1f2b-0037a84b9fca"
+        }
+    },
+    "移液站内小瓶板仓库(无需提前入料)": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1a224d-ed49-710c-a9c3-3fc61d479cbb"
+        }
+    },
+    "适配器位仓库": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1abd46-18fe-1f56-6ced-a1f7fe08e36c"
+        }
+    },
+    "1号2号手套箱交接堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1baa49-7f77-35aa-60b1-e55a45d065fa"
+        }
+    },
+    "2号手套箱内部堆栈": {
+        "uuid": "",
+        "site_uuids": {
+            "A01": "3a1baa4b-393e-9f86-3921-7a18b0a8e371",
+            "A02": "3a1baa4b-393e-9425-928b-ee0f6f679d44",
+            "A03": "3a1baa4b-393e-0baf-632b-59dfdc931a3a",
+            "B01": "3a1baa4b-393e-f8aa-c8a9-956f3132f05c",
+            "B02": "3a1baa4b-393e-ef05-42f6-53f4c6e89d70",
+            "B03": "3a1baa4b-393e-c07b-a924-a9f0dfda9711",
+            "C01": "3a1baa4b-393e-4c2b-821a-16a7fe025c48",
+            "C02": "3a1baa4b-393e-2eaf-61a1-9063c832d5a2",
+            "C03": "3a1baa4b-393e-034e-8e28-8626d934a85f"
        }
    }
+    
 }

 # 物料类型配置
 MATERIAL_TYPE_MAPPINGS = {
-    "烧杯": ("BIOYOND_PolymerStation_1FlaskCarrier", "3a14196b-24f2-ca49-9081-0cab8021bf1a"),
-    "试剂瓶": ("BIOYOND_PolymerStation_1BottleCarrier", ""),
-    "样品板": ("BIOYOND_PolymerStation_6StockCarrier", "3a14196e-b7a0-a5da-1931-35f3000281e9"),
-    "分装板": ("BIOYOND_PolymerStation_6VialCarrier", "3a14196e-5dfe-6e21-0c79-fe2036d052c4"),
-    "样品瓶": ("BIOYOND_PolymerStation_Solid_Stock", "3a14196a-cf7d-8aea-48d8-b9662c7dba94"),
-    "90%分装小瓶": ("BIOYOND_PolymerStation_Solid_Vial", "3a14196c-cdcf-088d-dc7d-5cf38f0ad9ea"),
-    "10%分装小瓶": ("BIOYOND_PolymerStation_Liquid_Vial", "3a14196c-76be-2279-4e22-7310d69aed68"),
+    "100ml液体": ("YB_100ml_yeti", "d37166b3-ecaa-481e-bd84-3032b795ba07"),
+    "液": ("YB_ye", "3a190ca1-2add-2b23-f8e1-bbd348b7f790"),
+    "高粘液": ("YB_gaonianye", "abe8df30-563d-43d2-85e0-cabec59ddc16"),
+    "加样头(大)": ("YB_jia_yang_tou_da_Carrier", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "加样头(大)板": ("YB_jia_yang_tou_da", "a8e714ae-2a4e-4eb9-9614-e4c140ec3f16"),
+    "5ml分液瓶板": ("YB_5ml_fenyepingban", "3a192fa4-007d-ec7b-456e-2a8be7a13f23"),
+    "5ml分液瓶": ("YB_5ml_fenyeping", "3a192c2a-ebb7-58a1-480d-8b3863bf74f4"),
+    "20ml分液瓶板": ("YB_20ml_fenyepingban", "3a192fa4-47db-3449-162a-eaf8aba57e27"),
+    "20ml分液瓶": ("YB_20ml_fenyeping", "3a192c2b-19e8-f0a3-035e-041ca8ca1035"),
+    "配液瓶(小)板": ("YB_peiyepingxiaoban", "3a190c8b-3284-af78-d29f-9a69463ad047"),
+    "配液瓶(小)": ("YB_pei_ye_xiao_Bottle", "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"),
+    "配液瓶(大)板": ("YB_peiyepingdaban", "53e50377-32dc-4781-b3c0-5ce45bc7dc27"),
+    "配液瓶(大)": ("YB_pei_ye_da_Bottle", "19c52ad1-51c5-494f-8854-576f4ca9c6ca"),
+    "适配器块": ("YB_shi_pei_qi_kuai", "efc3bb32-d504-4890-91c0-b64ed3ac80cf"),
+    "枪头盒": ("YB_qiang_tou_he", "3a192c2e-20f3-a44a-0334-c8301839d0b3"),
+    "枪头": ("YB_qiang_tou", "b6196971-1050-46da-9927-333e8dea062d"),
 }

-# 步骤参数配置（各工作流的步骤UUID）
-WORKFLOW_STEP_IDS = {
-    "reactor_taken_in": {
-        "config": ""
+SOLID_LIQUID_MAPPINGS = {
+    # 固体
+    "LiDFOB": {
+        "typeId": "3a190ca0-b2f6-9aeb-8067-547e72c11469",
+        "code": "",
+        "barCode": "",
+        "name": "LiDFOB",
+        "unit": "g",
+        "parameters": "",
+        "quantity": "2",
+        "warningQuantity": "1",
+        "details": []
    },
-    "liquid_feeding_beaker": {
-        "liquid": "",
-        "observe": ""
-    },
-    "liquid_feeding_vials_non_titration": {
-        "liquid": "",
-        "observe": ""
-    },
-    "liquid_feeding_solvents": {
-        "liquid": "",
-        "observe": ""
-    },
-    "solid_feeding_vials": {
-        "feeding": "",
-        "observe": ""
-    },
-    "liquid_feeding_titration": {
-        "liquid": "",
-        "observe": ""
-    },
-    "drip_back": {
-        "liquid": "",
-        "observe": ""
-    }
+    # "LiPF6": {
+    #     "typeId": "3a190ca0-b2f6-9aeb-8067-547e72c11469",
+    #     "code": "",
+    #     "barCode": "",
+    #     "name": "LiPF6",
+    #     "unit": "g",
+    #     "parameters": "",
+    #     "quantity": 2,
+    #     "warningQuantity": 1,
+    #     "details": []
+    # },
+    # "LiFSI": {
+    #     "typeId": "3a190ca0-b2f6-9aeb-8067-547e72c11469",
+    #     "code": "",
+    #     "barCode": "",
+    #     "name": "LiFSI",
+    #     "unit": "g",
+    #     "parameters": "",
+    #     "quantity": 2,
+    #     "warningQuantity": 1,
+    #     "details": []
+    # },
+    # "DTC": {
+    #     "typeId": "3a190ca0-b2f6-9aeb-8067-547e72c11469",
+    #     "code": "",
+    #     "barCode": "",
+    #     "name": "DTC",
+    #     "unit": "g",
+    #     "parameters": "",
+    #     "quantity": 2,
+    #     "warningQuantity": 1,
+    #     "details": []
+    # },
+    # "LiPO2F2": {
+    #     "typeId": "3a190ca0-b2f6-9aeb-8067-547e72c11469",
+    #     "code": "",
+    #     "barCode": "",
+    #     "name": "LiPO2F2",
+    #     "unit": "g",
+    #     "parameters": "",
+    #     "quantity": 2,
+    #     "warningQuantity": 1,
+    #     "details": []
+    # },
+    # 液体
+    # "SA": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "EC": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "VC": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "AND": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "HTCN": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "DENE": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "TMSP": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "TMSB": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "EP": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "DEC": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "EMC": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "SN": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "DMC": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
+    # "FEC": ("BIOYOND_PolymerStation_Solid_Stock", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
 }

-LOCATION_MAPPING = {}
+WORKFLOW_MAPPINGS = {}

-ACTION_NAMES = {}
-
-HTTP_SERVICE_CONFIG = {}
+LOCATION_MAPPING = {}
--- a/unilabos/devices/workstation/bioyond_studio/dispensing_station.py
+++ b/unilabos/devices/workstation/bioyond_studio/dispensing_station.py
@@ -1,7 +1,5 @@
 from datetime import datetime
 import json
-import time
-from typing import Optional, Dict, Any

 from unilabos.devices.workstation.bioyond_studio.bioyond_rpc import BioyondException
 from unilabos.devices.workstation.bioyond_studio.station import BioyondWorkstation
@@ -25,9 +23,6 @@ class BioyondDispensingStation(BioyondWorkstation):
        # self._logger = SimpleLogger()
        # self.is_running = False

-        # 用于跟踪任务完成状态的字典: {orderCode: {status, order_id, timestamp}}
-        self.order_completion_status = {}
-
    # 90%10%小瓶投料任务创建方法
    def create_90_10_vial_feeding_task(self,
                                       order_name: str = None,
@@ -275,45 +270,7 @@ class BioyondDispensingStation(BioyondWorkstation):
            # 7. 调用create_order方法创建任务
            result = self.hardware_interface.create_order(json_str)
            self.hardware_interface._logger.info(f"创建90%10%小瓶投料任务结果: {result}")
-
-            # 8. 解析结果获取order_id
-            order_id = None
-            if isinstance(result, str):
-                # result 格式: "{'3a1d895c-4d39-d504-1398-18f5a40bac1e': [{'id': '...', ...}]}"
-                # 第一个键就是order_id (UUID)
-                try:
-                    # 尝试解析字符串为字典
-                    import ast
-                    result_dict = ast.literal_eval(result)
-                    # 获取第一个键作为order_id
-                    if result_dict and isinstance(result_dict, dict):
-                        first_key = list(result_dict.keys())[0]
-                        order_id = first_key
-                        self.hardware_interface._logger.info(f"✓ 成功提取order_id: {order_id}")
-                    else:
-                        self.hardware_interface._logger.warning(f"result_dict格式异常: {result_dict}")
-                except Exception as e:
-                    self.hardware_interface._logger.error(f"✗ 无法从结果中提取order_id: {e}, result类型={type(result)}")
-            elif isinstance(result, dict):
-                # 如果已经是字典
-                if result:
-                    first_key = list(result.keys())[0]
-                    order_id = first_key
-                    self.hardware_interface._logger.info(f"✓ 成功提取order_id(dict): {order_id}")
-
-            if not order_id:
-                self.hardware_interface._logger.warning(
-                    f"⚠ 未能提取order_id，result={result[:100] if isinstance(result, str) else result}"
-                )
-
-            # 返回成功结果和构建的JSON数据
-            return json.dumps({
-                "suc": True,
-                "order_code": order_code,
-                "order_id": order_id,
-                "result": result,
-                "order_params": order_data
-            })
+            return json.dumps({"suc": True})

        except BioyondException:
            # 重新抛出BioyondException
@@ -441,37 +398,7 @@ class BioyondDispensingStation(BioyondWorkstation):
            result = self.hardware_interface.create_order(json_str)
            self.hardware_interface._logger.info(f"创建二胺溶液配置任务结果: {result}")

-            # 8. 解析结果获取order_id
-            order_id = None
-            if isinstance(result, str):
-                try:
-                    import ast
-                    result_dict = ast.literal_eval(result)
-                    if result_dict and isinstance(result_dict, dict):
-                        first_key = list(result_dict.keys())[0]
-                        order_id = first_key
-                        self.hardware_interface._logger.info(f"✓ 成功提取order_id: {order_id}")
-                    else:
-                        self.hardware_interface._logger.warning(f"result_dict格式异常: {result_dict}")
-                except Exception as e:
-                    self.hardware_interface._logger.error(f"✗ 无法从结果中提取order_id: {e}")
-            elif isinstance(result, dict):
-                if result:
-                    first_key = list(result.keys())[0]
-                    order_id = first_key
-                    self.hardware_interface._logger.info(f"✓ 成功提取order_id(dict): {order_id}")
-
-            if not order_id:
-                self.hardware_interface._logger.warning(f"⚠ 未能提取order_id")
-
-            # 返回成功结果和构建的JSON数据
-            return json.dumps({
-                "suc": True,
-                "order_code": order_code,
-                "order_id": order_id,
-                "result": result,
-                "order_params": order_data
-            })
+            return json.dumps({"suc": True})

        except BioyondException:
            # 重新抛出BioyondException
@@ -572,24 +499,15 @@ class BioyondDispensingStation(BioyondWorkstation):
                        hold_m_name=hold_m_name
                    )

-                    # 解析返回结果以获取order_code和order_id
-                    result_data = json.loads(result) if isinstance(result, str) else result
-                    order_code = result_data.get("order_code")
-                    order_id = result_data.get("order_id")
-                    order_params = result_data.get("order_params", {})
-
                    results.append({
                        "index": idx + 1,
                        "name": name,
                        "success": True,
-                        "order_code": order_code,
-                        "order_id": order_id,
-                        "hold_m_name": hold_m_name,
-                        "order_params": order_params
+                        "hold_m_name": hold_m_name
                    })
                    success_count += 1
                    self.hardware_interface._logger.info(
-                        f"成功创建二胺溶液配置任务: {name}, order_code={order_code}, order_id={order_id}"
+                        f"成功创建二胺溶液配置任务: {name}"
                    )

                except BioyondException as e:
@@ -615,17 +533,11 @@ class BioyondDispensingStation(BioyondWorkstation):
                        f"创建第 {idx + 1} 个任务时发生未知错误: {str(e)}"
                    )

-            # 提取所有成功任务的order_code和order_id
-            order_codes = [r["order_code"] for r in results if r["success"]]
-            order_ids = [r["order_id"] for r in results if r["success"]]
-
            # 返回汇总结果
            summary = {
                "total": len(solutions),
                "success": success_count,
                "failed": failed_count,
-                "order_codes": order_codes,
-                "order_ids": order_ids,
                "details": results
            }

@@ -634,13 +546,8 @@ class BioyondDispensingStation(BioyondWorkstation):
                f"成功={success_count}, 失败={failed_count}"
            )

-            # 构建返回结果
-            summary["return_info"] = {
-                "order_codes": order_codes,
-                "order_ids": order_ids,
-            }
-
-            return summary
+            # 返回JSON字符串格式
+            return json.dumps(summary, ensure_ascii=False)

        except BioyondException:
            raise
@@ -706,15 +613,22 @@ class BioyondDispensingStation(BioyondWorkstation):
            if not all([name, main_portion is not None, titration_portion is not None, titration_solvent is not None]):
                raise BioyondException("titration 数据缺少必要参数")

+            # 将main_portion平均分成3份作为90%物料（3个小瓶）
+            portion_90 = main_portion / 3
+
            # 调用单个任务创建方法
            result = self.create_90_10_vial_feeding_task(
                order_name=f"90%10%小瓶投料-{name}",
                speed=speed,
                temperature=temperature,
                delay_time=delay_time,
-                # 90%物料 - 主称固体直接使用main_portion
+                # 90%物料 - 主称固体平均分成3份
                percent_90_1_assign_material_name=name,
-                percent_90_1_target_weigh=str(round(main_portion, 6)),
+                percent_90_1_target_weigh=str(round(portion_90, 6)),
+                percent_90_2_assign_material_name=name,
+                percent_90_2_target_weigh=str(round(portion_90, 6)),
+                percent_90_3_assign_material_name=name,
+                percent_90_3_target_weigh=str(round(portion_90, 6)),
                # 10%物料 - 滴定固体 + 滴定溶剂（只使用第1个10%小瓶）
                percent_10_1_assign_material_name=name,
                percent_10_1_target_weigh=str(round(titration_portion, 6)),
@@ -723,54 +637,29 @@ class BioyondDispensingStation(BioyondWorkstation):
                hold_m_name=hold_m_name
            )

-            # 解析返回结果以获取order_code和order_id
-            result_data = json.loads(result) if isinstance(result, str) else result
-            order_code = result_data.get("order_code")
-            order_id = result_data.get("order_id")
-            order_params = result_data.get("order_params", {})
-
-            # 构建详细信息（保持原有结构）
-            detail = {
-                "index": 1,
-                "name": name,
+            summary = {
                "success": True,
-                "order_code": order_code,
-                "order_id": order_id,
                "hold_m_name": hold_m_name,
+                "material_name": name,
                "90_vials": {
-                    "count": 1,
-                    "weight_per_vial": round(main_portion, 6),
+                    "count": 3,
+                    "weight_per_vial": round(portion_90, 6),
                    "total_weight": round(main_portion, 6)
                },
                "10_vials": {
                    "count": 1,
                    "solid_weight": round(titration_portion, 6),
                    "liquid_volume": round(titration_solvent, 6)
-                },
-                "order_params": order_params
-            }
-
-            # 构建批量结果格式（与diamine_solution_tasks保持一致）
-            summary = {
-                "total": 1,
-                "success": 1,
-                "failed": 0,
-                "order_codes": [order_code],
-                "order_ids": [order_id],
-                "details": [detail]
+                }
            }

            self.hardware_interface._logger.info(
-                f"成功创建90%10%小瓶投料任务: {name}, order_code={order_code}, order_id={order_id}"
+                f"成功创建90%10%小瓶投料任务: {hold_m_name}, "
+                f"90%物料={portion_90:.6f}g×3, 10%物料={titration_portion:.6f}g+{titration_solvent:.6f}mL"
            )

-            # 构建返回结果
-            summary["return_info"] = {
-                "order_codes": [order_code],
-                "order_ids": [order_id],
-            }
-
-            return summary
+            # 返回JSON字符串格式
+            return json.dumps(summary, ensure_ascii=False)

        except BioyondException:
            raise
@@ -780,279 +669,6 @@ class BioyondDispensingStation(BioyondWorkstation):
            raise BioyondException(error_msg)


-
-    def wait_for_multiple_orders_and_get_reports(self,
-                                                  batch_create_result: str = None,
-                                                  timeout: int = 7200,
-                                                  check_interval: int = 10) -> Dict[str, Any]:
-        """
-        同时等待多个任务完成并获取实验报告
-
-        参数说明:
-        - batch_create_result: 批量创建任务的返回结果JSON字符串，包含order_codes和order_ids数组
-        - timeout: 超时时间（秒），默认7200秒（2小时）
-        - check_interval: 检查间隔（秒），默认10秒
-
-        返回: 包含所有任务状态和报告的字典
-        {
-            "total": 2,
-            "completed": 2,
-            "timeout": 0,
-            "elapsed_time": 120.5,
-            "reports": [
-                {
-                    "order_code": "task_vial_1",
-                    "order_id": "uuid1",
-                    "status": "completed",
-                    "completion_status": 30,
-                    "report": {...}
-                },
-                ...
-            ]
-        }
-
-        异常:
-        - BioyondException: 所有任务都超时或发生错误
-        """
-        try:
-            # 参数类型转换
-            timeout = int(timeout) if timeout else 7200
-            check_interval = int(check_interval) if check_interval else 10
-
-            # 验证batch_create_result参数
-            if not batch_create_result or batch_create_result == "":
-                raise BioyondException("batch_create_result参数为空，请确保从batch_create节点正确连接handle")
-
-            # 解析batch_create_result JSON对象
-            try:
-                # 清理可能存在的截断标记 [...]
-                if isinstance(batch_create_result, str) and '[...]' in batch_create_result:
-                    batch_create_result = batch_create_result.replace('[...]', '[]')
-
-                result_obj = json.loads(batch_create_result) if isinstance(batch_create_result, str) else batch_create_result
-
-                # 兼容外层包装格式 {error, suc, return_value}
-                if isinstance(result_obj, dict) and "return_value" in result_obj:
-                    inner = result_obj.get("return_value")
-                    if isinstance(inner, str):
-                        result_obj = json.loads(inner)
-                    elif isinstance(inner, dict):
-                        result_obj = inner
-
-                # 从summary对象中提取order_codes和order_ids
-                order_codes = result_obj.get("order_codes", [])
-                order_ids = result_obj.get("order_ids", [])
-
-            except json.JSONDecodeError as e:
-                raise BioyondException(f"解析batch_create_result失败: {e}")
-            except Exception as e:
-                raise BioyondException(f"处理batch_create_result时出错: {e}")
-
-            # 验证提取的数据
-            if not order_codes:
-                raise BioyondException("batch_create_result中未找到order_codes字段或为空")
-            if not order_ids:
-                raise BioyondException("batch_create_result中未找到order_ids字段或为空")
-
-            # 确保order_codes和order_ids是列表类型
-            if not isinstance(order_codes, list):
-                order_codes = [order_codes] if order_codes else []
-            if not isinstance(order_ids, list):
-                order_ids = [order_ids] if order_ids else []
-
-            codes_list = order_codes
-            ids_list = order_ids
-
-            if len(codes_list) != len(ids_list):
-                raise BioyondException(
-                    f"order_codes数量({len(codes_list)})与order_ids数量({len(ids_list)})不匹配"
-                )
-
-            if not codes_list or not ids_list:
-                raise BioyondException("order_codes和order_ids不能为空")
-
-            # 初始化跟踪变量
-            total = len(codes_list)
-            pending_orders = {code: {"order_id": ids_list[i], "completed": False}
-                            for i, code in enumerate(codes_list)}
-            reports = []
-
-            start_time = time.time()
-            self.hardware_interface._logger.info(
-                f"开始等待 {total} 个任务完成: {', '.join(codes_list)}"
-            )
-
-            # 轮询检查任务状态
-            while pending_orders:
-                elapsed_time = time.time() - start_time
-
-                # 检查超时
-                if elapsed_time > timeout:
-                    # 收集超时任务
-                    timeout_orders = list(pending_orders.keys())
-                    self.hardware_interface._logger.error(
-                        f"等待任务完成超时，剩余未完成任务: {', '.join(timeout_orders)}"
-                    )
-
-                    # 为超时任务添加记录
-                    for order_code in timeout_orders:
-                        reports.append({
-                            "order_code": order_code,
-                            "order_id": pending_orders[order_code]["order_id"],
-                            "status": "timeout",
-                            "completion_status": None,
-                            "report": None,
-                            "elapsed_time": elapsed_time
-                        })
-
-                    break
-
-                # 检查每个待完成的任务
-                completed_in_this_round = []
-                for order_code in list(pending_orders.keys()):
-                    order_id = pending_orders[order_code]["order_id"]
-
-                    # 检查任务是否完成
-                    if order_code in self.order_completion_status:
-                        completion_info = self.order_completion_status[order_code]
-                        self.hardware_interface._logger.info(
-                            f"检测到任务 {order_code} 已完成，状态: {completion_info.get('status')}"
-                        )
-
-                        # 获取实验报告
-                        try:
-                            report_query = json.dumps({"order_id": order_id})
-                            report = self.hardware_interface.order_report(report_query)
-
-                            if not report:
-                                self.hardware_interface._logger.warning(
-                                    f"任务 {order_code} 已完成但无法获取报告"
-                                )
-                                report = {"error": "无法获取报告"}
-                            else:
-                                self.hardware_interface._logger.info(
-                                    f"成功获取任务 {order_code} 的实验报告"
-                                )
-
-                            reports.append({
-                                "order_code": order_code,
-                                "order_id": order_id,
-                                "status": "completed",
-                                "completion_status": completion_info.get('status'),
-                                "report": report,
-                                "elapsed_time": elapsed_time
-                            })
-
-                            # 标记为已完成
-                            completed_in_this_round.append(order_code)
-
-                            # 清理完成状态记录
-                            del self.order_completion_status[order_code]
-
-                        except Exception as e:
-                            self.hardware_interface._logger.error(
-                                f"查询任务 {order_code} 报告失败: {str(e)}"
-                            )
-                            reports.append({
-                                "order_code": order_code,
-                                "order_id": order_id,
-                                "status": "error",
-                                "completion_status": completion_info.get('status'),
-                                "report": None,
-                                "error": str(e),
-                                "elapsed_time": elapsed_time
-                            })
-                            completed_in_this_round.append(order_code)
-
-                # 从待完成列表中移除已完成的任务
-                for order_code in completed_in_this_round:
-                    del pending_orders[order_code]
-
-                # 如果还有待完成的任务，等待后继续
-                if pending_orders:
-                    time.sleep(check_interval)
-
-                    # 每分钟记录一次等待状态
-                    new_elapsed_time = time.time() - start_time
-                    if int(new_elapsed_time) % 60 == 0 and new_elapsed_time > 0:
-                        self.hardware_interface._logger.info(
-                            f"批量等待任务中... 已完成 {len(reports)}/{total}, "
-                            f"待完成: {', '.join(pending_orders.keys())}, "
-                            f"已等待 {int(new_elapsed_time/60)} 分钟"
-                        )
-
-            # 统计结果
-            completed_count = sum(1 for r in reports if r['status'] == 'completed')
-            timeout_count = sum(1 for r in reports if r['status'] == 'timeout')
-            error_count = sum(1 for r in reports if r['status'] == 'error')
-
-            final_elapsed_time = time.time() - start_time
-
-            summary = {
-                "total": total,
-                "completed": completed_count,
-                "timeout": timeout_count,
-                "error": error_count,
-                "elapsed_time": round(final_elapsed_time, 2),
-                "reports": reports
-            }
-
-            self.hardware_interface._logger.info(
-                f"批量等待任务完成: 总数={total}, 成功={completed_count}, "
-                f"超时={timeout_count}, 错误={error_count}, 耗时={final_elapsed_time:.1f}秒"
-            )
-
-            # 返回字典格式，在顶层包含统计信息
-            return {
-                "return_info": json.dumps(summary, ensure_ascii=False)
-            }
-
-        except BioyondException:
-            raise
-        except Exception as e:
-            error_msg = f"批量等待任务完成时发生未预期的错误: {str(e)}"
-            self.hardware_interface._logger.error(error_msg)
-            raise BioyondException(error_msg)
-
-    def process_order_finish_report(self, report_request, used_materials) -> Dict[str, Any]:
-        """
-        重写父类方法，处理任务完成报送并记录到 order_completion_status
-
-        Args:
-            report_request: WorkstationReportRequest 对象，包含任务完成信息
-            used_materials: 物料使用记录列表
-
-        Returns:
-            Dict[str, Any]: 处理结果
-        """
-        try:
-            # 调用父类方法
-            result = super().process_order_finish_report(report_request, used_materials)
-
-            # 记录任务完成状态
-            data = report_request.data
-            order_code = data.get('orderCode')
-
-            if order_code:
-                self.order_completion_status[order_code] = {
-                    'status': data.get('status'),
-                    'order_name': data.get('orderName'),
-                    'timestamp': datetime.now().isoformat(),
-                    'start_time': data.get('startTime'),
-                    'end_time': data.get('endTime')
-                }
-
-                self.hardware_interface._logger.info(
-                    f"已记录任务完成状态: {order_code}, status={data.get('status')}"
-                )
-
-            return result
-
-        except Exception as e:
-            self.hardware_interface._logger.error(f"处理任务完成报送失败: {e}")
-            return {"processed": False, "error": str(e)}
-
-
 if __name__ == "__main__":
    bioyond = BioyondDispensingStation(config={
        "api_key": "DE9BDDA0",
@@ -1473,3 +1089,4 @@ if __name__ == "__main__":

    # id = "3a1bce3c-4f31-c8f3-5525-f3b273bc34dc"
    # bioyond.sample_waste_removal(id)
+
--- a/unilabos/devices/workstation/bioyond_studio/reaction_station.py
+++ b/unilabos/devices/workstation/bioyond_studio/reaction_station.py
@@ -1,11 +1,7 @@
 import json
-import time
 import requests
 from typing import List, Dict, Any
-from pathlib import Path
-from datetime import datetime
 from unilabos.devices.workstation.bioyond_studio.station import BioyondWorkstation
-from unilabos.ros.msgs.message_converter import convert_to_ros_msg, Float64, String
 from unilabos.devices.workstation.bioyond_studio.config import (
    WORKFLOW_STEP_IDS,
    WORKFLOW_TO_SECTION_MAP,
@@ -14,37 +10,6 @@ from unilabos.devices.workstation.bioyond_studio.config import (
 from unilabos.devices.workstation.bioyond_studio.config import API_CONFIG


-class BioyondReactor:
-    def __init__(self, config: dict = None, deck=None, protocol_type=None, **kwargs):
-        self.in_temperature = 0.0
-        self.out_temperature = 0.0
-        self.pt100_temperature = 0.0
-        self.sensor_average_temperature = 0.0
-        self.target_temperature = 0.0
-        self.setting_temperature = 0.0
-        self.viscosity = 0.0
-        self.average_viscosity = 0.0
-        self.speed = 0.0
-        self.force = 0.0
-
-    def update_metrics(self, payload: Dict[str, Any]):
-        def _f(v):
-            try:
-                return float(v)
-            except Exception:
-                return 0.0
-        self.target_temperature = _f(payload.get("targetTemperature"))
-        self.setting_temperature = _f(payload.get("settingTemperature"))
-        self.in_temperature = _f(payload.get("inTemperature"))
-        self.out_temperature = _f(payload.get("outTemperature"))
-        self.pt100_temperature = _f(payload.get("pt100Temperature"))
-        self.sensor_average_temperature = _f(payload.get("sensorAverageTemperature"))
-        self.speed = _f(payload.get("speed"))
-        self.force = _f(payload.get("force"))
-        self.viscosity = _f(payload.get("viscosity"))
-        self.average_viscosity = _f(payload.get("averageViscosity"))
-
-
 class BioyondReactionStation(BioyondWorkstation):
    """Bioyond反应站类

@@ -72,19 +37,6 @@ class BioyondReactionStation(BioyondWorkstation):
        print(f"BioyondReactionStation初始化完成 - workflow_mappings: {self.workflow_mappings}")
        print(f"workflow_mappings长度: {len(self.workflow_mappings)}")

-        self.in_temperature = 0.0
-        self.out_temperature = 0.0
-        self.pt100_temperature = 0.0
-        self.sensor_average_temperature = 0.0
-        self.target_temperature = 0.0
-        self.setting_temperature = 0.0
-        self.viscosity = 0.0
-        self.average_viscosity = 0.0
-        self.speed = 0.0
-        self.force = 0.0
-
-        self._frame_to_reactor_id = {1: "reactor_1", 2: "reactor_2", 3: "reactor_3", 4: "reactor_4", 5: "reactor_5"}
-
    # ==================== 工作流方法 ====================

    def reactor_taken_out(self):
@@ -280,7 +232,7 @@ class BioyondReactionStation(BioyondWorkstation):
            temperature: 温度设定(°C)
        """
        # 处理 volume 参数:优先使用直接传入的 volume,否则从 solvents 中提取
-        if not volume and solvents is not None:
+        if volume is None and solvents is not None:
            # 参数类型转换:如果是字符串则解析为字典
            if isinstance(solvents, str):
                try:
@@ -339,39 +291,22 @@ class BioyondReactionStation(BioyondWorkstation):

    def liquid_feeding_titration(
        self,
+        volume_formula: str,
        assign_material_name: str,
-        volume_formula: str = None,
-        x_value: str = None,
-        feeding_order_data: str = None,
-        extracted_actuals: str = None,
-        titration_type: str = "2",
+        titration_type: str = "1",
        time: str = "90",
        torque_variation: int = 2,
        temperature: float = 25.00
    ):
        """液体进料(滴定)

-        支持两种模式:
-        1. 直接提供 volume_formula (传统方式)
-        2. 自动计算公式: 提供 x_value, feeding_order_data, extracted_actuals (新方式)
-
        Args:
+            volume_formula: 分液公式(μL)
            assign_material_name: 物料名称
-            volume_formula: 分液公式(μL),如果提供则直接使用,否则自动计算
-            x_value: 手工输入的x值,格式如 "1-2-3"
-            feeding_order_data: feeding_order JSON字符串或对象,用于获取m二酐值
-            extracted_actuals: 从报告提取的实际加料量JSON字符串,包含actualTargetWeigh和actualVolume
-            titration_type: 是否滴定(1=否, 2=是),默认2
+            titration_type: 是否滴定(1=否, 2=是)
            time: 观察时间(分钟)
            torque_variation: 是否观察(int类型, 1=否, 2=是)
            temperature: 温度(°C)
-
-        自动公式模板: 1000*(m二酐-x)*V二酐滴定/m二酐滴定
-        其中:
-        - m二酐滴定 = actualTargetWeigh (从extracted_actuals获取)
-        - V二酐滴定 = actualVolume (从extracted_actuals获取)
-        - x = x_value (手工输入)
-        - m二酐 = feeding_order中type为"main_anhydride"的amount值
        """
        self.append_to_workflow_sequence('{"web_workflow_name": "Liquid_feeding(titration)"}')
        material_id = self.hardware_interface._get_material_id_by_name(assign_material_name)
@@ -381,84 +316,6 @@ class BioyondReactionStation(BioyondWorkstation):
        if isinstance(temperature, str):
            temperature = float(temperature)

-        # 如果没有直接提供volume_formula,则自动计算
-        if not volume_formula and x_value and feeding_order_data and extracted_actuals:
-            # 1. 解析 feeding_order_data 获取 m二酐
-            if isinstance(feeding_order_data, str):
-                try:
-                    feeding_order_data = json.loads(feeding_order_data)
-                except json.JSONDecodeError as e:
-                    raise ValueError(f"feeding_order_data JSON解析失败: {str(e)}")
-
-            # 支持两种格式:
-            # 格式1: 直接是数组 [{...}, {...}]
-            # 格式2: 对象包裹 {"feeding_order": [{...}, {...}]}
-            if isinstance(feeding_order_data, list):
-                feeding_order_list = feeding_order_data
-            elif isinstance(feeding_order_data, dict):
-                feeding_order_list = feeding_order_data.get("feeding_order", [])
-            else:
-                raise ValueError("feeding_order_data 必须是数组或包含feeding_order的字典")
-
-            # 从feeding_order中找到main_anhydride的amount
-            m_anhydride = None
-            for item in feeding_order_list:
-                if item.get("type") == "main_anhydride":
-                    m_anhydride = item.get("amount")
-                    break
-
-            if m_anhydride is None:
-                raise ValueError("在feeding_order中未找到type为'main_anhydride'的条目")
-
-            # 2. 解析 extracted_actuals 获取 actualTargetWeigh 和 actualVolume
-            if isinstance(extracted_actuals, str):
-                try:
-                    extracted_actuals_obj = json.loads(extracted_actuals)
-                except json.JSONDecodeError as e:
-                    raise ValueError(f"extracted_actuals JSON解析失败: {str(e)}")
-            else:
-                extracted_actuals_obj = extracted_actuals
-
-            # 获取actuals数组
-            actuals_list = extracted_actuals_obj.get("actuals", [])
-            if not actuals_list:
-                # actuals为空,无法自动生成公式,回退到手动模式
-                print(f"警告: extracted_actuals中actuals数组为空,无法自动生成公式,请手动提供volume_formula")
-                volume_formula = None  # 清空,触发后续的错误检查
-            else:
-                # 根据assign_material_name匹配对应的actual数据
-                # 假设order_code中包含物料名称
-                matched_actual = None
-                for actual in actuals_list:
-                    order_code = actual.get("order_code", "")
-                    # 简单匹配:如果order_code包含物料名称
-                    if assign_material_name in order_code:
-                        matched_actual = actual
-                        break
-
-                # 如果没有匹配到,使用第一个
-                if not matched_actual and actuals_list:
-                    matched_actual = actuals_list[0]
-
-                if not matched_actual:
-                    raise ValueError("无法从extracted_actuals中获取实际加料量数据")
-
-                m_anhydride_titration = matched_actual.get("actualTargetWeigh")  # m二酐滴定
-                v_anhydride_titration = matched_actual.get("actualVolume")       # V二酐滴定
-
-                if m_anhydride_titration is None or v_anhydride_titration is None:
-                    raise ValueError(f"实际加料量数据不完整: actualTargetWeigh={m_anhydride_titration}, actualVolume={v_anhydride_titration}")
-
-                # 3. 构建公式: 1000*(m二酐-x)*V二酐滴定/m二酐滴定
-                # x_value 格式如 "{{1-2-3}}",保留完整格式(包括花括号)直接替换到公式中
-                volume_formula = f"1000*({m_anhydride}-{x_value})*{v_anhydride_titration}/{m_anhydride_titration}"
-
-                print(f"自动生成滴定公式: {volume_formula}")
-                print(f"  m二酐={m_anhydride}, x={x_value}, V二酐滴定={v_anhydride_titration}, m二酐滴定={m_anhydride_titration}")
-
-        elif not volume_formula:
-            raise ValueError("必须提供 volume_formula 或 (x_value + feeding_order_data + extracted_actuals)")
-
        liquid_step_id = WORKFLOW_STEP_IDS["liquid_feeding_titration"]["liquid"]
        observe_step_id = WORKFLOW_STEP_IDS["liquid_feeding_titration"]["observe"]

@@ -486,289 +343,9 @@ class BioyondReactionStation(BioyondWorkstation):
        print(f"当前队列长度: {len(self.pending_task_params)}")
        return json.dumps({"suc": True})

-    def _extract_actuals_from_report(self, report) -> Dict[str, Any]:
-        data = report.get('data') if isinstance(report, dict) else None
-        actual_target_weigh = None
-        actual_volume = None
-        if data:
-            extra = data.get('extraProperties') or {}
-            if isinstance(extra, dict):
-                for v in extra.values():
-                    obj = None
-                    try:
-                        obj = json.loads(v) if isinstance(v, str) else v
-                    except Exception:
-                        obj = None
-                    if isinstance(obj, dict):
-                        tw = obj.get('targetWeigh')
-                        vol = obj.get('volume')
-                        if tw is not None:
-                            try:
-                                actual_target_weigh = float(tw)
-                            except Exception:
-                                pass
-                        if vol is not None:
-                            try:
-                                actual_volume = float(vol)
-                            except Exception:
-                                pass
-        return {
-            'actualTargetWeigh': actual_target_weigh,
-            'actualVolume': actual_volume
-        }
-
-    def extract_actuals_from_batch_reports(self, batch_reports_result: str) -> dict:
-        print(f"[DEBUG] extract_actuals 收到原始数据: {batch_reports_result[:500]}...")  # 打印前500字符
-        try:
-            obj = json.loads(batch_reports_result) if isinstance(batch_reports_result, str) else batch_reports_result
-            if isinstance(obj, dict) and "return_info" in obj:
-                inner = obj["return_info"]
-                obj = json.loads(inner) if isinstance(inner, str) else inner
-            reports = obj.get("reports", []) if isinstance(obj, dict) else []
-            print(f"[DEBUG] 解析后的 reports 数组长度: {len(reports)}")
-        except Exception as e:
-            print(f"[DEBUG] 解析异常: {e}")
-            reports = []
-
-        actuals = []
-        for i, r in enumerate(reports):
-            print(f"[DEBUG] 处理 report[{i}]: order_code={r.get('order_code')}, has_extracted={r.get('extracted') is not None}, has_report={r.get('report') is not None}")
-            order_code = r.get("order_code")
-            order_id = r.get("order_id")
-            ex = r.get("extracted")
-            if isinstance(ex, dict) and (ex.get("actualTargetWeigh") is not None or ex.get("actualVolume") is not None):
-                print(f"[DEBUG] 从 extracted 字段提取: actualTargetWeigh={ex.get('actualTargetWeigh')}, actualVolume={ex.get('actualVolume')}")
-                actuals.append({
-                    "order_code": order_code,
-                    "order_id": order_id,
-                    "actualTargetWeigh": ex.get("actualTargetWeigh"),
-                    "actualVolume": ex.get("actualVolume")
-                })
-                continue
-            report = r.get("report")
-            vals = self._extract_actuals_from_report(report) if report else {"actualTargetWeigh": None, "actualVolume": None}
-            print(f"[DEBUG] 从 report 字段提取: {vals}")
-            actuals.append({
-                "order_code": order_code,
-                "order_id": order_id,
-                **vals
-            })
-
-        print(f"[DEBUG] 最终提取的 actuals 数组长度: {len(actuals)}")
-        result = {
-            "return_info": json.dumps({"actuals": actuals}, ensure_ascii=False)
-        }
-        print(f"[DEBUG] 返回结果: {result}")
-        return result
-
-    def process_temperature_cutoff_report(self, report_request) -> Dict[str, Any]:
-        try:
-            data = report_request.data
-            def _f(v):
-                try:
-                    return float(v)
-                except Exception:
-                    return 0.0
-            self.target_temperature = _f(data.get("targetTemperature"))
-            self.setting_temperature = _f(data.get("settingTemperature"))
-            self.in_temperature = _f(data.get("inTemperature"))
-            self.out_temperature = _f(data.get("outTemperature"))
-            self.pt100_temperature = _f(data.get("pt100Temperature"))
-            self.sensor_average_temperature = _f(data.get("sensorAverageTemperature"))
-            self.speed = _f(data.get("speed"))
-            self.force = _f(data.get("force"))
-            self.viscosity = _f(data.get("viscosity"))
-            self.average_viscosity = _f(data.get("averageViscosity"))
-
-            try:
-                if hasattr(self, "_ros_node") and self._ros_node is not None:
-                    props = [
-                        "in_temperature","out_temperature","pt100_temperature","sensor_average_temperature",
-                        "target_temperature","setting_temperature","viscosity","average_viscosity",
-                        "speed","force"
-                    ]
-                    for name in props:
-                        pub = self._ros_node._property_publishers.get(name)
-                        if pub:
-                            pub.publish_property()
-                    frame = data.get("frameCode")
-                    reactor_id = None
-                    try:
-                        reactor_id = self._frame_to_reactor_id.get(int(frame))
-                    except Exception:
-                        reactor_id = None
-                    if reactor_id and hasattr(self._ros_node, "sub_devices"):
-                        child = self._ros_node.sub_devices.get(reactor_id)
-                        if child and hasattr(child, "driver_instance"):
-                            child.driver_instance.update_metrics(data)
-                            pubs = getattr(child.ros_node_instance, "_property_publishers", {})
-                            for name in props:
-                                p = pubs.get(name)
-                                if p:
-                                    p.publish_property()
-            except Exception:
-                pass
-            event = {
-                "frameCode": data.get("frameCode"),
-                "generateTime": data.get("generateTime"),
-                "targetTemperature": data.get("targetTemperature"),
-                "settingTemperature": data.get("settingTemperature"),
-                "inTemperature": data.get("inTemperature"),
-                "outTemperature": data.get("outTemperature"),
-                "pt100Temperature": data.get("pt100Temperature"),
-                "sensorAverageTemperature": data.get("sensorAverageTemperature"),
-                "speed": data.get("speed"),
-                "force": data.get("force"),
-                "viscosity": data.get("viscosity"),
-                "averageViscosity": data.get("averageViscosity"),
-                "request_time": report_request.request_time,
-                "timestamp": datetime.now().isoformat(),
-                "reactor_id": self._frame_to_reactor_id.get(int(data.get("frameCode", 0))) if str(data.get("frameCode", "")).isdigit() else None,
-            }
-
-            base_dir = Path(__file__).resolve().parents[3] / "unilabos_data"
-            base_dir.mkdir(parents=True, exist_ok=True)
-            out_file = base_dir / "temperature_cutoff_events.json"
-            try:
-                existing = json.loads(out_file.read_text(encoding="utf-8")) if out_file.exists() else []
-                if not isinstance(existing, list):
-                    existing = []
-            except Exception:
-                existing = []
-            existing.append(event)
-            out_file.write_text(json.dumps(existing, ensure_ascii=False, indent=2), encoding="utf-8")
-
-            if hasattr(self, "_ros_node") and self._ros_node is not None:
-                ns = self._ros_node.namespace
-                topics = {
-                    "targetTemperature": f"{ns}/metrics/temperature_cutoff/target_temperature",
-                    "settingTemperature": f"{ns}/metrics/temperature_cutoff/setting_temperature",
-                    "inTemperature": f"{ns}/metrics/temperature_cutoff/in_temperature",
-                    "outTemperature": f"{ns}/metrics/temperature_cutoff/out_temperature",
-                    "pt100Temperature": f"{ns}/metrics/temperature_cutoff/pt100_temperature",
-                    "sensorAverageTemperature": f"{ns}/metrics/temperature_cutoff/sensor_average_temperature",
-                    "speed": f"{ns}/metrics/temperature_cutoff/speed",
-                    "force": f"{ns}/metrics/temperature_cutoff/force",
-                    "viscosity": f"{ns}/metrics/temperature_cutoff/viscosity",
-                    "averageViscosity": f"{ns}/metrics/temperature_cutoff/average_viscosity",
-                }
-                for k, t in topics.items():
-                    v = data.get(k)
-                    if v is not None:
-                        pub = self._ros_node.create_publisher(Float64, t, 10)
-                        pub.publish(convert_to_ros_msg(Float64, float(v)))
-
-                evt_pub = self._ros_node.create_publisher(String, f"{ns}/events/temperature_cutoff", 10)
-                evt_pub.publish(convert_to_ros_msg(String, json.dumps(event, ensure_ascii=False)))
-
-            return {"processed": True, "frame": data.get("frameCode")}
-        except Exception as e:
-            return {"processed": False, "error": str(e)}
-
-    def wait_for_multiple_orders_and_get_reports(self, batch_create_result: str = None, timeout: int = 7200, check_interval: int = 10) -> Dict[str, Any]:
-        try:
-            timeout = int(timeout) if timeout else 7200
-            check_interval = int(check_interval) if check_interval else 10
-            if not batch_create_result or batch_create_result == "":
-                raise ValueError("batch_create_result为空")
-            try:
-                if isinstance(batch_create_result, str) and '[...]' in batch_create_result:
-                    batch_create_result = batch_create_result.replace('[...]', '[]')
-                result_obj = json.loads(batch_create_result) if isinstance(batch_create_result, str) else batch_create_result
-                if isinstance(result_obj, dict) and "return_value" in result_obj:
-                    inner = result_obj.get("return_value")
-                    if isinstance(inner, str):
-                        result_obj = json.loads(inner)
-                    elif isinstance(inner, dict):
-                        result_obj = inner
-                order_codes = result_obj.get("order_codes", [])
-                order_ids = result_obj.get("order_ids", [])
-            except Exception as e:
-                raise ValueError(f"解析batch_create_result失败: {e}")
-            if not order_codes or not order_ids:
-                raise ValueError("缺少order_codes或order_ids")
-            if not isinstance(order_codes, list):
-                order_codes = [order_codes]
-            if not isinstance(order_ids, list):
-                order_ids = [order_ids]
-            if len(order_codes) != len(order_ids):
-                raise ValueError("order_codes与order_ids数量不匹配")
-            total = len(order_codes)
-            pending = {c: {"order_id": order_ids[i], "completed": False} for i, c in enumerate(order_codes)}
-            reports = []
-            start_time = time.time()
-            while pending:
-                elapsed_time = time.time() - start_time
-                if elapsed_time > timeout:
-                    for oc in list(pending.keys()):
-                        reports.append({
-                            "order_code": oc,
-                            "order_id": pending[oc]["order_id"],
-                            "status": "timeout",
-                            "completion_status": None,
-                            "report": None,
-                            "extracted": None,
-                            "elapsed_time": elapsed_time
-                        })
-                    break
-                completed_round = []
-                for oc in list(pending.keys()):
-                    oid = pending[oc]["order_id"]
-                    if oc in self.order_completion_status:
-                        info = self.order_completion_status[oc]
-                        try:
-                            rq = json.dumps({"order_id": oid})
-                            rep = self.hardware_interface.order_report(rq)
-                            if not rep:
-                                rep = {"error": "无法获取报告"}
-                            reports.append({
-                                "order_code": oc,
-                                "order_id": oid,
-                                "status": "completed",
-                                "completion_status": info.get('status'),
-                                "report": rep,
-                                "extracted": self._extract_actuals_from_report(rep),
-                                "elapsed_time": elapsed_time
-                            })
-                            completed_round.append(oc)
-                            del self.order_completion_status[oc]
-                        except Exception as e:
-                            reports.append({
-                                "order_code": oc,
-                                "order_id": oid,
-                                "status": "error",
-                                "completion_status": info.get('status') if 'info' in locals() else None,
-                                "report": None,
-                                "extracted": None,
-                                "error": str(e),
-                                "elapsed_time": elapsed_time
-                            })
-                            completed_round.append(oc)
-                for oc in completed_round:
-                    del pending[oc]
-                if pending:
-                    time.sleep(check_interval)
-            completed_count = sum(1 for r in reports if r['status'] == 'completed')
-            timeout_count = sum(1 for r in reports if r['status'] == 'timeout')
-            error_count = sum(1 for r in reports if r['status'] == 'error')
-            final_elapsed_time = time.time() - start_time
-            summary = {
-                "total": total,
-                "completed": completed_count,
-                "timeout": timeout_count,
-                "error": error_count,
-                "elapsed_time": round(final_elapsed_time, 2),
-                "reports": reports
-            }
-            return {
-                "return_info": json.dumps(summary, ensure_ascii=False)
-            }
-        except Exception as e:
-            raise
-
    def liquid_feeding_beaker(
        self,
-        volume: str = "350",
+        volume: str = "35000",
        assign_material_name: str = "BAPP",
        time: str = "0",
        torque_variation: int = 1,
@@ -778,7 +355,7 @@ class BioyondReactionStation(BioyondWorkstation):
        """液体进料烧杯

        Args:
-            volume: 分液质量(g)
+            volume: 分液量(μL)
            assign_material_name: 物料名称(试剂瓶位)
            time: 观察时间(分钟)
            torque_variation: 是否观察(int类型, 1=否, 2=是)
@@ -1003,14 +580,7 @@ class BioyondReactionStation(BioyondWorkstation):
        # print(f"\n✅ 任务创建成功: {result}")
        # print(f"\n✅ 任务创建成功")
        print(f"{'='*60}\n")
-
-        # 返回结果，包含合并后的工作流数据和订单参数
-        return json.dumps({
-            "success": True,
-            "result": result,
-            "merged_workflow": merged_workflow,
-            "order_params": order_params
-        })
+        return json.dumps({"success": True, "result": result})

    def _build_workflows_with_parameters(self, workflows_result: list) -> list:
        """
@@ -1210,4 +780,4 @@ class BioyondReactionStation(BioyondWorkstation):
        except Exception as e:
            print(f"   ❌ 工作流ID验证失败: {e}")
            print(f"   💡 将重新合并工作流")
-            return False
+            return False
--- a/unilabos/devices/workstation/bioyond_studio/station.py
+++ b/unilabos/devices/workstation/bioyond_studio/station.py
--- a/unilabos/devices/workstation/coin_cell_assembly/YB_YH_materials.py
+++ b/unilabos/devices/workstation/coin_cell_assembly/YB_YH_materials.py
@@ -0,0 +1,645 @@
+"""
+纽扣电池组装工作站物料类定义
+Button Battery Assembly Station Resource Classes
+"""
+
+from __future__ import annotations
+
+from collections import OrderedDict
+from typing import Any, Dict, List, Optional, TypedDict, Union, cast
+
+from pylabrobot.resources.coordinate import Coordinate
+from pylabrobot.resources.container import Container
+from pylabrobot.resources.deck import Deck
+from pylabrobot.resources.itemized_resource import ItemizedResource
+from pylabrobot.resources.resource import Resource
+from pylabrobot.resources.resource_stack import ResourceStack
+from pylabrobot.resources.tip_rack import TipRack, TipSpot
+from pylabrobot.resources.trash import Trash
+from pylabrobot.resources.utils import create_ordered_items_2d
+
+from unilabos.resources.battery.magazine import MagazineHolder_4_Cathode, MagazineHolder_6_Cathode, MagazineHolder_6_Anode, MagazineHolder_6_Battery
+from unilabos.resources.battery.bottle_carriers import YIHUA_Electrolyte_12VialCarrier
+from unilabos.resources.battery.electrode_sheet import ElectrodeSheet
+
+
+
+# TODO: 这个应该只能放一个极片
+class MaterialHoleState(TypedDict):
+    diameter: int
+    depth: int
+    max_sheets: int
+    info: Optional[str]  # 附加信息
+
+class MaterialHole(Resource):
+    """料板洞位类"""
+    children: List[ElectrodeSheet] = []
+
+    def __init__(
+        self,
+        name: str,
+        size_x: float,
+        size_y: float,
+        size_z: float,
+        category: str = "material_hole",
+        **kwargs
+    ):
+        super().__init__(
+            name=name,
+            size_x=size_x,
+            size_y=size_y,
+            size_z=size_z,
+            category=category,
+        )
+        self._unilabos_state: MaterialHoleState = MaterialHoleState(
+            diameter=20,
+            depth=10,
+            max_sheets=1,
+            info=None
+        )
+
+    def get_all_sheet_info(self):
+        info_list = []
+        for sheet in self.children:
+            info_list.append(sheet._unilabos_state["info"])
+        return info_list
+    
+    #这个函数函数好像没用，一般不会集中赋值质量
+    def set_all_sheet_mass(self):
+        for sheet in self.children:
+            sheet._unilabos_state["mass"] = 0.5  # 示例：设置质量为0.5g
+
+    def load_state(self, state: Dict[str, Any]) -> None:
+        """格式不变"""
+        super().load_state(state)
+        self._unilabos_state = state
+
+    def serialize_state(self) -> Dict[str, Dict[str, Any]]:
+        """格式不变"""
+        data = super().serialize_state()
+        data.update(self._unilabos_state)  # Container自身的信息，云端物料将保存这一data，本地也通过这里的data进行读写，当前类用来表示这个物料的长宽高大小的属性，而data（state用来表示物料的内容，细节等）
+        return data
+    #移动极片前先取出对象
+    def get_sheet_with_name(self, name: str) -> Optional[ElectrodeSheet]:
+        for sheet in self.children:
+            if sheet.name == name:
+                return sheet
+        return None
+
+    def has_electrode_sheet(self) -> bool:
+        """检查洞位是否有极片"""
+        return len(self.children) > 0
+
+    def assign_child_resource(
+        self,
+        resource: ElectrodeSheet,
+        location: Optional[Coordinate],
+        reassign: bool = True,
+    ):
+        """放置极片"""
+        # TODO: 这里要改，diameter找不到，加入._unilabos_state后应该没问题
+        #if resource._unilabos_state["diameter"] > self._unilabos_state["diameter"]:
+        #    raise ValueError(f"极片直径 {resource._unilabos_state['diameter']} 超过洞位直径 {self._unilabos_state['diameter']}")
+        #if len(self.children) >= self._unilabos_state["max_sheets"]:
+        #    raise ValueError(f"洞位已满，无法放置更多极片")
+        super().assign_child_resource(resource, location, reassign)
+
+    # 根据children的编号取物料对象。
+    def get_electrode_sheet_info(self, index: int) -> ElectrodeSheet:
+        return self.children[index]
+
+
+class MaterialPlateState(TypedDict):
+    hole_spacing_x: float
+    hole_spacing_y: float
+    hole_diameter: float
+    info: Optional[str]  # 附加信息
+
+class MaterialPlate(ItemizedResource[MaterialHole]):
+    """料板类 - 4x4个洞位，每个洞位放1个极片"""
+    
+    children: List[MaterialHole]
+
+    def __init__(
+        self,
+        name: str,
+        size_x: float,
+        size_y: float,
+        size_z: float,
+        ordered_items: Optional[Dict[str, MaterialHole]] = None,
+        ordering: Optional[OrderedDict[str, str]] = None,
+        category: str = "material_plate",
+        model: Optional[str] = None,
+        fill: bool = False
+    ):
+        """初始化料板
+
+        Args:
+            name: 料板名称
+            size_x: 长度 (mm)
+            size_y: 宽度 (mm)
+            size_z: 高度 (mm)
+            hole_diameter: 洞直径 (mm)
+            hole_depth: 洞深度 (mm)
+            hole_spacing_x: X方向洞位间距 (mm)
+            hole_spacing_y: Y方向洞位间距 (mm)
+            number: 编号
+            category: 类别
+            model: 型号
+        """
+        self._unilabos_state: MaterialPlateState = MaterialPlateState(
+            hole_spacing_x=24.0,
+            hole_spacing_y=24.0,
+            hole_diameter=20.0,
+            info="",
+        )
+        # 创建4x4的洞位
+        # TODO: 这里要改，对应不同形状
+        holes = create_ordered_items_2d(
+            klass=MaterialHole,
+            num_items_x=4,
+            num_items_y=4,
+            dx=(size_x - 4 * self._unilabos_state["hole_spacing_x"]) / 2,  # 居中
+            dy=(size_y - 4 * self._unilabos_state["hole_spacing_y"]) / 2,  # 居中
+            dz=size_z,
+            item_dx=self._unilabos_state["hole_spacing_x"],
+            item_dy=self._unilabos_state["hole_spacing_y"],
+            size_x = 16,
+            size_y = 16,
+            size_z = 16,
+        )
+        if fill:
+            super().__init__(
+                name=name,
+                size_x=size_x,
+                size_y=size_y,
+                size_z=size_z,
+                ordered_items=holes,
+                category=category,
+                model=model,
+            )
+        else:
+            super().__init__(
+                name=name,
+                size_x=size_x,
+                size_y=size_y,
+                size_z=size_z,
+                ordered_items=ordered_items,
+                ordering=ordering,
+                category=category,
+                model=model,
+            )
+
+    def update_locations(self):
+        # TODO:调多次相加
+        holes = create_ordered_items_2d(
+            klass=MaterialHole,
+            num_items_x=4,
+            num_items_y=4,
+            dx=(self._size_x - 3 * self._unilabos_state["hole_spacing_x"]) / 2,  # 居中
+            dy=(self._size_y - 3 * self._unilabos_state["hole_spacing_y"]) / 2,  # 居中
+            dz=self._size_z,
+            item_dx=self._unilabos_state["hole_spacing_x"],
+            item_dy=self._unilabos_state["hole_spacing_y"],
+            size_x = 1,
+            size_y = 1,
+            size_z = 1,
+        )
+        for item, original_item in zip(holes.items(), self.children):
+            original_item.location = item[1].location
+
+
+class PlateSlot(ResourceStack):
+    """板槽位类 - 1个槽上能堆放8个板，移板只能操作最上方的板"""
+
+    def __init__(
+        self,
+        name: str,
+        size_x: float,
+        size_y: float,
+        size_z: float,
+        max_plates: int = 8,
+        category: str = "plate_slot",
+        model: Optional[str] = None
+    ):
+        """初始化板槽位
+
+        Args:
+            name: 槽位名称
+            max_plates: 最大板数量
+            category: 类别
+        """
+        super().__init__(
+            name=name,
+            direction="z",  # Z方向堆叠
+            resources=[],
+        )
+        self.max_plates = max_plates
+        self.category = category
+
+    def can_add_plate(self) -> bool:
+        """检查是否可以添加板"""
+        return len(self.children) < self.max_plates
+
+    def add_plate(self, plate: MaterialPlate) -> None:
+        """添加料板"""
+        if not self.can_add_plate():
+            raise ValueError(f"槽位 {self.name} 已满，无法添加更多板")
+        self.assign_child_resource(plate)
+
+    def get_top_plate(self) -> MaterialPlate:
+        """获取最上方的板"""
+        if len(self.children) == 0:
+            raise ValueError(f"槽位 {self.name} 为空")
+        return cast(MaterialPlate, self.get_top_item())
+
+    def take_top_plate(self) -> MaterialPlate:
+        """取出最上方的板"""
+        top_plate = self.get_top_plate()
+        self.unassign_child_resource(top_plate)
+        return top_plate
+
+    def can_access_for_picking(self) -> bool:
+        """检查是否可以进行取料操作（只有最上方的板能进行取料操作）"""
+        return len(self.children) > 0
+
+    def serialize(self) -> dict:
+        return {
+            **super().serialize(),
+            "max_plates": self.max_plates,
+        }
+
+
+#是一种类型注解，不用self
+class BatteryState(TypedDict):
+    """电池状态字典"""
+    diameter: float
+    height: float
+    assembly_pressure: float
+    electrolyte_volume: float
+    electrolyte_name: str
+
+class Battery(Resource):
+    """电池类 - 可容纳极片"""
+    children: List[ElectrodeSheet] = []
+
+    def __init__(
+        self,
+        name: str,
+        size_x=1,
+        size_y=1,
+        size_z=1,
+        category: str = "battery",
+    ):
+        """初始化电池
+
+        Args:
+            name: 电池名称
+            diameter: 直径 (mm)
+            height: 高度 (mm)
+            max_volume: 最大容量 (μL)
+            barcode: 二维码编号
+            category: 类别
+            model: 型号
+        """
+        super().__init__(
+            name=name,
+            size_x=1,
+            size_y=1,
+            size_z=1,
+            category=category,
+        )
+        self._unilabos_state: BatteryState = BatteryState(
+                                 diameter = 1.0,
+                                 height = 1.0,
+                                 assembly_pressure = 1.0,
+                                 electrolyte_volume = 1.0,
+                                 electrolyte_name = "DP001"
+                                 )
+
+    def add_electrolyte_with_bottle(self, bottle: Bottle) -> bool:
+        to_add_name = bottle._unilabos_state["electrolyte_name"]
+        if bottle.aspirate_electrolyte(10):
+            if self.add_electrolyte(to_add_name, 10):
+                pass
+            else:
+                bottle._unilabos_state["electrolyte_volume"] += 10
+
+    def set_electrolyte(self, name: str, volume: float) -> None:
+        """设置电解液信息"""
+        self._unilabos_state["electrolyte_name"] = name
+        self._unilabos_state["electrolyte_volume"] = volume
+    #这个应该没用，不会有加了后再加的事情
+    def add_electrolyte(self, name: str, volume: float) -> bool:
+        """添加电解液信息"""
+        if name != self._unilabos_state["electrolyte_name"]:
+            return False
+        self._unilabos_state["electrolyte_volume"] += volume
+
+    def load_state(self, state: Dict[str, Any]) -> None:
+        """格式不变"""
+        super().load_state(state)
+        self._unilabos_state = state
+
+    def serialize_state(self) -> Dict[str, Dict[str, Any]]:
+        """格式不变"""
+        data = super().serialize_state()
+        data.update(self._unilabos_state)  # Container自身的信息，云端物料将保存这一data，本地也通过这里的data进行读写，当前类用来表示这个物料的长宽高大小的属性，而data（state用来表示物料的内容，细节等）
+        return data
+
+# 电解液作为属性放进去
+
+class BatteryPressSlotState(TypedDict):
+    """电池状态字典"""
+    diameter: float =20.0
+    depth: float = 4.0
+
+class BatteryPressSlot(Resource):
+    """电池压制槽类 - 设备，可容纳一个电池"""
+    children: List[Battery] = []
+
+    def __init__(
+        self,
+        name: str = "BatteryPressSlot",
+        category: str = "battery_press_slot",
+    ):
+        """初始化电池压制槽
+
+        Args:
+            name: 压制槽名称
+            diameter: 直径 (mm)
+            depth: 深度 (mm)
+            category: 类别
+            model: 型号
+        """
+        super().__init__(
+            name=name,
+            size_x=10,
+            size_y=12,
+            size_z=13,
+            category=category,
+        )
+        self._unilabos_state: BatteryPressSlotState = BatteryPressSlotState()
+
+    def has_battery(self) -> bool:
+        """检查是否有电池"""
+        return len(self.children) > 0
+
+    def load_state(self, state: Dict[str, Any]) -> None:
+        """格式不变"""
+        super().load_state(state)
+        self._unilabos_state = state
+
+    def serialize_state(self) -> Dict[str, Dict[str, Any]]:
+        """格式不变"""
+        data = super().serialize_state()
+        data.update(self._unilabos_state)  # Container自身的信息，云端物料将保存这一data，本地也通过这里的data进行读写，当前类用来表示这个物料的长宽高大小的属性，而data（state用来表示物料的内容，细节等）
+        return data
+    
+    def assign_child_resource(
+        self,
+        resource: Battery,
+        location: Optional[Coordinate],
+        reassign: bool = True,
+    ):
+        """放置极片"""
+        # TODO: 让高京看下槽位只有一个电池时是否这么写。
+        if self.has_battery():
+            raise ValueError(f"槽位已含有一个电池，无法再放置其他电池")
+        super().assign_child_resource(resource, location, reassign)
+
+    # 根据children的编号取物料对象。
+    def get_battery_info(self, index: int) -> Battery:
+        return self.children[0]
+
+
+def TipBox64(
+        name: str,
+        size_x: float = 127.8,
+        size_y: float = 85.5,
+        size_z: float = 60.0,
+        category: str = "tip_rack",
+        model: Optional[str] = None,
+):
+    """64孔枪头盒类"""
+    from pylabrobot.resources.tip import Tip
+
+    # 创建12x8=96个枪头位
+    def make_tip():
+        return Tip(
+            has_filter=False,
+            total_tip_length=20.0,
+            maximal_volume=1000,  # 1mL
+            fitting_depth=8.0,
+        )
+
+    tip_spots = create_ordered_items_2d(
+        klass=TipSpot,
+        num_items_x=12,
+        num_items_y=8,
+        dx=8.0,
+        dy=8.0,
+        dz=0.0,
+        item_dx=9.0,
+        item_dy=9.0,
+        size_x=10,
+        size_y=10,
+        size_z=0.0,
+        make_tip=make_tip,
+    )
+    idx_available = list(range(0, 32)) + list(range(64, 96))
+    tip_spots_available = {k: v for i, (k, v) in enumerate(tip_spots.items()) if i in idx_available}
+    tip_rack = TipRack(
+        name=name,
+        size_x=size_x,
+        size_y=size_y,
+        size_z=size_z,
+        # ordered_items=tip_spots_available,
+        ordered_items=tip_spots,
+        category=category,
+        model=model,
+        with_tips=False,
+    )
+    tip_rack.set_tip_state([True]*32 + [False]*32 + [True]*32)  # 前32和后32个有枪头，中间32个无枪头
+    return tip_rack
+
+
+class WasteTipBoxstate(TypedDict):
+    """"废枪头盒状态字典"""
+    max_tips: int = 100
+    tip_count: int = 0
+
+#枪头不是一次性的（同一溶液则反复使用），根据寄存器判断
+class WasteTipBox(Trash):
+    """废枪头盒类 - 100个枪头容量"""
+
+    def __init__(
+        self,
+        name: str,
+        size_x: float = 127.8,
+        size_y: float = 85.5,
+        size_z: float = 60.0,
+        material_z_thickness=0,
+        max_volume=float("inf"),
+        category="trash",
+        model=None,
+        compute_volume_from_height=None,
+        compute_height_from_volume=None,
+    ):
+        """初始化废枪头盒
+
+        Args:
+            name: 废枪头盒名称
+            size_x: 长度 (mm)
+            size_y: 宽度 (mm)
+            size_z: 高度 (mm)
+            max_tips: 最大枪头容量
+            category: 类别
+            model: 型号
+        """
+        super().__init__(
+            name=name,
+            size_x=size_x,
+            size_y=size_y,
+            size_z=size_z,
+            category=category,
+            model=model,
+        )
+        self._unilabos_state: WasteTipBoxstate = WasteTipBoxstate()
+
+    def add_tip(self) -> None:
+        """添加废枪头"""
+        if self._unilabos_state["tip_count"] >= self._unilabos_state["max_tips"]:
+            raise ValueError(f"废枪头盒 {self.name} 已满")
+        self._unilabos_state["tip_count"] += 1
+
+    def get_tip_count(self) -> int:
+        """获取枪头数量"""
+        return self._unilabos_state["tip_count"]
+
+    def empty(self) -> None:
+        """清空废枪头盒"""
+        self._unilabos_state["tip_count"] = 0
+
+
+    def load_state(self, state: Dict[str, Any]) -> None:
+        """格式不变"""
+        super().load_state(state)
+        self._unilabos_state = state
+
+    def serialize_state(self) -> Dict[str, Dict[str, Any]]:
+        """格式不变"""
+        data = super().serialize_state()
+        data.update(self._unilabos_state)  # Container自身的信息，云端物料将保存这一data，本地也通过这里的data进行读写，当前类用来表示这个物料的长宽高大小的属性，而data（state用来表示物料的内容，细节等）
+        return data
+
+
+class CoincellDeck(Deck):
+    """纽扣电池组装工作站台面类"""
+
+    def __init__(
+        self,
+        name: str = "coin_cell_deck",
+        size_x: float = 1450.0,  # 1m
+        size_y: float = 1450.0,  # 1m
+        size_z: float = 100.0,   # 0.9m
+        origin: Coordinate = Coordinate(-2200, 0, 0),
+        category: str = "coin_cell_deck",
+        setup: bool = False,  # 是否自动执行 setup
+    ):
+        """初始化纽扣电池组装工作站台面
+
+        Args:
+            name: 台面名称
+            size_x: 长度 (mm) - 1m
+            size_y: 宽度 (mm) - 1m
+            size_z: 高度 (mm) - 0.9m
+            origin: 原点坐标
+            category: 类别
+            setup: 是否自动执行 setup 配置标准布局
+        """
+        super().__init__(
+            name=name,
+            size_x=1450.0,
+            size_y=1450.0,
+            size_z=100.0,
+            origin=origin,
+        )
+        if setup:
+            self.setup()
+
+    def setup(self) -> None:
+        """设置工作站的标准布局 - 包含子弹夹、料盘、瓶架等完整配置"""
+        # ====================================== 子弹夹 ============================================
+        
+        # 正极片（4个洞位，2x2布局）
+        zhengji_zip = MagazineHolder_4_Cathode("正极&铝箔弹夹")
+        self.assign_child_resource(zhengji_zip, Coordinate(x=402.0, y=830.0, z=0))
+        
+        # 正极壳、平垫片（6个洞位，2x2+2布局）
+        zhengjike_zip = MagazineHolder_6_Cathode("正极壳&平垫片弹夹")
+        self.assign_child_resource(zhengjike_zip, Coordinate(x=566.0, y=272.0, z=0))
+        
+        # 负极壳、弹垫片（6个洞位，2x2+2布局）
+        fujike_zip = MagazineHolder_6_Anode("负极壳&弹垫片弹夹")
+        self.assign_child_resource(fujike_zip, Coordinate(x=474.0, y=276.0, z=0))
+        
+        # 成品弹夹（6个洞位，3x2布局）
+        chengpindanjia_zip = MagazineHolder_6_Battery("成品弹夹")
+        self.assign_child_resource(chengpindanjia_zip, Coordinate(x=260.0, y=156.0, z=0))
+        
+        # ====================================== 物料板 ============================================
+        # 创建物料板（料盘carrier）- 4x4布局
+        # 负极料盘
+        fujiliaopan = MaterialPlate(name="负极料盘", size_x=120, size_y=100, size_z=10.0, fill=True)
+        self.assign_child_resource(fujiliaopan, Coordinate(x=708.0, y=794.0, z=0))
+        # for i in range(16):
+        #     fujipian = ElectrodeSheet(name=f"{fujiliaopan.name}_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
+        #     fujiliaopan.children[i].assign_child_resource(fujipian, location=None)
+
+        # 隔膜料盘
+        gemoliaopan = MaterialPlate(name="隔膜料盘", size_x=120, size_y=100, size_z=10.0, fill=True)
+        self.assign_child_resource(gemoliaopan, Coordinate(x=718.0, y=918.0, z=0))
+        # for i in range(16):
+        #     gemopian = ElectrodeSheet(name=f"{gemoliaopan.name}_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
+        #     gemoliaopan.children[i].assign_child_resource(gemopian, location=None)
+
+        # ====================================== 瓶架、移液枪 ============================================
+        # 在台面上放置 3x4 瓶架、6x2 瓶架 与 64孔移液枪头盒
+        # 奔耀上料5ml分液瓶小板 - 由奔曜跨站转运而来，不单独写，但是这里应该有一个堆栈用于摆放分液瓶小板
+        
+        # bottle_rack_3x4 = BottleRack(
+        #     name="bottle_rack_3x4",
+        #     size_x=210.0,
+        #     size_y=140.0,
+        #     size_z=100.0,
+        #     num_items_x=2,
+        #     num_items_y=4,
+        #     position_spacing=35.0,
+        #     orientation="vertical",
+        # )
+        # self.assign_child_resource(bottle_rack_3x4, Coordinate(x=1542.0, y=717.0, z=0))
+        
+        # 电解液缓存位 - 6x2布局
+        bottle_rack_6x2 = YIHUA_Electrolyte_12VialCarrier(name="bottle_rack_6x2")
+        self.assign_child_resource(bottle_rack_6x2, Coordinate(x=1050.0, y=358.0, z=0))
+        # 电解液回收位6x2
+        bottle_rack_6x2_2 = YIHUA_Electrolyte_12VialCarrier(name="bottle_rack_6x2_2")
+        self.assign_child_resource(bottle_rack_6x2_2, Coordinate(x=914.0, y=358.0, z=0))
+
+        tip_box = TipBox64(name="tip_box_64")
+        self.assign_child_resource(tip_box, Coordinate(x=782.0, y=514.0, z=0))
+
+        waste_tip_box = WasteTipBox(name="waste_tip_box")
+        self.assign_child_resource(waste_tip_box, Coordinate(x=778.0, y=622.0, z=0))
+
+
+def YH_Deck(name=""):
+    cd = CoincellDeck(name=name)
+    cd.setup()
+    return cd
+
+
+if __name__ == "__main__":
+    deck = create_coin_cell_deck()
+    print(deck)
--- a/unilabos/devices/workstation/coin_cell_assembly/button_battery_station.py
+++ b/unilabos/devices/workstation/coin_cell_assembly/button_battery_station.py
--- a/unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly.py
+++ b/unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly.py
@@ -1,44 +1,134 @@
+      
 import csv
+import inspect
 import json
 import os
 import threading
 import time
+import types
 from datetime import datetime
 from typing import Any, Dict, Optional
-from pylabrobot.resources import Resource as PLRResource
+from functools import wraps
+from pylabrobot.resources import Deck, Resource as PLRResource
 from unilabos_msgs.msg import Resource
 from unilabos.device_comms.modbus_plc.client import ModbusTcpClient
-from unilabos.devices.workstation.coin_cell_assembly.button_battery_station import MaterialHole, MaterialPlate
 from unilabos.devices.workstation.workstation_base import WorkstationBase
 from unilabos.device_comms.modbus_plc.client import TCPClient, ModbusNode, PLCWorkflow, ModbusWorkflow, WorkflowAction, BaseClient
 from unilabos.device_comms.modbus_plc.modbus import DeviceType, Base as ModbusNodeBase, DataType, WorderOrder
-from unilabos.devices.workstation.coin_cell_assembly.button_battery_station import *
+from unilabos.devices.workstation.coin_cell_assembly.YB_YH_materials import *
 from unilabos.ros.nodes.base_device_node import ROS2DeviceNode, BaseROS2DeviceNode
 from unilabos.ros.nodes.presets.workstation import ROS2WorkstationNode
+from unilabos.devices.workstation.coin_cell_assembly.YB_YH_materials import CoincellDeck
+from unilabos.resources.graphio import convert_resources_to_type
+from unilabos.utils.log import logger
+
+
+def _ensure_modbus_slave_kw_alias(modbus_client):
+    if modbus_client is None:
+        return
+
+    method_names = [
+        "read_coils",
+        "write_coils",
+        "write_coil",
+        "read_discrete_inputs",
+        "read_holding_registers",
+        "write_register",
+        "write_registers",
+    ]
+
+    def _wrap(func):
+        signature = inspect.signature(func)
+        has_var_kwargs = any(param.kind == param.VAR_KEYWORD for param in signature.parameters.values())
+        accepts_unit = has_var_kwargs or "unit" in signature.parameters
+        accepts_slave = has_var_kwargs or "slave" in signature.parameters
+
+        @wraps(func)
+        def _wrapped(self, *args, **kwargs):
+            if "slave" in kwargs and not accepts_slave:
+                slave_value = kwargs.pop("slave")
+                if accepts_unit and "unit" not in kwargs:
+                    kwargs["unit"] = slave_value
+            if "unit" in kwargs and not accepts_unit:
+                unit_value = kwargs.pop("unit")
+                if accepts_slave and "slave" not in kwargs:
+                    kwargs["slave"] = unit_value
+            return func(self, *args, **kwargs)
+
+        _wrapped._has_slave_alias = True
+        return _wrapped
+
+    for name in method_names:
+        if not hasattr(modbus_client, name):
+            continue
+        bound_method = getattr(modbus_client, name)
+        func = getattr(bound_method, "__func__", None)
+        if func is None:
+            continue
+        if getattr(func, "_has_slave_alias", False):
+            continue
+        wrapped = _wrap(func)
+        setattr(modbus_client, name, types.MethodType(wrapped, modbus_client))
+
+
+def _coerce_deck_input(deck: Any) -> Optional[Deck]:
+    if deck is None:
+        return None
+
+    if isinstance(deck, Deck):
+        return deck
+
+    if isinstance(deck, PLRResource):
+        return deck if isinstance(deck, Deck) else None
+
+    candidates = None
+    if isinstance(deck, dict):
+        if "nodes" in deck and isinstance(deck["nodes"], list):
+            candidates = deck["nodes"]
+        else:
+            candidates = [deck]
+    elif isinstance(deck, list):
+        candidates = deck
+
+    if candidates is None:
+        return None
+
+    try:
+        converted = convert_resources_to_type(resources_list=candidates, resource_type=Deck)
+        if isinstance(converted, Deck):
+            return converted
+        if isinstance(converted, list):
+            for item in converted:
+                if isinstance(item, Deck):
+                    return item
+    except Exception as exc:
+        logger.warning(f"deck 转换 Deck 失败: {exc}")
+    return None
+

 #构建物料系统

 class CoinCellAssemblyWorkstation(WorkstationBase):
-    def __init__(
-        self,
-        deck: CoincellDeck,
-        address: str = "192.168.1.20",
+    def __init__(self, 
+        config: dict = None, 
+        deck=None, 
+        address: str = "172.16.28.102",
        port: str = "502",
-        debug_mode: bool = True,
+        debug_mode: bool = False,
        *args,
-        **kwargs,
-    ):
-        super().__init__(
-            #桌子
-            deck=deck,
-            *args,
-            **kwargs,
-        )
+        **kwargs):
+
+        if deck is None and config:
+            deck = config.get('deck')
+        if deck is None:
+            logger.info("没有传入依华deck，检查启动json文件")
+        super().__init__(deck=deck, *args, **kwargs,)
        self.debug_mode = debug_mode
-        self.deck = deck
+ 
        """ 连接初始化 """
        modbus_client = TCPClient(addr=address, port=port)
-        print("modbus_client", modbus_client)
+        logger.debug(f"创建 Modbus 客户端: {modbus_client}")
+        _ensure_modbus_slave_kw_alias(modbus_client.client)
        if not debug_mode:
            modbus_client.client.connect()
            count = 100
@@ -49,27 +139,21 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
                time.sleep(2)
            if not modbus_client.client.is_socket_open():
                raise ValueError('modbus tcp connection failed')
+            self.nodes = BaseClient.load_csv(os.path.join(os.path.dirname(__file__), 'coin_cell_assembly_1105.csv'))
+            self.client = modbus_client.register_node_list(self.nodes)
        else:
            print("测试模式，跳过连接")
+            self.nodes, self.client = None, None

        """ 工站的配置 """
-        self.nodes = BaseClient.load_csv(os.path.join(os.path.dirname(__file__), 'coin_cell_assembly_a.csv'))
-        self.client  = modbus_client.register_node_list(self.nodes)
+
        self.success = False
        self.allow_data_read = False  #允许读取函数运行标志位
        self.csv_export_thread = None
        self.csv_export_running = False
        self.csv_export_file = None
-        #创建一个物料台面，包含两个极片板
-        #self.deck = create_a_coin_cell_deck()
-        
-        #self._ros_node.update_resource(self.deck)
-        
-        #ROS2DeviceNode.run_async_func(self._ros_node.update_resource, True, **{
-        #    "resources": [self.deck]
-        #})
+        self.coin_num_N = 0  #已组装电池数量

-    
    def post_init(self, ros_node: ROS2WorkstationNode):
        self._ros_node = ros_node
        #self.deck = create_a_coin_cell_deck()
@@ -491,11 +575,11 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
        try:
            # 尝试不同的字节序读取
            code_little, read_err = self.client.use_node('REG_DATA_COIN_CELL_CODE').read(10, word_order=WorderOrder.LITTLE)
-            print(code_little)
+            # logger.debug(f"读取电池二维码原始数据: {code_little}")
            clean_code = code_little[-8:][::-1]
            return clean_code
        except Exception as e:
-            print(f"读取电池二维码失败: {e}")
+            logger.error(f"读取电池二维码失败: {e}")
            return "N/A"


@@ -504,11 +588,11 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
        try:
            # 尝试不同的字节序读取
            code_little, read_err = self.client.use_node('REG_DATA_ELECTROLYTE_CODE').read(10, word_order=WorderOrder.LITTLE)
-            print(code_little)
+            # logger.debug(f"读取电解液二维码原始数据: {code_little}")
            clean_code = code_little[-8:][::-1]
            return clean_code
        except Exception as e:
-            print(f"读取电解液二维码失败: {e}")
+            logger.error(f"读取电解液二维码失败: {e}")
            return "N/A"

    # ===================== 环境监控区 ======================
@@ -606,7 +690,8 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
            print("waiting for start_cmd")
            time.sleep(1)      

-    def func_pack_send_bottle_num(self, bottle_num: int):
+    def func_pack_send_bottle_num(self, bottle_num):
+        bottle_num = int(bottle_num)
        #发送电解液平台数
        print("启动")
        while (self._unilab_rece_electrolyte_bottle_num()) == False:
@@ -654,16 +739,25 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
    #    self.success = True
    #    return self.success

-    def func_pack_send_msg_cmd(self, elec_use_num) -> bool:
+    def func_pack_send_msg_cmd(self, elec_use_num, elec_vol, assembly_type, assembly_pressure) -> bool:
        """UNILAB写参数"""    
        while (self.request_rec_msg_status) == False: 
            print("wait for request_rec_msg_status to True")
            time.sleep(1)
        self.success = False
        #self._unilab_send_msg_electrolyte_num(elec_num)
-        time.sleep(1)
+        #设置平行样数目
        self._unilab_send_msg_electrolyte_use_num(elec_use_num)
        time.sleep(1)
+        #发送电解液加注量
+        self._unilab_send_msg_electrolyte_vol(elec_vol)
+        time.sleep(1)
+        #发送电解液组装类型
+        self._unilab_send_msg_assembly_type(assembly_type)
+        time.sleep(1)
+        #发送电池压制力
+        self._unilab_send_msg_assembly_pressure(assembly_pressure)
+        time.sleep(1)
        self._unilab_send_msg_succ_cmd(True)
        time.sleep(1)
        while (self.request_rec_msg_status) == True: 
@@ -688,15 +782,32 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
        data_coin_num = self.data_coin_num
        data_electrolyte_code = self.data_electrolyte_code
        data_coin_cell_code = self.data_coin_cell_code
-        print("data_open_circuit_voltage", data_open_circuit_voltage)
-        print("data_pole_weight", data_pole_weight)
-        print("data_assembly_time", data_assembly_time)
-        print("data_assembly_pressure", data_assembly_pressure)
-        print("data_electrolyte_volume", data_electrolyte_volume)
-        print("data_coin_num", data_coin_num)
-        print("data_electrolyte_code", data_electrolyte_code)
-        print("data_coin_cell_code", data_coin_cell_code)
+        logger.debug(f"data_open_circuit_voltage: {data_open_circuit_voltage}")
+        logger.debug(f"data_pole_weight: {data_pole_weight}")
+        logger.debug(f"data_assembly_time: {data_assembly_time}")
+        logger.debug(f"data_assembly_pressure: {data_assembly_pressure}")
+        logger.debug(f"data_electrolyte_volume: {data_electrolyte_volume}")
+        logger.debug(f"data_coin_num: {data_coin_num}")
+        logger.debug(f"data_electrolyte_code: {data_electrolyte_code}")
+        logger.debug(f"data_coin_cell_code: {data_coin_cell_code}")
        #接收完信息后，读取完毕标志位置True
+        liaopan3 = self.deck.get_resource("成品弹夹")        
+        #把物料解绑后放到另一盘上
+        battery = ElectrodeSheet(name=f"battery_{self.coin_num_N}", size_x=14, size_y=14, size_z=2)
+        battery._unilabos_state = {
+                            "electrolyte_name": data_coin_cell_code,
+                            "data_electrolyte_code": data_electrolyte_code,
+                            "open_circuit_voltage": data_open_circuit_voltage,
+                            "assembly_pressure": data_assembly_pressure,
+                            "electrolyte_volume": data_electrolyte_volume
+                            }
+        liaopan3.children[self.coin_num_N].assign_child_resource(battery, location=None)
+        #print(jipian2.parent)
+        ROS2DeviceNode.run_async_func(self._ros_node.update_resource, True, **{
+            "resources": [self.deck]
+        })
+
+
        self._unilab_rec_msg_succ_cmd(True)
        time.sleep(1)
        #等待允许读取标志位置False
@@ -754,11 +865,25 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
        self.success = True
        return self.success

+    def qiming_coin_cell_code(self, fujipian_panshu:int, fujipian_juzhendianwei:int=0, gemopanshu:int=0, gemo_juzhendianwei:int=0, lvbodian:bool=True, battery_pressure_mode:bool=True, battery_pressure:int=4000, battery_clean_ignore:bool=False) -> bool:
+        self.success = False
+        self.client.use_node('REG_MSG_NE_PLATE_NUM').write(fujipian_panshu)
+        self.client.use_node('REG_MSG_NE_PLATE_MATRIX').write(fujipian_juzhendianwei)
+        self.client.use_node('REG_MSG_SEPARATOR_PLATE_NUM').write(gemopanshu)
+        self.client.use_node('REG_MSG_SEPARATOR_PLATE_MATRIX').write(gemo_juzhendianwei)
+        self.client.use_node('COIL_ALUMINUM_FOIL').write(not lvbodian)
+        self.client.use_node('REG_MSG_PRESS_MODE').write(not battery_pressure_mode)
+        # self.client.use_node('REG_MSG_ASSEMBLY_PRESSURE').write(battery_pressure)
+        self.client.use_node('REG_MSG_BATTERY_CLEAN_IGNORE').write(battery_clean_ignore)
+        self.success = True
+        
+        return self.success

-
-    def func_allpack_cmd(self, elec_num, elec_use_num, file_path: str="D:\\coin_cell_data") -> bool:
+    def func_allpack_cmd(self, elec_num, elec_use_num, elec_vol:int=50, assembly_type:int=7, assembly_pressure:int=4200, file_path: str="/Users/sml/work") -> bool:
+        elec_num, elec_use_num, elec_vol, assembly_type, assembly_pressure = int(elec_num), int(elec_use_num), int(elec_vol), int(assembly_type), int(assembly_pressure)
        summary_csv_file = os.path.join(file_path, "duandian.csv")
        # 如果断点文件存在，先读取之前的进度
+        
        if os.path.exists(summary_csv_file):
            read_status_flag = True
            with open(summary_csv_file, 'r', newline='', encoding='utf-8') as csvfile:
@@ -784,54 +909,38 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
            elec_num_N = 0
            elec_use_num_N = 0
            coin_num_N = 0
-
-        print(f"剩余电解液瓶数: {elec_num}, 已组装电池数: {elec_use_num}")
-
+        for i in range(20):
+            print(f"剩余电解液瓶数: {elec_num}, 已组装电池数: {elec_use_num}")
+            print(f"剩余电解液瓶数: {type(elec_num)}, 已组装电池数: {type(elec_use_num)}")
+            print(f"剩余电解液瓶数: {type(int(elec_num))}, 已组装电池数: {type(int(elec_use_num))}")
        
        #如果是第一次运行，则进行初始化、切换自动、启动, 如果是断点重启则跳过。
        if read_status_flag == False:
+            pass
            #初始化
-            self.func_pack_device_init()
+            #self.func_pack_device_init()
            #切换自动
-            self.func_pack_device_auto()
+            #self.func_pack_device_auto()
            #启动，小车收回
-            self.func_pack_device_start()
+            #self.func_pack_device_start()
            #发送电解液瓶数量，启动搬运,多搬运没事
-            self.func_pack_send_bottle_num(elec_num)
+            #self.func_pack_send_bottle_num(elec_num)
        last_i = elec_num_N
        last_j = elec_use_num_N
        for i in range(last_i, elec_num):
            print(f"开始第{last_i+i+1}瓶电解液的组装")
            #第一个循环从上次断点继续，后续循环从0开始
            j_start = last_j if i == last_i else 0
-            self.func_pack_send_msg_cmd(elec_use_num-j_start)
+            self.func_pack_send_msg_cmd(elec_use_num-j_start, elec_vol, assembly_type, assembly_pressure)

            for j in range(j_start, elec_use_num):
                print(f"开始第{last_i+i+1}瓶电解液的第{j+j_start+1}个电池组装")
                #读取电池组装数据并存入csv
                self.func_pack_get_msg_cmd(file_path)
                time.sleep(1)
-
-                #这里定义物料系统
                # TODO:读完再将电池数加一还是进入循环就将电池数加一需要考虑
-                liaopan1 = self.deck.get_resource("liaopan1")
-                liaopan4 = self.deck.get_resource("liaopan4")
-                jipian1 = liaopan1.children[coin_num_N].children[0]
-                jipian4 = liaopan4.children[coin_num_N].children[0]
-                #print(jipian1)
-                #从料盘上去物料解绑后放到另一盘上
-                jipian1.parent.unassign_child_resource(jipian1)
-                jipian4.parent.unassign_child_resource(jipian4)
-                
-                #print(jipian2.parent)
-                battery = Battery(name = f"battery_{coin_num_N}")
-                battery.assign_child_resource(jipian1, location=None)
-                battery.assign_child_resource(jipian4, location=None)
-                
-                zidanjia6 = self.deck.get_resource("zi_dan_jia6")

-                zidanjia6.children[0].assign_child_resource(battery, location=None)
-               
+

                # 生成断点文件
                # 生成包含elec_num_N、coin_num_N、timestamp的CSV文件
@@ -842,6 +951,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
                    writer.writerow([elec_num, elec_use_num, elec_num_N, elec_use_num_N, coin_num_N, timestamp])
                    csvfile.flush()
                coin_num_N += 1
+                self.coin_num_N = coin_num_N
                elec_use_num_N += 1
            elec_num_N += 1
            elec_use_num_N = 0
@@ -878,36 +988,27 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
    
    def fun_wuliao_test(self) -> bool: 
        #找到data_init中构建的2个物料盘
-        #liaopan1 = self.deck.get_resource("liaopan1")
-        #liaopan4 = self.deck.get_resource("liaopan4")
-        #for coin_num_N in range(16):
-        #    liaopan1 = self.deck.get_resource("liaopan1")
-        #    liaopan4 = self.deck.get_resource("liaopan4")
-        #    jipian1 = liaopan1.children[coin_num_N].children[0]
-        #    jipian4 = liaopan4.children[coin_num_N].children[0]
-        #    #print(jipian1)
-        #    #从料盘上去物料解绑后放到另一盘上
-        #    jipian1.parent.unassign_child_resource(jipian1)
-        #    jipian4.parent.unassign_child_resource(jipian4)
-        #    
-        #    #print(jipian2.parent)
-        #    battery = Battery(name = f"battery_{coin_num_N}")
-        #    battery.assign_child_resource(jipian1, location=None)
-        #    battery.assign_child_resource(jipian4, location=None)
-        #    
-        #    zidanjia6 = self.deck.get_resource("zi_dan_jia6")
-        #    zidanjia6.children[0].assign_child_resource(battery, location=None)
-        #    ROS2DeviceNode.run_async_func(self._ros_node.update_resource, True, **{
-        #        "resources": [self.deck]
-        #    })
-        #    time.sleep(2)
-        for i in range(20):
-            print(f"输出{i}")
-            time.sleep(2)
-
+        liaopan3 = self.deck.get_resource("\u7535\u6c60\u6599\u76d8")
+        for i in range(16):            
+            battery = ElectrodeSheet(name=f"battery_{i}", size_x=16, size_y=16, size_z=2)
+            battery._unilabos_state = {
+                                "diameter": 20.0,
+                                "height": 20.0,
+                                "assembly_pressure": i,
+                                "electrolyte_volume": 20.0,
+                                "electrolyte_name": f"DP{i}"
+                                }
+            liaopan3.children[i].assign_child_resource(battery, location=None)
            
+            ROS2DeviceNode.run_async_func(self._ros_node.update_resource, True, **{
+                "resources": [self.deck]
+            })
+            # for i in range(40):
+            #     print(f"fun_wuliao_test 运行结束{i}")
+            #     time.sleep(1)
+            # time.sleep(40)
    # 数据读取与输出
-    def func_read_data_and_output(self, file_path: str="D:\\coin_cell_data"):
+    def func_read_data_and_output(self, file_path: str="/Users/sml/work"):
        # 检查CSV导出是否正在运行，已运行则跳出，防止同时启动两个while循环
        if self.csv_export_running:
            return False, "读取已在运行中"
@@ -1012,7 +1113,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
        #    else:
        #        print("子弹夹洞位0没有极片")
        #  
-        #    #把电解液从瓶中取到电池夹子中
+        #    # TODO:#把电解液从瓶中取到电池夹子中
        #    battery_site = deck.get_resource("battery_press_1")
        #    clip_magazine_battery = deck.get_resource("clip_magazine_battery")
        #    if battery_site.has_battery():
@@ -1102,41 +1203,16 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
    '''


+
 if __name__ == "__main__":
-    from pylabrobot.resources import Resource
-    Coin_Cell = CoinCellAssemblyWorkstation(Resource("1", 1, 1, 1), debug_mode=True)
-    #Coin_Cell.func_pack_device_init()  
-    #Coin_Cell.func_pack_device_auto()
-    #Coin_Cell.func_pack_device_start()
-    #Coin_Cell.func_pack_send_bottle_num(2)
-    #Coin_Cell.func_pack_send_msg_cmd(2)
-    #Coin_Cell.func_pack_get_msg_cmd()
-    #Coin_Cell.func_pack_get_msg_cmd()
-    #Coin_Cell.func_pack_send_finished_cmd()
-#
-    #Coin_Cell.func_allpack_cmd(3, 2)
-    #print(Coin_Cell.data_stack_vision_code)
-    #print("success")
-    #创建一个物料台面
-
-    #deck = create_a_coin_cell_deck()
-
-    ##在台面上找到料盘和极片
-    #liaopan1 = deck.get_resource("liaopan1")
-    #liaopan2 = deck.get_resource("liaopan2")
-    #jipian1 = liaopan1.children[1].children[0]
-#
-    ##print(jipian1)
-    ##把物料解绑后放到另一盘上
-    #jipian1.parent.unassign_child_resource(jipian1)
-    #liaopan2.children[1].assign_child_resource(jipian1, location=None)
-    ##print(jipian2.parent)
-    from unilabos.resources.graphio import resource_ulab_to_plr, convert_resources_to_type
-
-    with open("./button_battery_decks_unilab.json", "r", encoding="utf-8") as f:
-        bioyond_resources_unilab = json.load(f)
-    print(f"成功读取 JSON 文件，包含 {len(bioyond_resources_unilab)} 个资源")
-    ulab_resources = convert_resources_to_type(bioyond_resources_unilab, List[PLRResource])
-    print(f"转换结果类型: {type(ulab_resources)}")
-    print(ulab_resources)
-
+    # 简单测试
+    workstation = CoinCellAssemblyWorkstation(deck=CoincellDeck(setup=True, name="coin_cell_deck"))
+    # workstation.qiming_coin_cell_code(fujipian_panshu=1, fujipian_juzhendianwei=2, gemopanshu=3, gemo_juzhendianwei=4, lvbodian=False, battery_pressure_mode=False, battery_pressure=4200, battery_clean_ignore=False)
+    # print(f"工作站创建成功: {workstation.deck.name}")
+    # print(f"料盘数量: {len(workstation.deck.children)}")
+    workstation.func_pack_device_init()
+    workstation.func_pack_device_auto()
+    workstation.func_pack_device_start()
+    workstation.func_pack_send_bottle_num(16)
+    workstation.func_allpack_cmd(elec_num=16, elec_use_num=16, elec_vol=50, assembly_type=7, assembly_pressure=4200, file_path="/Users/calvincao/Desktop/work/Uni-Lab-OS-hhm")
+    
--- a/unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_1105.csv
+++ b/unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_1105.csv
@@ -0,0 +1,64 @@
+Name,DataType,InitValue,Comment,Attribute,DeviceType,Address,
+COIL_SYS_START_CMD,BOOL,,,,coil,9010,
+COIL_SYS_STOP_CMD,BOOL,,,,coil,9020,
+COIL_SYS_RESET_CMD,BOOL,,,,coil,9030,
+COIL_SYS_HAND_CMD,BOOL,,,,coil,9040,
+COIL_SYS_AUTO_CMD,BOOL,,,,coil,9050,
+COIL_SYS_INIT_CMD,BOOL,,,,coil,9060,
+COIL_UNILAB_SEND_MSG_SUCC_CMD,BOOL,,,,coil,9700,
+COIL_UNILAB_REC_MSG_SUCC_CMD,BOOL,,,,coil,9710,unilab_rec_msg_succ_cmd
+COIL_SYS_START_STATUS,BOOL,,,,coil,9210,
+COIL_SYS_STOP_STATUS,BOOL,,,,coil,9220,
+COIL_SYS_RESET_STATUS,BOOL,,,,coil,9230,
+COIL_SYS_HAND_STATUS,BOOL,,,,coil,9240,
+COIL_SYS_AUTO_STATUS,BOOL,,,,coil,9250,
+COIL_SYS_INIT_STATUS,BOOL,,,,coil,9260,
+COIL_REQUEST_REC_MSG_STATUS,BOOL,,,,coil,9500,
+COIL_REQUEST_SEND_MSG_STATUS,BOOL,,,,coil,9510,request_send_msg_status
+REG_MSG_ELECTROLYTE_USE_NUM,INT16,,,,hold_register,17000,
+REG_MSG_ELECTROLYTE_NUM,INT16,,,,hold_register,17002,unilab_send_msg_electrolyte_num
+REG_MSG_ELECTROLYTE_VOLUME,INT16,,,,hold_register,17004,unilab_send_msg_electrolyte_vol
+REG_MSG_ASSEMBLY_TYPE,INT16,,,,hold_register,17006,unilab_send_msg_assembly_type
+REG_MSG_ASSEMBLY_PRESSURE,INT16,,,,hold_register,17008,unilab_send_msg_assembly_pressure
+REG_DATA_ASSEMBLY_COIN_CELL_NUM,INT16,,,,hold_register,16000,data_assembly_coin_cell_num
+REG_DATA_OPEN_CIRCUIT_VOLTAGE,FLOAT32,,,,hold_register,16002,data_open_circuit_voltage
+REG_DATA_AXIS_X_POS,FLOAT32,,,,hold_register,16004,
+REG_DATA_AXIS_Y_POS,FLOAT32,,,,hold_register,16006,
+REG_DATA_AXIS_Z_POS,FLOAT32,,,,hold_register,16008,
+REG_DATA_POLE_WEIGHT,FLOAT32,,,,hold_register,16010,data_pole_weight
+REG_DATA_ASSEMBLY_PER_TIME,FLOAT32,,,,hold_register,16012,data_assembly_time
+REG_DATA_ASSEMBLY_PRESSURE,INT16,,,,hold_register,16014,data_assembly_pressure
+REG_DATA_ELECTROLYTE_VOLUME,INT16,,,,hold_register,16016,data_electrolyte_volume
+REG_DATA_COIN_NUM,INT16,,,,hold_register,16018,data_coin_num
+REG_DATA_ELECTROLYTE_CODE,STRING,,,,hold_register,16020,data_electrolyte_code()
+REG_DATA_COIN_CELL_CODE,STRING,,,,hold_register,16030,data_coin_cell_code()
+REG_DATA_STACK_VISON_CODE,STRING,,,,hold_register,18004,data_stack_vision_code()
+REG_DATA_GLOVE_BOX_PRESSURE,FLOAT32,,,,hold_register,16050,data_glove_box_pressure
+REG_DATA_GLOVE_BOX_WATER_CONTENT,FLOAT32,,,,hold_register,16052,data_glove_box_water_content
+REG_DATA_GLOVE_BOX_O2_CONTENT,FLOAT32,,,,hold_register,16054,data_glove_box_o2_content
+UNILAB_SEND_ELECTROLYTE_BOTTLE_NUM,BOOL,,,,coil,9720,
+UNILAB_RECE_ELECTROLYTE_BOTTLE_NUM,BOOL,,,,coil,9520,
+REG_MSG_ELECTROLYTE_NUM_USED,INT16,,,,hold_register,17496,
+REG_DATA_ELECTROLYTE_USE_NUM,INT16,,,,hold_register,16000,
+UNILAB_SEND_FINISHED_CMD,BOOL,,,,coil,9730,
+UNILAB_RECE_FINISHED_CMD,BOOL,,,,coil,9530,
+REG_DATA_ASSEMBLY_TYPE,INT16,,,,hold_register,16018,ASSEMBLY_TYPE7or8
+COIL_ALUMINUM_FOIL,BOOL,,使用铝箔垫,,coil,9340,
+REG_MSG_NE_PLATE_MATRIX,INT16,,负极片矩阵点位,,hold_register,17440,
+REG_MSG_SEPARATOR_PLATE_MATRIX,INT16,,隔膜矩阵点位,,hold_register,17450,
+REG_MSG_TIP_BOX_MATRIX,INT16,,移液枪头矩阵点位,,hold_register,17480,
+REG_MSG_NE_PLATE_NUM,INT16,,负极片盘数,,hold_register,17443,
+REG_MSG_SEPARATOR_PLATE_NUM,INT16,,隔膜盘数,,hold_register,17453,
+REG_MSG_PRESS_MODE,BOOL,,压制模式（false:压力检测模式，True:距离模式）,,coil,9360,电池压制模式
+,,,,,,,
+,BOOL,,视觉对位（false:使用，true:忽略）,,coil,9300,视觉对位
+,BOOL,,复检（false:使用，true:忽略）,,coil,9310,视觉复检
+,BOOL,,手套箱_左仓（false:使用，true:忽略）,,coil,9320,手套箱左仓
+,BOOL,,手套箱_右仓（false:使用，true:忽略）,,coil,9420,手套箱右仓
+,BOOL,,真空检知（false:使用，true:忽略）,,coil,9350,真空检知
+,BOOL,,电解液添加模式（false:单次滴液，true:二次滴液）,,coil,9370,滴液模式
+,BOOL,,正极片称重（false:使用，true:忽略）,,coil,9380,正极片称重
+,BOOL,,正负极片组装方式（false:正装，true:倒装）,,coil,9390,正负极反装
+,BOOL,,压制清洁（false:使用，true:忽略）,,coil,9400,压制清洁
+,BOOL,,物料盘摆盘方式（false:水平摆盘，true:堆叠摆盘）,,coil,9410,负极片摆盘方式
+REG_MSG_BATTERY_CLEAN_IGNORE,BOOL,,忽略电池清洁（false:使用，true:忽略）,,coil,9460,
--- a/unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_a.csv
+++ b/unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_a.csv
@@ -0,0 +1,64 @@
+Name,DataType,InitValue,Comment,Attribute,DeviceType,Address,
+COIL_SYS_START_CMD,BOOL,,,,coil,8010,
+COIL_SYS_STOP_CMD,BOOL,,,,coil,8020,
+COIL_SYS_RESET_CMD,BOOL,,,,coil,8030,
+COIL_SYS_HAND_CMD,BOOL,,,,coil,8040,
+COIL_SYS_AUTO_CMD,BOOL,,,,coil,8050,
+COIL_SYS_INIT_CMD,BOOL,,,,coil,8060,
+COIL_UNILAB_SEND_MSG_SUCC_CMD,BOOL,,,,coil,8700,
+COIL_UNILAB_REC_MSG_SUCC_CMD,BOOL,,,,coil,8710,unilab_rec_msg_succ_cmd
+COIL_SYS_START_STATUS,BOOL,,,,coil,8210,
+COIL_SYS_STOP_STATUS,BOOL,,,,coil,8220,
+COIL_SYS_RESET_STATUS,BOOL,,,,coil,8230,
+COIL_SYS_HAND_STATUS,BOOL,,,,coil,8240,
+COIL_SYS_AUTO_STATUS,BOOL,,,,coil,8250,
+COIL_SYS_INIT_STATUS,BOOL,,,,coil,8260,
+COIL_REQUEST_REC_MSG_STATUS,BOOL,,,,coil,8500,
+COIL_REQUEST_SEND_MSG_STATUS,BOOL,,,,coil,8510,request_send_msg_status
+REG_MSG_ELECTROLYTE_USE_NUM,INT16,,,,hold_register,11000,
+REG_MSG_ELECTROLYTE_NUM,INT16,,,,hold_register,11002,unilab_send_msg_electrolyte_num
+REG_MSG_ELECTROLYTE_VOLUME,INT16,,,,hold_register,11004,unilab_send_msg_electrolyte_vol
+REG_MSG_ASSEMBLY_TYPE,INT16,,,,hold_register,11006,unilab_send_msg_assembly_type
+REG_MSG_ASSEMBLY_PRESSURE,INT16,,,,hold_register,11008,unilab_send_msg_assembly_pressure
+REG_DATA_ASSEMBLY_COIN_CELL_NUM,INT16,,,,hold_register,10000,data_assembly_coin_cell_num
+REG_DATA_OPEN_CIRCUIT_VOLTAGE,FLOAT32,,,,hold_register,10002,data_open_circuit_voltage
+REG_DATA_AXIS_X_POS,FLOAT32,,,,hold_register,10004,
+REG_DATA_AXIS_Y_POS,FLOAT32,,,,hold_register,10006,
+REG_DATA_AXIS_Z_POS,FLOAT32,,,,hold_register,10008,
+REG_DATA_POLE_WEIGHT,FLOAT32,,,,hold_register,10010,data_pole_weight
+REG_DATA_ASSEMBLY_PER_TIME,FLOAT32,,,,hold_register,10012,data_assembly_time
+REG_DATA_ASSEMBLY_PRESSURE,INT16,,,,hold_register,10014,data_assembly_pressure
+REG_DATA_ELECTROLYTE_VOLUME,INT16,,,,hold_register,10016,data_electrolyte_volume
+REG_DATA_COIN_NUM,INT16,,,,hold_register,10018,data_coin_num
+REG_DATA_ELECTROLYTE_CODE,STRING,,,,hold_register,10020,data_electrolyte_code()
+REG_DATA_COIN_CELL_CODE,STRING,,,,hold_register,10030,data_coin_cell_code()
+REG_DATA_STACK_VISON_CODE,STRING,,,,hold_register,12004,data_stack_vision_code()
+REG_DATA_GLOVE_BOX_PRESSURE,FLOAT32,,,,hold_register,10050,data_glove_box_pressure
+REG_DATA_GLOVE_BOX_WATER_CONTENT,FLOAT32,,,,hold_register,10052,data_glove_box_water_content
+REG_DATA_GLOVE_BOX_O2_CONTENT,FLOAT32,,,,hold_register,10054,data_glove_box_o2_content
+UNILAB_SEND_ELECTROLYTE_BOTTLE_NUM,BOOL,,,,coil,8720,
+UNILAB_RECE_ELECTROLYTE_BOTTLE_NUM,BOOL,,,,coil,8520,
+REG_MSG_ELECTROLYTE_NUM_USED,INT16,,,,hold_register,496,
+REG_DATA_ELECTROLYTE_USE_NUM,INT16,,,,hold_register,10000,
+UNILAB_SEND_FINISHED_CMD,BOOL,,,,coil,8730,
+UNILAB_RECE_FINISHED_CMD,BOOL,,,,coil,8530,
+REG_DATA_ASSEMBLY_TYPE,INT16,,,,hold_register,10018,ASSEMBLY_TYPE7or8
+COIL_ALUMINUM_FOIL,BOOL,,使用铝箔垫,,coil,8340,
+REG_MSG_NE_PLATE_MATRIX,INT16,,负极片矩阵点位,,hold_register,440,
+REG_MSG_SEPARATOR_PLATE_MATRIX,INT16,,隔膜矩阵点位,,hold_register,450,
+REG_MSG_TIP_BOX_MATRIX,INT16,,移液枪头矩阵点位,,hold_register,480,
+REG_MSG_NE_PLATE_NUM,INT16,,负极片盘数,,hold_register,443,
+REG_MSG_SEPARATOR_PLATE_NUM,INT16,,隔膜盘数,,hold_register,453,
+REG_MSG_PRESS_MODE,BOOL,,压制模式（false:压力检测模式，True:距离模式）,,coil,8360,电池压制模式
+,,,,,,,
+,BOOL,,视觉对位（false:使用，true:忽略）,,coil,8300,视觉对位
+,BOOL,,复检（false:使用，true:忽略）,,coil,8310,视觉复检
+,BOOL,,手套箱_左仓（false:使用，true:忽略）,,coil,8320,手套箱左仓
+,BOOL,,手套箱_右仓（false:使用，true:忽略）,,coil,8420,手套箱右仓
+,BOOL,,真空检知（false:使用，true:忽略）,,coil,8350,真空检知
+,BOOL,,电解液添加模式（false:单次滴液，true:二次滴液）,,coil,8370,滴液模式
+,BOOL,,正极片称重（false:使用，true:忽略）,,coil,8380,正极片称重
+,BOOL,,正负极片组装方式（false:正装，true:倒装）,,coil,8390,正负极反装
+,BOOL,,压制清洁（false:使用，true:忽略）,,coil,8400,压制清洁
+,BOOL,,物料盘摆盘方式（false:水平摆盘，true:堆叠摆盘）,,coil,8410,负极片摆盘方式
+REG_MSG_BATTERY_CLEAN_IGNORE,BOOL,,忽略电池清洁（false:使用，true:忽略）,,coil,8460,
--- a/unilabos/devices/workstation/coin_cell_assembly/new_cellconfig3c.json
+++ b/unilabos/devices/workstation/coin_cell_assembly/new_cellconfig3c.json
@@ -0,0 +1,39 @@
+{
+  "nodes": [
+    {
+      "id": "bioyond_cell_workstation",
+      "name": "配液分液工站",
+      "children": [
+      ],
+      "parent": null,
+      "type": "device",
+      "class": "bioyond_cell",
+      "config": {
+          "protocol_type": [],
+          "station_resource": {}
+      },
+      "data": {}
+  },
+
+  {
+      "id": "BatteryStation",
+      "name": "扣电工作站",
+      "children": [
+          "coin_cell_deck"
+      ],
+      "parent": null,
+      "type": "device",
+      "class": "coincellassemblyworkstation_device",
+      "position": {
+          "x": -600,
+          "y": -400,
+          "z": 0
+      },
+      "config": {
+          "debug_mode": false,
+          "protocol_type": []
+      }
+    }
+  ],
+  "links": []
+}
--- a/unilabos/devices/workstation/workstation_http_service.py
+++ b/unilabos/devices/workstation/workstation_http_service.py
@@ -4,7 +4,7 @@ Workstation HTTP Service Module

 统一的工作站报送接收服务，基于LIMS协议规范：
 1. 步骤完成报送 - POST /report/step_finish
-2. 通量完成报送 - POST /report/sample_finish
+2. 通量完成报送 - POST /report/sample_finish  
 3. 任务完成报送 - POST /report/order_finish
 4. 批量更新报送 - POST /report/batch_update
 5. 物料变更报送 - POST /report/material_change
@@ -22,7 +22,6 @@ from http.server import BaseHTTPRequestHandler, HTTPServer
 from urllib.parse import urlparse
 from dataclasses import dataclass, asdict
 from datetime import datetime
-from pathlib import Path

 from unilabos.utils.log import logger

@@ -55,18 +54,18 @@ class HttpResponse:

 class WorkstationHTTPHandler(BaseHTTPRequestHandler):
    """工作站HTTP请求处理器"""
-
+    
    def __init__(self, workstation_instance, *args, **kwargs):
        self.workstation = workstation_instance
        super().__init__(*args, **kwargs)
-
+    
    def do_POST(self):
        """处理POST请求 - 统一的工作站报送接口"""
        try:
            # 解析请求路径
            parsed_path = urlparse(self.path)
            endpoint = parsed_path.path
-
+            
            # 读取请求体
            content_length = int(self.headers.get('Content-Length', 0))
            if content_length > 0:
@@ -74,17 +73,9 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                request_data = json.loads(post_data.decode('utf-8'))
            else:
                request_data = {}
-
+            
            logger.info(f"收到工作站报送: {endpoint} - {request_data.get('token', 'unknown')}")
-
-            try:
-                payload_for_log = {"method": "POST", **request_data}
-                self._save_raw_request(endpoint, payload_for_log)
-                if hasattr(self.workstation, '_reports_received_count'):
-                    self.workstation._reports_received_count += 1
-            except Exception:
-                pass
-
+            
            # 统一的报送端点路由（基于LIMS协议规范）
            if endpoint == '/report/step_finish':
                response = self._handle_step_finish_report(request_data)
@@ -99,8 +90,6 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                response = self._handle_material_change_report(request_data)
            elif endpoint == '/report/error_handling':
                response = self._handle_error_handling_report(request_data)
-            elif endpoint == '/report/temperature-cutoff':
-                response = self._handle_temperature_cutoff_report(request_data)
            # 保留LIMS协议端点以兼容现有系统
            elif endpoint == '/LIMS/step_finish':
                response = self._handle_step_finish_report(request_data)
@@ -113,19 +102,18 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"不支持的报送端点: {endpoint}",
                    data={"supported_endpoints": [
-                        "/report/step_finish",
-                        "/report/sample_finish",
+                        "/report/step_finish", 
+                        "/report/sample_finish", 
                        "/report/order_finish",
                        "/report/batch_update",
                        "/report/material_change",
-                        "/report/error_handling",
-                        "/report/temperature-cutoff"
+                        "/report/error_handling"
                    ]}
                )
-
+            
            # 发送响应
            self._send_response(response)
-
+            
        except Exception as e:
            logger.error(f"处理工作站报送失败: {e}\\n{traceback.format_exc()}")
            error_response = HttpResponse(
@@ -133,18 +121,13 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                message=f"请求处理失败: {str(e)}"
            )
            self._send_response(error_response)
-
+    
    def do_GET(self):
        """处理GET请求 - 健康检查和状态查询"""
        try:
            parsed_path = urlparse(self.path)
            endpoint = parsed_path.path
-
-            try:
-                self._save_raw_request(endpoint, {"method": "GET"})
-            except Exception:
-                pass
-
+            
            if endpoint == '/status':
                response = self._handle_status_check()
            elif endpoint == '/health':
@@ -155,9 +138,9 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    message=f"不支持的查询端点: {endpoint}",
                    data={"supported_endpoints": ["/status", "/health"]}
                )
-
+            
            self._send_response(response)
-
+            
        except Exception as e:
            logger.error(f"GET请求处理失败: {e}")
            error_response = HttpResponse(
@@ -165,7 +148,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                message=f"GET请求处理失败: {str(e)}"
            )
            self._send_response(error_response)
-
+    
    def do_OPTIONS(self):
        """处理OPTIONS请求 - CORS预检请求"""
        try:
@@ -176,12 +159,12 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
            self.send_header('Access-Control-Allow-Headers', 'Content-Type, Authorization')
            self.send_header('Access-Control-Max-Age', '86400')
            self.end_headers()
-
+            
        except Exception as e:
            logger.error(f"OPTIONS请求处理失败: {e}")
            self.send_response(500)
            self.end_headers()
-
+    
    def _handle_step_finish_report(self, request_data: Dict[str, Any]) -> HttpResponse:
        """处理步骤完成报送（统一LIMS协议规范）"""
        try:
@@ -192,7 +175,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"缺少必要字段: {', '.join(missing_fields)}"
                )
-
+            
            # 验证data字段内容
            data = request_data['data']
            data_required_fields = ['orderCode', 'orderName', 'stepName', 'stepId', 'sampleId', 'startTime', 'endTime']
@@ -201,31 +184,31 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"data字段缺少必要内容: {', '.join(data_missing_fields)}"
                )
-
+            
            # 创建统一请求对象
            report_request = WorkstationReportRequest(
                token=request_data['token'],
                request_time=request_data['request_time'],
                data=data
            )
-
+            
            # 调用工作站处理方法
            result = self.workstation.process_step_finish_report(report_request)
-
+            
            return HttpResponse(
                success=True,
                message=f"步骤完成报送已处理: {data['stepName']} ({data['orderCode']})",
                acknowledgment_id=f"STEP_{int(time.time() * 1000)}_{data['stepId']}",
                data=result
            )
-
+                
        except Exception as e:
            logger.error(f"处理步骤完成报送失败: {e}")
            return HttpResponse(
                success=False,
                message=f"步骤完成报送处理失败: {str(e)}"
            )
-
+    
    def _handle_sample_finish_report(self, request_data: Dict[str, Any]) -> HttpResponse:
        """处理通量完成报送（统一LIMS协议规范）"""
        try:
@@ -236,7 +219,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"缺少必要字段: {', '.join(missing_fields)}"
                )
-
+            
            # 验证data字段内容
            data = request_data['data']
            data_required_fields = ['orderCode', 'orderName', 'sampleId', 'startTime', 'endTime', 'status']
@@ -245,37 +228,37 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"data字段缺少必要内容: {', '.join(data_missing_fields)}"
                )
-
+            
            # 创建统一请求对象
            report_request = WorkstationReportRequest(
                token=request_data['token'],
                request_time=request_data['request_time'],
                data=data
            )
-
+            
            # 调用工作站处理方法
            result = self.workstation.process_sample_finish_report(report_request)
-
+            
            status_names = {
-                "0": "待生产", "2": "进样", "10": "开始",
+                "0": "待生产", "2": "进样", "10": "开始", 
                "20": "完成", "-2": "异常停止", "-3": "人工停止"
            }
            status_desc = status_names.get(str(data['status']), f"状态{data['status']}")
-
+            
            return HttpResponse(
                success=True,
                message=f"通量完成报送已处理: {data['sampleId']} ({data['orderCode']}) - {status_desc}",
                acknowledgment_id=f"SAMPLE_{int(time.time() * 1000)}_{data['sampleId']}",
                data=result
            )
-
+                
        except Exception as e:
            logger.error(f"处理通量完成报送失败: {e}")
            return HttpResponse(
                success=False,
                message=f"通量完成报送处理失败: {str(e)}"
            )
-
+    
    def _handle_order_finish_report(self, request_data: Dict[str, Any]) -> HttpResponse:
        """处理任务完成报送（统一LIMS协议规范）"""
        try:
@@ -286,7 +269,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"缺少必要字段: {', '.join(missing_fields)}"
                )
-
+            
            # 验证data字段内容
            data = request_data['data']
            data_required_fields = ['orderCode', 'orderName', 'startTime', 'endTime', 'status']
@@ -295,7 +278,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"data字段缺少必要内容: {', '.join(data_missing_fields)}"
                )
-
+            
            # 处理物料使用记录
            used_materials = []
            if 'usedMaterials' in data:
@@ -307,85 +290,41 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                        usedQuantity=material_data.get('usedQuantity', 0.0)
                    )
                    used_materials.append(material)
-
+            
            # 创建统一请求对象
            report_request = WorkstationReportRequest(
                token=request_data['token'],
                request_time=request_data['request_time'],
                data=data
            )
-
+            
            # 调用工作站处理方法
            result = self.workstation.process_order_finish_report(report_request, used_materials)
-
+            
            status_names = {"30": "完成", "-11": "异常停止", "-12": "人工停止"}
            status_desc = status_names.get(str(data['status']), f"状态{data['status']}")
-
+            
            return HttpResponse(
                success=True,
                message=f"任务完成报送已处理: {data['orderName']} ({data['orderCode']}) - {status_desc}",
                acknowledgment_id=f"ORDER_{int(time.time() * 1000)}_{data['orderCode']}",
                data=result
            )
-
+                
        except Exception as e:
            logger.error(f"处理任务完成报送失败: {e}")
            return HttpResponse(
                success=False,
                message=f"任务完成报送处理失败: {str(e)}"
            )
-
-    def _handle_temperature_cutoff_report(self, request_data: Dict[str, Any]) -> HttpResponse:
-        try:
-            required_fields = ['token', 'request_time', 'data']
-            if missing := [f for f in required_fields if f not in request_data]:
-                return HttpResponse(success=False, message=f"缺少必要字段: {', '.join(missing)}")
-
-            data = request_data['data']
-            metrics = [
-                'frameCode',
-                'generateTime',
-                'targetTemperature',
-                'settingTemperature',
-                'inTemperature',
-                'outTemperature',
-                'pt100Temperature',
-                'sensorAverageTemperature',
-                'speed',
-                'force',
-                'viscosity',
-                'averageViscosity'
-            ]
-            if miss := [f for f in metrics if f not in data]:
-                return HttpResponse(success=False, message=f"data字段缺少必要内容: {', '.join(miss)}")
-
-            report_request = WorkstationReportRequest(
-                token=request_data['token'],
-                request_time=request_data['request_time'],
-                data=data
-            )
-
-            result = {}
-            if hasattr(self.workstation, 'process_temperature_cutoff_report'):
-                result = self.workstation.process_temperature_cutoff_report(report_request)
-
-            return HttpResponse(
-                success=True,
-                message=f"温度/粘度报送已处理: 帧{data['frameCode']}",
-                acknowledgment_id=f"TEMP_CUTOFF_{int(time.time()*1000)}_{data['frameCode']}",
-                data=result
-            )
-        except Exception as e:
-            logger.error(f"处理温度/粘度报送失败: {e}\n{traceback.format_exc()}")
-            return HttpResponse(success=False, message=f"温度/粘度报送处理失败: {str(e)}")
-
+    
    def _handle_batch_update_report(self, request_data: Dict[str, Any]) -> HttpResponse:
        """处理批量报送"""
        try:
            step_updates = request_data.get('step_updates', [])
            sample_updates = request_data.get('sample_updates', [])
            order_updates = request_data.get('order_updates', [])
-
+            
            results = {
                'step_results': [],
                'sample_results': [],
@@ -393,7 +332,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                'total_processed': 0,
                'total_failed': 0
            }
-
+            
            # 处理批量步骤更新
            for step_data in step_updates:
                try:
@@ -408,7 +347,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                except Exception as e:
                    results['step_results'].append(HttpResponse(success=False, message=str(e)))
                    results['total_failed'] += 1
-
+            
            # 处理批量通量更新
            for sample_data in sample_updates:
                try:
@@ -423,7 +362,7 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                except Exception as e:
                    results['sample_results'].append(HttpResponse(success=False, message=str(e)))
                    results['total_failed'] += 1
-
+            
            # 处理批量任务更新
            for order_data in order_updates:
                try:
@@ -438,21 +377,21 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                except Exception as e:
                    results['order_results'].append(HttpResponse(success=False, message=str(e)))
                    results['total_failed'] += 1
-
+            
            return HttpResponse(
                success=results['total_failed'] == 0,
                message=f"批量报送处理完成: {results['total_processed']} 成功, {results['total_failed']} 失败",
                acknowledgment_id=f"BATCH_{int(time.time() * 1000)}",
                data=results
            )
-
+            
        except Exception as e:
            logger.error(f"处理批量报送失败: {e}")
            return HttpResponse(
                success=False,
                message=f"批量报送处理失败: {str(e)}"
            )
-
+    
    def _handle_material_change_report(self, request_data: Dict[str, Any]) -> HttpResponse:
        """处理物料变更报送"""
        try:
@@ -478,24 +417,24 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                    success=False,
                    message=f"缺少必要字段: {', '.join(missing_fields)}"
                )
-
+            
            # 调用工作站的处理方法
            result = self.workstation.process_material_change_report(request_data)
-
+            
            return HttpResponse(
                success=True,
                message=f"物料变更报送已处理: {request_data['resource_id']} ({request_data['change_type']})",
                acknowledgment_id=f"MATERIAL_{int(time.time() * 1000)}_{request_data['resource_id']}",
                data=result
            )
-
+                
        except Exception as e:
            logger.error(f"处理物料变更报送失败: {e}")
            return HttpResponse(
                success=False,
                message=f"物料变更报送处理失败: {str(e)}"
            )
-
+    
    def _handle_error_handling_report(self, request_data: Dict[str, Any]) -> HttpResponse:
        """处理错误处理报送"""
        try:
@@ -507,13 +446,13 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                        success=False,
                        message="奔曜格式缺少text字段"
                    )
-
+                
                error_data = request_data["text"]
                logger.info(f"收到奔曜错误处理报送: {error_data}")
-
+                
                # 调用工作站的处理方法
                result = self.workstation.handle_external_error(error_data)
-
+                
                return HttpResponse(
                    success=True,
                    message=f"错误处理报送已收到: 任务{error_data.get('task', 'unknown')}, 错误代码{error_data.get('code', 'unknown')}",
@@ -528,50 +467,42 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                        success=False,
                        message=f"缺少必要字段: {', '.join(missing_fields)}"
                    )
-
+                
                # 调用工作站的处理方法
                result = self.workstation.handle_external_error(request_data)
-
+                
                return HttpResponse(
                    success=True,
                    message=f"错误处理报送已处理: {request_data['error_type']} - {request_data['error_message']}",
                    acknowledgment_id=f"ERROR_{int(time.time() * 1000)}_{request_data.get('action_id', 'unknown')}",
                    data=result
                )
-
+                
        except Exception as e:
            logger.error(f"处理错误处理报送失败: {e}")
            return HttpResponse(
                success=False,
                message=f"错误处理报送处理失败: {str(e)}"
            )
-
+    
    def _handle_status_check(self) -> HttpResponse:
        """处理状态查询"""
        try:
-            # 安全地获取 device_id
-            device_id = "unknown"
-            if hasattr(self.workstation, 'device_id'):
-                device_id = self.workstation.device_id
-            elif hasattr(self.workstation, '_ros_node') and hasattr(self.workstation._ros_node, 'device_id'):
-                device_id = self.workstation._ros_node.device_id
-
            return HttpResponse(
                success=True,
                message="工作站报送服务正常运行",
                data={
-                    "workstation_id": device_id,
+                    "workstation_id": self.workstation.device_id,
                    "service_type": "unified_reporting_service",
                    "uptime": time.time() - getattr(self.workstation, '_start_time', time.time()),
                    "reports_received": getattr(self.workstation, '_reports_received_count', 0),
                    "supported_endpoints": [
                        "POST /report/step_finish",
-                        "POST /report/sample_finish",
+                        "POST /report/sample_finish", 
                        "POST /report/order_finish",
                        "POST /report/batch_update",
                        "POST /report/material_change",
                        "POST /report/error_handling",
-                        "POST /report/temperature-cutoff",
                        "GET /status",
                        "GET /health"
                    ]
@@ -583,52 +514,36 @@ class WorkstationHTTPHandler(BaseHTTPRequestHandler):
                success=False,
                message=f"状态查询失败: {str(e)}"
            )
-
+    
    def _send_response(self, response: HttpResponse):
        """发送响应"""
        try:
            # 设置响应状态码
            status_code = 200 if response.success else 400
            self.send_response(status_code)
-
+            
            # 设置响应头
            self.send_header('Content-Type', 'application/json; charset=utf-8')
            self.send_header('Access-Control-Allow-Origin', '*')
            self.send_header('Access-Control-Allow-Methods', 'GET, POST, OPTIONS')
            self.send_header('Access-Control-Allow-Headers', 'Content-Type')
            self.end_headers()
-
+            
            # 发送响应体
            response_json = json.dumps(asdict(response), ensure_ascii=False, indent=2)
            self.wfile.write(response_json.encode('utf-8'))
-
+            
        except Exception as e:
            logger.error(f"发送响应失败: {e}")
-
+    
    def log_message(self, format, *args):
        """重写日志方法"""
        logger.debug(f"HTTP请求: {format % args}")

-    def _save_raw_request(self, endpoint: str, request_data: Dict[str, Any]) -> None:
-        try:
-            base_dir = Path(__file__).resolve().parents[3] / "unilabos_data" / "http_reports"
-            base_dir.mkdir(parents=True, exist_ok=True)
-            log_path = getattr(self.workstation, "_http_log_path", None)
-            log_file = Path(log_path) if log_path else (base_dir / f"http_{int(time.time()*1000)}.log")
-            payload = {
-                "endpoint": endpoint,
-                "received_at": datetime.now().isoformat(),
-                "body": request_data
-            }
-            with open(log_file, "a", encoding="utf-8") as f:
-                f.write(json.dumps(payload, ensure_ascii=False) + "\n")
-        except Exception:
-            pass
-

 class WorkstationHTTPService:
    """工作站HTTP服务"""
-
+    
    def __init__(self, workstation_instance, host: str = "127.0.0.1", port: int = 8080):
        self.workstation = workstation_instance
        self.host = host
@@ -636,42 +551,31 @@ class WorkstationHTTPService:
        self.server = None
        self.server_thread = None
        self.running = False
-
+        
        # 初始化统计信息
        self.workstation._start_time = time.time()
        self.workstation._reports_received_count = 0
-
+    
    def start(self):
        """启动HTTP服务"""
        try:
            # 创建处理器工厂函数
            def handler_factory(*args, **kwargs):
                return WorkstationHTTPHandler(self.workstation, *args, **kwargs)
-
+            
            # 创建HTTP服务器
            self.server = HTTPServer((self.host, self.port), handler_factory)
-            base_dir = Path(__file__).resolve().parents[3] / "unilabos_data" / "http_reports"
-            base_dir.mkdir(parents=True, exist_ok=True)
-            session_log = base_dir / f"http_{int(time.time()*1000)}.log"
-            setattr(self.workstation, "_http_log_path", str(session_log))
-
-            # 安全地获取 device_id 用于线程命名
-            device_id = "unknown"
-            if hasattr(self.workstation, 'device_id'):
-                device_id = self.workstation.device_id
-            elif hasattr(self.workstation, '_ros_node') and hasattr(self.workstation._ros_node, 'device_id'):
-                device_id = self.workstation._ros_node.device_id
-
+            
            # 在单独线程中运行服务器
            self.server_thread = threading.Thread(
                target=self._run_server,
                daemon=True,
-                name=f"WorkstationHTTP-{device_id}"
+                name=f"WorkstationHTTP-{self.workstation.device_id}"
            )
-
+            
            self.running = True
            self.server_thread.start()
-
+            
            logger.info(f"工作站HTTP报送服务已启动: http://{self.host}:{self.port}")
            logger.info("统一的报送端点 (基于LIMS协议规范):")
            logger.info("  - POST /report/step_finish    # 步骤完成报送")
@@ -681,7 +585,6 @@ class WorkstationHTTPService:
            logger.info("扩展报送端点:")
            logger.info("  - POST /report/material_change # 物料变更报送")
            logger.info("  - POST /report/error_handling  # 错误处理报送")
-            logger.info("  - POST /report/temperature-cutoff # 温度/粘度报送")
            logger.info("兼容端点:")
            logger.info("  - POST /LIMS/step_finish      # 兼容LIMS步骤完成")
            logger.info("  - POST /LIMS/preintake_finish # 兼容LIMS通量完成")
@@ -689,33 +592,33 @@ class WorkstationHTTPService:
            logger.info("服务端点:")
            logger.info("  - GET  /status                # 服务状态查询")
            logger.info("  - GET  /health                # 健康检查")
-
+            
        except Exception as e:
            logger.error(f"启动HTTP服务失败: {e}")
            raise
-
+    
    def stop(self):
        """停止HTTP服务"""
        try:
            if self.running and self.server:
                logger.info("正在停止工作站HTTP报送服务...")
                self.running = False
-
+                
                # 停止serve_forever循环
                self.server.shutdown()
-
+                
                # 等待服务器线程结束
                if self.server_thread and self.server_thread.is_alive():
                    self.server_thread.join(timeout=5.0)
-
+                
                # 关闭服务器套接字
                self.server.server_close()
-
+                
                logger.info("工作站HTTP报送服务已停止")
-
+                
        except Exception as e:
            logger.error(f"停止HTTP服务失败: {e}")
-
+    
    def _run_server(self):
        """运行HTTP服务器"""
        try:
@@ -726,12 +629,12 @@ class WorkstationHTTPService:
                logger.error(f"HTTP服务运行错误: {e}")
        finally:
            logger.info("HTTP服务器线程已退出")
-
+    
    @property
    def is_running(self) -> bool:
        """检查服务是否正在运行"""
        return self.running and self.server_thread and self.server_thread.is_alive()
-
+    
    @property
    def service_url(self) -> str:
        """获取服务URL"""
@@ -745,7 +648,7 @@ class MaterialChangeReport:
    pass


-@dataclass
+@dataclass 
 class TaskExecutionReport:
    """已废弃：任务执行报送，请使用统一的WorkstationReportRequest"""
    pass
@@ -765,43 +668,40 @@ __all__ = [

 if __name__ == "__main__":
    # 简单测试HTTP服务
-    class BioyondWorkstation:
+    class DummyWorkstation:
        device_id = "WS-001"
-
+        
        def process_step_finish_report(self, report_request):
            return {"processed": True}
-
+        
        def process_sample_finish_report(self, report_request):
            return {"processed": True}
-
+        
        def process_order_finish_report(self, report_request, used_materials):
            return {"processed": True}
-
+        
        def process_material_change_report(self, report_data):
            return {"processed": True}
-
+        
        def handle_external_error(self, error_data):
            return {"handled": True}
-
-        def process_temperature_cutoff_report(self, report_request):
-            return {"processed": True, "metrics": report_request.data}
-
-    workstation = BioyondWorkstation()
+    
+    workstation = DummyWorkstation()
    http_service = WorkstationHTTPService(workstation)
-
+    
    try:
        http_service.start()
        print(f"测试服务器已启动: {http_service.service_url}")
        print("按 Ctrl+C 停止服务器")
        print("服务将持续运行，等待接收HTTP请求...")
-
+        
        # 保持服务器运行 - 使用更好的等待机制
        try:
            while http_service.is_running:
                time.sleep(1)
        except KeyboardInterrupt:
            print("\n接收到停止信号...")
-
+            
    except KeyboardInterrupt:
        print("\n正在停止服务器...")
        http_service.stop()
@@ -809,3 +709,4 @@ if __name__ == "__main__":
    except Exception as e:
        print(f"服务器运行错误: {e}")
        http_service.stop()
+
--- a/unilabos/registry/devices/bioyond.yaml
+++ b/unilabos/registry/devices/bioyond.yaml
@@ -1,395 +0,0 @@
-workstation.bioyond_dispensing_station:
-  category:
-  - workstation
-  - bioyond
-  class:
-    action_value_mappings:
-      auto-batch_create_90_10_vial_feeding_tasks:
-        feedback: {}
-        goal: {}
-        goal_default:
-          delay_time: null
-          hold_m_name: null
-          liquid_material_name: NMP
-          speed: null
-          temperature: null
-          titration: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: ''
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                delay_time:
-                  type: string
-                hold_m_name:
-                  type: string
-                liquid_material_name:
-                  default: NMP
-                  type: string
-                speed:
-                  type: string
-                temperature:
-                  type: string
-                titration:
-                  type: string
-              required:
-              - titration
-              type: object
-            result: {}
-          required:
-          - goal
-          title: batch_create_90_10_vial_feeding_tasks参数
-          type: object
-        type: UniLabJsonCommand
-      auto-batch_create_diamine_solution_tasks:
-        feedback: {}
-        goal: {}
-        goal_default:
-          delay_time: null
-          liquid_material_name: NMP
-          solutions: null
-          speed: null
-          temperature: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: ''
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                delay_time:
-                  type: string
-                liquid_material_name:
-                  default: NMP
-                  type: string
-                solutions:
-                  type: string
-                speed:
-                  type: string
-                temperature:
-                  type: string
-              required:
-              - solutions
-              type: object
-            result: {}
-          required:
-          - goal
-          title: batch_create_diamine_solution_tasks参数
-          type: object
-        type: UniLabJsonCommand
-      auto-process_order_finish_report:
-        feedback: {}
-        goal: {}
-        goal_default:
-          report_request: null
-          used_materials: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: ''
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                report_request:
-                  type: string
-                used_materials:
-                  type: string
-              required:
-              - report_request
-              - used_materials
-              type: object
-            result: {}
-          required:
-          - goal
-          title: process_order_finish_report参数
-          type: object
-        type: UniLabJsonCommand
-      auto-wait_for_multiple_orders_and_get_reports:
-        feedback: {}
-        goal: {}
-        goal_default:
-          batch_create_result: null
-          check_interval: 10
-          timeout: 7200
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: ''
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                batch_create_result:
-                  type: string
-                check_interval:
-                  default: 10
-                  type: integer
-                timeout:
-                  default: 7200
-                  type: integer
-              required: []
-              type: object
-            result: {}
-          required:
-          - goal
-          title: wait_for_multiple_orders_and_get_reports参数
-          type: object
-        type: UniLabJsonCommand
-      create_90_10_vial_feeding_task:
-        feedback: {}
-        goal:
-          delay_time: delay_time
-          hold_m_name: hold_m_name
-          order_name: order_name
-          percent_10_1_assign_material_name: percent_10_1_assign_material_name
-          percent_10_1_liquid_material_name: percent_10_1_liquid_material_name
-          percent_10_1_target_weigh: percent_10_1_target_weigh
-          percent_10_1_volume: percent_10_1_volume
-          percent_10_2_assign_material_name: percent_10_2_assign_material_name
-          percent_10_2_liquid_material_name: percent_10_2_liquid_material_name
-          percent_10_2_target_weigh: percent_10_2_target_weigh
-          percent_10_2_volume: percent_10_2_volume
-          percent_10_3_assign_material_name: percent_10_3_assign_material_name
-          percent_10_3_liquid_material_name: percent_10_3_liquid_material_name
-          percent_10_3_target_weigh: percent_10_3_target_weigh
-          percent_10_3_volume: percent_10_3_volume
-          percent_90_1_assign_material_name: percent_90_1_assign_material_name
-          percent_90_1_target_weigh: percent_90_1_target_weigh
-          percent_90_2_assign_material_name: percent_90_2_assign_material_name
-          percent_90_2_target_weigh: percent_90_2_target_weigh
-          percent_90_3_assign_material_name: percent_90_3_assign_material_name
-          percent_90_3_target_weigh: percent_90_3_target_weigh
-          speed: speed
-          temperature: temperature
-        goal_default:
-          delay_time: ''
-          hold_m_name: ''
-          order_name: ''
-          percent_10_1_assign_material_name: ''
-          percent_10_1_liquid_material_name: ''
-          percent_10_1_target_weigh: ''
-          percent_10_1_volume: ''
-          percent_10_2_assign_material_name: ''
-          percent_10_2_liquid_material_name: ''
-          percent_10_2_target_weigh: ''
-          percent_10_2_volume: ''
-          percent_10_3_assign_material_name: ''
-          percent_10_3_liquid_material_name: ''
-          percent_10_3_target_weigh: ''
-          percent_10_3_volume: ''
-          percent_90_1_assign_material_name: ''
-          percent_90_1_target_weigh: ''
-          percent_90_2_assign_material_name: ''
-          percent_90_2_target_weigh: ''
-          percent_90_3_assign_material_name: ''
-          percent_90_3_target_weigh: ''
-          speed: ''
-          temperature: ''
-        handles: {}
-        result:
-          return_info: return_info
-        schema:
-          description: ''
-          properties:
-            feedback:
-              properties: {}
-              required: []
-              title: DispenStationVialFeed_Feedback
-              type: object
-            goal:
-              properties:
-                delay_time:
-                  type: string
-                hold_m_name:
-                  type: string
-                order_name:
-                  type: string
-                percent_10_1_assign_material_name:
-                  type: string
-                percent_10_1_liquid_material_name:
-                  type: string
-                percent_10_1_target_weigh:
-                  type: string
-                percent_10_1_volume:
-                  type: string
-                percent_10_2_assign_material_name:
-                  type: string
-                percent_10_2_liquid_material_name:
-                  type: string
-                percent_10_2_target_weigh:
-                  type: string
-                percent_10_2_volume:
-                  type: string
-                percent_10_3_assign_material_name:
-                  type: string
-                percent_10_3_liquid_material_name:
-                  type: string
-                percent_10_3_target_weigh:
-                  type: string
-                percent_10_3_volume:
-                  type: string
-                percent_90_1_assign_material_name:
-                  type: string
-                percent_90_1_target_weigh:
-                  type: string
-                percent_90_2_assign_material_name:
-                  type: string
-                percent_90_2_target_weigh:
-                  type: string
-                percent_90_3_assign_material_name:
-                  type: string
-                percent_90_3_target_weigh:
-                  type: string
-                speed:
-                  type: string
-                temperature:
-                  type: string
-              required:
-              - order_name
-              - percent_90_1_assign_material_name
-              - percent_90_1_target_weigh
-              - percent_90_2_assign_material_name
-              - percent_90_2_target_weigh
-              - percent_90_3_assign_material_name
-              - percent_90_3_target_weigh
-              - percent_10_1_assign_material_name
-              - percent_10_1_target_weigh
-              - percent_10_1_volume
-              - percent_10_1_liquid_material_name
-              - percent_10_2_assign_material_name
-              - percent_10_2_target_weigh
-              - percent_10_2_volume
-              - percent_10_2_liquid_material_name
-              - percent_10_3_assign_material_name
-              - percent_10_3_target_weigh
-              - percent_10_3_volume
-              - percent_10_3_liquid_material_name
-              - speed
-              - temperature
-              - delay_time
-              - hold_m_name
-              title: DispenStationVialFeed_Goal
-              type: object
-            result:
-              properties:
-                return_info:
-                  type: string
-              required:
-              - return_info
-              title: DispenStationVialFeed_Result
-              type: object
-          required:
-          - goal
-          title: DispenStationVialFeed
-          type: object
-        type: DispenStationVialFeed
-      create_diamine_solution_task:
-        feedback: {}
-        goal:
-          delay_time: delay_time
-          hold_m_name: hold_m_name
-          liquid_material_name: liquid_material_name
-          material_name: material_name
-          order_name: order_name
-          speed: speed
-          target_weigh: target_weigh
-          temperature: temperature
-          volume: volume
-        goal_default:
-          delay_time: ''
-          hold_m_name: ''
-          liquid_material_name: ''
-          material_name: ''
-          order_name: ''
-          speed: ''
-          target_weigh: ''
-          temperature: ''
-          volume: ''
-        handles: {}
-        result:
-          return_info: return_info
-        schema:
-          description: ''
-          properties:
-            feedback:
-              properties: {}
-              required: []
-              title: DispenStationSolnPrep_Feedback
-              type: object
-            goal:
-              properties:
-                delay_time:
-                  type: string
-                hold_m_name:
-                  type: string
-                liquid_material_name:
-                  type: string
-                material_name:
-                  type: string
-                order_name:
-                  type: string
-                speed:
-                  type: string
-                target_weigh:
-                  type: string
-                temperature:
-                  type: string
-                volume:
-                  type: string
-              required:
-              - order_name
-              - material_name
-              - target_weigh
-              - volume
-              - liquid_material_name
-              - speed
-              - temperature
-              - delay_time
-              - hold_m_name
-              title: DispenStationSolnPrep_Goal
-              type: object
-            result:
-              properties:
-                return_info:
-                  type: string
-              required:
-              - return_info
-              title: DispenStationSolnPrep_Result
-              type: object
-          required:
-          - goal
-          title: DispenStationSolnPrep
-          type: object
-        type: DispenStationSolnPrep
-    module: unilabos.devices.workstation.bioyond_studio.dispensing_station:BioyondDispensingStation
-    status_types: {}
-    type: python
-  config_info: []
-  description: ''
-  handles: []
-  icon: ''
-  init_param_schema:
-    config:
-      properties:
-        config:
-          type: string
-        deck:
-          type: string
-      required:
-      - config
-      - deck
-      type: object
-    data:
-      properties: {}
-      required: []
-      type: object
-  version: 1.0.0
--- a/unilabos/registry/devices/bioyond_cell.yaml
+++ b/unilabos/registry/devices/bioyond_cell.yaml
--- a/unilabos/registry/devices/bioyond_dispensing_station.yaml
+++ b/unilabos/registry/devices/bioyond_dispensing_station.yaml
@@ -5,6 +5,96 @@ bioyond_dispensing_station:
  - bioyond_dispensing_station
  class:
    action_value_mappings:
+      auto-brief_step_parameters:
+        feedback: {}
+        goal: {}
+        goal_default:
+          data: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                data:
+                  type: object
+              required:
+              - data
+              type: object
+            result: {}
+          required:
+          - goal
+          title: brief_step_parameters参数
+          type: object
+        type: UniLabJsonCommand
+      auto-compute_experiment_design:
+        feedback: {}
+        goal: {}
+        goal_default:
+          m_tot: '70'
+          ratio: null
+          titration_percent: '0.03'
+          wt_percent: '0.25'
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                m_tot:
+                  default: '70'
+                  type: string
+                ratio:
+                  type: object
+                titration_percent:
+                  default: '0.03'
+                  type: string
+                wt_percent:
+                  default: '0.25'
+                  type: string
+              required:
+              - ratio
+              type: object
+            result:
+              properties:
+                feeding_order:
+                  items: {}
+                  title: Feeding Order
+                  type: array
+                return_info:
+                  title: Return Info
+                  type: string
+                solutions:
+                  items: {}
+                  title: Solutions
+                  type: array
+                solvents:
+                  additionalProperties: true
+                  title: Solvents
+                  type: object
+                titration:
+                  additionalProperties: true
+                  title: Titration
+                  type: object
+              required:
+              - solutions
+              - titration
+              - solvents
+              - feeding_order
+              - return_info
+              title: ComputeExperimentDesignReturn
+              type: object
+          required:
+          - goal
+          title: compute_experiment_design参数
+          type: object
+        type: UniLabJsonCommand
      auto-process_order_finish_report:
        feedback: {}
        goal: {}
@@ -34,6 +124,81 @@ bioyond_dispensing_station:
          title: process_order_finish_report参数
          type: object
        type: UniLabJsonCommand
+      auto-project_order_report:
+        feedback: {}
+        goal: {}
+        goal_default:
+          order_id: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                order_id:
+                  type: string
+              required:
+              - order_id
+              type: object
+            result: {}
+          required:
+          - goal
+          title: project_order_report参数
+          type: object
+        type: UniLabJsonCommand
+      auto-query_resource_by_name:
+        feedback: {}
+        goal: {}
+        goal_default:
+          material_name: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                material_name:
+                  type: string
+              required:
+              - material_name
+              type: object
+            result: {}
+          required:
+          - goal
+          title: query_resource_by_name参数
+          type: object
+        type: UniLabJsonCommand
+      auto-workflow_sample_locations:
+        feedback: {}
+        goal: {}
+        goal_default:
+          workflow_id: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                workflow_id:
+                  type: string
+              required:
+              - workflow_id
+              type: object
+            result: {}
+          required:
+          - goal
+          title: workflow_sample_locations参数
+          type: object
+        type: UniLabJsonCommand
      batch_create_90_10_vial_feeding_tasks:
        feedback: {}
        goal:
@@ -426,6 +591,56 @@ bioyond_dispensing_station:
          title: DispenStationSolnPrep
          type: object
        type: DispenStationSolnPrep
+      transfer_materials_to_reaction_station:
+        feedback: {}
+        goal:
+          target_device_id: target_device_id
+          transfer_groups: transfer_groups
+        goal_default:
+          target_device_id: ''
+          transfer_groups: ''
+        handles: {}
+        placeholder_keys:
+          target_device_id: unilabos_devices
+        result: {}
+        schema:
+          description: 将配液站完成的物料（溶液、样品等）转移到指定反应站的堆栈库位。支持配置多组转移任务，每组包含物料名称、目标堆栈和目标库位。
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                target_device_id:
+                  description: 目标反应站设备ID（从设备列表中选择，所有转移组都使用同一个目标设备）
+                  type: string
+                transfer_groups:
+                  description: 转移任务组列表，每组包含物料名称、目标堆栈和目标库位，可以添加多组
+                  items:
+                    properties:
+                      materials:
+                        description: 物料名称（手动输入，系统将通过RPC查询验证）
+                        type: string
+                      target_sites:
+                        description: 目标库位（手动输入，如"A01"）
+                        type: string
+                      target_stack:
+                        description: 目标堆栈名称（手动输入，如"堆栈1左"）
+                        type: string
+                    required:
+                    - materials
+                    - target_stack
+                    - target_sites
+                    type: object
+                  type: array
+              required:
+              - target_device_id
+              - transfer_groups
+              type: object
+            result: {}
+          required:
+          - goal
+          title: transfer_materials_to_reaction_station参数
+          type: object
+        type: UniLabJsonCommand
      wait_for_multiple_orders_and_get_reports:
        feedback: {}
        goal:
--- a/unilabos/registry/devices/camera.yaml
+++ b/unilabos/registry/devices/camera.yaml
@@ -61,6 +61,9 @@ camera:
        device_id:
          default: video_publisher
          type: string
+        device_uuid:
+          default: ''
+          type: string
        period:
          default: 0.1
          type: number
--- a/unilabos/registry/devices/characterization_chromatic.yaml
+++ b/unilabos/registry/devices/characterization_chromatic.yaml
@@ -1,231 +1,3 @@
-hplc.agilent:
-  category:
-  - characterization_chromatic
-  class:
-    action_value_mappings:
-      auto-check_status:
-        feedback: {}
-        goal: {}
-        goal_default: {}
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 检查安捷伦HPLC设备状态的函数。用于监控设备的运行状态、连接状态、错误信息等关键指标。该函数定期查询设备状态，确保系统稳定运行，及时发现和报告设备异常。适用于自动化流程中的设备监控、故障诊断、系统维护等场景。
-          properties:
-            feedback: {}
-            goal:
-              properties: {}
-              required: []
-              type: object
-            result: {}
-          required:
-          - goal
-          title: check_status参数
-          type: object
-        type: UniLabJsonCommand
-      auto-extract_data_from_txt:
-        feedback: {}
-        goal: {}
-        goal_default:
-          file_path: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 从文本文件中提取分析数据的函数。用于解析安捷伦HPLC生成的结果文件，提取峰面积、保留时间、浓度等关键分析数据。支持多种文件格式的自动识别和数据结构化处理，为后续数据分析和报告生成提供标准化的数据格式。适用于批量数据处理、结果验证、质量控制等分析工作流程。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                file_path:
-                  type: string
-              required:
-              - file_path
-              type: object
-            result: {}
-          required:
-          - goal
-          title: extract_data_from_txt参数
-          type: object
-        type: UniLabJsonCommand
-      auto-start_sequence:
-        feedback: {}
-        goal: {}
-        goal_default:
-          params: null
-          resource: null
-          wf_name: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 启动安捷伦HPLC分析序列的函数。用于执行预定义的分析方法序列，包括样品进样、色谱分离、检测等完整的分析流程。支持参数配置、资源分配、工作流程管理等功能，实现全自动的样品分析。适用于批量样品处理、标准化分析、质量检测等需要连续自动分析的应用场景。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                params:
-                  type: string
-                resource:
-                  type: object
-                wf_name:
-                  type: string
-              required:
-              - wf_name
-              type: object
-            result: {}
-          required:
-          - goal
-          title: start_sequence参数
-          type: object
-        type: UniLabJsonCommand
-      auto-try_close_sub_device:
-        feedback: {}
-        goal: {}
-        goal_default:
-          device_name: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 尝试关闭HPLC子设备的函数。用于安全地关闭泵、检测器、进样器等各个子模块，确保设备正常断开连接并保护硬件安全。该函数提供错误处理和状态确认机制，避免强制关闭可能造成的设备损坏。适用于设备维护、系统重启、紧急停机等需要安全关闭设备的场景。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                device_name:
-                  type: string
-              required: []
-              type: object
-            result: {}
-          required:
-          - goal
-          title: try_close_sub_device参数
-          type: object
-        type: UniLabJsonCommand
-      auto-try_open_sub_device:
-        feedback: {}
-        goal: {}
-        goal_default:
-          device_name: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 尝试打开HPLC子设备的函数。用于初始化和连接泵、检测器、进样器等各个子模块，建立设备通信并进行自检。该函数提供连接验证和错误恢复机制，确保子设备正常启动并准备就绪。适用于设备初始化、系统启动、设备重连等需要建立设备连接的场景。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                device_name:
-                  type: string
-              required: []
-              type: object
-            result: {}
-          required:
-          - goal
-          title: try_open_sub_device参数
-          type: object
-        type: UniLabJsonCommand
-      execute_command_from_outer:
-        feedback: {}
-        goal:
-          command: command
-        goal_default:
-          command: ''
-        handles: {}
-        result:
-          success: success
-        schema:
-          description: ''
-          properties:
-            feedback:
-              properties:
-                status:
-                  type: string
-              required:
-              - status
-              title: SendCmd_Feedback
-              type: object
-            goal:
-              properties:
-                command:
-                  type: string
-              required:
-              - command
-              title: SendCmd_Goal
-              type: object
-            result:
-              properties:
-                return_info:
-                  type: string
-                success:
-                  type: boolean
-              required:
-              - return_info
-              - success
-              title: SendCmd_Result
-              type: object
-          required:
-          - goal
-          title: SendCmd
-          type: object
-        type: SendCmd
-    module: unilabos.devices.hplc.AgilentHPLC:HPLCDriver
-    status_types:
-      could_run: bool
-      data_file: String
-      device_status: str
-      driver_init_ok: bool
-      finish_status: str
-      is_running: bool
-      status_text: str
-      success: bool
-    type: python
-  config_info: []
-  description: 安捷伦高效液相色谱（HPLC）分析设备，用于复杂化合物的分离、检测和定量分析。该设备通过UI自动化技术控制安捷伦ChemStation软件，实现全自动的样品分析流程。具备序列启动、设备状态监控、数据文件提取、结果处理等功能。支持多样品批量处理和实时状态反馈，适用于药物分析、环境检测、食品安全、化学研究等需要高精度色谱分析的实验室应用。
-  handles: []
-  icon: ''
-  init_param_schema:
-    config:
-      properties:
-        driver_debug:
-          default: false
-          type: string
-      required: []
-      type: object
-    data:
-      properties:
-        could_run:
-          type: boolean
-        data_file:
-          items:
-            type: string
-          type: array
-        device_status:
-          type: string
-        driver_init_ok:
-          type: boolean
-        finish_status:
-          type: string
-        is_running:
-          type: boolean
-        status_text:
-          type: string
-        success:
-          type: boolean
-      required:
-      - status_text
-      - device_status
-      - could_run
-      - driver_init_ok
-      - is_running
-      - success
-      - finish_status
-      - data_file
-      type: object
-  version: 1.0.0
 hplc.agilent-zhida:
  category:
  - characterization_chromatic
--- a/unilabos/registry/devices/characterization_optic.yaml
+++ b/unilabos/registry/devices/characterization_optic.yaml
@@ -1,194 +1 @@
-raman.home_made:
-  category:
-  - characterization_optic
-  class:
-    action_value_mappings:
-      auto-ccd_time:
-        feedback: {}
-        goal: {}
-        goal_default:
-          int_time: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 设置CCD检测器积分时间的函数。用于配置拉曼光谱仪的信号采集时间，控制光谱数据的质量和信噪比。较长的积分时间可获得更高的信号强度和更好的光谱质量，但会增加测量时间。该函数允许根据样品特性和测量要求动态调整检测参数，优化测量效果。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                int_time:
-                  type: string
-              required:
-              - int_time
-              type: object
-            result: {}
-          required:
-          - goal
-          title: ccd_time参数
-          type: object
-        type: UniLabJsonCommand
-      auto-laser_on_power:
-        feedback: {}
-        goal: {}
-        goal_default:
-          output_voltage_laser: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 设置激光器输出功率的函数。用于控制拉曼光谱仪激光器的功率输出，调节激光强度以适应不同样品的测量需求。适当的激光功率能够获得良好的拉曼信号同时避免样品损伤。该函数支持精确的功率控制，确保测量结果的稳定性和重现性。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                output_voltage_laser:
-                  type: string
-              required:
-              - output_voltage_laser
-              type: object
-            result: {}
-          required:
-          - goal
-          title: laser_on_power参数
-          type: object
-        type: UniLabJsonCommand
-      auto-raman_without_background:
-        feedback: {}
-        goal: {}
-        goal_default:
-          int_time: null
-          laser_power: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 执行无背景扣除的拉曼光谱测量函数。用于直接采集样品的拉曼光谱信号，不进行背景校正处理。该函数配置积分时间和激光功率参数，获取原始光谱数据用于后续的数据处理分析。适用于对光谱数据质量要求较高或需要自定义背景处理流程的测量场景。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                int_time:
-                  type: string
-                laser_power:
-                  type: string
-              required:
-              - int_time
-              - laser_power
-              type: object
-            result: {}
-          required:
-          - goal
-          title: raman_without_background参数
-          type: object
-        type: UniLabJsonCommand
-      auto-raman_without_background_average:
-        feedback: {}
-        goal: {}
-        goal_default:
-          average: null
-          int_time: null
-          laser_power: null
-          sample_name: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 执行多次平均的无背景拉曼光谱测量函数。通过多次测量取平均值来提高光谱数据的信噪比和测量精度，减少随机噪声影响。该函数支持自定义平均次数、积分时间、激光功率等参数，并可为样品指定名称便于数据管理。适用于对测量精度要求较高的定量分析和研究应用。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                average:
-                  type: string
-                int_time:
-                  type: string
-                laser_power:
-                  type: string
-                sample_name:
-                  type: string
-              required:
-              - sample_name
-              - int_time
-              - laser_power
-              - average
-              type: object
-            result: {}
-          required:
-          - goal
-          title: raman_without_background_average参数
-          type: object
-        type: UniLabJsonCommand
-      raman_cmd:
-        feedback: {}
-        goal:
-          command: command
-        goal_default:
-          command: ''
-        handles: {}
-        result:
-          success: success
-        schema:
-          description: ''
-          properties:
-            feedback:
-              properties:
-                status:
-                  type: string
-              required:
-              - status
-              title: SendCmd_Feedback
-              type: object
-            goal:
-              properties:
-                command:
-                  type: string
-              required:
-              - command
-              title: SendCmd_Goal
-              type: object
-            result:
-              properties:
-                return_info:
-                  type: string
-                success:
-                  type: boolean
-              required:
-              - return_info
-              - success
-              title: SendCmd_Result
-              type: object
-          required:
-          - goal
-          title: SendCmd
-          type: object
-        type: SendCmd
-    module: unilabos.devices.raman_uv.home_made_raman:RamanObj
-    status_types: {}
-    type: python
-  config_info: []
-  description: 拉曼光谱分析设备，用于物质的分子结构和化学成分表征。该设备集成激光器和CCD检测器，通过串口通信控制激光功率和光谱采集。具备背景扣除、多次平均、自动数据处理等功能，支持高精度的拉曼光谱测量。适用于材料表征、化学分析、质量控制、研究开发等需要分子指纹识别和结构分析的实验应用。
-  handles: []
-  icon: ''
-  init_param_schema:
-    config:
-      properties:
-        baudrate_ccd:
-          default: 921600
-          type: string
-        baudrate_laser:
-          default: 9600
-          type: string
-        port_ccd:
-          type: string
-        port_laser:
-          type: string
-      required:
-      - port_laser
-      - port_ccd
-      type: object
-    data:
-      properties: {}
-      required: []
-      type: object
-  version: 1.0.0
+{}
--- a/unilabos/registry/devices/chinwe.yaml
+++ b/unilabos/registry/devices/chinwe.yaml
@@ -0,0 +1,344 @@
+separator.chinwe:
+  category:
+  - separator
+  - chinwe
+  class:
+    action_value_mappings:
+      motor_rotate_quarter:
+        goal:
+          direction: 顺时针
+          motor_id: 4
+          speed: 60
+        handles: {}
+        schema:
+          description: 电机旋转 1/4 圈
+          properties:
+            goal:
+              properties:
+                direction:
+                  default: 顺时针
+                  description: 旋转方向
+                  enum:
+                  - 顺时针
+                  - 逆时针
+                  type: string
+                motor_id:
+                  default: '4'
+                  description: 选择电机 (4:搅拌, 5:旋钮)
+                  enum:
+                  - '4'
+                  - '5'
+                  type: string
+                speed:
+                  default: 60
+                  description: 速度 (RPM)
+                  type: integer
+              required:
+              - motor_id
+              - speed
+              type: object
+        type: UniLabJsonCommand
+      motor_run_continuous:
+        goal:
+          direction: 顺时针
+          motor_id: 4
+          speed: 60
+        handles: {}
+        schema:
+          description: 电机一直旋转 (速度模式)
+          properties:
+            goal:
+              properties:
+                direction:
+                  default: 顺时针
+                  description: 旋转方向
+                  enum:
+                  - 顺时针
+                  - 逆时针
+                  type: string
+                motor_id:
+                  default: '4'
+                  description: 选择电机 (4:搅拌, 5:旋钮)
+                  enum:
+                  - '4'
+                  - '5'
+                  type: string
+                speed:
+                  default: 60
+                  description: 速度 (RPM)
+                  type: integer
+              required:
+              - motor_id
+              - speed
+              type: object
+        type: UniLabJsonCommand
+      motor_stop:
+        goal:
+          motor_id: 4
+        handles: {}
+        schema:
+          description: 停止指定步进电机
+          properties:
+            goal:
+              properties:
+                motor_id:
+                  default: '4'
+                  description: 选择电机
+                  enum:
+                  - '4'
+                  - '5'
+                  title: '注: 4=搅拌, 5=旋钮'
+                  type: string
+              required:
+              - motor_id
+              type: object
+        type: UniLabJsonCommand
+      pump_aspirate:
+        goal:
+          pump_id: 1
+          valve_port: 1
+          volume: 1000
+        handles: {}
+        schema:
+          description: 注射泵吸液
+          properties:
+            goal:
+              properties:
+                pump_id:
+                  default: '1'
+                  description: 选择泵
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  type: string
+                valve_port:
+                  default: '1'
+                  description: 阀门端口
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  - '4'
+                  - '5'
+                  - '6'
+                  - '7'
+                  - '8'
+                  type: string
+                volume:
+                  default: 1000
+                  description: 吸液步数
+                  type: integer
+              required:
+              - pump_id
+              - volume
+              - valve_port
+              type: object
+        type: UniLabJsonCommand
+      pump_dispense:
+        goal:
+          pump_id: 1
+          valve_port: 1
+          volume: 1000
+        handles: {}
+        schema:
+          description: 注射泵排液
+          properties:
+            goal:
+              properties:
+                pump_id:
+                  default: '1'
+                  description: 选择泵
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  type: string
+                valve_port:
+                  default: '1'
+                  description: 阀门端口
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  - '4'
+                  - '5'
+                  - '6'
+                  - '7'
+                  - '8'
+                  type: string
+                volume:
+                  default: 1000
+                  description: 排液步数
+                  type: integer
+              required:
+              - pump_id
+              - volume
+              - valve_port
+              type: object
+        type: UniLabJsonCommand
+      pump_initialize:
+        goal:
+          drain_port: 0
+          output_port: 0
+          pump_id: 1
+          speed: 10
+        handles: {}
+        schema:
+          description: 初始化指定注射泵
+          properties:
+            goal:
+              properties:
+                drain_port:
+                  default: 0
+                  description: 排液口索引
+                  type: integer
+                output_port:
+                  default: 0
+                  description: 输出口索引
+                  type: integer
+                pump_id:
+                  default: '1'
+                  description: 选择泵
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  title: '注: 1号泵, 2号泵, 3号泵'
+                  type: string
+                speed:
+                  default: 10
+                  description: 运动速度
+                  type: integer
+              required:
+              - pump_id
+              type: object
+        type: UniLabJsonCommand
+      pump_valve:
+        goal:
+          port: 1
+          pump_id: 1
+        handles: {}
+        schema:
+          description: 切换指定泵的阀门端口
+          properties:
+            goal:
+              properties:
+                port:
+                  default: '1'
+                  description: 阀门端口号 (1-8)
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  - '4'
+                  - '5'
+                  - '6'
+                  - '7'
+                  - '8'
+                  type: string
+                pump_id:
+                  default: '1'
+                  description: 选择泵
+                  enum:
+                  - '1'
+                  - '2'
+                  - '3'
+                  type: string
+              required:
+              - pump_id
+              - port
+              type: object
+        type: UniLabJsonCommand
+      wait_sensor_level:
+        goal:
+          target_state: 有液
+          timeout: 30
+        handles: {}
+        schema:
+          description: 等待传感器液位条件
+          properties:
+            goal:
+              properties:
+                target_state:
+                  default: 有液
+                  description: 目标液位状态
+                  enum:
+                  - 有液
+                  - 无液
+                  type: string
+                timeout:
+                  default: 30
+                  description: 超时时间 (秒)
+                  type: integer
+              required:
+              - target_state
+              type: object
+        type: UniLabJsonCommand
+      wait_time:
+        goal:
+          duration: 10
+        handles: {}
+        schema:
+          description: 等待指定时间
+          properties:
+            goal:
+              properties:
+                duration:
+                  default: 10
+                  description: 等待时间 (秒)
+                  type: integer
+              required:
+              - duration
+              type: object
+        type: UniLabJsonCommand
+    module: unilabos.devices.separator.chinwe:ChinweDevice
+    status_types:
+      is_connected: bool
+      sensor_level: bool
+      sensor_rssi: int
+    type: python
+  config_info: []
+  description: ChinWe 简易工作站控制器 (3泵, 2电机, 1传感器)
+  handles: []
+  icon: ''
+  init_param_schema:
+    goal:
+      baudrate:
+        default: 9600
+        description: 串口波特率
+        type: integer
+      motor_ids:
+        default:
+        - 4
+        - 5
+        description: 步进电机ID列表
+        items:
+          type: integer
+        type: array
+      port:
+        default: 192.168.1.200:8899
+        description: 串口号或 IP:Port
+        type: string
+      pump_ids:
+        default:
+        - 1
+        - 2
+        - 3
+        description: 注射泵ID列表
+        items:
+          type: integer
+        type: array
+      sensor_id:
+        default: 6
+        description: XKC传感器ID
+        type: integer
+      sensor_threshold:
+        default: 300
+        description: 传感器液位判定阈值
+        type: integer
+      timeout:
+        default: 10
+        description: 通信超时时间 (秒)
+        type: integer
+  version: 2.1.0
--- a/unilabos/registry/devices/coin_cell_workstation.yaml
+++ b/unilabos/registry/devices/coin_cell_workstation.yaml
@@ -0,0 +1,586 @@
+coincellassemblyworkstation_device:
+  category:
+  - coin_cell_workstation
+  class:
+    action_value_mappings:
+      auto-change_hole_sheet_to_2:
+        feedback: {}
+        goal: {}
+        goal_default:
+          hole: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                hole:
+                  type: object
+              required:
+              - hole
+              type: object
+            result: {}
+          required:
+          - goal
+          title: change_hole_sheet_to_2参数
+          type: object
+        type: UniLabJsonCommandAsync
+      auto-fill_plate:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: fill_plate参数
+          type: object
+        type: UniLabJsonCommandAsync
+      auto-fun_wuliao_test:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: fun_wuliao_test参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_allpack_cmd:
+        feedback: {}
+        goal: {}
+        goal_default:
+          assembly_pressure: 4200
+          assembly_type: 7
+          elec_num: null
+          elec_use_num: null
+          elec_vol: 50
+          file_path: /Users/sml/work
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                assembly_pressure:
+                  default: 4200
+                  type: integer
+                assembly_type:
+                  default: 7
+                  type: integer
+                elec_num:
+                  type: string
+                elec_use_num:
+                  type: string
+                elec_vol:
+                  default: 50
+                  type: integer
+                file_path:
+                  default: /Users/sml/work
+                  type: string
+              required:
+              - elec_num
+              - elec_use_num
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_allpack_cmd参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_get_csv_export_status:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_get_csv_export_status参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_device_auto:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_device_auto参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_device_init:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_device_init参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_device_start:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_device_start参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_device_stop:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_device_stop参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_get_msg_cmd:
+        feedback: {}
+        goal: {}
+        goal_default:
+          file_path: D:\coin_cell_data
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                file_path:
+                  default: D:\coin_cell_data
+                  type: string
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_get_msg_cmd参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_send_bottle_num:
+        feedback: {}
+        goal: {}
+        goal_default:
+          bottle_num: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                bottle_num:
+                  type: string
+              required:
+              - bottle_num
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_send_bottle_num参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_send_finished_cmd:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_send_finished_cmd参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_pack_send_msg_cmd:
+        feedback: {}
+        goal: {}
+        goal_default:
+          assembly_pressure: null
+          assembly_type: null
+          elec_use_num: null
+          elec_vol: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                assembly_pressure:
+                  type: string
+                assembly_type:
+                  type: string
+                elec_use_num:
+                  type: string
+                elec_vol:
+                  type: string
+              required:
+              - elec_use_num
+              - elec_vol
+              - assembly_type
+              - assembly_pressure
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_pack_send_msg_cmd参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_read_data_and_output:
+        feedback: {}
+        goal: {}
+        goal_default:
+          file_path: /Users/sml/work
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                file_path:
+                  default: /Users/sml/work
+                  type: string
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_read_data_and_output参数
+          type: object
+        type: UniLabJsonCommand
+      auto-func_stop_read_data:
+        feedback: {}
+        goal: {}
+        goal_default: {}
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties: {}
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: func_stop_read_data参数
+          type: object
+        type: UniLabJsonCommand
+      auto-modify_deck_name:
+        feedback: {}
+        goal: {}
+        goal_default:
+          resource_name: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                resource_name:
+                  type: string
+              required:
+              - resource_name
+              type: object
+            result: {}
+          required:
+          - goal
+          title: modify_deck_name参数
+          type: object
+        type: UniLabJsonCommand
+      auto-post_init:
+        feedback: {}
+        goal: {}
+        goal_default:
+          ros_node: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                ros_node:
+                  type: object
+              required:
+              - ros_node
+              type: object
+            result: {}
+          required:
+          - goal
+          title: post_init参数
+          type: object
+        type: UniLabJsonCommand
+      auto-qiming_coin_cell_code:
+        feedback: {}
+        goal: {}
+        goal_default:
+          battery_clean_ignore: false
+          battery_pressure: 4000
+          battery_pressure_mode: true
+          fujipian_juzhendianwei: 0
+          fujipian_panshu: null
+          gemo_juzhendianwei: 0
+          gemopanshu: 0
+          lvbodian: true
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                battery_clean_ignore:
+                  default: false
+                  type: boolean
+                battery_pressure:
+                  default: 4000
+                  type: integer
+                battery_pressure_mode:
+                  default: true
+                  type: boolean
+                fujipian_juzhendianwei:
+                  default: 0
+                  type: integer
+                fujipian_panshu:
+                  type: integer
+                gemo_juzhendianwei:
+                  default: 0
+                  type: integer
+                gemopanshu:
+                  default: 0
+                  type: integer
+                lvbodian:
+                  default: true
+                  type: boolean
+              required:
+              - fujipian_panshu
+              type: object
+            result: {}
+          required:
+          - goal
+          title: qiming_coin_cell_code参数
+          type: object
+        type: UniLabJsonCommand
+    module: unilabos.devices.workstation.coin_cell_assembly.coin_cell_assembly:CoinCellAssemblyWorkstation
+    status_types:
+      data_assembly_coin_cell_num: int
+      data_assembly_pressure: int
+      data_assembly_time: float
+      data_axis_x_pos: float
+      data_axis_y_pos: float
+      data_axis_z_pos: float
+      data_coin_cell_code: str
+      data_coin_num: int
+      data_electrolyte_code: str
+      data_electrolyte_volume: int
+      data_glove_box_o2_content: float
+      data_glove_box_pressure: float
+      data_glove_box_water_content: float
+      data_open_circuit_voltage: float
+      data_pole_weight: float
+      request_rec_msg_status: bool
+      request_send_msg_status: bool
+      sys_mode: str
+      sys_status: str
+    type: python
+  config_info: []
+  description: ''
+  handles: []
+  icon: koudian.webp
+  init_param_schema:
+    config:
+      properties:
+        address:
+          default: 172.16.28.102
+          type: string
+        config:
+          type: object
+        debug_mode:
+          default: false
+          type: boolean
+        deck:
+          type: string
+        port:
+          default: '502'
+          type: string
+      required: []
+      type: object
+    data:
+      properties:
+        data_assembly_coin_cell_num:
+          type: integer
+        data_assembly_pressure:
+          type: integer
+        data_assembly_time:
+          type: number
+        data_axis_x_pos:
+          type: number
+        data_axis_y_pos:
+          type: number
+        data_axis_z_pos:
+          type: number
+        data_coin_cell_code:
+          type: string
+        data_coin_num:
+          type: integer
+        data_electrolyte_code:
+          type: string
+        data_electrolyte_volume:
+          type: integer
+        data_glove_box_o2_content:
+          type: number
+        data_glove_box_pressure:
+          type: number
+        data_glove_box_water_content:
+          type: number
+        data_open_circuit_voltage:
+          type: number
+        data_pole_weight:
+          type: number
+        request_rec_msg_status:
+          type: boolean
+        request_send_msg_status:
+          type: boolean
+        sys_mode:
+          type: string
+        sys_status:
+          type: string
+      required:
+      - sys_status
+      - sys_mode
+      - request_rec_msg_status
+      - request_send_msg_status
+      - data_assembly_coin_cell_num
+      - data_assembly_time
+      - data_open_circuit_voltage
+      - data_axis_x_pos
+      - data_axis_y_pos
+      - data_axis_z_pos
+      - data_pole_weight
+      - data_assembly_pressure
+      - data_electrolyte_volume
+      - data_coin_num
+      - data_coin_cell_code
+      - data_electrolyte_code
+      - data_glove_box_pressure
+      - data_glove_box_o2_content
+      - data_glove_box_water_content
+      type: object
+  registry_type: device
+  version: 1.0.0
--- a/unilabos/registry/devices/liquid_handler.yaml
+++ b/unilabos/registry/devices/liquid_handler.yaml
@@ -4497,9 +4497,6 @@ liquid_handler:
        simulator:
          default: false
          type: boolean
-        total_height:
-          default: 310
-          type: number
      required:
      - backend
      - deck
@@ -9336,7 +9333,34 @@ liquid_handler.prcxi:
          touch_tip: false
          use_channels:
          - 0
-        handles: {}
+        handles:
+          input:
+          - data_key: liquid
+            data_source: handle
+            data_type: resource
+            handler_key: sources
+            label: sources
+          - data_key: liquid
+            data_source: executor
+            data_type: resource
+            handler_key: targets
+            label: targets
+          - data_key: liquid
+            data_source: executor
+            data_type: resource
+            handler_key: tip_rack
+            label: tip_rack
+          output:
+          - data_key: liquid
+            data_source: handle
+            data_type: resource
+            handler_key: sources_out
+            label: sources
+          - data_key: liquid
+            data_source: executor
+            data_type: resource
+            handler_key: targets_out
+            label: targets
        placeholder_keys:
          sources: unilabos_resources
          targets: unilabos_resources
--- a/unilabos/registry/devices/reaction_station_bioyond.yaml
+++ b/unilabos/registry/devices/reaction_station_bioyond.yaml
@@ -4,6 +4,215 @@ reaction_station.bioyond:
  - reaction_station_bioyond
  class:
    action_value_mappings:
+      auto-create_order:
+        feedback: {}
+        goal: {}
+        goal_default:
+          json_str: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                json_str:
+                  type: string
+              required:
+              - json_str
+              type: object
+            result: {}
+          required:
+          - goal
+          title: create_order参数
+          type: object
+        type: UniLabJsonCommand
+      auto-hard_delete_merged_workflows:
+        feedback: {}
+        goal: {}
+        goal_default:
+          workflow_ids: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                workflow_ids:
+                  items:
+                    type: string
+                  type: array
+              required:
+              - workflow_ids
+              type: object
+            result: {}
+          required:
+          - goal
+          title: hard_delete_merged_workflows参数
+          type: object
+        type: UniLabJsonCommand
+      auto-merge_workflow_with_parameters:
+        feedback: {}
+        goal: {}
+        goal_default:
+          json_str: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                json_str:
+                  type: string
+              required:
+              - json_str
+              type: object
+            result: {}
+          required:
+          - goal
+          title: merge_workflow_with_parameters参数
+          type: object
+        type: UniLabJsonCommand
+      auto-process_temperature_cutoff_report:
+        feedback: {}
+        goal: {}
+        goal_default:
+          report_request: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                report_request:
+                  type: string
+              required:
+              - report_request
+              type: object
+            result: {}
+          required:
+          - goal
+          title: process_temperature_cutoff_report参数
+          type: object
+        type: UniLabJsonCommand
+      auto-process_web_workflows:
+        feedback: {}
+        goal: {}
+        goal_default:
+          web_workflow_json: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                web_workflow_json:
+                  type: string
+              required:
+              - web_workflow_json
+              type: object
+            result: {}
+          required:
+          - goal
+          title: process_web_workflows参数
+          type: object
+        type: UniLabJsonCommand
+      auto-skip_titration_steps:
+        feedback: {}
+        goal: {}
+        goal_default:
+          preintake_id: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                preintake_id:
+                  type: string
+              required:
+              - preintake_id
+              type: object
+            result: {}
+          required:
+          - goal
+          title: skip_titration_steps参数
+          type: object
+        type: UniLabJsonCommand
+      auto-wait_for_multiple_orders_and_get_reports:
+        feedback: {}
+        goal: {}
+        goal_default:
+          batch_create_result: null
+          check_interval: 10
+          timeout: 7200
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                batch_create_result:
+                  type: string
+                check_interval:
+                  default: 10
+                  type: integer
+                timeout:
+                  default: 7200
+                  type: integer
+              required: []
+              type: object
+            result: {}
+          required:
+          - goal
+          title: wait_for_multiple_orders_and_get_reports参数
+          type: object
+        type: UniLabJsonCommand
+      auto-workflow_step_query:
+        feedback: {}
+        goal: {}
+        goal_default:
+          workflow_id: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                workflow_id:
+                  type: string
+              required:
+              - workflow_id
+              type: object
+            result: {}
+          required:
+          - goal
+          title: workflow_step_query参数
+          type: object
+        type: UniLabJsonCommand
      drip_back:
        feedback: {}
        goal:
@@ -524,19 +733,7 @@ reaction_station.bioyond:
    module: unilabos.devices.workstation.bioyond_studio.reaction_station:BioyondReactionStation
    protocol_type: []
    status_types:
-      all_workflows: dict
-      average_viscosity: float
-      bioyond_status: dict
-      force: float
-      in_temperature: float
-      out_temperature: float
-      pt100_temperature: float
-      sensor_average_temperature: float
-      setting_temperature: float
-      speed: float
-      target_temperature: float
-      viscosity: float
-      workstation_status: dict
+      workflow_sequence: String
    type: python
  config_info: []
  description: Bioyond反应站
@@ -548,21 +745,19 @@ reaction_station.bioyond:
        config:
          type: object
        deck:
-          type: object
+          type: string
+        protocol_type:
+          type: string
      required: []
      type: object
    data:
      properties:
-        all_workflows:
-          type: object
-        bioyond_status:
-          type: object
-        workstation_status:
-          type: object
+        workflow_sequence:
+          items:
+            type: string
+          type: array
      required:
-      - bioyond_status
-      - all_workflows
-      - workstation_status
+      - workflow_sequence
      type: object
  version: 1.0.0
 reaction_station.reactor:
@@ -570,19 +765,34 @@ reaction_station.reactor:
  - reactor
  - reaction_station_bioyond
  class:
-    action_value_mappings: {}
+    action_value_mappings:
+      auto-update_metrics:
+        feedback: {}
+        goal: {}
+        goal_default:
+          payload: null
+        handles: {}
+        placeholder_keys: {}
+        result: {}
+        schema:
+          description: ''
+          properties:
+            feedback: {}
+            goal:
+              properties:
+                payload:
+                  type: object
+              required:
+              - payload
+              type: object
+            result: {}
+          required:
+          - goal
+          title: update_metrics参数
+          type: object
+        type: UniLabJsonCommand
    module: unilabos.devices.workstation.bioyond_studio.reaction_station:BioyondReactor
-    status_types:
-      average_viscosity: float
-      force: float
-      in_temperature: float
-      out_temperature: float
-      pt100_temperature: float
-      sensor_average_temperature: float
-      setting_temperature: float
-      speed: float
-      target_temperature: float
-      viscosity: float
+    status_types: {}
    type: python
  config_info: []
  description: 反应站子设备-反应器
@@ -593,30 +803,14 @@ reaction_station.reactor:
      properties:
        config:
          type: object
+        deck:
+          type: string
+        protocol_type:
+          type: string
      required: []
      type: object
    data:
-      properties:
-        average_viscosity:
-          type: number
-        force:
-          type: number
-        in_temperature:
-          type: number
-        out_temperature:
-          type: number
-        pt100_temperature:
-          type: number
-        sensor_average_temperature:
-          type: number
-        setting_temperature:
-          type: number
-        speed:
-          type: number
-        target_temperature:
-          type: number
-        viscosity:
-          type: number
+      properties: {}
      required: []
      type: object
  version: 1.0.0
--- a/unilabos/registry/devices/robot_linear_motion.yaml
+++ b/unilabos/registry/devices/robot_linear_motion.yaml
@@ -834,174 +834,3 @@ linear_motion.toyo_xyz.sim:
    mesh: toyo_xyz
    type: device
  version: 1.0.0
-motor.iCL42:
-  category:
-  - robot_linear_motion
-  class:
-    action_value_mappings:
-      auto-execute_run_motor:
-        feedback: {}
-        goal: {}
-        goal_default:
-          mode: null
-          position: null
-          velocity: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 步进电机执行运动函数。直接执行电机运动命令，包括位置设定、速度控制和路径规划。该函数处理底层的电机控制协议，消除警告信息，设置运动参数并启动电机运行。适用于需要直接控制电机运动的应用场景。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                mode:
-                  type: string
-                position:
-                  type: number
-                velocity:
-                  type: integer
-              required:
-              - mode
-              - position
-              - velocity
-              type: object
-            result: {}
-          required:
-          - goal
-          title: execute_run_motor参数
-          type: object
-        type: UniLabJsonCommand
-      auto-init_device:
-        feedback: {}
-        goal: {}
-        goal_default: {}
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: iCL42电机设备初始化函数。建立与iCL42步进电机驱动器的串口通信连接，配置通信参数包括波特率、数据位、校验位等。该函数是电机使用前的必要步骤，确保驱动器处于可控状态并准备接收运动指令。
-          properties:
-            feedback: {}
-            goal:
-              properties: {}
-              required: []
-              type: object
-            result: {}
-          required:
-          - goal
-          title: init_device参数
-          type: object
-        type: UniLabJsonCommand
-      auto-run_motor:
-        feedback: {}
-        goal: {}
-        goal_default:
-          mode: null
-          position: null
-          velocity: null
-        handles: {}
-        placeholder_keys: {}
-        result: {}
-        schema:
-          description: 步进电机运动控制函数。根据指定的运动模式、目标位置和速度参数控制电机运动。支持多种运动模式和精确的位置控制，自动处理运动轨迹规划和执行。该函数提供异步执行和状态反馈，确保运动的准确性和可靠性。
-          properties:
-            feedback: {}
-            goal:
-              properties:
-                mode:
-                  type: string
-                position:
-                  type: number
-                velocity:
-                  type: integer
-              required:
-              - mode
-              - position
-              - velocity
-              type: object
-            result: {}
-          required:
-          - goal
-          title: run_motor参数
-          type: object
-        type: UniLabJsonCommand
-      execute_command_from_outer:
-        feedback: {}
-        goal:
-          command: command
-        goal_default:
-          command: ''
-        handles: {}
-        result:
-          success: success
-        schema:
-          description: ''
-          properties:
-            feedback:
-              properties:
-                status:
-                  type: string
-              required:
-              - status
-              title: SendCmd_Feedback
-              type: object
-            goal:
-              properties:
-                command:
-                  type: string
-              required:
-              - command
-              title: SendCmd_Goal
-              type: object
-            result:
-              properties:
-                return_info:
-                  type: string
-                success:
-                  type: boolean
-              required:
-              - return_info
-              - success
-              title: SendCmd_Result
-              type: object
-          required:
-          - goal
-          title: SendCmd
-          type: object
-        type: SendCmd
-    module: unilabos.devices.motor.iCL42:iCL42Driver
-    status_types:
-      is_executing_run: bool
-      motor_position: int
-      success: bool
-    type: python
-  config_info: []
-  description: iCL42步进电机驱动器，用于实验室设备的精密线性运动控制。该设备通过串口通信控制iCL42型步进电机驱动器，支持多种运动模式和精确的位置、速度控制。具备位置反馈、运行状态监控和故障检测功能。适用于自动进样器、样品传送、精密定位平台等需要准确线性运动控制的实验室自动化设备。
-  handles: []
-  icon: ''
-  init_param_schema:
-    config:
-      properties:
-        device_address:
-          default: 1
-          type: integer
-        device_com:
-          default: COM9
-          type: string
-      required: []
-      type: object
-    data:
-      properties:
-        is_executing_run:
-          type: boolean
-        motor_position:
-          type: integer
-        success:
-          type: boolean
-      required:
-      - motor_position
-      - is_executing_run
-      - success
-      type: object
-  version: 1.0.0
--- a/unilabos/registry/devices/work_station.yaml
+++ b/unilabos/registry/devices/work_station.yaml
@@ -6036,7 +6036,12 @@ workstation:
      properties:
        deck:
          type: string
+        protocol_type:
+          items:
+            type: string
+          type: array
      required:
+      - protocol_type
      - deck
      type: object
    data:
--- a/unilabos/registry/registry.py
+++ b/unilabos/registry/registry.py
@@ -222,7 +222,7 @@ class Registry:
        abs_path = Path(path).absolute()
        resource_path = abs_path / "resources"
        files = list(resource_path.glob("*/*.yaml"))
-        logger.debug(f"[UniLab Registry] resources: {resource_path.exists()}, total: {len(files)}")
+        logger.trace(f"[UniLab Registry] load resources? {resource_path.exists()}, total: {len(files)}")
        current_resource_number = len(self.resource_type_registry) + 1
        for i, file in enumerate(files):
            with open(file, encoding="utf-8", mode="r") as f:
@@ -453,7 +453,7 @@ class Registry:
        return status_schema

    def _generate_unilab_json_command_schema(
-        self, method_args: List[Dict[str, Any]], method_name: str
+        self, method_args: List[Dict[str, Any]], method_name: str, return_annotation: Any = None
    ) -> Dict[str, Any]:
        """
        根据UniLabJsonCommand方法信息生成JSON Schema，暂不支持嵌套类型
@@ -461,6 +461,7 @@ class Registry:
        Args:
            method_args: 方法信息字典，包含args等
            method_name: 方法名称
+            return_annotation: 返回类型注解，用于生成result schema（仅支持TypedDict）

        Returns:
            JSON Schema格式的参数schema
@@ -489,14 +490,68 @@ class Registry:
            if param_required:
                schema["required"].append(param_name)

+        # 生成result schema（仅当return_annotation是TypedDict时）
+        result_schema = {}
+        if return_annotation is not None and self._is_typed_dict(return_annotation):
+            result_schema = self._generate_typed_dict_result_schema(return_annotation)
+
        return {
            "title": f"{method_name}参数",
            "description": f"",
            "type": "object",
-            "properties": {"goal": schema, "feedback": {}, "result": {}},
+            "properties": {"goal": schema, "feedback": {}, "result": result_schema},
            "required": ["goal"],
        }

+    def _is_typed_dict(self, annotation: Any) -> bool:
+        """
+        检查类型注解是否是TypedDict
+
+        Args:
+            annotation: 类型注解对象
+
+        Returns:
+            是否为TypedDict
+        """
+        if annotation is None or annotation == inspect.Parameter.empty:
+            return False
+
+        # 使用 typing_extensions.is_typeddict 进行检查（Python < 3.12 兼容）
+        try:
+            from typing_extensions import is_typeddict
+
+            return is_typeddict(annotation)
+        except ImportError:
+            # 回退方案：检查 TypedDict 特有的属性
+            if isinstance(annotation, type):
+                return hasattr(annotation, "__required_keys__") and hasattr(annotation, "__optional_keys__")
+            return False
+
+    def _generate_typed_dict_result_schema(self, return_annotation: Any) -> Dict[str, Any]:
+        """
+        根据TypedDict类型生成result的JSON Schema
+
+        Args:
+            return_annotation: TypedDict类型注解
+
+        Returns:
+            JSON Schema格式的result schema
+        """
+        if not self._is_typed_dict(return_annotation):
+            return {}
+
+        try:
+            from msgcenterpy.instances.typed_dict_instance import TypedDictMessageInstance
+
+            result_schema = TypedDictMessageInstance.get_json_schema_from_typed_dict(return_annotation)
+            return result_schema
+        except ImportError:
+            logger.warning("[UniLab Registry] msgcenterpy未安装，无法生成TypedDict的result schema")
+            return {}
+        except Exception as e:
+            logger.warning(f"[UniLab Registry] 生成TypedDict result schema失败: {e}")
+            return {}
+
    def _add_builtin_actions(self, device_config: Dict[str, Any], device_id: str):
        """
        为设备配置添加内置的执行驱动命令动作
@@ -577,9 +632,15 @@ class Registry:
                    if "init_param_schema" not in device_config:
                        device_config["init_param_schema"] = {}
                    if "class" in device_config:
-                        if "status_types" not in device_config["class"] or device_config["class"]["status_types"] is None:
+                        if (
+                            "status_types" not in device_config["class"]
+                            or device_config["class"]["status_types"] is None
+                        ):
                            device_config["class"]["status_types"] = {}
-                        if "action_value_mappings" not in device_config["class"] or device_config["class"]["action_value_mappings"] is None:
+                        if (
+                            "action_value_mappings" not in device_config["class"]
+                            or device_config["class"]["action_value_mappings"] is None
+                        ):
                            device_config["class"]["action_value_mappings"] = {}
                        enhanced_info = {}
                        if complete_registry:
@@ -631,7 +692,9 @@ class Registry:
                                        "goal": {},
                                        "feedback": {},
                                        "result": {},
-                                        "schema": self._generate_unilab_json_command_schema(v["args"], k),
+                                        "schema": self._generate_unilab_json_command_schema(
+                                            v["args"], k, v.get("return_annotation")
+                                        ),
                                        "goal_default": {i["name"]: i["default"] for i in v["args"]},
                                        "handles": [],
                                        "placeholder_keys": {
--- a/unilabos/registry/resources/bioyond/YB_bottle.yaml
+++ b/unilabos/registry/resources/bioyond/YB_bottle.yaml
@@ -0,0 +1,92 @@
+YB_20ml_fenyeping:
+  category:
+  - yb3
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_20ml_fenyeping
+    type: pylabrobot
+  description: YB_20ml_fenyeping
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_5ml_fenyeping:
+  category:
+  - yb3
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_5ml_fenyeping
+    type: pylabrobot
+  description: YB_5ml_fenyeping
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_jia_yang_tou_da:
+  category:
+  - yb3
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_jia_yang_tou_da
+    type: pylabrobot
+  description: YB_jia_yang_tou_da
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_pei_ye_da_Bottle:
+  category:
+  - yb3
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_pei_ye_da_Bottle
+    type: pylabrobot
+  description: YB_pei_ye_da_Bottle
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_pei_ye_xiao_Bottle:
+  category:
+  - yb3
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_pei_ye_xiao_Bottle
+    type: pylabrobot
+  description: YB_pei_ye_xiao_Bottle
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_qiang_tou:
+  category:
+  - yb3
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_qiang_tou
+    type: pylabrobot
+  description: YB_qiang_tou
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_ye_Bottle:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  - YB_bottle
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_ye_Bottle
+    type: pylabrobot
+  description: YB_ye_Bottle
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
--- a/unilabos/registry/resources/bioyond/YB_bottle_carriers.yaml
+++ b/unilabos/registry/resources/bioyond/YB_bottle_carriers.yaml
@@ -0,0 +1,182 @@
+YB_100ml_yeti:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_100ml_yeti
+    type: pylabrobot
+  description: YB_100ml_yeti
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_20ml_fenyepingban:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_20ml_fenyepingban
+    type: pylabrobot
+  description: YB_20ml_fenyepingban
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_5ml_fenyepingban:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_5ml_fenyepingban
+    type: pylabrobot
+  description: YB_5ml_fenyepingban
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_6StockCarrier:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_6StockCarrier
+    type: pylabrobot
+  description: YB_6StockCarrier
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_6VialCarrier:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_6VialCarrier
+    type: pylabrobot
+  description: YB_6VialCarrier
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_gao_nian_ye_Bottle:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_gao_nian_ye_Bottle
+    type: pylabrobot
+  description: YB_gao_nian_ye_Bottle
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_gaonianye:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_gaonianye
+    type: pylabrobot
+  description: YB_gaonianye
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_jia_yang_tou_da_Carrier:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_jia_yang_tou_da_Carrier
+    type: pylabrobot
+  description: YB_jia_yang_tou_da_Carrier
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_peiyepingdaban:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_peiyepingdaban
+    type: pylabrobot
+  description: YB_peiyepingdaban
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_peiyepingxiaoban:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_peiyepingxiaoban
+    type: pylabrobot
+  description: YB_peiyepingxiaoban
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_qiang_tou_he:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_qiang_tou_he
+    type: pylabrobot
+  description: YB_qiang_tou_he
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_shi_pei_qi_kuai:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_shi_pei_qi_kuai
+    type: pylabrobot
+  description: YB_shi_pei_qi_kuai
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_ye:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottle_carriers:YB_ye
+    type: pylabrobot
+  description: YB_ye_Bottle_Carrier
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
+YB_ye_100ml_Bottle:
+  category:
+  - yb3
+  - YB_bottle_carriers
+  class:
+    module: unilabos.resources.bioyond.YB_bottles:YB_ye_100ml_Bottle
+    type: pylabrobot
+  description: YB_ye_100ml_Bottle
+  handles: []
+  icon: ''
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
--- a/unilabos/registry/resources/bioyond/deck.yaml
+++ b/unilabos/registry/resources/bioyond/deck.yaml
@@ -22,7 +22,7 @@ BIOYOND_PolymerReactionStation_Deck:
  init_param_schema: {}
  registry_type: resource
  version: 1.0.0
-YB_Deck11:
+BIOYOND_YB_Deck:
  category:
  - deck
  class:
@@ -34,3 +34,15 @@ YB_Deck11:
  init_param_schema: {}
  registry_type: resource
  version: 1.0.0
+CoincellDeck:
+  category:
+  - deck
+  class:
+    module: unilabos.devices.workstation.coin_cell_assembly.YB_YH_materials:YH_Deck
+    type: pylabrobot
+  description: BIOYOND PolymerReactionStation Deck
+  handles: []
+  icon: koudian.webp
+  init_param_schema: {}
+  registry_type: resource
+  version: 1.0.0
--- a/unilabos/registry/resources/organic/container.yaml
+++ b/unilabos/registry/resources/organic/container.yaml
@@ -2,7 +2,7 @@ container:
  category:
  - container
  class:
-    module: unilabos.resources.container:RegularContainer
+    module: unilabos.resources.container:get_regular_container
    type: pylabrobot
  description: regular organic container
  handles:
--- a/unilabos/resources/battery/init.py
+++ b/unilabos/resources/battery/init.py
--- a/unilabos/resources/battery/bottle_carriers.py
+++ b/unilabos/resources/battery/bottle_carriers.py
@@ -0,0 +1,56 @@
+from pylabrobot.resources import create_homogeneous_resources, Coordinate, ResourceHolder, create_ordered_items_2d
+
+from unilabos.resources.itemized_carrier import Bottle, BottleCarrier
+from unilabos.resources.bioyond.YB_bottles import (
+    YB_pei_ye_xiao_Bottle,
+)
+# 命名约定：试剂瓶-Bottle，烧杯-Beaker，烧瓶-Flask，小瓶-Vial
+
+
+def YIHUA_Electrolyte_12VialCarrier(name: str) -> BottleCarrier:
+    """12瓶载架 - 2x6布局"""
+    # 载架尺寸 (mm)
+    carrier_size_x = 120.0
+    carrier_size_y = 250.0
+    carrier_size_z = 50.0
+
+    # 瓶位尺寸
+    bottle_diameter = 35.0
+    bottle_spacing_x = 35.0  # X方向间距
+    bottle_spacing_y = 35.0  # Y方向间距
+
+    # 计算起始位置 (居中排列)
+    start_x = (carrier_size_x - (2 - 1) * bottle_spacing_x - bottle_diameter) / 2
+    start_y = (carrier_size_y - (6 - 1) * bottle_spacing_y - bottle_diameter) / 2
+
+    sites = create_ordered_items_2d(
+        klass=ResourceHolder,
+        num_items_x=2,
+        num_items_y=6,
+        dx=start_x,
+        dy=start_y,
+        dz=5.0,
+        item_dx=bottle_spacing_x,
+        item_dy=bottle_spacing_y,
+
+        size_x=bottle_diameter,
+        size_y=bottle_diameter,
+        size_z=carrier_size_z,
+    )
+    for k, v in sites.items():
+        v.name = f"{name}_{v.name}"
+
+    carrier = BottleCarrier(
+        name=name,
+        size_x=carrier_size_x,
+        size_y=carrier_size_y,
+        size_z=carrier_size_z,
+        sites=sites,
+        model="Electrolyte_12VialCarrier",
+    )
+    carrier.num_items_x = 2
+    carrier.num_items_y = 6
+    carrier.num_items_z = 1
+    for i in range(12):
+        carrier[i] = YB_pei_ye_xiao_Bottle(f"{name}_vial_{i+1}")
+    return carrier
--- a/Show More
+++ b/Show More