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open_pub:main open_pub:dev open_pub:prcix9320 open_pub:feat/samples open_pub:feature/organic-extraction open_pub:feat/add_unilabos_class open_pub:feat/unilabos-full-version open_pub:fix/workstation-yb-revision open_pub:workstation_YB_merge_dev_ready_260113 open_pub:feat/add_custom_widget open_pub:workstation_dev_YB_260113 open_pub:workstation_dev_YB4_0110 open_pub:workstation_dev_YB4_0107 open_pub:workstation_dev_YB4 open_pub:workstation_dev_YB5 open_pub:workflow_uploader open_pub:workstation_dev_YB2 open_pub:clean
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30 Commits
feat/sampl ... 2901d72b4b

Author SHA1 Message Date
calvincao
2901d72b4b feat: add button battery assembly station resources and configuration files 
- Introduced new Python modules for button battery assembly, including resource classes and configurations.
- Added JSON and CSV files for resource definitions and device configurations.
- Created initial setup for the coin cell assembly workstation, including material handling and resource management.
 2025-10-25 13:50:41 +08:00
calvincao
6ad0157b50 feat: add new warehouse configurations and update site UUIDs in bioyond_studio config 2025-10-24 16:37:11 +08:00
calvincao
55b678cd37 fix: update report IP address in configuration and clean up parameters in SOLID_LIQUID_MAPPINGS 2025-10-24 14:22:39 +08:00
Calvin Cao
8101a22a0f Merge pull request #130 from sun7151887/workstation_dev_YB3 
refactor: 将 BIOYOND_PolymerStation_ 前缀统一改为 YB_
 2025-10-24 13:56:08 +08:00
Calvin Cao
667138baac Merge branch 'workstation_dev_YB3' into workstation_dev_YB3 2025-10-24 13:56:00 +08:00
dijkstra402
01adf7ca92 refactor: 将 BIOYOND_PolymerStation_ 前缀统一改为 YB_ 
- 重命名 bottles.py 中所有工厂函数:BIOYOND_PolymerStation_* -> YB_*
- 重命名 bottle_carriers.py 中所有载具工厂函数和导入
- 更新 registry YAML 文件中的 module 引用
- 更新 MATERIAL_TYPE_MAPPINGS 配置中的类型字符串
- 更新测试文件和样例 JSON 中的类型引用
- 添加 YB_* 别名条目到 registry 以支持双键访问
 2025-10-24 13:49:48 +08:00
Calvin Cao
f606062696 Merge pull request #129 from lixinyu1011/workstation_dev_YB3 
xinyu1024修改
 2025-10-24 11:44:16 +08:00
Calvin Cao
67d1c4acce Merge branch 'workstation_dev_YB3' into workstation_dev_YB3 2025-10-24 11:44:04 +08:00
lixinyu1011
7206e42bf1 xinyu1024修改 2025-10-24 11:37:36 +08:00
calvincao
e92d933968 refactor(bioyond_cell_workstation): 重构物料创建与入库逻辑- 移除从CSV读取物料名称的功能 
- 新增通过参数传递物料名称列表的方式- 抽离仓库位置加载逻辑至独立方法
- 简化物料创建与入库流程- 统一使用资源同步器进行数据同步
- 更新调用示例以适配新接口
 2025-10-23 22:36:21 +08:00
Calvin Cao
f0ebcc60bb Merge pull request #126 from sun7151887/fix/yb3-material-names-and-model 
添加新物料类型映射:包括100ml液体、液、高粘液、5ml/20ml分液瓶、配液瓶、加样头、适配器块、枪头盒等
 2025-10-23 21:59:26 +08:00
dijkstra402
e2097f0b22 添加新物料类型映射:包括100ml液体、液、高粘液、5ml/20ml分液瓶、配液瓶、加样头、适配器块、枪头盒等 2025-10-23 21:56:54 +08:00
calvincao
fd73731130 增强批量入库功能,添加物料数据同步逻辑;优化日志记录以提供更详细的同步状态信息。 2025-10-23 18:02:49 +08:00
Calvin Cao
ab7f2081c9 Merge pull request #124 from sun7151887/fix/yb3-material-names-and-model 
更新载架网格布局:5ml/20ml/配液瓶(小)板改为4x2,加样头(大)板改为1x1
 2025-10-23 17:45:29 +08:00
dijkstra402
9e850d8a81 更新载架网格布局:5ml/20ml/配液瓶(小)板改为4x2,加样头(大)板改为1x1 2025-10-23 17:42:10 +08:00
calvincao
1af6ffafc6 新增批量创建固体物料和从CSV文件入库的功能;更新配置文件中的 report_ip 默认值;新增 solid_materials.csv 文件以支持物料名称导入。 2025-10-23 17:32:08 +08:00
Calvin Cao
35fc2f5ea6 Merge pull request #123 from sun7151887/fix/yb3-material-names-and-model 
fix(yb3): 物料名称与模型对齐;YAML 去掉 BIOYOND_PolymerStation_ 前缀;修复 6StockCarri…
 2025-10-23 15:43:40 +08:00
dijkstra402
d3d8ba6500 fix(yb3): 物料名称与模型对齐;YAML 去掉 BIOYOND_PolymerStation_ 前缀;修复 6StockCarrier model 2025-10-23 15:32:36 +08:00
calvincao
5a7845d8ca 更新配置文件中的 report_ip 默认值,优化 bioyond_cell_workstation.py 中的订单状态处理逻辑,新增多个瓶子和载架类型的定义,调整仓库结构以支持更灵活的物料管理。 2025-10-23 08:34:33 +08:00
calvincao
9c4d0256cf 增强配置文件,新增 report_ip 选项以支持本机 IP 地址的灵活配置;在 bioyond_cell_workstation.py 中优化推送地址更新逻辑,支持自动检测和配置优先级处理。 2025-10-22 16:38:32 +08:00
calvincao
de7c80c3c2 重构:完善配置加载机制与初始化逻辑 
新增环境变量覆盖机制,增强配置灵活性

优化 bioyond_rpc.py 与 bioyond_cell_workstation.py 的初始化流程与结构

修正 station.py 工作流映射逻辑,确保正确性

提高代码可读性与模块间解耦程度
 2025-10-22 16:13:36 +08:00
calvincao
e70c545ec8 修复 **bioyond_yihua_YB.json** 中的 JSON 合并冲突,清理不必要的标记。 2025-10-21 15:19:44 +08:00
calvincao
2c2d1e5569 在 **bioyond_cell_workstation.py** 中实现 update_push_ip 方法并增强错误处理;修复 **bioyond_yihua_YB.json** 中的 JSON 合并冲突。 2025-10-21 14:58:38 +08:00
Calvin Cao
4638611fe7 Merge pull request #119 from lixinyu1011/workstation_dev_YB3 
Update station.py
 2025-10-21 14:51:54 +08:00
lixinyu1011
37641c4389 xinyu1021推送代码 2025-10-21 14:48:55 +08:00
lixinyu1011
ab697ce973 Update station.py 2025-10-20 16:12:38 +08:00
Calvin Cao
d4724b8664 Merge pull request #117 from lixinyu1011/workstation_dev_YB3 
Update bioyond_cell_workstation.py
 2025-10-20 15:33:17 +08:00
lixinyu1011
2f25063bf1 Update bioyond_cell_workstation.py 2025-10-20 15:30:41 +08:00
Calvin Cao
00b4b9cd87 Merge pull request #116 from lixinyu1011/workstation_dev_YB3 
1020_YB奔耀仿真机同步对齐dev_unilab可控
 2025-10-20 12:56:36 +08:00
lixinyu1011
d2352cc514 1020_YB奔耀仿真机同步对齐dev_unilab可控 
待修改unilab的http服务
 2025-10-20 12:48:19 +08:00
50 changed files with 57649 additions and 1304 deletions
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14486
bioyond_yihua_YB.json Normal file
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test/experiments/reaction_station_bioyond.json
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@@ -24,13 +24,13 @@
"Drip_back": "3a162cf9-6aac-565a-ddd7-682ba1796a4a"
},
"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"]
"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": {

6
test/experiments/reaction_station_bioyond_test.json
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@@ -24,9 +24,9 @@
"Drip_back": "3a162cf9-6aac-565a-ddd7-682ba1796a4a"
},
"material_type_mappings": {
"烧杯": "BIOYOND_PolymerStation_1FlaskCarrier",
"试剂瓶": "BIOYOND_PolymerStation_1BottleCarrier",
"样品板": "BIOYOND_PolymerStation_6VialCarrier"
"烧杯": "YB_1FlaskCarrier",
"试剂瓶": "YB_1BottleCarrier",
"样品板": "YB_6VialCarrier"
}
},
"deck": {

8
test/resources/test_bottle_carrier.py
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@@ -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")

14
test/resources/test_converter_bioyond.py
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@@ -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"),
}

14
test/resources/test_resourcetreeset.py
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@@ -13,13 +13,13 @@ 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"),
}

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unilabos/devices/workstation/bioyond_studio/bioyond_cell/2025092701.xlsx Normal file
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unilabos/devices/workstation/bioyond_studio/bioyond_cell/bioyond_cell_workstation.py Normal file
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unilabos/devices/workstation/bioyond_studio/bioyond_cell/bioyond_workstation copy.py Normal file
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@@ -0,0 +1,715 @@
# -*- coding: utf-8 -*-
from typing import Dict, Any, List, Optional
from datetime import datetime, timezone
import requests
from pathlib import Path
import pandas as pd
import time
from datetime import datetime, timezone, timedelta
import re
import threading
from unilabos.devices.workstation.workstation_base import WorkstationBase
from unilabos.devices.workstation.workstation_http_service import WorkstationHTTPService
from unilabos.utils.log import logger
from pylabrobot.resources.deck import Deck
def _iso_utc_now_ms() -> str:
# 文档要求:到毫秒 + Z例如 2025-08-15T05:43:22.814Z
dt = datetime.now(timezone.utc)
return dt.strftime("%Y-%m-%dT%H:%M:%S.") + f"{int(dt.microsecond/1000):03d}Z"
class BioyondWorkstation(WorkstationBase):
"""
集成 Bioyond LIMS 的工作站示例,
覆盖:入库(2.17/2.18) → 新建实验(2.14) → 启动调度(2.7) →
运行中推送:物料变更(2.24)、步骤完成(2.21)、订单完成(2.23) →
查询实验(2.5/2.6) → 3-2-1 转运(2.32) → 样品/废料取出(2.28)
"""
def __init__(
self,
bioyond_config: Optional[Dict[str, Any]] = None,
station_resource: Optional[Dict[str, Any]] = None,
debug_mode: bool = False, # 增加调试模式开关
*args, **kwargs,
):
self.bioyond_config = bioyond_config or {
"base_url": "http://192.168.1.200:44386",
"api_key": "8A819E5C",
"timeout": 30,
"report_token": "CHANGE_ME_TOKEN"
}
self.http_service_started = False
self.debug_mode = debug_mode
super().__init__(deck=Deck, station_resource=station_resource, *args, **kwargs)
logger.info(f"Bioyond工作站初始化完成 (debug_mode={self.debug_mode})")
# 实例化并在后台线程启动 HTTP 报送服务
self.order_status = {}
try:
t = threading.Thread(target=self._start_http_service_bg, daemon=True, name="unilab_http")
t.start()
except Exception as e:
logger.error(f"unilab-server后台启动报送服务失败: {e}")
@property
def device_id(self) -> str:
try:
return getattr(self, "_ros_node").device_id # 兼容 ROS 场景
except Exception:
return "bioyond_workstation"
def _start_http_service_bg(self, host: str = "192.168.1.104", port: int = 8080) -> None:
logger.info("进入 _start_http_service_bg 函数")
try:
self.service = WorkstationHTTPService(self, host=host, port=port)
logger.info("WorkstationHTTPService 实例化完成")
self.service.start()
self.http_service_started = True
logger.info(f"unilab_HTTP 服务成功启动: {host}:{port}")
#一直挂着,直到进程退出
while True:
time.sleep(1)
except Exception as e:
self.http_service_started = False
logger.error(f"启动unilab_HTTP服务失败: {e}", exc_info=True)
# -------------------- 基础HTTP封装 --------------------
def _url(self, path: str) -> str:
return f"{self.bioyond_config['base_url'].rstrip('/')}/{path.lstrip('/')}"
def _post_lims(self, path: str, data: Optional[Any] = None) -> Dict[str, Any]:
"""LIMS API大多数接口用 {apiKey/requestTime,data} 包装"""
payload = {
"apiKey": self.bioyond_config["api_key"],
"requestTime": _iso_utc_now_ms()
}
if data is not None:
payload["data"] = data
if self.debug_mode:
# 模拟返回,不发真实请求
logger.info(f"[DEBUG] POST {path} with payload={payload}")
return {"debug": True, "url": self._url(path), "payload": payload, "status": "ok"}
try:
r = requests.post(
self._url(path),
json=payload,
timeout=self.bioyond_config.get("timeout", 30),
headers={"Content-Type": "application/json"}
)
r.raise_for_status()
return r.json()
except Exception as e:
logger.error(f"POST {path} 失败: {e}")
return {"error": str(e)}
# --- 修正_post_report / _post_report_raw 同样走 debug_mode ---
def _post_report(self, path: str, data: Dict[str, Any]) -> Dict[str, Any]:
payload = {
"token": self.bioyond_config.get("report_token", ""),
"request_time": _iso_utc_now_ms(),
"data": data
}
if self.debug_mode:
logger.info(f"[DEBUG] POST {path} with payload={payload}")
return {"debug": True, "url": self._url(path), "payload": payload, "status": "ok"}
try:
r = requests.post(self._url(path), json=payload,
timeout=self.bioyond_config.get("timeout", 30),
headers={"Content-Type": "application/json"})
r.raise_for_status()
return r.json()
except Exception as e:
logger.error(f"POST {path} 失败: {e}")
return {"error": str(e)}
def _post_report_raw(self, path: str, body: Dict[str, Any]) -> Dict[str, Any]:
if self.debug_mode:
logger.info(f"[DEBUG] POST {path} with body={body}")
return {"debug": True, "url": self._url(path), "payload": body, "status": "ok"}
try:
r = requests.post(self._url(path), json=body,
timeout=self.bioyond_config.get("timeout", 30),
headers={"Content-Type": "application/json"})
r.raise_for_status()
return r.json()
except Exception as e:
logger.error(f"POST {path} 失败: {e}")
return {"error": str(e)}
# -------------------- 单点接口封装 --------------------
# 2.17 入库物料(单个)
def storage_inbound(self, material_id: str, location_id: str) -> Dict[str, Any]:
return self._post_lims("/api/lims/storage/inbound", {
"materialId": material_id,
"locationId": location_id
})
# 2.18 批量入库(多个)
def storage_batch_inbound(self, items: List[Dict[str, str]]) -> Dict[str, Any]:
"""
items = [{"materialId": "...", "locationId": "..."}, ...]
"""
return self._post_lims("/api/lims/storage/batch-inbound", items)
# 3.30 自动化上料Excel -> JSON -> POST /api/lims/order/auto-feeding4to3
def auto_feeding4to3_from_xlsx(self, xlsx_path: str) -> Dict[str, Any]:
"""
根据固定模板解析 Excel
- 四号手套箱加样头面 (2-13行, 3-7列)
- 四号手套箱原液瓶面 (15-23行, 3-9列)
- 三号手套箱人工堆栈 (26-40行, 3-7列)
"""
path = Path(xlsx_path)
if not path.exists():
raise FileNotFoundError(f"未找到 Excel 文件:{path}")
try:
df = pd.read_excel(path, sheet_name=0, header=None, engine="openpyxl")
except Exception as e:
raise RuntimeError(f"读取 Excel 失败:{e}")
items: List[Dict[str, Any]] = []
# 四号手套箱 - 加样头面2-13行, 3-7列
for _, row in df.iloc[1:13, 2:7].iterrows():
item = {
"sourceWHName": "四号手套箱堆栈",
"posX": int(row[2]),
"posY": int(row[3]),
"posZ": int(row[4]),
"materialName": str(row[5]).strip() if pd.notna(row[5]) else "",
"quantity": float(row[6]) if pd.notna(row[6]) else 0.0,
}
if item["materialName"]:
items.append(item)
# 四号手套箱 - 原液瓶面15-23行, 3-9列
for _, row in df.iloc[14:23, 2:9].iterrows():
item = {
"sourceWHName": "四号手套箱堆栈",
"posX": int(row[2]),
"posY": int(row[3]),
"posZ": int(row[4]),
"materialName": str(row[5]).strip() if pd.notna(row[5]) else "",
"quantity": float(row[6]) if pd.notna(row[6]) else 0.0,
"materialType": str(row[7]).strip() if pd.notna(row[7]) else "",
"targetWH": str(row[8]).strip() if pd.notna(row[8]) else "",
}
if item["materialName"]:
items.append(item)
# 三号手套箱人工堆栈26-40行, 3-7列
for _, row in df.iloc[25:40, 2:7].iterrows():
item = {
"sourceWHName": "三号手套箱人工堆栈",
"posX": int(row[2]),
"posY": int(row[3]),
"posZ": int(row[4]),
"materialType": str(row[5]).strip() if pd.notna(row[5]) else "",
"materialId": str(row[6]).strip() if pd.notna(row[6]) else "",
"quantity": 1 # 默认数量1
}
if item["materialId"] or item["materialType"]:
items.append(item)
return self._post_lims("/api/lims/order/auto-feeding4to3", items)
def auto_batch_outbound_from_xlsx(self, xlsx_path: str) -> Dict[str, Any]:
"""
3.31 自动化下料Excel -> JSON -> POST /api/lims/storage/auto-batch-out-bound
"""
path = Path(xlsx_path)
if not path.exists():
raise FileNotFoundError(f"未找到 Excel 文件:{path}")
try:
df = pd.read_excel(path, sheet_name=0, engine="openpyxl")
except Exception as e:
raise RuntimeError(f"读取 Excel 失败:{e}")
def pick(names: List[str]) -> Optional[str]:
for n in names:
if n in df.columns:
return n
return None
c_loc = pick(["locationId", "库位ID", "库位Id", "库位id"])
c_wh = pick(["warehouseId", "仓库ID", "仓库Id", "仓库id"])
c_qty = pick(["数量", "quantity"])
c_x = pick(["x", "X", "posX", "坐标X"])
c_y = pick(["y", "Y", "posY", "坐标Y"])
c_z = pick(["z", "Z", "posZ", "坐标Z"])
required = [c_loc, c_wh, c_qty, c_x, c_y, c_z]
if any(c is None for c in required):
raise KeyError("Excel 缺少必要列locationId/warehouseId/数量/x/y/z支持多别名至少要能匹配到")
def as_int(v, d=0):
try:
if pd.isna(v): return d
return int(v)
except Exception:
try:
return int(float(v))
except Exception:
return d
def as_float(v, d=0.0):
try:
if pd.isna(v): return d
return float(v)
except Exception:
return d
def as_str(v, d=""):
if v is None or (isinstance(v, float) and pd.isna(v)): return d
s = str(v).strip()
return s if s else d
items: List[Dict[str, Any]] = []
for _, row in df.iterrows():
items.append({
"locationId": as_str(row[c_loc]),
"warehouseId": as_str(row[c_wh]),
"quantity": as_float(row[c_qty]),
"x": as_int(row[c_x]),
"y": as_int(row[c_y]),
"z": as_int(row[c_z]),
})
return self._post_lims("/api/lims/storage/auto-batch-out-bound", items)
# 2.14 新建实验
def create_orders(self, xlsx_path: str) -> Dict[str, Any]:
"""
从 Excel 解析并创建实验2.14
约定:
- batchId = Excel 文件名(不含扩展名)
- 物料列:所有以 "(g)" 结尾(不再读取“总质量(g)”列)
- totalMass 自动计算为所有物料质量之和
- createTime 缺失或为空时自动填充为当前日期YYYY/M/D
"""
path = Path(xlsx_path)
if not path.exists():
raise FileNotFoundError(f"未找到 Excel 文件:{path}")
try:
df = pd.read_excel(path, sheet_name=0, engine="openpyxl")
except Exception as e:
raise RuntimeError(f"读取 Excel 失败:{e}")
# 列名容错:返回可选列名,找不到则返回 None
def _pick(col_names: List[str]) -> Optional[str]:
for c in col_names:
if c in df.columns:
return c
return None
col_order_name = _pick(["配方ID", "orderName", "订单编号"])
col_create_time = _pick(["创建日期", "createTime"])
col_bottle_type = _pick(["配液瓶类型", "bottleType"])
col_mix_time = _pick(["混匀时间(s)", "mixTime"])
col_load = _pick(["扣电组装分液体积", "loadSheddingInfo"])
col_pouch = _pick(["软包组装分液体积", "pouchCellInfo"])
col_cond = _pick(["电导测试分液体积", "conductivityInfo"])
col_cond_cnt = _pick(["电导测试分液瓶数", "conductivityBottleCount"])
# 物料列:所有以 (g) 结尾
material_cols = [c for c in df.columns if isinstance(c, str) and c.endswith("(g)")]
if not material_cols:
raise KeyError("未发现任何以“(g)”结尾的物料列,请检查表头。")
batch_id = path.stem
def _to_ymd_slash(v) -> str:
# 统一为 "YYYY/M/D";为空或解析失败则用当前日期
if v is None or (isinstance(v, float) and pd.isna(v)) or str(v).strip() == "":
ts = datetime.now()
else:
try:
ts = pd.to_datetime(v)
except Exception:
ts = datetime.now()
return f"{ts.year}/{ts.month}/{ts.day}"
def _as_int(val, default=0) -> int:
try:
if pd.isna(val):
return default
return int(val)
except Exception:
return default
def _as_str(val, default="") -> str:
if val is None or (isinstance(val, float) and pd.isna(val)):
return default
s = str(val).strip()
return s if s else default
orders: List[Dict[str, Any]] = []
for idx, row in df.iterrows():
mats: List[Dict[str, Any]] = []
total_mass = 0.0
for mcol in material_cols:
val = row.get(mcol, None)
if val is None or (isinstance(val, float) and pd.isna(val)):
continue
try:
mass = float(val)
except Exception:
continue
if mass > 0:
mats.append({"name": mcol.replace("(g)", ""), "mass": mass})
total_mass += mass
order_data = {
"batchId": batch_id,
"orderName": _as_str(row[col_order_name], default=f"{batch_id}_order_{idx+1}") if col_order_name else f"{batch_id}_order_{idx+1}",
"createTime": _to_ymd_slash(row[col_create_time]) if col_create_time else _to_ymd_slash(None),
"bottleType": _as_str(row[col_bottle_type], default="配液小瓶") if col_bottle_type else "配液小瓶",
"mixTime": _as_int(row[col_mix_time]) if col_mix_time else 0,
"loadSheddingInfo": _as_int(row[col_load]) if col_load else 0,
"pouchCellInfo": _as_int(row[col_pouch]) if col_pouch else 0,
"conductivityInfo": _as_int(row[col_cond]) if col_cond else 0,
"conductivityBottleCount": _as_int(row[col_cond_cnt]) if col_cond_cnt else 0,
"materialInfos": mats,
"totalMass": round(total_mass, 4) # 自动汇总
}
orders.append(order_data)
# print(orders)
response = self._post_lims("/api/lims/order/orders", orders)
self.order_status[response["data"]["orderCode"]] = "running"
while True:
time.sleep(5)
if self.order_status.get(response["data"]["orderCode"], None) == "finished":
logger.info(f"配液实验已完成 ,即将执行 3-2-1 转运")
break
logger.info(f"等待配液实验完成")
self.transfer_3_to_2_to_1()
r321 = self.wait_for_transfer_task()
logger.info(f"3-2-1 转运完成,返回结果")
return r321
# 2.7 启动调度
def scheduler_start(self) -> Dict[str, Any]:
return self._post_lims("/api/lims/scheduler/start")
# 3.10 停止调度
def scheduler_stop(self) -> Dict[str, Any]:
"""
停止调度 (3.10)
请求体只包含 apiKey 和 requestTime
"""
return self._post_lims("/api/lims/scheduler/stop")
# 2.9 继续调度
def scheduler_continue(self) -> Dict[str, Any]:
"""
继续调度 (2.9)
请求体只包含 apiKey 和 requestTime
"""
return self._post_lims("/api/lims/scheduler/continue")
# 2.24 物料变更推送
def report_material_change(self, material_obj: Dict[str, Any]) -> Dict[str, Any]:
"""
material_obj 按 2.24 的裸对象格式(包含 id/typeName/locations/detail 等)
"""
return self._post_report_raw("/report/material_change", material_obj)
# 2.21 步骤完成推送BS → LIMS
def report_step_finish(self,
order_code: str,
order_name: str,
step_name: str,
step_id: str,
sample_id: str,
start_time: str,
end_time: str,
execution_status: str = "completed") -> Dict[str, Any]:
data = {
"orderCode": order_code,
"orderName": order_name,
"stepName": step_name,
"stepId": step_id,
"sampleId": sample_id,
"startTime": start_time,
"endTime": end_time,
"executionStatus": execution_status
}
return self._post_report("/report/step_finish", data)
# 2.23 订单完成推送BS → LIMS
def report_order_finish(self,
order_code: str,
order_name: str,
start_time: str,
end_time: str,
status: str = "30", # 30 完成 / -11 异常停止 / -12 人工停止
workflow_status: str = "Finished",
completion_time: Optional[str] = None,
used_materials: Optional[List[Dict[str, Any]]] = None) -> Dict[str, Any]:
data = {
"orderCode": order_code,
"orderName": order_name,
"startTime": start_time,
"endTime": end_time,
"status": status,
"workflowStatus": workflow_status,
"completionTime": completion_time or end_time,
"usedMaterials": used_materials or []
}
return self._post_report("/report/order_finish", data)
# 2.5 批量查询实验报告(用于轮询是否完成)
def order_list(self,
status: Optional[str] = None,
begin_time: Optional[str] = None,
end_time: Optional[str] = None,
filter_text: Optional[str] = None,
skip: int = 0, page: int = 10) -> Dict[str, Any]:
data: Dict[str, Any] = {"skipCount": skip, "pageCount": page}
if status is not None: # 80 成功 / 90 失败 / 100 执行中
data["status"] = status
if begin_time:
data["timeType"] = "CreationTime"
data["beginTime"] = begin_time
if end_time:
data["endTime"] = end_time
if filter_text:
data["filter"] = filter_text
return self._post_lims("/api/lims/order/order-list", data)
# 2.6 实验报告查询根据任务ID拿详情
def order_report(self, order_id: str) -> Dict[str, Any]:
return self._post_lims("/api/lims/order/order-report", order_id)
# 2.32 3-2-1 物料转运
def transfer_3_to_2_to_1(self,
# source_wh_id: Optional[str] = None,
source_wh_id: Optional[str] = '3a19debc-84b4-0359-e2d4-b3beea49348b',
source_x: int = 1, source_y: int = 1, source_z: int = 1) -> Dict[str, Any]:
payload: Dict[str, Any] = {
"sourcePosX": source_x, "sourcePosY": source_y, "sourcePosZ": source_z
}
if source_wh_id:
payload["sourceWHID"] = source_wh_id
return self._post_lims("/api/lims/order/transfer-task3To2To1", payload)
# 2.28 样品/废料取出
def take_out(self,
order_id: str,
preintake_ids: Optional[List[str]] = None,
material_ids: Optional[List[str]] = None) -> Dict[str, Any]:
data = {
"orderId": order_id,
"preintakeIds": preintake_ids or [],
"materialIds": material_ids or []
}
return self._post_lims("/api/lims/order/take-out", data)
# --------可选占位方法文档未定义的“1号站内部流程 / 1-2转运”--------
def start_station1_internal_flow(self, **kwargs) -> None:
logger.info("启动1号站内部流程占位按现场系统填充具体指令")
# 3.x 1→2 物料转运
def transfer_1_to_2(self) -> Dict[str, Any]:
"""
1→2 物料转运
URL: /api/lims/order/transfer-task1To2
只需要 apiKey 和 requestTime
"""
return self._post_lims("/api/lims/order/transfer-task1To2")
# -------------------- 整体编排 --------------------
def run_full_workflow(self,
inbound_items: List[Dict[str, str]],
orders: List[Dict[str, Any]],
poll_filter_code: Optional[str] = None,
poll_timeout_s: int = 600,
poll_interval_s: int = 5,
transfer_source: Optional[Dict[str, Any]] = None,
takeout_order_id: Optional[str] = None) -> None:
"""
一键串联:
1) 入库 3-4 个物料 → 2) 新建实验 → 3) 启动调度
运行中如需4) 物料变更推送 5) 步骤完成推送 6) 订单完成推送
完成后查询实验2.5/2.6)→ 7) 3-2-1 转运 → 8) 1号站内部流程
→ 9) 1-2 转运 → 10) 样品/废料取出
"""
# 1. 入库多于1个就用批量接口 2.18
if len(inbound_items) == 1:
r = self.storage_inbound(inbound_items[0]["materialId"], inbound_items[0]["locationId"])
logger.info(f"单个入库结果: {r}")
else:
r = self.storage_batch_inbound(inbound_items)
logger.info(f"批量入库结果: {r}")
# 2. 新建实验2.14
r = self.create_orders(orders)
logger.info(f"新建实验结果: {r}")
# 3. 启动调度2.7
r = self.scheduler_start()
logger.info(f"启动调度结果: {r}")
# —— 运行中各类推送2.24 / 2.21 / 2.23),通常由实际任务驱动,这里提供调用方式 —— #
# self.report_material_change({...})
# self.report_step_finish(order_code="BSO...", order_name="配液分液", step_name="xxx", step_id="...", sample_id="...",
# start_time=_iso_utc_now_ms(), end_time=_iso_utc_now_ms(), execution_status="completed")
# self.report_order_finish(order_code="BSO...", order_name="配液分液", start_time="...", end_time=_iso_utc_now_ms())
# 完成后才能转运:用 2.5 批量查询配合 filter=任务编码 轮询到 status=80成功
if poll_filter_code:
import time
deadline = time.time() + poll_timeout_s
while time.time() < deadline:
res = self.order_list(status="80", filter_text=poll_filter_code, page=5)
if isinstance(res, dict) and res.get("data", {}).get("items"):
logger.info(f"实验 {poll_filter_code} 已完成:{res['data']['items'][0]}")
break
time.sleep(poll_interval_s)
else:
logger.warning(f"等待实验 {poll_filter_code} 完成超时(未到 status=80")
# 7. 启动 3-2-1 转运2.32
if transfer_source:
r = self.transfer_3_to_2_to_1(
source_wh_id=transfer_source.get("sourceWHID"),
source_x=transfer_source.get("sourcePosX", 1),
source_y=transfer_source.get("sourcePosY", 1),
source_z=transfer_source.get("sourcePosZ", 1),
)
logger.info(f"3-2-1 转运结果: {r}")
# 8. 1号站内部流程占位
self.start_station1_internal_flow()
# 9. 1→2 转运(占位)
self.transfer_1_to_2()
# 10. 样品/废料取出2.28
if takeout_order_id:
r = self.take_out(order_id=takeout_order_id)
logger.info(f"样品/废料取出结果: {r}")
# 2.5 批量查询实验报告
def order_list_v2(self,
timeType: str = "string",
beginTime: str = "",
endTime: str = "",
status: str = "",
filter: str = "物料转移任务",
skipCount: int = 0,
pageCount: int = 1,
sorting: str = "") -> Dict[str, Any]:
"""
批量查询实验报告的详细信息 (2.5)
URL: /api/lims/order/order-list
参数默认值和接口文档保持一致
"""
data: Dict[str, Any] = {
"timeType": timeType,
"beginTime": beginTime,
"endTime": endTime,
"status": status,
"filter": filter,
"skipCount": skipCount,
"pageCount": pageCount,
"sorting": sorting
}
return self._post_lims("/api/lims/order/order-list", data)
def wait_for_transfer_task(self, timeout: int = 600, interval: int = 3) -> bool:
"""
轮询查询物料转移任务是否成功完成 (status=80)
- timeout: 最大等待秒数 (默认600秒)
- interval: 轮询间隔秒数 (默认3秒)
返回 True 表示找到并成功完成False 表示超时未找到
"""
now = datetime.now()
beginTime = now.strftime("%Y-%m-%dT%H:%M:%SZ")
endTime = (now + timedelta(minutes=5)).strftime("%Y-%m-%dT%H:%M:%SZ")
print(beginTime, endTime)
deadline = time.time() + timeout
while time.time() < deadline:
result = self.order_list_v2(
timeType="string",
beginTime=beginTime,
endTime=endTime,
status="",
filter="物料转移任务",
skipCount=0,
pageCount=1,
sorting=""
)
print(result)
items = result.get("data", {}).get("items", [])
for item in items:
name = item.get("name", "")
status = item.get("status")
if name.startswith("物料转移任务") and status == 80:
logger.info(f"硬件转移动作完成: {name}")
return True
time.sleep(interval)
logger.warning("超时未找到成功的物料转移任务")
return False
# --------------------------------
if __name__ == "__main__":
ws = BioyondWorkstation()
# ws.scheduler_stop()
ws.scheduler_start()
logger.info("调度启动完成")
# ws.scheduler_continue()
# 3.30 上料:读取模板 Excel 自动解析并 POST
r1 = ws.auto_feeding4to3_from_xlsx(r"C:\ML\GitHub\Uni-Lab-OS\unilabos\devices\workstation\bioyond_cell\样品导入模板 (8).xlsx")
ws.wait_for_transfer_task()
logger.info("4号箱向3号箱转运物料转移任务已完成")
# ws.scheduler_start()
# print(r1["payload"]["data"]) # 调试模式下可直接看到要发的 JSON items
# 新建实验
res = ws.create_orders("C:/ML/GitHub/Uni-Lab-OS/unilabos/devices/workstation/bioyond_cell/2025092501.xlsx")
# ws.scheduler_start()
# print(res)
#1号站启动
ws.transfer_1_to_2()
ws.wait_for_transfer_task()
logger.info("1号站向2号站转移任务完成")
logger.info("全流程结束")
# 3.31 下料:同理
# r2 = ws.auto_batch_outbound_from_xlsx(r"C:/path/样品导入模板 (8).xlsx")
# print(r2["payload"]["data"])

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@@ -0,0 +1,7 @@
material_name
LiPF6
LiDFOB
DTD
LiFSI
LiPO2F2
1 material_name
2 LiPF6
3 LiDFOB
4 DTD
5 LiFSI
6 LiPO2F2

BIN
unilabos/devices/workstation/bioyond_studio/bioyond_cell/样品导入模板.xlsx Normal file
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6
unilabos/devices/workstation/bioyond_studio/bioyond_rpc.py
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@@ -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'

313
unilabos/devices/workstation/bioyond_studio/config.py
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@@ -2,137 +2,242 @@
"""
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 ====================
# ==================== 完整的 Bioyond 配置 ====================
# BioyondCellWorkstation 默认配置(包含所有必需参数)
API_CONFIG = {
"api_key": "",
"api_host": ""
}
# API 连接配置
"api_host": os.getenv("BIOYOND_API_HOST", "http://172.16.11.219:44388"),
"api_key": os.getenv("BIOYOND_API_KEY", "8A819E5C"),
"timeout": int(os.getenv("BIOYOND_TIMEOUT", "30")),
# 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": "",
}
# 报送配置
"report_token": os.getenv("BIOYOND_REPORT_TOKEN", "CHANGE_ME_TOKEN"),
# 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'
# HTTP 服务配置
"HTTP_host": os.getenv("BIOYOND_HTTP_HOST", "0.0.0.0"), # HTTP服务监听地址0.0.0.0 表示监听所有网络接口)
"HTTP_port": int(os.getenv("BIOYOND_HTTP_PORT", "8080")),
"report_ip": os.getenv("BIOYOND_REPORT_IP", "172.21.32.22"), # 报送给 Bioyond 的本机IP地址留空则自动检测
# 调试模式
"debug_mode": False,
}
# 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"
}
},
}
# 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"),
"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"),
"20ml分液瓶": ("YB_20ml_Dispensing_Vial", "3a192c2b-19e8-f0a3-035e-041ca8ca1035"),
"100ml液体": ("YB_100ml_Liquid_Bottle", "d37166b3-ecaa-481e-bd84-3032b795ba07"),
"": ("YB_Liquid_Bottle", "3a190ca1-2add-2b23-f8e1-bbd348b7f790"),
"高粘液": ("YB_High_Viscosity_Liquid_Bottle", "abe8df30-563d-43d2-85e0-cabec59ddc16"),
"加样头(大)": ("YB_Large_Dispense_Head", "3a190ca0-b2f6-9aeb-8067-547e72c11469"),
"5ml分液瓶板": ("YB_6x5ml_DispensingVialCarrier", "3a192fa4-007d-ec7b-456e-2a8be7a13f23"),
"5ml分液瓶": ("YB_5ml_Dispensing_Vial", "3a192c2a-ebb7-58a1-480d-8b3863bf74f4"),
"20ml分液瓶板": ("YB_6x20ml_DispensingVialCarrier", "3a192fa4-47db-3449-162a-eaf8aba57e27"),
"配液瓶(小)板": ("YB_6x_SmallSolutionBottleCarrier", "3a190c8b-3284-af78-d29f-9a69463ad047"),
"配液瓶(小)": ("YB_Small_Solution_Bottle", "3a190c8c-fe8f-bf48-0dc3-97afc7f508eb"),
"配液瓶(大)板": ("YB_4x_LargeSolutionBottleCarrier", "53e50377-32dc-4781-b3c0-5ce45bc7dc27"),
"配液瓶(大)": ("YB_Large_Solution_Bottle", "19c52ad1-51c5-494f-8854-576f4ca9c6ca"),
"加样头(大)板": ("YB_6x_LargeDispenseHeadCarrier", "a8e714ae-2a4e-4eb9-9614-e4c140ec3f16"),
"适配器块": ("YB_AdapterBlock", "efc3bb32-d504-4890-91c0-b64ed3ac80cf"),
"枪头盒": ("YB_TipBox", "3a192c2e-20f3-a44a-0334-c8301839d0b3"),
"枪头": ("YB_Pipette_Tip", "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"),
}
WORKFLOW_MAPPINGS = {}
LOCATION_MAPPING = {}

27
unilabos/devices/workstation/bioyond_studio/station.py
View File

@@ -20,6 +20,7 @@ from unilabos.ros.nodes.base_device_node import ROS2DeviceNode, BaseROS2DeviceNo
from unilabos.ros.nodes.presets.workstation import ROS2WorkstationNode
from pylabrobot.resources.resource import Resource as ResourcePLR
from unilabos.resources.bioyond.decks import YB_Deck
from unilabos.devices.workstation.bioyond_studio.config import (
API_CONFIG, WORKFLOW_MAPPINGS, MATERIAL_TYPE_MAPPINGS, WAREHOUSE_MAPPING
)
@@ -135,7 +136,7 @@ class BioyondWorkstation(WorkstationBase):
# 初始化父类
super().__init__(
# 桌子
deck=deck,
deck=YB_Deck("YB_Deck14"),
*args,
**kwargs,
)
@@ -164,8 +165,8 @@ class BioyondWorkstation(WorkstationBase):
self.workflow_sequence = []
self.pending_task_params = []
if "workflow_mappings" in bioyond_config:
self._set_workflow_mappings(bioyond_config["workflow_mappings"])
if self.bioyond_config and "workflow_mappings" in self.bioyond_config:
self._set_workflow_mappings(self.bioyond_config["workflow_mappings"])
logger.info(f"Bioyond工作站初始化完成")
def post_init(self, ros_node: ROS2WorkstationNode):
@@ -467,7 +468,7 @@ def create_bioyond_workstation_example():
"""创建Bioyond工作站示例"""
# 配置参数
device_id = "bioyond_workstation_001"
device_id = "bioyond_cell_workstation_001"
# 子资源配置
children = {
@@ -486,8 +487,8 @@ def create_bioyond_workstation_example():
# Bioyond配置
bioyond_config = {
"base_url": "http://bioyond.example.com/api",
"api_key": "your_api_key_here",
"base_url": "http://172.16.11.219:44388",
"api_key": "8A819E5C",
"sync_interval": 60, # 60秒同步一次
"timeout": 30
}
@@ -511,4 +512,18 @@ def create_bioyond_workstation_example():
if __name__ == "__main__":
by = create_bioyond_workstation_example()
by.get_workstation_status()
by.get_device_status()
by.get_bioyond_status()
by.get_station_info()
by.get_workstation_status()
by.get_bioyond_status()
by.get_station_info()
by.get_workstation_status()
by.get_bioyond_status()
by.get_station_info()
by.get_workstation_status()
by.get_bioyond_status()
by.get_station_info()
pass

459
unilabos/devices/workstation/coin_cell_assembly/button_battery_station.py
View File

@@ -24,6 +24,13 @@ class ElectrodeSheetState(TypedDict):
thickness: float # 厚度 (mm)
mass: float # 质量 (g)
material_type: str # 材料类型(正极、负极、隔膜、弹片、垫片、铝箔等)
height: float
electrolyte_name: str
data_electrolyte_code: str
open_circuit_voltage: float
assembly_pressure: float
electrolyte_volume: float
info: Optional[str] # 附加信息
class ElectrodeSheet(Resource):
@@ -61,6 +68,7 @@ class ElectrodeSheet(Resource):
info=None
)
# TODO: 这个还要不要给self._unilabos_state赋值的
def load_state(self, state: Dict[str, Any]) -> None:
"""格式不变"""
super().load_state(state)
@@ -146,10 +154,10 @@ class MaterialHole(Resource):
):
"""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")
#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。
@@ -164,8 +172,6 @@ class MaterialPlateState(TypedDict):
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"""
@@ -323,12 +329,13 @@ class PlateSlot(ResourceStack):
class ClipMagazineHole(Container):
"""子弹夹洞位类"""
children: List[ElectrodeSheet] = []
def __init__(
self,
name: str,
diameter: float,
depth: float,
max_sheets: int = 100,
category: str = "clip_magazine_hole",
):
"""初始化子弹夹洞位
@@ -337,6 +344,7 @@ class ClipMagazineHole(Container):
name: 洞位名称
diameter: 洞直径 (mm)
depth: 洞深度 (mm)
max_sheets: 最大极片数量
category: 类别
"""
super().__init__(
@@ -348,143 +356,46 @@ class ClipMagazineHole(Container):
)
self.diameter = diameter
self.depth = depth
self.max_sheets = max_sheets
self._sheets: List[ElectrodeSheet] = []
def can_add_sheet(self, sheet: ElectrodeSheet) -> bool:
"""检查是否可以添加极片
"""检查是否可以添加极片"""
return (len(self._sheets) < self.max_sheets and
sheet.diameter <= self.diameter)
根据洞的深度和极片的厚度来判断是否可以添加极片
"""
# 检查极片直径是否适合洞的直径
if sheet._unilabos_state["diameter"] > self.diameter:
return False
# 计算当前已添加极片的总厚度
current_thickness = sum(s._unilabos_state["thickness"] for s in self.children)
# 检查添加新极片后总厚度是否超过洞的深度
if current_thickness + sheet._unilabos_state["thickness"] > self.depth:
return False
return True
def assign_child_resource(
self,
resource: ElectrodeSheet,
location: Optional[Coordinate] = None,
reassign: bool = True,
):
"""放置极片到洞位中
Args:
resource: 要放置的极片
location: 极片在洞位中的位置对于洞位通常为None
reassign: 是否允许重新分配
"""
# 检查是否可以添加极片
if not self.can_add_sheet(resource):
raise ValueError(f"无法向洞位 {self.name} 添加极片:直径或厚度不匹配")
# 调用父类方法实际执行分配
super().assign_child_resource(resource, location, reassign)
def unassign_child_resource(self, resource: ElectrodeSheet):
"""从洞位中移除极片
Args:
resource: 要移除的极片
"""
if resource not in self.children:
raise ValueError(f"极片 {resource.name} 不在洞位 {self.name}")
# 调用父类方法实际执行移除
super().unassign_child_resource(resource)
def add_sheet(self, sheet: ElectrodeSheet) -> None:
"""添加极片"""
if not self.can_add_sheet(sheet):
raise ValueError(f"无法向洞位 {self.name} 添加极片")
self._sheets.append(sheet)
def take_sheet(self) -> ElectrodeSheet:
"""取出极片"""
if len(self._sheets) == 0:
raise ValueError(f"洞位 {self.name} 没有极片")
return self._sheets.pop()
def get_sheet_count(self) -> int:
"""获取极片数量"""
return len(self._sheets)
def serialize_state(self) -> Dict[str, Any]:
return {
"sheet_count": len(self.children),
"sheets": [sheet.serialize() for sheet in self.children],
"sheet_count": len(self._sheets),
"sheets": [sheet.serialize() for sheet in self._sheets],
}
class ClipMagazine_four(ItemizedResource[ClipMagazineHole]):
"""子弹夹类 - 有4个洞位每个洞位放多个极片"""
children: List[ClipMagazineHole]
def __init__(
self,
name: str,
size_x: float,
size_y: float,
size_z: float,
hole_diameter: float = 14.0,
hole_depth: float = 10.0,
hole_spacing: float = 25.0,
max_sheets_per_hole: int = 100,
category: str = "clip_magazine_four",
model: Optional[str] = None,
):
"""初始化子弹夹
Args:
name: 子弹夹名称
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: 洞位间距 (mm)
max_sheets_per_hole: 每个洞位最大极片数量
category: 类别
model: 型号
"""
# 创建4个洞位排成2x2布局
holes = create_ordered_items_2d(
klass=ClipMagazineHole,
num_items_x=2,
num_items_y=2,
dx=(size_x - 2 * hole_spacing) / 2, # 居中
dy=(size_y - hole_spacing) / 2, # 居中
dz=size_z - 0,
item_dx=hole_spacing,
item_dy=hole_spacing,
diameter=hole_diameter,
depth=hole_depth,
)
super().__init__(
name=name,
size_x=size_x,
size_y=size_y,
size_z=size_z,
ordered_items=holes,
category=category,
model=model,
)
# 保存洞位的直径和深度
self.hole_diameter = hole_diameter
self.hole_depth = hole_depth
self.max_sheets_per_hole = max_sheets_per_hole
def serialize(self) -> dict:
return {
**super().serialize(),
"hole_diameter": self.hole_diameter,
"hole_depth": self.hole_depth,
"max_sheets_per_hole": self.max_sheets_per_hole,
}
# TODO: 这个要改
class ClipMagazine(ItemizedResource[ClipMagazineHole]):
class ClipMagazine(Resource):
"""子弹夹类 - 有6个洞位每个洞位放多个极片"""
children: List[ClipMagazineHole]
def __init__(
self,
name: str,
size_x: float,
size_y: float,
size_z: float,
hole_diameter: float = 14.0,
hole_depth: float = 10.0,
hole_spacing: float = 25.0,
max_sheets_per_hole: int = 100,
category: str = "clip_magazine",
@@ -514,8 +425,8 @@ class ClipMagazine(ItemizedResource[ClipMagazineHole]):
dz=size_z - 0,
item_dx=hole_spacing,
item_dy=hole_spacing,
diameter=hole_diameter,
depth=hole_depth,
diameter=0,
depth=0,
)
super().__init__(
@@ -528,7 +439,6 @@ class ClipMagazine(ItemizedResource[ClipMagazineHole]):
model=model,
)
# 保存洞位的直径和深度
self.hole_diameter = hole_diameter
self.hole_depth = hole_depth
self.max_sheets_per_hole = max_sheets_per_hole
@@ -545,9 +455,9 @@ class BatteryState(TypedDict):
"""电池状态字典"""
diameter: float
height: float
electrolyte_name: str
assembly_pressure: float
electrolyte_volume: float
electrolyte_name: str
class Battery(Resource):
"""电池类 - 可容纳极片"""
@@ -556,6 +466,9 @@ class Battery(Resource):
def __init__(
self,
name: str,
size_x=1,
size_y=1,
size_z=1,
category: str = "battery",
):
"""初始化电池
@@ -576,7 +489,13 @@ class Battery(Resource):
size_z=1,
category=category,
)
self._unilabos_state: BatteryState = BatteryState()
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"]
@@ -664,6 +583,7 @@ class BatteryPressSlot(Resource):
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)
@@ -672,6 +592,7 @@ class BatteryPressSlot(Resource):
def get_battery_info(self, index: int) -> Battery:
return self.children[0]
# TODO:这个移液枪架子看一下从哪继承
class TipBox64State(TypedDict):
"""电池状态字典"""
tip_diameter: float = 5.0
@@ -730,15 +651,6 @@ class TipBox64(TipRack):
make_tip=make_tip,
)
self._unilabos_state: WasteTipBoxstate = WasteTipBoxstate()
# 记录网格参数用于前端渲染
self._grid_params = {
"num_items_x": 8,
"num_items_y": 8,
"dx": 8.0,
"dy": 8.0,
"item_dx": 9.0,
"item_dy": 9.0,
}
super().__init__(
name=name,
size_x=size_x,
@@ -750,12 +662,6 @@ class TipBox64(TipRack):
with_tips=True,
)
def serialize(self) -> dict:
return {
**super().serialize(),
**self._grid_params,
}
class WasteTipBoxstate(TypedDict):
@@ -833,19 +739,10 @@ class BottleRackState(TypedDict):
name_to_index: dict
class BottleRackState(TypedDict):
""" bottle_diameter: 瓶子直径 (mm)
bottle_height: 瓶子高度 (mm)
position_spacing: 位置间距 (mm)"""
bottle_diameter: float
bottle_height: float
position_spacing: float
name_to_index: dict
class BottleRack(Resource):
"""瓶架类 - 12个待配位置+12个已配位置"""
children: List[Resource] = []
children: List[Bottle] = []
def __init__(
self,
@@ -855,12 +752,6 @@ class BottleRack(Resource):
size_z: float,
category: str = "bottle_rack",
model: Optional[str] = None,
num_items_x: int = 3,
num_items_y: int = 4,
position_spacing: float = 35.0,
orientation: str = "horizontal",
padding_x: float = 20.0,
padding_y: float = 20.0,
):
"""初始化瓶架
@@ -880,42 +771,13 @@ class BottleRack(Resource):
category=category,
model=model,
)
# 初始化状态
self._unilabos_state: BottleRackState = BottleRackState(
bottle_diameter=30.0,
bottle_height=100.0,
position_spacing=position_spacing,
name_to_index={},
)
# 基于网格生成瓶位坐标映射(居中摆放)
# 使用内边距避免点跑到容器外前端渲染不按mm等比缩放时更稳妥
origin_x = padding_x
origin_y = padding_y
self.index_to_pos = {}
for j in range(num_items_y):
for i in range(num_items_x):
idx = j * num_items_x + i
if orientation == "vertical":
# 纵向:沿 y 方向优先排列
self.index_to_pos[idx] = Coordinate(
x=origin_x + j * position_spacing,
y=origin_y + i * position_spacing,
z=0,
)
else:
# 横向(默认):沿 x 方向优先排列
self.index_to_pos[idx] = Coordinate(
x=origin_x + i * position_spacing,
y=origin_y + j * position_spacing,
z=0,
)
# TODO: 添加瓶位坐标映射
self.index_to_pos = {
0: Coordinate.zero(),
1: Coordinate(x=1, y=2, z=3) # 添加
}
self.name_to_index = {}
self.name_to_pos = {}
self.num_items_x = num_items_x
self.num_items_y = num_items_y
self.orientation = orientation
self.padding_x = padding_x
self.padding_y = padding_y
def load_state(self, state: Dict[str, Any]) -> None:
"""格式不变"""
@@ -925,23 +787,20 @@ class BottleRack(Resource):
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datastate用来表示物料的内容细节等
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datastate用来表示物料的内容细节等
return data
# TODO: 这里有些问题要重新写一下
def assign_child_resource_old(self, resource: Resource, location=Coordinate.zero(), reassign=True):
capacity = self.num_items_x * self.num_items_y
assert len(self.children) < capacity, "瓶架已满,无法添加更多瓶子"
def assign_child_resource(self, resource: Bottle, location=Coordinate.zero(), reassign = True):
assert len(self.children) <= 12, "瓶架已满,无法添加更多瓶子"
index = len(self.children)
location = self.index_to_pos.get(index, Coordinate.zero())
location = Coordinate(x=20 + (index % 4) * 15, y=20 + (index // 4) * 15, z=0)
self.name_to_pos[resource.name] = location
self.name_to_index[resource.name] = index
return super().assign_child_resource(resource, location, reassign)
def assign_child_resource(self, resource: Resource, index: int):
capacity = self.num_items_x * self.num_items_y
assert 0 <= index < capacity, "无效的瓶子索引"
def assign_child_resource_by_index(self, resource: Bottle, index: int):
assert 0 <= index < 12, "无效的瓶子索引"
self.name_to_index[resource.name] = index
location = self.index_to_pos[index]
return super().assign_child_resource(resource, location)
@@ -950,16 +809,9 @@ class BottleRack(Resource):
super().unassign_child_resource(resource)
self.index_to_pos.pop(self.name_to_index.pop(resource.name, None), None)
def serialize(self) -> dict:
return {
**super().serialize(),
"num_items_x": self.num_items_x,
"num_items_y": self.num_items_y,
"position_spacing": self._unilabos_state.get("position_spacing", 35.0),
"orientation": self.orientation,
"padding_x": self.padding_x,
"padding_y": self.padding_y,
}
# def serialize(self):
# self.children.sort(key=lambda x: self.name_to_index.get(x.name, 0))
# return super().serialize()
class BottleState(TypedDict):
@@ -1095,16 +947,20 @@ class CoincellDeck(Deck):
# plate.assign_child_resource(hole)
# return plate
def create_a_liaopan():
liaopan = MaterialPlate(name="liaopan", size_x=120.8, size_y=120.5, size_z=10.0, fill=True)
for i in range(16):
jipian = ElectrodeSheet(name=f"jipian_{i}", size_x= 12, size_y=12, size_z=0.1)
liaopan1.children[i].assign_child_resource(jipian, location=None)
return liaopan
import json
def create_a_coin_cell_deck():
deck = Deck(size_x=1200,
size_y=800,
if __name__ == "__main__":
#electrode1 = BatteryPressSlot()
#print(electrode1.get_size_x())
#print(electrode1.get_size_y())
#print(electrode1.get_size_z())
#jipian = ElectrodeSheet()
#jipian._unilabos_state["diameter"] = 18
#print(jipian.serialize())
#print(jipian.serialize_state())
deck = CoincellDeck(size_x=1000,
size_y=1000,
size_z=900)
#liaopan = TipBox64(name="liaopan")
@@ -1115,172 +971,33 @@ def create_a_coin_cell_deck():
deck.assign_child_resource(liaopan1, Coordinate(x=0, y=0, z=0))
#创建一个极片
for i in range(16):
jipian = ElectrodeSheet(name=f"jipian_{i}", size_x= 12, size_y=12, size_z=0.1)
jipian = ElectrodeSheet(name=f"jipian1_{i}", size_x= 12, size_y=12, size_z=0.1)
liaopan1.children[i].assign_child_resource(jipian, location=None)
#
#创建一个4*4的物料板
liaopan2 = MaterialPlate(name="liaopan2", size_x=120.8, size_y=120.5, size_z=10.0, fill=True)
#把物料板放到桌子上
deck.assign_child_resource(liaopan2, Coordinate(x=500, y=0, z=0))
#创建一个4*4的物料板
liaopan3 = MaterialPlate(name="liaopan3", size_x=120.8, size_y=120.5, size_z=10.0, fill=True)
liaopan3 = MaterialPlate(name="电池料盘", size_x=120.8, size_y=160.5, size_z=10.0, fill=True)
#把物料板放到桌子上
deck.assign_child_resource(liaopan3, Coordinate(x=1000, y=0, z=0))
print(deck)
return deck
deck.assign_child_resource(liaopan3, Coordinate(x=100, y=100, z=0))
import json
if __name__ == "__main__":
electrode1 = BatteryPressSlot()
#print(electrode1.get_size_x())
#print(electrode1.get_size_y())
#print(electrode1.get_size_z())
#jipian = ElectrodeSheet()
#jipian._unilabos_state["diameter"] = 18
#print(jipian.serialize())
#print(jipian.serialize_state())
deck = CoincellDeck()
"""======================================子弹夹============================================"""
zip_dan_jia = ClipMagazine_four("zi_dan_jia", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia, Coordinate(x=1400, y=50, z=0))
zip_dan_jia2 = ClipMagazine_four("zi_dan_jia2", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia2, Coordinate(x=1600, y=200, z=0))
zip_dan_jia3 = ClipMagazine("zi_dan_jia3", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia3, Coordinate(x=1500, y=200, z=0))
zip_dan_jia4 = ClipMagazine("zi_dan_jia4", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia4, Coordinate(x=1500, y=300, z=0))
zip_dan_jia5 = ClipMagazine("zi_dan_jia5", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia5, Coordinate(x=1600, y=300, z=0))
zip_dan_jia6 = ClipMagazine("zi_dan_jia6", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia6, Coordinate(x=1530, y=500, z=0))
zip_dan_jia7 = ClipMagazine("zi_dan_jia7", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia7, Coordinate(x=1180, y=400, z=0))
zip_dan_jia8 = ClipMagazine("zi_dan_jia8", 80, 80, 10)
deck.assign_child_resource(zip_dan_jia8, Coordinate(x=1280, y=400, z=0))
for i in range(4):
jipian = ElectrodeSheet(name=f"zi_dan_jia_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia2.children[i].assign_child_resource(jipian, location=None)
for i in range(4):
jipian2 = ElectrodeSheet(name=f"zi_dan_jia2_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia.children[i].assign_child_resource(jipian2, location=None)
for i in range(6):
jipian3 = ElectrodeSheet(name=f"zi_dan_jia3_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia3.children[i].assign_child_resource(jipian3, location=None)
for i in range(6):
jipian4 = ElectrodeSheet(name=f"zi_dan_jia4_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia4.children[i].assign_child_resource(jipian4, location=None)
for i in range(6):
jipian5 = ElectrodeSheet(name=f"zi_dan_jia5_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia5.children[i].assign_child_resource(jipian5, location=None)
for i in range(6):
jipian6 = ElectrodeSheet(name=f"zi_dan_jia6_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia6.children[i].assign_child_resource(jipian6, location=None)
for i in range(6):
jipian7 = ElectrodeSheet(name=f"zi_dan_jia7_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia7.children[i].assign_child_resource(jipian7, location=None)
for i in range(6):
jipian8 = ElectrodeSheet(name=f"zi_dan_jia8_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
zip_dan_jia8.children[i].assign_child_resource(jipian8, location=None)
"""======================================子弹夹============================================"""
#liaopan = TipBox64(name="liaopan")
"""======================================物料板============================================"""
#创建一个4*4的物料板
liaopan1 = MaterialPlate(name="liaopan1", size_x=120, size_y=100, size_z=10.0, fill=True)
deck.assign_child_resource(liaopan1, Coordinate(x=1010, y=50, z=0))
for i in range(16):
jipian_1 = ElectrodeSheet(name=f"{liaopan1.name}_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
liaopan1.children[i].assign_child_resource(jipian_1, location=None)
liaopan2 = MaterialPlate(name="liaopan2", size_x=120, size_y=100, size_z=10.0, fill=True)
deck.assign_child_resource(liaopan2, Coordinate(x=1130, y=50, z=0))
liaopan3 = MaterialPlate(name="liaopan3", size_x=120, size_y=100, size_z=10.0, fill=True)
deck.assign_child_resource(liaopan3, Coordinate(x=1250, y=50, z=0))
liaopan4 = MaterialPlate(name="liaopan4", size_x=120, size_y=100, size_z=10.0, fill=True)
deck.assign_child_resource(liaopan4, Coordinate(x=1010, y=150, z=0))
for i in range(16):
jipian_4 = ElectrodeSheet(name=f"{liaopan4.name}_jipian_{i}", size_x=12, size_y=12, size_z=0.1)
liaopan4.children[i].assign_child_resource(jipian_4, location=None)
liaopan5 = MaterialPlate(name="liaopan5", size_x=120, size_y=100, size_z=10.0, fill=True)
deck.assign_child_resource(liaopan5, Coordinate(x=1130, y=150, z=0))
liaopan6 = MaterialPlate(name="liaopan6", size_x=120, size_y=100, size_z=10.0, fill=True)
deck.assign_child_resource(liaopan6, Coordinate(x=1250, y=150, z=0))
#liaopan.children[3].assign_child_resource(jipian, location=None)
"""======================================物料板============================================"""
"""======================================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
bottle_rack_3x4 = BottleRack(
name="bottle_rack_3x4",
size_x=210.0,
size_y=140.0,
size_z=100.0,
num_items_x=3,
num_items_y=4,
position_spacing=35.0,
orientation="vertical",
)
deck.assign_child_resource(bottle_rack_3x4, Coordinate(x=100, y=200, z=0))
bottle_rack_6x2 = BottleRack(
name="bottle_rack_6x2",
size_x=120.0,
size_y=250.0,
size_z=100.0,
num_items_x=6,
num_items_y=2,
position_spacing=35.0,
orientation="vertical",
)
deck.assign_child_resource(bottle_rack_6x2, Coordinate(x=300, y=300, z=0))
bottle_rack_6x2_2 = BottleRack(
name="bottle_rack_6x2_2",
size_x=120.0,
size_y=250.0,
size_z=100.0,
num_items_x=6,
num_items_y=2,
position_spacing=35.0,
orientation="vertical",
)
deck.assign_child_resource(bottle_rack_6x2_2, Coordinate(x=430, y=300, z=0))
# 将 ElectrodeSheet 放满 3x4 与 6x2 的所有孔位
for idx in range(bottle_rack_3x4.num_items_x * bottle_rack_3x4.num_items_y):
sheet = ElectrodeSheet(name=f"sheet_3x4_{idx}", size_x=12, size_y=12, size_z=0.1)
bottle_rack_3x4.assign_child_resource(sheet, index=idx)
for idx in range(bottle_rack_6x2.num_items_x * bottle_rack_6x2.num_items_y):
sheet = ElectrodeSheet(name=f"sheet_6x2_{idx}", size_x=12, size_y=12, size_z=0.1)
bottle_rack_6x2.assign_child_resource(sheet, index=idx)
tip_box = TipBox64(name="tip_box_64")
deck.assign_child_resource(tip_box, Coordinate(x=300, y=100, z=0))
waste_tip_box = WasteTipBox(name="waste_tip_box")
deck.assign_child_resource(waste_tip_box, Coordinate(x=300, y=200, z=0))
"""======================================瓶架,移液枪============================================"""
print(deck)
from unilabos.resources.graphio import convert_resources_from_type
from unilabos.config.config import BasicConfig
BasicConfig.ak = "56bbed5b-6e30-438c-b06d-f69eaa63bb45"
BasicConfig.sk = "238222fe-0bf7-4350-a426-e5ced8011dcf"
BasicConfig.ak = "4d5ce6ae-7234-4639-834e-93899b9caf94"
BasicConfig.sk = "505d3b0a-620e-459a-9905-1efcffce382a"
from unilabos.app.web.client import http_client
resources = convert_resources_from_type([deck], [Resource])
# 检查序列化后的资源
json.dump({"nodes": resources, "links": []}, open("button_battery_decks_unilab.json", "w"), indent=2)
json.dump({"nodes": resources, "links": []}, open("button_battery_station_resources_unilab.json", "w"), indent=2)
#print(resources)

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unilabos/devices/workstation/coin_cell_assembly/button_battery_station_big.py Normal file
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1895
unilabos/devices/workstation/coin_cell_assembly/button_battery_station_resources_unilab_big.json Normal file
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114
unilabos/devices/workstation/coin_cell_assembly/cellconfig.py Normal file
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@@ -0,0 +1,114 @@
#!/usr/bin/env python
#coding=utf-8
ENV = 'pro'#'test'
class MQConfig:
"""MQTT 配置类"""
lab_id: str = '9F05593C'
instance_id: str = 'mqtt-cn-dsr48m6jy02'
group_id: str = 'GID_prod'
broker_url: str = 'mqtt-cn-dsr48m6jy02.mqtt.aliyuncs.com'
port: int = 8883
ca_content: str = '''-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
'''
cert_content: str = '''-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
'''
key_content: str = '''-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----
'''
# HTTP配置
class HTTPConfig:
remote_addr = "https://uni-lab.test.bohrium.com/api/v1"

1332
unilabos/devices/workstation/coin_cell_assembly/celljson.json Normal file
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157
unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly.py
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@@ -21,7 +21,7 @@ from unilabos.ros.nodes.presets.workstation import ROS2WorkstationNode
class CoinCellAssemblyWorkstation(WorkstationBase):
def __init__(
self,
deck: CoincellDeck,
station_resource: CoincellDeck,
address: str = "192.168.1.20",
port: str = "502",
debug_mode: bool = True,
@@ -30,12 +30,12 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
):
super().__init__(
#桌子
deck=deck,
station_resource=station_resource,
*args,
**kwargs,
)
self.debug_mode = debug_mode
self.deck = deck
self.station_resource = station_resource
""" 连接初始化 """
modbus_client = TCPClient(addr=address, port=port)
print("modbus_client", modbus_client)
@@ -60,6 +60,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
self.csv_export_thread = None
self.csv_export_running = False
self.csv_export_file = None
self.coin_num_N = 0 #已组装电池数量
#创建一个物料台面,包含两个极片板
#self.deck = create_a_coin_cell_deck()
@@ -74,7 +75,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
self._ros_node = ros_node
#self.deck = create_a_coin_cell_deck()
ROS2DeviceNode.run_async_func(self._ros_node.update_resource, True, **{
"resources": [self.deck]
"resources": [self.station_resource]
})
# 批量操作在这里写
@@ -84,7 +85,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
async def fill_plate(self):
plate_1: MaterialPlate = self.deck.children[0].children[0]
plate_1: MaterialPlate = self.station_resource.children[0].children[0]
#plate_1
return await self._ros_node.update_resource(plate_1)
@@ -341,7 +342,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
def modify_deck_name(self, resource_name: str):
# figure_res = self._ros_node.resource_tracker.figure_resource({"name": resource_name})
# print(f"!!! figure_res: {type(figure_res)}")
self.deck.children[1]
self.station_resource.children[1]
return
@property
@@ -606,7 +607,8 @@ 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:
@@ -697,6 +699,23 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
print("data_electrolyte_code", data_electrolyte_code)
print("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.station_resource.get_resource("\u7535\u6c60\u6599\u76d8")
#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.station_resource]
})
self._unilab_rec_msg_succ_cmd(True)
time.sleep(1)
#等待允许读取标志位置False
@@ -757,6 +776,7 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
def func_allpack_cmd(self, elec_num, elec_use_num, file_path: str="D:\\coin_cell_data") -> bool:
elec_num, elec_use_num = int(elec_num), int(elec_use_num)
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):
@@ -784,20 +804,22 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
elec_num_N = 0
elec_use_num_N = 0
coin_num_N = 0
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):
@@ -811,26 +833,8 @@ class CoinCellAssemblyWorkstation(WorkstationBase):
#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
@@ -842,6 +846,7 @@ 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
@@ -878,34 +883,22 @@ 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.station_resource.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.station_resource]
})
time.sleep(4)
# 数据读取与输出
def func_read_data_and_output(self, file_path: str="D:\\coin_cell_data"):
# 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
@@ -1012,7 +1005,7 @@ 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():
@@ -1119,24 +1112,52 @@ if __name__ == "__main__":
#print("success")
#创建一个物料台面
#deck = create_a_coin_cell_deck()
deck = create_a_coin_cell_deck()
#deck = create_a_full_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)
##
#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)
liaopan1 = deck.get_resource("liaopan1")
liaopan2 = deck.get_resource("liaopan2")
for i in range(16):
#找到liaopan1上每一个jipian
jipian_linshi = liaopan1.children[i].children[0]
#把物料解绑后放到另一盘上
print("极片:", jipian_linshi)
jipian_linshi.parent.unassign_child_resource(jipian_linshi)
liaopan2.children[i].assign_child_resource(jipian_linshi, location=None)
from unilabos.resources.graphio import resource_ulab_to_plr, convert_resources_to_type
#with open("./button_battery_station_resources_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)
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)
from unilabos.resources.graphio import convert_resources_from_type
from unilabos.config.config import BasicConfig
BasicConfig.ak = "beb0c15f-2279-46a1-aba5-00eaf89aef55"
BasicConfig.sk = "15d4f25e-3512-4f9c-9bfb-43ab85e7b561"
from unilabos.app.web.client import http_client
resources = convert_resources_from_type([deck], [Resource])
json.dump({"nodes": resources, "links": []}, open("button_battery_station_resources_unilab.json", "w"), indent=2)
#print(resources)
http_client.remote_addr = "https://uni-lab.test.bohrium.com/api/v1"
http_client.resource_add(resources)

44
unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_0910.csv Normal file
View File

@@ -0,0 +1,44 @@
Name,DataType,InitValue,Comment,Attribute,DeviceType,Address
COIL_SYS_START_CMD,BOOL,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8010
COIL_SYS_STOP_CMD,BOOL,,<EFBFBD>豸ֹͣ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8020
COIL_SYS_RESET_CMD,BOOL,,<EFBFBD><EFBFBD><EFBFBD>λ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8030
COIL_SYS_HAND_CMD,BOOL,,<EFBFBD><EFBFBD>ֶ<EFBFBD>ģʽ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8040
COIL_SYS_AUTO_CMD,BOOL,,<EFBFBD><EFBFBD>Զ<EFBFBD>ģʽ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8050
COIL_SYS_INIT_CMD,BOOL,,<EFBFBD><EFBFBD><EFBFBD>ʼ<EFBFBD><EFBFBD>ģʽ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8060
COIL_UNILAB_SEND_MSG_SUCC_CMD,BOOL,,UNILAB<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8700
COIL_UNILAB_REC_MSG_SUCC_CMD,BOOL,,UNILAB<EFBFBD><EFBFBD><EFBFBD>ܲ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8710
COIL_SYS_START_STATUS,BOOL,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8210
COIL_SYS_STOP_STATUS,BOOL,,<EFBFBD>豸ֹͣ<EFBFBD><EFBFBD>,,coil,8220
COIL_SYS_RESET_STATUS,BOOL,,<EFBFBD><EFBFBD><EFBFBD>λ<EFBFBD><EFBFBD>,,coil,8230
COIL_SYS_HAND_STATUS,BOOL,,<EFBFBD><EFBFBD>ֶ<EFBFBD>ģʽ,,coil,8240
COIL_SYS_AUTO_STATUS,BOOL,,<EFBFBD><EFBFBD>Զ<EFBFBD>ģʽ,,coil,8250
COIL_SYS_INIT_STATUS,BOOL,,<EFBFBD><EFBFBD><EFBFBD>ʼ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8260
COIL_REQUEST_REC_MSG_STATUS,BOOL,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8510
COIL_REQUEST_SEND_MSG_STATUS,BOOL,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ͳ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,coil,8500
REG_MSG_ELECTROLYTE_USE_NUM,INT16,,<EFBFBD><EFBFBD>ƿ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>Һʹ<EFBFBD>ô<EFBFBD><EFBFBD><EFBFBD>,,hold_register,11000
REG_MSG_ELECTROLYTE_NUM,INT16,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD>Һʹ<EFBFBD><EFBFBD>ƿ<EFBFBD><EFBFBD>,,hold_register,11002
REG_MSG_ELECTROLYTE_VOLUME,INT16,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD>Һ<EFBFBD><EFBFBD>ȡ<EFBFBD><EFBFBD>,,hold_register,11004
REG_MSG_ASSEMBLY_TYPE,INT16,,<EFBFBD><EFBFBD>װ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ƭ<EFBFBD>ѵ<EFBFBD><EFBFBD><EFBFBD>ʽ,,hold_register,11006
REG_MSG_ASSEMBLY_PRESSURE,INT16,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>װѹ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,11008
REG_DATA_ASSEMBLY_COIN_CELL_NUM,INT16,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>װ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10000
REG_DATA_OPEN_CIRCUIT_VOLTAGE,FLOAT32,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD>ص<EFBFBD>ѹ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10002
REG_DATA_AXIS_X_POS,FLOAT32,,<EFBFBD><EFBFBD>ҺX<EFBFBD>ᵱǰλ<EFBFBD><EFBFBD>,,hold_register,10004
REG_DATA_AXIS_Y_POS,FLOAT32,,<EFBFBD><EFBFBD>ҺZ<EFBFBD>ᵱǰλ<EFBFBD><EFBFBD>,,hold_register,10006
REG_DATA_AXIS_Z_POS,FLOAT32,,<EFBFBD><EFBFBD>ҺY<EFBFBD>ᵱǰλ<EFBFBD><EFBFBD>,,hold_register,10008
REG_DATA_POLE_WEIGHT,FLOAT32,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ƭ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10010
REG_DATA_ASSEMBLY_PER_TIME,FLOAT32,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD>ŵ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>װʱ<EFBFBD><EFBFBD>,,hold_register,10012
REG_DATA_ASSEMBLY_PRESSURE,INT16,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>װѹ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10014
REG_DATA_ELECTROLYTE_VOLUME,INT16,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>Һ<EFBFBD><EFBFBD>ע<EFBFBD><EFBFBD>,,hold_register,10016
REG_DATA_COIN_NUM,INT16,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10018
REG_DATA_ELECTROLYTE_CODE,STRING,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD>Һ<EFBFBD><EFBFBD>ά<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>к<EFBFBD>,,hold_register,10020
REG_DATA_COIN_CELL_CODE,STRING,,<EFBFBD><EFBFBD><EFBFBD>ض<EFBFBD>ά<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>к<EFBFBD>,,hold_register,10030
REG_DATA_STACK_VISON_CODE,STRING,,<EFBFBD><EFBFBD><EFBFBD>϶ѵ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ͼƬ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,12004
REG_DATA_GLOVE_BOX_PRESSURE,FLOAT32,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ѹ<EFBFBD><EFBFBD>,,hold_register,10050
REG_DATA_GLOVE_BOX_WATER_CONTENT,FLOAT32,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ˮ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10052
REG_DATA_GLOVE_BOX_O2_CONTENT,FLOAT32,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10054
UNILAB_SEND_ELECTROLYTE_BOTTLE_NUM,BOOL,,Unilabȷ<EFBFBD><EFBFBD><EFBFBD>ѷ<EFBFBD><EFBFBD>͵<EFBFBD><EFBFBD><EFBFBD>Һƿ<EFBFBD><EFBFBD><EFBFBD>ź<EFBFBD>,,coil,8720
UNILAB_RECE_ELECTROLYTE_BOTTLE_NUM,BOOL,,Unilab<EFBFBD>ɽ<EFBFBD><EFBFBD>ܵ<EFBFBD><EFBFBD><EFBFBD>Һƿ<EFBFBD><EFBFBD>,,coil,8520
REG_MSG_ELECTROLYTE_NUM_USED,INT16,,<EFBFBD><EFBFBD><EFBFBD><EFBFBD>Һ<EFBFBD><EFBFBD>װ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>ƽ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,496
REG_DATA_ELECTROLYTE_USE_NUM,INT16,,<EFBFBD><EFBFBD>ǰ<EFBFBD><EFBFBD><EFBFBD><EFBFBD>װƽ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>,,hold_register,10000
UNILAB_SEND_FINISHED_CMD,BOOL,,Unilab<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>յ<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ź<EFBFBD>,,coil,8730
UNILAB_RECE_FINISHED_CMD,BOOL,,<EFBFBD><EFBFBD>֪unilab<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ź<EFBFBD>,,coil,8530
1 Name DataType InitValue Comment Attribute DeviceType Address
2 COIL_SYS_START_CMD BOOL 设备启动命令 coil 8010
3 COIL_SYS_STOP_CMD BOOL 设备停止命令 coil 8020
4 COIL_SYS_RESET_CMD BOOL 设备复位命令 coil 8030
5 COIL_SYS_HAND_CMD BOOL 设备手动模式命令 coil 8040
6 COIL_SYS_AUTO_CMD BOOL 设备自动模式命令 coil 8050
7 COIL_SYS_INIT_CMD BOOL 设备初始化模式命令 coil 8060
8 COIL_UNILAB_SEND_MSG_SUCC_CMD BOOL UNILAB发送配方完毕 coil 8700
9 COIL_UNILAB_REC_MSG_SUCC_CMD BOOL UNILAB接受测试数据完毕 coil 8710
10 COIL_SYS_START_STATUS BOOL 设备启动中 coil 8210
11 COIL_SYS_STOP_STATUS BOOL 设备停止中 coil 8220
12 COIL_SYS_RESET_STATUS BOOL 设备复位中 coil 8230
13 COIL_SYS_HAND_STATUS BOOL 设备手动模式 coil 8240
14 COIL_SYS_AUTO_STATUS BOOL 设备自动模式 coil 8250
15 COIL_SYS_INIT_STATUS BOOL 设备初始化完成 coil 8260
16 COIL_REQUEST_REC_MSG_STATUS BOOL 设备请求接受配方 coil 8510
17 COIL_REQUEST_SEND_MSG_STATUS BOOL 设备请求发送测试数据 coil 8500
18 REG_MSG_ELECTROLYTE_USE_NUM INT16 单瓶电解液使用次数 hold_register 11000
19 REG_MSG_ELECTROLYTE_NUM INT16 电解液使用瓶数 hold_register 11002
20 REG_MSG_ELECTROLYTE_VOLUME INT16 电解液吸取量 hold_register 11004
21 REG_MSG_ASSEMBLY_TYPE INT16 组装参数:极片堆叠方式 hold_register 11006
22 REG_MSG_ASSEMBLY_PRESSURE INT16 电池组装压制力 hold_register 11008
23 REG_DATA_ASSEMBLY_COIN_CELL_NUM INT16 当前完成组装电池数量 hold_register 10000
24 REG_DATA_OPEN_CIRCUIT_VOLTAGE FLOAT32 当前电池电压数据 hold_register 10002
25 REG_DATA_AXIS_X_POS FLOAT32 分液X轴当前位置 hold_register 10004
26 REG_DATA_AXIS_Y_POS FLOAT32 分液Z轴当前位置 hold_register 10006
27 REG_DATA_AXIS_Z_POS FLOAT32 分液Y轴当前位置 hold_register 10008
28 REG_DATA_POLE_WEIGHT FLOAT32 当前电池正极片称重数据 hold_register 10010
29 REG_DATA_ASSEMBLY_PER_TIME FLOAT32 当前单颗电池组装时间 hold_register 10012
30 REG_DATA_ASSEMBLY_PRESSURE INT16 当前电池组装压制力 hold_register 10014
31 REG_DATA_ELECTROLYTE_VOLUME INT16 当前电解液加注量 hold_register 10016
32 REG_DATA_COIN_NUM INT16 当前电池物料数 hold_register 10018
33 REG_DATA_ELECTROLYTE_CODE STRING 电解液二维码序列号 hold_register 10020
34 REG_DATA_COIN_CELL_CODE STRING 电池二维码序列号 hold_register 10030
35 REG_DATA_STACK_VISON_CODE STRING 物料堆叠复检图片编码 hold_register 12004
36 REG_DATA_GLOVE_BOX_PRESSURE FLOAT32 手套箱压力 hold_register 10050
37 REG_DATA_GLOVE_BOX_WATER_CONTENT FLOAT32 手套箱水含量 hold_register 10052
38 REG_DATA_GLOVE_BOX_O2_CONTENT FLOAT32 手套箱氧含量 hold_register 10054
39 UNILAB_SEND_ELECTROLYTE_BOTTLE_NUM BOOL Unilab确认已发送电解液瓶数信号 coil 8720
40 UNILAB_RECE_ELECTROLYTE_BOTTLE_NUM BOOL Unilab可接受电解液瓶数 coil 8520
41 REG_MSG_ELECTROLYTE_NUM_USED INT16 电解液组装电池平行样数 hold_register 496
42 REG_DATA_ELECTROLYTE_USE_NUM INT16 当前已组装平行样数 hold_register 10000
43 UNILAB_SEND_FINISHED_CMD BOOL Unilab发送收到完成信号 coil 8730
44 UNILAB_RECE_FINISHED_CMD BOOL 告知unilab结束信号 coil 8530

46
unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_a.csv Normal file
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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,,,,coil,8340,
1 Name DataType InitValue Comment Attribute DeviceType Address
2 COIL_SYS_START_CMD BOOL coil 8010
3 COIL_SYS_STOP_CMD BOOL coil 8020
4 COIL_SYS_RESET_CMD BOOL coil 8030
5 COIL_SYS_HAND_CMD BOOL coil 8040
6 COIL_SYS_AUTO_CMD BOOL coil 8050
7 COIL_SYS_INIT_CMD BOOL coil 8060
8 COIL_UNILAB_SEND_MSG_SUCC_CMD BOOL coil 8700
9 COIL_UNILAB_REC_MSG_SUCC_CMD BOOL coil 8710 unilab_rec_msg_succ_cmd
10 COIL_SYS_START_STATUS BOOL coil 8210
11 COIL_SYS_STOP_STATUS BOOL coil 8220
12 COIL_SYS_RESET_STATUS BOOL coil 8230
13 COIL_SYS_HAND_STATUS BOOL coil 8240
14 COIL_SYS_AUTO_STATUS BOOL coil 8250
15 COIL_SYS_INIT_STATUS BOOL coil 8260
16 COIL_REQUEST_REC_MSG_STATUS BOOL coil 8500
17 COIL_REQUEST_SEND_MSG_STATUS BOOL coil 8510 request_send_msg_status
18 REG_MSG_ELECTROLYTE_USE_NUM INT16 hold_register 11000
19 REG_MSG_ELECTROLYTE_NUM INT16 hold_register 11002 unilab_send_msg_electrolyte_num
20 REG_MSG_ELECTROLYTE_VOLUME INT16 hold_register 11004 unilab_send_msg_electrolyte_vol
21 REG_MSG_ASSEMBLY_TYPE INT16 hold_register 11006 unilab_send_msg_assembly_type
22 REG_MSG_ASSEMBLY_PRESSURE INT16 hold_register 11008 unilab_send_msg_assembly_pressure
23 REG_DATA_ASSEMBLY_COIN_CELL_NUM INT16 hold_register 10000 data_assembly_coin_cell_num
24 REG_DATA_OPEN_CIRCUIT_VOLTAGE FLOAT32 hold_register 10002 data_open_circuit_voltage
25 REG_DATA_AXIS_X_POS FLOAT32 hold_register 10004
26 REG_DATA_AXIS_Y_POS FLOAT32 hold_register 10006
27 REG_DATA_AXIS_Z_POS FLOAT32 hold_register 10008
28 REG_DATA_POLE_WEIGHT FLOAT32 hold_register 10010 data_pole_weight
29 REG_DATA_ASSEMBLY_PER_TIME FLOAT32 hold_register 10012 data_assembly_time
30 REG_DATA_ASSEMBLY_PRESSURE INT16 hold_register 10014 data_assembly_pressure
31 REG_DATA_ELECTROLYTE_VOLUME INT16 hold_register 10016 data_electrolyte_volume
32 REG_DATA_COIN_NUM INT16 hold_register 10018 data_coin_num
33 REG_DATA_ELECTROLYTE_CODE STRING hold_register 10020 data_electrolyte_code()
34 REG_DATA_COIN_CELL_CODE STRING hold_register 10030 data_coin_cell_code()
35 REG_DATA_STACK_VISON_CODE STRING hold_register 12004 data_stack_vision_code()
36 REG_DATA_GLOVE_BOX_PRESSURE FLOAT32 hold_register 10050 data_glove_box_pressure
37 REG_DATA_GLOVE_BOX_WATER_CONTENT FLOAT32 hold_register 10052 data_glove_box_water_content
38 REG_DATA_GLOVE_BOX_O2_CONTENT FLOAT32 hold_register 10054 data_glove_box_o2_content
39 UNILAB_SEND_ELECTROLYTE_BOTTLE_NUM BOOL coil 8720
40 UNILAB_RECE_ELECTROLYTE_BOTTLE_NUM BOOL coil 8520
41 REG_MSG_ELECTROLYTE_NUM_USED INT16 hold_register 496
42 REG_DATA_ELECTROLYTE_USE_NUM INT16 hold_register 10000
43 UNILAB_SEND_FINISHED_CMD BOOL coil 8730
44 UNILAB_RECE_FINISHED_CMD BOOL coil 8530
45 REG_DATA_ASSEMBLY_TYPE INT16 hold_register 10018 ASSEMBLY_TYPE7or8
46 COIL_ALUMINUM_FOIL BOOL coil 8340

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unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_old.py Normal file
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unilabos/devices/workstation/coin_cell_assembly/coin_cell_assembly_system_wuliao.py Normal file
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import json
import re
from pymodbus.client import ModbusTcpClient
from unilabos.device_comms.modbus_plc.modbus import WorderOrder, Coil, DiscreteInputs, HoldRegister, InputRegister, DataType
from pymodbus.constants import Endian
import time
import threading
import csv
import os
from datetime import datetime
from typing import Callable
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
class Coin_Cell_Assembly:
if __name__ == '__main__':
coin_cell_assmbly = Coin_Cell_Assembly(address="192.168.1.20", port="502")
#params = {
# "elec_num": 32
#}
#str_data = json.dumps(params, ensure_ascii=False)
#print('param:', coin_cell_assmbly.func_pack_device_write_batch_elec_param(params))
#time.sleep(1)
print(coin_cell_assmbly.func_pack_device_write_per_elec_param(
elec_use_num=4,
elec_num=5,
elec_vol=55,
assembly_type=25,
assembly_pressure=550))
time.sleep(1)
'''
print('start:', coin_cell_assmbly.func_pack_device_start())
time.sleep(1)
print('start:', coin_cell_assmbly.func_pack_device_start())
time.sleep(1)
print('stop:', coin_cell_assmbly.func_pack_device_stop())
time.sleep(1)
while True:
# cmd coil
print('start cmd:', coin_cell_assmbly.sys_start_cmd(True))
time.sleep(1)
print('stop cmd:', coin_cell_assmbly.sys_stop_cmd(False))
time.sleep(1)
print('reset cmd:', coin_cell_assmbly.sys_reset_cmd(True))
time.sleep(1)
print('hand cmd:', coin_cell_assmbly.sys_hand_cmd(False))
time.sleep(1)
print('auto cmd:', coin_cell_assmbly.sys_auto_cmd(True))
time.sleep(1)
print('init cmd:', coin_cell_assmbly.sys_init_cmd(False))
time.sleep(1)
print('send msg succ cmd:', coin_cell_assmbly.unilab_send_msg_succ_cmd(False))
time.sleep(1)
print('rec msg succ cmd:', coin_cell_assmbly.unilab_rec_msg_succ_cmd(True))
time.sleep(1)
# cmd reg
print('elec use num msg:', coin_cell_assmbly.unilab_send_msg_electrolyte_use_num(8))
time.sleep(1)
print('elec num msg:', coin_cell_assmbly.unilab_send_msg_electrolyte_num(4))
time.sleep(1)
print('elec vol msg:', coin_cell_assmbly.unilab_send_msg_electrolyte_vol(3.3))
time.sleep(1)
print('assembly type msg:', coin_cell_assmbly.unilab_send_msg_assembly_type(1))
time.sleep(1)
print('assembly pressure msg:', coin_cell_assmbly.unilab_send_msg_assembly_pressure(1))
time.sleep(1)
# status coil
print('start status:',coin_cell_assmbly.sys_start_status)
time.sleep(1)
print('stop status:',coin_cell_assmbly.sys_stop_status)
time.sleep(1)
print('reset status:',coin_cell_assmbly.sys_reset_status)
time.sleep(1)
print('hand status:',coin_cell_assmbly.sys_hand_status)
time.sleep(1)
print('auto status:', coin_cell_assmbly.sys_auto_status)
time.sleep(1)
print('init ok:', coin_cell_assmbly.sys_init_status)
time.sleep(1)
print('request rec msg:', coin_cell_assmbly.request_rec_msg_status)
time.sleep(1)
print('request send msg:', coin_cell_assmbly.request_send_msg_status)
time.sleep(1)
# status reg
print('assembly coin cell num:', coin_cell_assmbly.data_assembly_coin_cell_num)
time.sleep(1)
print('assembly coin assembly per time:', coin_cell_assmbly.data_assembly_time)
time.sleep(1)
print('open circuit vol:', coin_cell_assmbly.data_open_circuit_voltage)
time.sleep(1)
print('axis x pos:', coin_cell_assmbly.data_axis_x_pos)
time.sleep(1)
print('axis y pos:', coin_cell_assmbly.data_axis_y_pos)
time.sleep(1)
print('axis z pos:', coin_cell_assmbly.data_axis_z_pos)
time.sleep(1)
print('pole weight:', coin_cell_assmbly.data_pole_weight)
time.sleep(1)
print('assembly pressure:', coin_cell_assmbly.data_assembly_coin_cell_num)
time.sleep(1)
print('assembly electrolyte vol:', coin_cell_assmbly.data_electrolyte_volume)
time.sleep(1)
print('assembly coin num:', coin_cell_assmbly.data_coin_num)
time.sleep(1)
print('coin cell code:', coin_cell_assmbly.data_coin_cell_code)
time.sleep(1)
print('elec code:', coin_cell_assmbly.data_electrolyte_code)
time.sleep(1)
print('glove box pressure:', coin_cell_assmbly.data_glove_box_pressure)
time.sleep(1)
print('glove box o2:', coin_cell_assmbly.data_glove_box_o2_content)
time.sleep(1)
print('glove box water:', coin_cell_assmbly.data_glove_box_water_content)
time.sleep(1)
'''

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unilabos/devices/workstation/coin_cell_assembly/new_cellconfig.json Normal file
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unilabos/devices/workstation/coin_cell_assembly/new_cellconfig2.json Normal file
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unilabos/devices/workstation/coin_cell_assembly/new_cellconfig3.json Normal file
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unilabos/devices/workstation/coin_cell_assembly/new_cellconfig3a.json Normal file
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unilabos/devices/workstation/coin_cell_assembly/new_cellconfig3b.json Normal file
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unilabos/devices/workstation/coin_cell_assembly/new_cellconfig3c.json Normal file
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{
"nodes": [
{
"id": "BatteryStation",
"name": "扣电工作站",
"children": [
"coin_cell_deck"
],
"parent": null,
"type": "device",
"class": "bettery_station_registry",
"position": {
"x": 600,
"y": 400,
"z": 0
},
"config": {
"debug_mode": false,
"_comment": "protocol_type接外部工站固定写法字段一般为空station_resource写法也固定",
"protocol_type": [],
"station_resource": {
"data": {
"_resource_child_name": "coin_cell_deck",
"_resource_type": "unilabos.devices.workstation.coin_cell_assembly.button_battery_station:CoincellDeck"
}
},
"address": "192.168.1.20",
"port": 502
},
"data": {}
},
{
"id": "coin_cell_deck",
"name": "coin_cell_deck",
"sample_id": null,
"children": [
"\u7535\u6c60\u6599\u76d8"
],
"parent": null,
"type": "container",
"class": "",
"position": {
"x": 0,
"y": 0,
"z": 0
},
"config": {
"type": "CoincellDeck",
"size_x": 1000,
"size_y": 1000,
"size_z": 900,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "coin_cell_deck",
"barcode": null
},
"data": {}
},
{
"id": "\u7535\u6c60\u6599\u76d8",
"name": "\u7535\u6c60\u6599\u76d8",
"sample_id": null,
"children": [
"\u7535\u6c60\u6599\u76d8_materialhole_0_0",
"\u7535\u6c60\u6599\u76d8_materialhole_0_1",
"\u7535\u6c60\u6599\u76d8_materialhole_0_2",
"\u7535\u6c60\u6599\u76d8_materialhole_0_3",
"\u7535\u6c60\u6599\u76d8_materialhole_1_0",
"\u7535\u6c60\u6599\u76d8_materialhole_1_1",
"\u7535\u6c60\u6599\u76d8_materialhole_1_2",
"\u7535\u6c60\u6599\u76d8_materialhole_1_3",
"\u7535\u6c60\u6599\u76d8_materialhole_2_0",
"\u7535\u6c60\u6599\u76d8_materialhole_2_1",
"\u7535\u6c60\u6599\u76d8_materialhole_2_2",
"\u7535\u6c60\u6599\u76d8_materialhole_2_3",
"\u7535\u6c60\u6599\u76d8_materialhole_3_0",
"\u7535\u6c60\u6599\u76d8_materialhole_3_1",
"\u7535\u6c60\u6599\u76d8_materialhole_3_2",
"\u7535\u6c60\u6599\u76d8_materialhole_3_3"
],
"parent": "coin_cell_deck",
"type": "container",
"class": "",
"position": {
"x": 100,
"y": 100,
"z": 0
},
"config": {
"type": "MaterialPlate",
"size_x": 120.8,
"size_y": 160.5,
"size_z": 10.0,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_plate",
"model": null,
"barcode": null,
"ordering": {
"A1": "\u7535\u6c60\u6599\u76d8_materialhole_0_0",
"B1": "\u7535\u6c60\u6599\u76d8_materialhole_0_1",
"C1": "\u7535\u6c60\u6599\u76d8_materialhole_0_2",
"D1": "\u7535\u6c60\u6599\u76d8_materialhole_0_3",
"A2": "\u7535\u6c60\u6599\u76d8_materialhole_1_0",
"B2": "\u7535\u6c60\u6599\u76d8_materialhole_1_1",
"C2": "\u7535\u6c60\u6599\u76d8_materialhole_1_2",
"D2": "\u7535\u6c60\u6599\u76d8_materialhole_1_3",
"A3": "\u7535\u6c60\u6599\u76d8_materialhole_2_0",
"B3": "\u7535\u6c60\u6599\u76d8_materialhole_2_1",
"C3": "\u7535\u6c60\u6599\u76d8_materialhole_2_2",
"D3": "\u7535\u6c60\u6599\u76d8_materialhole_2_3",
"A4": "\u7535\u6c60\u6599\u76d8_materialhole_3_0",
"B4": "\u7535\u6c60\u6599\u76d8_materialhole_3_1",
"C4": "\u7535\u6c60\u6599\u76d8_materialhole_3_2",
"D4": "\u7535\u6c60\u6599\u76d8_materialhole_3_3"
}
},
"data": {}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_0_0",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_0_0",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 12.4,
"y": 104.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_0_1",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_0_1",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 12.4,
"y": 80.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_0_2",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_0_2",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 12.4,
"y": 56.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_0_3",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_0_3",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 12.4,
"y": 32.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_1_0",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_1_0",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 36.4,
"y": 104.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_1_1",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_1_1",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 36.4,
"y": 80.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_1_2",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_1_2",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 36.4,
"y": 56.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_1_3",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_1_3",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 36.4,
"y": 32.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_2_0",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_2_0",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 60.4,
"y": 104.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_2_1",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_2_1",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 60.4,
"y": 80.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_2_2",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_2_2",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 60.4,
"y": 56.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_2_3",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_2_3",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 60.4,
"y": 32.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_3_0",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_3_0",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 84.4,
"y": 104.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_3_1",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_3_1",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 84.4,
"y": 80.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_3_2",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_3_2",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 84.4,
"y": 56.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
},
{
"id": "\u7535\u6c60\u6599\u76d8_materialhole_3_3",
"name": "\u7535\u6c60\u6599\u76d8_materialhole_3_3",
"sample_id": null,
"children": [],
"parent": "\u7535\u6c60\u6599\u76d8",
"type": "container",
"class": "",
"position": {
"x": 84.4,
"y": 32.25,
"z": 10.0
},
"config": {
"type": "MaterialHole",
"size_x": 16,
"size_y": 16,
"size_z": 16,
"rotation": {
"x": 0,
"y": 0,
"z": 0,
"type": "Rotation"
},
"category": "material_hole",
"model": null,
"barcode": null
},
"data": {
"diameter": 20,
"depth": 10,
"max_sheets": 1,
"info": null
}
}
],
"links": []
}

4
unilabos/devices/workstation/coin_cell_assembly/new_cellconfig4.json
View File

@@ -16,9 +16,9 @@
},
"config": {
"debug_mode": false,
"_comment": "protocol_type接外部工站固定写法字段一般为空deck写法也固定",
"_comment": "protocol_type接外部工站固定写法字段一般为空station_resource写法也固定",
"protocol_type": [],
"deck": {
"station_resource": {
"data": {
"_resource_child_name": "coin_cell_deck",
"_resource_type": "unilabos.devices.workstation.coin_cell_assembly.button_battery_station:CoincellDeck"

750
unilabos/devices/workstation/coin_cell_assembly/test.ipynb Normal file
View File

@@ -0,0 +1,750 @@
{
"cells": [
{
"cell_type": "code",
"execution_count": 22,
"id": "80bc9500",
"metadata": {},
"outputs": [],
"source": [
"from __future__ import annotations\n",
"\n",
"from collections import OrderedDict\n",
"from typing import Any, Dict, List, Optional, TypedDict, Union, cast\n",
"\n",
"from pylabrobot.resources.coordinate import Coordinate\n",
"from pylabrobot.resources.container import Container\n",
"from pylabrobot.resources.deck import Deck\n",
"from pylabrobot.resources.itemized_resource import ItemizedResource\n",
"from pylabrobot.resources.resource import Resource\n",
"from pylabrobot.resources.resource_stack import ResourceStack\n",
"from pylabrobot.resources.tip_rack import TipRack, TipSpot\n",
"from pylabrobot.resources.trash import Trash\n",
"from pylabrobot.resources.utils import create_ordered_items_2d"
]
},
{
"cell_type": "markdown",
"id": "498a9159",
"metadata": {},
"source": [
"物料类型构建"
]
},
{
"cell_type": "code",
"execution_count": 23,
"id": "f4a27241",
"metadata": {},
"outputs": [],
"source": [
"\n",
"class ElectrodeSheetState(TypedDict):\n",
" diameter: float # 直径 (mm)\n",
" thickness: float # 厚度 (mm)\n",
" mass: float # 质量 (g)\n",
" material_type: str # 材料类型(正极、负极、隔膜、弹片、垫片、铝箔等)\n",
" info: Optional[str] # 附加信息\n",
"\n",
"class ElectrodeSheet(Resource):\n",
" \"\"\"极片类 - 包含正负极片、隔膜、弹片、垫片、铝箔等所有片状材料\"\"\"\n",
"\n",
" def __init__(\n",
" self,\n",
" name: str = \"极片\",\n",
" size_x=10,\n",
" size_y=10,\n",
" size_z=10,\n",
" category: str = \"electrode_sheet\",\n",
" model: Optional[str] = None,\n",
" ):\n",
" \"\"\"初始化极片\n",
"\n",
" Args:\n",
" name: 极片名称\n",
" category: 类别\n",
" model: 型号\n",
" \"\"\"\n",
" super().__init__(\n",
" name=name,\n",
" size_x=size_x,\n",
" size_y=size_y,\n",
" size_z=size_z,\n",
" category=category,\n",
" model=model,\n",
" )\n",
" self._unilabos_state: ElectrodeSheetState = ElectrodeSheetState(\n",
" diameter=14,\n",
" thickness=0.1,\n",
" mass=0.5,\n",
" material_type=\"copper\",\n",
" info=None\n",
" )\n",
"\n",
" # TODO: 这个还要不要给self._unilabos_state赋值的\n",
" def load_state(self, state: Dict[str, Any]) -> None:\n",
" \"\"\"格式不变\"\"\"\n",
" super().load_state(state)\n",
" self._unilabos_state = state\n",
" #序列化\n",
" def serialize_state(self) -> Dict[str, Dict[str, Any]]:\n",
" \"\"\"格式不变\"\"\"\n",
" data = super().serialize_state()\n",
" 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datastate用来表示物料的内容细节等\n",
" return data\n"
]
},
{
"cell_type": "code",
"execution_count": 24,
"id": "830f052e",
"metadata": {},
"outputs": [],
"source": [
"# TODO: 这个应该只能放一个极片\n",
"class MaterialHoleState(TypedDict):\n",
" diameter: int\n",
" depth: int\n",
" max_sheets: int\n",
" info: Optional[str] # 附加信息\n",
"\n",
"class MaterialHole(Resource):\n",
" \"\"\"料板洞位类\"\"\"\n",
" children: List[ElectrodeSheet] = []\n",
"\n",
" def __init__(\n",
" self,\n",
" name: str,\n",
" size_x: float,\n",
" size_y: float,\n",
" size_z: float,\n",
" category: str = \"material_hole\",\n",
" **kwargs\n",
" ):\n",
" super().__init__(\n",
" name=name,\n",
" size_x=size_x,\n",
" size_y=size_y,\n",
" size_z=size_z,\n",
" category=category,\n",
" )\n",
" self._unilabos_state: MaterialHoleState = MaterialHoleState(\n",
" diameter=20,\n",
" depth=10,\n",
" max_sheets=1,\n",
" info=None\n",
" )\n",
"\n",
" def get_all_sheet_info(self):\n",
" info_list = []\n",
" for sheet in self.children:\n",
" info_list.append(sheet._unilabos_state[\"info\"])\n",
" return info_list\n",
" \n",
" #这个函数函数好像没用,一般不会集中赋值质量\n",
" def set_all_sheet_mass(self):\n",
" for sheet in self.children:\n",
" sheet._unilabos_state[\"mass\"] = 0.5 # 示例设置质量为0.5g\n",
"\n",
" def load_state(self, state: Dict[str, Any]) -> None:\n",
" \"\"\"格式不变\"\"\"\n",
" super().load_state(state)\n",
" self._unilabos_state = state\n",
"\n",
" def serialize_state(self) -> Dict[str, Dict[str, Any]]:\n",
" \"\"\"格式不变\"\"\"\n",
" data = super().serialize_state()\n",
" 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datastate用来表示物料的内容细节等\n",
" return data\n",
" #移动极片前先取出对象\n",
" def get_sheet_with_name(self, name: str) -> Optional[ElectrodeSheet]:\n",
" for sheet in self.children:\n",
" if sheet.name == name:\n",
" return sheet\n",
" return None\n",
"\n",
" def has_electrode_sheet(self) -> bool:\n",
" \"\"\"检查洞位是否有极片\"\"\"\n",
" return len(self.children) > 0\n",
"\n",
" def assign_child_resource(\n",
" self,\n",
" resource: ElectrodeSheet,\n",
" location: Optional[Coordinate],\n",
" reassign: bool = True,\n",
" ):\n",
" \"\"\"放置极片\"\"\"\n",
" # TODO: 这里要改diameter找不到加入._unilabos_state后应该没问题\n",
" if resource._unilabos_state[\"diameter\"] > self._unilabos_state[\"diameter\"]:\n",
" raise ValueError(f\"极片直径 {resource._unilabos_state['diameter']} 超过洞位直径 {self._unilabos_state['diameter']}\")\n",
" if len(self.children) >= self._unilabos_state[\"max_sheets\"]:\n",
" raise ValueError(f\"洞位已满,无法放置更多极片\")\n",
" super().assign_child_resource(resource, location, reassign)\n",
"\n",
" # 根据children的编号取物料对象。\n",
" def get_electrode_sheet_info(self, index: int) -> ElectrodeSheet:\n",
" return self.children[index]\n",
"\n",
"\n",
"#料板\n",
"class MaterialPlateState(TypedDict):\n",
" hole_spacing_x: float\n",
" hole_spacing_y: float\n",
" hole_diameter: float\n",
" info: Optional[str] # 附加信息\n",
"\n",
"class MaterialPlate(ItemizedResource[MaterialHole]):\n",
" \"\"\"料板类 - 4x4个洞位每个洞位放1个极片\"\"\"\n",
" \n",
" children: List[MaterialHole]\n",
"\n",
" def __init__(\n",
" self,\n",
" name: str,\n",
" size_x: float,\n",
" size_y: float,\n",
" size_z: float,\n",
" ordered_items: Optional[Dict[str, MaterialHole]] = None,\n",
" ordering: Optional[OrderedDict[str, str]] = None,\n",
" category: str = \"material_plate\",\n",
" model: Optional[str] = None,\n",
" fill: bool = False\n",
" ):\n",
" \"\"\"初始化料板\n",
"\n",
" Args:\n",
" name: 料板名称\n",
" size_x: 长度 (mm)\n",
" size_y: 宽度 (mm)\n",
" size_z: 高度 (mm)\n",
" hole_diameter: 洞直径 (mm)\n",
" hole_depth: 洞深度 (mm)\n",
" hole_spacing_x: X方向洞位间距 (mm)\n",
" hole_spacing_y: Y方向洞位间距 (mm)\n",
" number: 编号\n",
" category: 类别\n",
" model: 型号\n",
" \"\"\"\n",
" self._unilabos_state: MaterialPlateState = MaterialPlateState(\n",
" hole_spacing_x=24.0,\n",
" hole_spacing_y=24.0,\n",
" hole_diameter=20.0,\n",
" info=\"\",\n",
" )\n",
" # 创建4x4的洞位\n",
" # TODO: 这里要改,对应不同形状\n",
" holes = create_ordered_items_2d(\n",
" klass=MaterialHole,\n",
" num_items_x=4,\n",
" num_items_y=4,\n",
" dx=(size_x - 4 * self._unilabos_state[\"hole_spacing_x\"]) / 2, # 居中\n",
" dy=(size_y - 4 * self._unilabos_state[\"hole_spacing_y\"]) / 2, # 居中\n",
" dz=size_z,\n",
" item_dx=self._unilabos_state[\"hole_spacing_x\"],\n",
" item_dy=self._unilabos_state[\"hole_spacing_y\"],\n",
" size_x = 16,\n",
" size_y = 16,\n",
" size_z = 16,\n",
" )\n",
" if fill:\n",
" super().__init__(\n",
" name=name,\n",
" size_x=size_x,\n",
" size_y=size_y,\n",
" size_z=size_z,\n",
" ordered_items=holes,\n",
" category=category,\n",
" model=model,\n",
" )\n",
" else:\n",
" super().__init__(\n",
" name=name,\n",
" size_x=size_x,\n",
" size_y=size_y,\n",
" size_z=size_z,\n",
" ordered_items=ordered_items,\n",
" ordering=ordering,\n",
" category=category,\n",
" model=model,\n",
" )\n",
"\n",
" def update_locations(self):\n",
" # TODO:调多次相加\n",
" holes = create_ordered_items_2d(\n",
" klass=MaterialHole,\n",
" num_items_x=4,\n",
" num_items_y=4,\n",
" dx=(self._size_x - 3 * self._unilabos_state[\"hole_spacing_x\"]) / 2, # 居中\n",
" dy=(self._size_y - 3 * self._unilabos_state[\"hole_spacing_y\"]) / 2, # 居中\n",
" dz=self._size_z,\n",
" item_dx=self._unilabos_state[\"hole_spacing_x\"],\n",
" item_dy=self._unilabos_state[\"hole_spacing_y\"],\n",
" size_x = 1,\n",
" size_y = 1,\n",
" size_z = 1,\n",
" )\n",
" for item, original_item in zip(holes.items(), self.children):\n",
" original_item.location = item[1].location"
]
},
{
"cell_type": "code",
"execution_count": 25,
"id": "8318ccca",
"metadata": {},
"outputs": [],
"source": [
"class CoincellDeck(Deck):\n",
" \"\"\"纽扣电池组装工作站台面类\"\"\"\n",
"\n",
" def __init__(\n",
" self,\n",
" name: str = \"coin_cell_deck\",\n",
" size_x: float = 1620.0, # 3.66m\n",
" size_y: float = 1270.0, # 1.23m\n",
" size_z: float = 500.0,\n",
" origin: Coordinate = Coordinate(0, 0, 0),\n",
" category: str = \"coin_cell_deck\",\n",
" ):\n",
" \"\"\"初始化纽扣电池组装工作站台面\n",
"\n",
" Args:\n",
" name: 台面名称\n",
" size_x: 长度 (mm) - 3.66m\n",
" size_y: 宽度 (mm) - 1.23m\n",
" size_z: 高度 (mm)\n",
" origin: 原点坐标\n",
" category: 类别\n",
" \"\"\"\n",
" super().__init__(\n",
" name=name,\n",
" size_x=size_x,\n",
" size_y=size_y,\n",
" size_z=size_z,\n",
" origin=origin,\n",
" category=category,\n",
" )"
]
},
{
"cell_type": "code",
"execution_count": 7,
"id": "c73bae21",
"metadata": {},
"outputs": [],
"source": [
"import json"
]
},
{
"cell_type": "code",
"execution_count": 17,
"id": "3369a1dd",
"metadata": {},
"outputs": [],
"source": [
"def upload_resources_to_unilab(wuliao: List[Resource]):\n",
" from unilabos.resources.graphio import convert_resources_from_type\n",
" from unilabos.config.config import BasicConfig \n",
" BasicConfig.ak = \"beb0c15f-2279-46a1-aba5-00eaf89aef55\"\n",
" BasicConfig.sk = \"15d4f25e-3512-4f9c-9bfb-43ab85e7b561\"\n",
" from unilabos.app.web.client import http_client\n",
" resources = convert_resources_from_type(wuliao, [Resource])\n",
" json.dump({\"nodes\": resources, \"links\": []}, open(\"button_battery_station_resources_unilab.json\", \"w\"), indent=2)\n",
" \n",
" #print(resources)\n",
" http_client.remote_addr = \"https://uni-lab.test.bohrium.com/api/v1\"\n",
" \n",
" http_client.resource_add(resources)"
]
},
{
"cell_type": "code",
"execution_count": 29,
"id": "1543ddab",
"metadata": {},
"outputs": [],
"source": [
"liaopan1 = MaterialPlate(name=\"liaopan1\", size_x=120.8, size_y=120.5, size_z=10.0, fill=True)"
]
},
{
"cell_type": "code",
"execution_count": 30,
"id": "b732754a",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"MaterialPlate(name=liaopan1, size_x=120.8, size_y=120.5, size_z=10.0, location=None)\n"
]
}
],
"source": [
"print(liaopan1)"
]
},
{
"cell_type": "code",
"execution_count": 31,
"id": "7e6e7252",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"[MaterialHole(name=liaopan1_materialhole_0_0, location=Coordinate(012.400, 084.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_0_1, location=Coordinate(012.400, 060.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_0_2, location=Coordinate(012.400, 036.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_0_3, location=Coordinate(012.400, 012.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_1_0, location=Coordinate(036.400, 084.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_1_1, location=Coordinate(036.400, 060.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_1_2, location=Coordinate(036.400, 036.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_1_3, location=Coordinate(036.400, 012.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_2_0, location=Coordinate(060.400, 084.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_2_1, location=Coordinate(060.400, 060.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_2_2, location=Coordinate(060.400, 036.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_2_3, location=Coordinate(060.400, 012.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_3_0, location=Coordinate(084.400, 084.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_3_1, location=Coordinate(084.400, 060.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_3_2, location=Coordinate(084.400, 036.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole), MaterialHole(name=liaopan1_materialhole_3_3, location=Coordinate(084.400, 012.250, 010.000), size_x=16, size_y=16, size_z=16, category=material_hole)]\n"
]
}
],
"source": [
"print(liaopan1.children)"
]
},
{
"cell_type": "code",
"execution_count": 26,
"id": "836ff68d",
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"\u001b[37m25-09-22 [15:15:08,950]\u001b[0m \u001b[1;36m[DEBUG]\u001b[0m \u001b[37mStarting new HTTPS connection (1): uni-lab.test.bohrium.com:443\u001b[37m [_new_conn:1049] [urllib3.connectionpool.connectionpool]\u001b[0m\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"CoincellDeck(name=coin_cell_deck, location=Coordinate(000.000, 000.000, 000.000), size_x=1620.0, size_y=1270.0, size_z=500.0, category=coin_cell_deck)\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_plate\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_plate\n",
"转换pylabrobot的时候出现未知类型 coin_cell_deck\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"\u001b[37m25-09-22 [15:15:09,218]\u001b[0m \u001b[1;36m[DEBUG]\u001b[0m \u001b[37mhttps://uni-lab.test.bohrium.com:443 \"POST /api/v1/lab/material HTTP/1.1\" 200 10\u001b[37m [_make_request:544] [urllib3.connectionpool.connectionpool]\u001b[0m\n"
]
}
],
"source": [
"deck = CoincellDeck()\n",
"#创建一个4*4的物料板\n",
"liaopan1 = MaterialPlate(name=\"liaopan1\", size_x=120.8, size_y=120.5, size_z=10.0, fill=True)\n",
"#把物料板放到桌子上\n",
"deck.assign_child_resource(liaopan1, Coordinate(x=0, y=0, z=0))\n",
"#创建一个极片\n",
"for i in range(16):\n",
" jipian = ElectrodeSheet(name=f\"jipian_{i}\", size_x= 12, size_y=12, size_z=0.1)\n",
" liaopan1.children[i].assign_child_resource(jipian, location=None)\n",
"#创建一个4*4的物料板\n",
"liaopan2 = MaterialPlate(name=\"liaopan2\", size_x=120.8, size_y=120.5, size_z=10.0, fill=True)\n",
"#把物料板放到桌子上\n",
"deck.assign_child_resource(liaopan2, Coordinate(x=500, y=0, z=0))\n",
"#liaopan.children[3].assign_child_resource(jipian, location=None)\n",
"print(deck)\n",
"\n",
"upload_resources_to_unilab([deck])"
]
},
{
"cell_type": "code",
"execution_count": 20,
"id": "00aab9cf",
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"MaterialPlate(name=liaopan1, size_x=120.8, size_y=120.5, size_z=10.0, location=Coordinate(000.000, 000.000, 000.000))\n"
]
}
],
"source": [
"liaopan1 = deck.get_resource(\"liaopan1\")\n",
"print(liaopan1)"
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "7409969c",
"metadata": {},
"outputs": [],
"source": [
"liaopan1 = deck.get_resource(\"liaopan1\")\n"
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "096dde04",
"metadata": {},
"outputs": [],
"source": [
"print()"
]
},
{
"cell_type": "code",
"execution_count": 27,
"id": "5528df96",
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"\u001b[37m25-09-22 [15:17:44,322]\u001b[0m \u001b[1;36m[DEBUG]\u001b[0m \u001b[37mStarting new HTTPS connection (1): uni-lab.test.bohrium.com:443\u001b[37m [_new_conn:1049] [urllib3.connectionpool.connectionpool]\u001b[0m\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"ElectrodeSheet(name=jipian_1, location=None, size_x=12, size_y=12, size_z=0.1, category=electrode_sheet)\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_plate\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_plate\n",
"转换pylabrobot的时候出现未知类型 coin_cell_deck\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"\u001b[37m25-09-22 [15:17:44,599]\u001b[0m \u001b[1;36m[DEBUG]\u001b[0m \u001b[37mhttps://uni-lab.test.bohrium.com:443 \"POST /api/v1/lab/material HTTP/1.1\" 200 10\u001b[37m [_make_request:544] [urllib3.connectionpool.connectionpool]\u001b[0m\n"
]
}
],
"source": [
"#在台面上找到料盘和极片\n",
"liaopan1 = deck.get_resource(\"liaopan1\")\n",
"liaopan2 = deck.get_resource(\"liaopan2\")\n",
"jipian1 = liaopan1.children[1].children[0]\n",
"#\n",
"print(jipian1)\n",
"#把物料解绑后放到另一盘上\n",
"jipian1.parent.unassign_child_resource(jipian1)\n",
"liaopan2.children[1].assign_child_resource(jipian1, location=None)\n",
"#print(jipian2.parent)\n",
"upload_resources_to_unilab([deck])"
]
},
{
"cell_type": "code",
"execution_count": null,
"id": "43736700",
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"\u001b[37m25-09-22 [14:31:50,027]\u001b[0m \u001b[1;36m[DEBUG]\u001b[0m \u001b[37mStarting new HTTPS connection (1): uni-lab.test.bohrium.com:443\u001b[37m [_new_conn:1049] [urllib3.connectionpool.connectionpool]\u001b[0m\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_plate\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 electrode_sheet\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_hole\n",
"转换pylabrobot的时候出现未知类型 material_plate\n",
"转换pylabrobot的时候出现未知类型 coin_cell_deck\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"\u001b[37m25-09-22 [14:31:50,358]\u001b[0m \u001b[1;36m[DEBUG]\u001b[0m \u001b[37mhttps://uni-lab.test.bohrium.com:443 \"POST /api/v1/lab/material HTTP/1.1\" 200 10\u001b[37m [_make_request:544] [urllib3.connectionpool.connectionpool]\u001b[0m\n"
]
},
{
"data": {
"text/plain": [
"<Response [200]>"
]
},
"execution_count": 16,
"metadata": {},
"output_type": "execute_result"
}
],
"source": []
}
],
"metadata": {
"kernelspec": {
"display_name": "unilab",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.11.11"
}
},
"nbformat": 4,
"nbformat_minor": 5
}

6674
unilabos/devices/workstation/coin_cell_assembly/work_station.yaml Normal file
View File

File diff suppressed because it is too large Load Diff

2
unilabos/devices/workstation/workstation_http_service.py
View File

@@ -668,7 +668,7 @@ __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):

3
unilabos/registry/devices/bioyond.yaml
View File

@@ -242,8 +242,11 @@ workstation.bioyond_dispensing_station:
properties:
config:
type: string
deck:
type: string
required:
- config
- deck
type: object
data:
properties: {}

834
unilabos/registry/devices/bioyond_cell.yaml Normal file
View File

@@ -0,0 +1,834 @@
bioyond_cell:
category:
- bioyond_cell
class:
action_value_mappings:
auto-auto_batch_outbound_from_xlsx:
feedback: {}
goal: {}
goal_default:
xlsx_path: null
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
xlsx_path:
type: string
required:
- xlsx_path
type: object
result: {}
required:
- goal
title: auto_batch_outbound_from_xlsx参数
type: object
type: UniLabJsonCommand
auto-auto_feeding4to3:
feedback: {}
goal: {}
goal_default:
WH3_x1_y1_z3_1_materialId: ''
WH3_x1_y1_z3_1_materialType: ''
WH3_x1_y1_z3_1_quantity: 0
WH3_x1_y2_z3_4_materialId: ''
WH3_x1_y2_z3_4_materialType: ''
WH3_x1_y2_z3_4_quantity: 0
WH3_x1_y3_z3_7_materialId: ''
WH3_x1_y3_z3_7_materialType: ''
WH3_x1_y3_z3_7_quantity: 0
WH3_x1_y4_z3_10_materialId: ''
WH3_x1_y4_z3_10_materialType: ''
WH3_x1_y4_z3_10_quantity: 0
WH3_x1_y5_z3_13_materialId: ''
WH3_x1_y5_z3_13_materialType: ''
WH3_x1_y5_z3_13_quantity: 0
WH3_x2_y1_z3_2_materialId: ''
WH3_x2_y1_z3_2_materialType: ''
WH3_x2_y1_z3_2_quantity: 0
WH3_x2_y2_z3_5_materialId: ''
WH3_x2_y2_z3_5_materialType: ''
WH3_x2_y2_z3_5_quantity: 0
WH3_x2_y3_z3_8_materialId: ''
WH3_x2_y3_z3_8_materialType: ''
WH3_x2_y3_z3_8_quantity: 0
WH3_x2_y4_z3_11_materialId: ''
WH3_x2_y4_z3_11_materialType: ''
WH3_x2_y4_z3_11_quantity: 0
WH3_x2_y5_z3_14_materialId: ''
WH3_x2_y5_z3_14_materialType: ''
WH3_x2_y5_z3_14_quantity: 0
WH3_x3_y1_z3_3_materialId: ''
WH3_x3_y1_z3_3_materialType: ''
WH3_x3_y1_z3_3_quantity: 0
WH3_x3_y2_z3_6_materialId: ''
WH3_x3_y2_z3_6_materialType: ''
WH3_x3_y2_z3_6_quantity: 0
WH3_x3_y3_z3_9_materialId: ''
WH3_x3_y3_z3_9_materialType: ''
WH3_x3_y3_z3_9_quantity: 0
WH3_x3_y4_z3_12_materialId: ''
WH3_x3_y4_z3_12_materialType: ''
WH3_x3_y4_z3_12_quantity: 0
WH3_x3_y5_z3_15_materialId: ''
WH3_x3_y5_z3_15_materialType: ''
WH3_x3_y5_z3_15_quantity: 0
WH4_x1_y1_z1_1_materialName: ''
WH4_x1_y1_z1_1_quantity: 0.0
WH4_x1_y1_z2_1_materialName: ''
WH4_x1_y1_z2_1_materialType: ''
WH4_x1_y1_z2_1_quantity: 0.0
WH4_x1_y1_z2_1_targetWH: ''
WH4_x1_y2_z1_6_materialName: ''
WH4_x1_y2_z1_6_quantity: 0.0
WH4_x1_y2_z2_4_materialName: ''
WH4_x1_y2_z2_4_materialType: ''
WH4_x1_y2_z2_4_quantity: 0.0
WH4_x1_y2_z2_4_targetWH: ''
WH4_x1_y3_z1_11_materialName: ''
WH4_x1_y3_z1_11_quantity: 0.0
WH4_x1_y3_z2_7_materialName: ''
WH4_x1_y3_z2_7_materialType: ''
WH4_x1_y3_z2_7_quantity: 0.0
WH4_x1_y3_z2_7_targetWH: ''
WH4_x2_y1_z1_2_materialName: ''
WH4_x2_y1_z1_2_quantity: 0.0
WH4_x2_y1_z2_2_materialName: ''
WH4_x2_y1_z2_2_materialType: ''
WH4_x2_y1_z2_2_quantity: 0.0
WH4_x2_y1_z2_2_targetWH: ''
WH4_x2_y2_z1_7_materialName: ''
WH4_x2_y2_z1_7_quantity: 0.0
WH4_x2_y2_z2_5_materialName: ''
WH4_x2_y2_z2_5_materialType: ''
WH4_x2_y2_z2_5_quantity: 0.0
WH4_x2_y2_z2_5_targetWH: ''
WH4_x2_y3_z1_12_materialName: ''
WH4_x2_y3_z1_12_quantity: 0.0
WH4_x2_y3_z2_8_materialName: ''
WH4_x2_y3_z2_8_materialType: ''
WH4_x2_y3_z2_8_quantity: 0.0
WH4_x2_y3_z2_8_targetWH: ''
WH4_x3_y1_z1_3_materialName: ''
WH4_x3_y1_z1_3_quantity: 0.0
WH4_x3_y1_z2_3_materialName: ''
WH4_x3_y1_z2_3_materialType: ''
WH4_x3_y1_z2_3_quantity: 0.0
WH4_x3_y1_z2_3_targetWH: ''
WH4_x3_y2_z1_8_materialName: ''
WH4_x3_y2_z1_8_quantity: 0.0
WH4_x3_y2_z2_6_materialName: ''
WH4_x3_y2_z2_6_materialType: ''
WH4_x3_y2_z2_6_quantity: 0.0
WH4_x3_y2_z2_6_targetWH: ''
WH4_x3_y3_z2_9_materialName: ''
WH4_x3_y3_z2_9_materialType: ''
WH4_x3_y3_z2_9_quantity: 0.0
WH4_x3_y3_z2_9_targetWH: ''
WH4_x4_y1_z1_4_materialName: ''
WH4_x4_y1_z1_4_quantity: 0.0
WH4_x4_y2_z1_9_materialName: ''
WH4_x4_y2_z1_9_quantity: 0.0
WH4_x5_y1_z1_5_materialName: ''
WH4_x5_y1_z1_5_quantity: 0.0
WH4_x5_y2_z1_10_materialName: ''
WH4_x5_y2_z1_10_quantity: 0.0
xlsx_path: unilabos/devices/workstation/bioyond_cell/样品导入模板.xlsx
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
WH3_x1_y1_z3_1_materialId:
default: ''
type: string
WH3_x1_y1_z3_1_materialType:
default: ''
type: string
WH3_x1_y1_z3_1_quantity:
default: 0
type: number
WH3_x1_y2_z3_4_materialId:
default: ''
type: string
WH3_x1_y2_z3_4_materialType:
default: ''
type: string
WH3_x1_y2_z3_4_quantity:
default: 0
type: number
WH3_x1_y3_z3_7_materialId:
default: ''
type: string
WH3_x1_y3_z3_7_materialType:
default: ''
type: string
WH3_x1_y3_z3_7_quantity:
default: 0
type: number
WH3_x1_y4_z3_10_materialId:
default: ''
type: string
WH3_x1_y4_z3_10_materialType:
default: ''
type: string
WH3_x1_y4_z3_10_quantity:
default: 0
type: number
WH3_x1_y5_z3_13_materialId:
default: ''
type: string
WH3_x1_y5_z3_13_materialType:
default: ''
type: string
WH3_x1_y5_z3_13_quantity:
default: 0
type: number
WH3_x2_y1_z3_2_materialId:
default: ''
type: string
WH3_x2_y1_z3_2_materialType:
default: ''
type: string
WH3_x2_y1_z3_2_quantity:
default: 0
type: number
WH3_x2_y2_z3_5_materialId:
default: ''
type: string
WH3_x2_y2_z3_5_materialType:
default: ''
type: string
WH3_x2_y2_z3_5_quantity:
default: 0
type: number
WH3_x2_y3_z3_8_materialId:
default: ''
type: string
WH3_x2_y3_z3_8_materialType:
default: ''
type: string
WH3_x2_y3_z3_8_quantity:
default: 0
type: number
WH3_x2_y4_z3_11_materialId:
default: ''
type: string
WH3_x2_y4_z3_11_materialType:
default: ''
type: string
WH3_x2_y4_z3_11_quantity:
default: 0
type: number
WH3_x2_y5_z3_14_materialId:
default: ''
type: string
WH3_x2_y5_z3_14_materialType:
default: ''
type: string
WH3_x2_y5_z3_14_quantity:
default: 0
type: number
WH3_x3_y1_z3_3_materialId:
default: ''
type: string
WH3_x3_y1_z3_3_materialType:
default: ''
type: string
WH3_x3_y1_z3_3_quantity:
default: 0
type: number
WH3_x3_y2_z3_6_materialId:
default: ''
type: string
WH3_x3_y2_z3_6_materialType:
default: ''
type: string
WH3_x3_y2_z3_6_quantity:
default: 0
type: number
WH3_x3_y3_z3_9_materialId:
default: ''
type: string
WH3_x3_y3_z3_9_materialType:
default: ''
type: string
WH3_x3_y3_z3_9_quantity:
default: 0
type: number
WH3_x3_y4_z3_12_materialId:
default: ''
type: string
WH3_x3_y4_z3_12_materialType:
default: ''
type: string
WH3_x3_y4_z3_12_quantity:
default: 0
type: number
WH3_x3_y5_z3_15_materialId:
default: ''
type: string
WH3_x3_y5_z3_15_materialType:
default: ''
type: string
WH3_x3_y5_z3_15_quantity:
default: 0
type: number
WH4_x1_y1_z1_1_materialName:
default: ''
type: string
WH4_x1_y1_z1_1_quantity:
default: 0.0
type: number
WH4_x1_y1_z2_1_materialName:
default: ''
type: string
WH4_x1_y1_z2_1_materialType:
default: ''
type: string
WH4_x1_y1_z2_1_quantity:
default: 0.0
type: number
WH4_x1_y1_z2_1_targetWH:
default: ''
type: string
WH4_x1_y2_z1_6_materialName:
default: ''
type: string
WH4_x1_y2_z1_6_quantity:
default: 0.0
type: number
WH4_x1_y2_z2_4_materialName:
default: ''
type: string
WH4_x1_y2_z2_4_materialType:
default: ''
type: string
WH4_x1_y2_z2_4_quantity:
default: 0.0
type: number
WH4_x1_y2_z2_4_targetWH:
default: ''
type: string
WH4_x1_y3_z1_11_materialName:
default: ''
type: string
WH4_x1_y3_z1_11_quantity:
default: 0.0
type: number
WH4_x1_y3_z2_7_materialName:
default: ''
type: string
WH4_x1_y3_z2_7_materialType:
default: ''
type: string
WH4_x1_y3_z2_7_quantity:
default: 0.0
type: number
WH4_x1_y3_z2_7_targetWH:
default: ''
type: string
WH4_x2_y1_z1_2_materialName:
default: ''
type: string
WH4_x2_y1_z1_2_quantity:
default: 0.0
type: number
WH4_x2_y1_z2_2_materialName:
default: ''
type: string
WH4_x2_y1_z2_2_materialType:
default: ''
type: string
WH4_x2_y1_z2_2_quantity:
default: 0.0
type: number
WH4_x2_y1_z2_2_targetWH:
default: ''
type: string
WH4_x2_y2_z1_7_materialName:
default: ''
type: string
WH4_x2_y2_z1_7_quantity:
default: 0.0
type: number
WH4_x2_y2_z2_5_materialName:
default: ''
type: string
WH4_x2_y2_z2_5_materialType:
default: ''
type: string
WH4_x2_y2_z2_5_quantity:
default: 0.0
type: number
WH4_x2_y2_z2_5_targetWH:
default: ''
type: string
WH4_x2_y3_z1_12_materialName:
default: ''
type: string
WH4_x2_y3_z1_12_quantity:
default: 0.0
type: number
WH4_x2_y3_z2_8_materialName:
default: ''
type: string
WH4_x2_y3_z2_8_materialType:
default: ''
type: string
WH4_x2_y3_z2_8_quantity:
default: 0.0
type: number
WH4_x2_y3_z2_8_targetWH:
default: ''
type: string
WH4_x3_y1_z1_3_materialName:
default: ''
type: string
WH4_x3_y1_z1_3_quantity:
default: 0.0
type: number
WH4_x3_y1_z2_3_materialName:
default: ''
type: string
WH4_x3_y1_z2_3_materialType:
default: ''
type: string
WH4_x3_y1_z2_3_quantity:
default: 0.0
type: number
WH4_x3_y1_z2_3_targetWH:
default: ''
type: string
WH4_x3_y2_z1_8_materialName:
default: ''
type: string
WH4_x3_y2_z1_8_quantity:
default: 0.0
type: number
WH4_x3_y2_z2_6_materialName:
default: ''
type: string
WH4_x3_y2_z2_6_materialType:
default: ''
type: string
WH4_x3_y2_z2_6_quantity:
default: 0.0
type: number
WH4_x3_y2_z2_6_targetWH:
default: ''
type: string
WH4_x3_y3_z2_9_materialName:
default: ''
type: string
WH4_x3_y3_z2_9_materialType:
default: ''
type: string
WH4_x3_y3_z2_9_quantity:
default: 0.0
type: number
WH4_x3_y3_z2_9_targetWH:
default: ''
type: string
WH4_x4_y1_z1_4_materialName:
default: ''
type: string
WH4_x4_y1_z1_4_quantity:
default: 0.0
type: number
WH4_x4_y2_z1_9_materialName:
default: ''
type: string
WH4_x4_y2_z1_9_quantity:
default: 0.0
type: number
WH4_x5_y1_z1_5_materialName:
default: ''
type: string
WH4_x5_y1_z1_5_quantity:
default: 0.0
type: number
WH4_x5_y2_z1_10_materialName:
default: ''
type: string
WH4_x5_y2_z1_10_quantity:
default: 0.0
type: number
xlsx_path:
default: unilabos/devices/workstation/bioyond_cell/样品导入模板.xlsx
type: string
required: []
type: object
result: {}
required:
- goal
title: auto_feeding4to3参数
type: object
type: UniLabJsonCommand
auto-auto_feeding4to3_from_xlsx:
feedback: {}
goal: {}
goal_default:
xlsx_path: null
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
xlsx_path:
type: string
required:
- xlsx_path
type: object
result: {}
required:
- goal
title: auto_feeding4to3_from_xlsx参数
type: object
type: UniLabJsonCommand
auto-create_orders:
feedback: {}
goal: {}
goal_default:
xlsx_path: null
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
xlsx_path:
type: string
required:
- xlsx_path
type: object
result: {}
required:
- goal
title: create_orders参数
type: object
type: UniLabJsonCommand
auto-order_list_v2:
feedback: {}
goal: {}
goal_default:
beginTime: ''
endTime: ''
filter: ''
pageCount: 1
skipCount: 0
sorting: ''
status: ''
timeType: ''
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
beginTime:
default: ''
type: string
endTime:
default: ''
type: string
filter:
default: ''
type: string
pageCount:
default: 1
type: integer
skipCount:
default: 0
type: integer
sorting:
default: ''
type: string
status:
default: ''
type: string
timeType:
default: ''
type: string
required: []
type: object
result: {}
required:
- goal
title: order_list_v2参数
type: object
type: UniLabJsonCommand
auto-report_material_change:
feedback: {}
goal: {}
goal_default:
material_obj: null
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
material_obj:
type: object
required:
- material_obj
type: object
result: {}
required:
- goal
title: report_material_change参数
type: object
type: UniLabJsonCommand
auto-scheduler_continue:
feedback: {}
goal: {}
goal_default: {}
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties: {}
required: []
type: object
result: {}
required:
- goal
title: scheduler_continue参数
type: object
type: UniLabJsonCommand
auto-scheduler_start:
feedback: {}
goal: {}
goal_default: {}
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties: {}
required: []
type: object
result: {}
required:
- goal
title: scheduler_start参数
type: object
type: UniLabJsonCommand
auto-scheduler_stop:
feedback: {}
goal: {}
goal_default: {}
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties: {}
required: []
type: object
result: {}
required:
- goal
title: scheduler_stop参数
type: object
type: UniLabJsonCommand
auto-storage_batch_inbound:
feedback: {}
goal: {}
goal_default:
items: null
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
items:
items:
type: object
type: array
required:
- items
type: object
result: {}
required:
- goal
title: storage_batch_inbound参数
type: object
type: UniLabJsonCommand
auto-storage_inbound:
feedback: {}
goal: {}
goal_default:
location_id: null
material_id: null
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
location_id:
type: string
material_id:
type: string
required:
- material_id
- location_id
type: object
result: {}
required:
- goal
title: storage_inbound参数
type: object
type: UniLabJsonCommand
auto-transfer_1_to_2:
feedback: {}
goal: {}
goal_default: {}
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties: {}
required: []
type: object
result: {}
required:
- goal
title: transfer_1_to_2参数
type: object
type: UniLabJsonCommand
auto-transfer_3_to_2_to_1:
feedback: {}
goal: {}
goal_default:
source_wh_id: 3a19debc-84b4-0359-e2d4-b3beea49348b
source_x: 1
source_y: 1
source_z: 1
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
source_wh_id:
default: 3a19debc-84b4-0359-e2d4-b3beea49348b
type: string
source_x:
default: 1
type: integer
source_y:
default: 1
type: integer
source_z:
default: 1
type: integer
required: []
type: object
result: {}
required:
- goal
title: transfer_3_to_2_to_1参数
type: object
type: UniLabJsonCommand
auto-wait_for_transfer_task:
feedback: {}
goal: {}
goal_default:
filter_text: null
interval: 5
timeout: 3000
handles: {}
placeholder_keys: {}
result: {}
schema:
description: ''
properties:
feedback: {}
goal:
properties:
filter_text:
type: string
interval:
default: 5
type: integer
timeout:
default: 3000
type: integer
required: []
type: object
result: {}
required:
- goal
title: wait_for_transfer_task参数
type: object
type: UniLabJsonCommand
module: unilabos.devices.workstation.bioyond_studio.bioyond_cell.bioyond_cell_workstation:BioyondCellWorkstation
status_types: {}
type: python
config_info: []
description: ''
handles: []
icon: ''
init_param_schema:
config:
properties:
bioyond_config:
type: string
station_resource:
type: string
required: []
type: object
data:
properties: {}
required: []
type: object
registry_type: device
version: 1.0.0

228
unilabos/registry/devices/characterization_chromatic.yaml
View File

@@ -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

195
unilabos/registry/devices/characterization_optic.yaml
View File

@@ -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
{}

31
unilabos/registry/devices/reaction_station_bioyond.yaml
View File

@@ -75,31 +75,6 @@ reaction_station.bioyond:
title: load_bioyond_data_from_file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-post_init:
feedback: {}
goal: {}
@@ -729,6 +704,7 @@ reaction_station.bioyond:
status_types:
all_workflows: dict
bioyond_status: dict
station_info: dict
workstation_status: dict
type: python
config_info: []
@@ -742,8 +718,6 @@ reaction_station.bioyond:
type: string
deck:
type: string
station_config:
type: string
required: []
type: object
data:
@@ -752,11 +726,14 @@ reaction_station.bioyond:
type: object
bioyond_status:
type: object
station_info:
type: object
workstation_status:
type: object
required:
- bioyond_status
- all_workflows
- station_info
- workstation_status
type: object
version: 1.0.0

171
unilabos/registry/devices/robot_linear_motion.yaml
View File

@@ -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

31
unilabos/registry/devices/work_station.yaml
View File

@@ -6120,31 +6120,6 @@ workstation.bioyond:
title: load_bioyond_data_from_file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-post_init:
feedback: {}
goal: {}
@@ -6460,6 +6435,7 @@ workstation.bioyond:
status_types:
all_workflows: dict
bioyond_status: dict
station_info: dict
workstation_status: dict
type: python
config_info: []
@@ -6473,8 +6449,6 @@ workstation.bioyond:
type: string
deck:
type: string
station_config:
type: string
required: []
type: object
data:
@@ -6483,11 +6457,14 @@ workstation.bioyond:
type: object
bioyond_status:
type: object
station_info:
type: object
workstation_status:
type: object
required:
- bioyond_status
- all_workflows
- station_info
- workstation_status
type: object
version: 1.0.0

108
unilabos/registry/resources/bioyond/bottle_carriers.yaml
View File

@@ -1,46 +1,130 @@
BIOYOND_PolymerStation_1BottleCarrier:
1BottleCarrier:
category:
- bottle_carriers
class:
module: unilabos.resources.bioyond.bottle_carriers:BIOYOND_PolymerStation_1BottleCarrier
module: unilabos.resources.bioyond.bottle_carriers:YB_1BottleCarrier
type: pylabrobot
description: BIOYOND_PolymerStation_1BottleCarrier
description: 1BottleCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
BIOYOND_PolymerStation_1FlaskCarrier:
1FlaskCarrier:
category:
- bottle_carriers
class:
module: unilabos.resources.bioyond.bottle_carriers:BIOYOND_PolymerStation_1FlaskCarrier
module: unilabos.resources.bioyond.bottle_carriers:YB_1FlaskCarrier
type: pylabrobot
description: BIOYOND_PolymerStation_1FlaskCarrier
description: 1FlaskCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
BIOYOND_PolymerStation_6StockCarrier:
6StockCarrier:
category:
- bottle_carriers
class:
module: unilabos.resources.bioyond.bottle_carriers:BIOYOND_PolymerStation_6StockCarrier
module: unilabos.resources.bioyond.bottle_carriers:YB_6StockCarrier
type: pylabrobot
description: BIOYOND_PolymerStation_6StockCarrier
description: 6StockCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
BIOYOND_PolymerStation_6VialCarrier:
6VialCarrier:
category:
- bottle_carriers
class:
module: unilabos.resources.bioyond.bottle_carriers:BIOYOND_PolymerStation_6VialCarrier
module: unilabos.resources.bioyond.bottle_carriers:YB_6VialCarrier
type: pylabrobot
description: BIOYOND_PolymerStation_6VialCarrier
description: 6VialCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
6x5ml_DispensingVialCarrier:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_6x5ml_DispensingVialCarrier
type: pylabrobot
description: 6x5ml_DispensingVialCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
6x20ml_DispensingVialCarrier:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_6x20ml_DispensingVialCarrier
type: pylabrobot
description: 6x20ml_DispensingVialCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
6x_SmallSolutionBottleCarrier:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_6x_SmallSolutionBottleCarrier
type: pylabrobot
description: 6x_SmallSolutionBottleCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
4x_LargeSolutionBottleCarrier:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_4x_LargeSolutionBottleCarrier
type: pylabrobot
description: 4x_LargeSolutionBottleCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
6x_LargeDispenseHeadCarrier:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_6x_LargeDispenseHeadCarrier
type: pylabrobot
description: 6x_LargeDispenseHeadCarrier
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
AdapterBlock:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_AdapterBlock
type: pylabrobot
description: AdapterBlock
handles: []
icon: ''
init_param_schema: {}
registry_type: resource
version: 1.0.0
TipBox:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottle_carriers:YB_TipBox
type: pylabrobot
description: TipBox
handles: []
icon: ''
init_param_schema: {}

251
unilabos/registry/resources/bioyond/bottles.yaml
View File

@@ -1,48 +1,279 @@
BIOYOND_PolymerStation_Liquid_Vial:
Liquid_Vial:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:BIOYOND_PolymerStation_Liquid_Vial
module: unilabos.resources.bioyond.bottles:YB_Liquid_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
BIOYOND_PolymerStation_Reagent_Bottle:
Reagent_Bottle:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:BIOYOND_PolymerStation_Reagent_Bottle
module: unilabos.resources.bioyond.bottles:YB_Reagent_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
BIOYOND_PolymerStation_Solid_Stock:
Solid_Stock:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:BIOYOND_PolymerStation_Solid_Stock
module: unilabos.resources.bioyond.bottles:YB_Solid_Stock
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
BIOYOND_PolymerStation_Solid_Vial:
Solid_Vial:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:BIOYOND_PolymerStation_Solid_Vial
module: unilabos.resources.bioyond.bottles:YB_Solid_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
BIOYOND_PolymerStation_Solution_Beaker:
Solution_Beaker:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:BIOYOND_PolymerStation_Solution_Beaker
module: unilabos.resources.bioyond.bottles:YB_Solution_Beaker
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
100ml_Liquid_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_100ml_Liquid_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
Liquid_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Liquid_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
High_Viscosity_Liquid_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_High_Viscosity_Liquid_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
Large_Dispense_Head:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Large_Dispense_Head
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
5ml_Dispensing_Vial:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_5ml_Dispensing_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
20ml_Dispensing_Vial:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_20ml_Dispensing_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
Small_Solution_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Small_Solution_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
Large_Solution_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Large_Solution_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
Pipette_Tip:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Pipette_Tip
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Liquid_Vial:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:YB_Liquid_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Reagent_Bottle:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:YB_Reagent_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Solid_Stock:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:YB_Solid_Stock
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Solid_Vial:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:YB_Solid_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Solution_Beaker:
category:
- bottles
class:
module: unilabos.resources.bioyond.bottles:YB_Solution_Beaker
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_100ml_Liquid_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_100ml_Liquid_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Liquid_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Liquid_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_High_Viscosity_Liquid_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_High_Viscosity_Liquid_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Large_Dispense_Head:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Large_Dispense_Head
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_5ml_Dispensing_Vial:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_5ml_Dispensing_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_20ml_Dispensing_Vial:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_20ml_Dispensing_Vial
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Small_Solution_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Small_Solution_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Large_Solution_Bottle:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Large_Solution_Bottle
type: pylabrobot
handles: []
icon: ''
init_param_schema: {}
version: 1.0.0
YB_Pipette_Tip:
category:
- yb3
class:
module: unilabos.resources.bioyond.bottles:YB_Pipette_Tip
type: pylabrobot
handles: []
icon: ''

12
unilabos/registry/resources/bioyond/deck.yaml
View File

@@ -22,3 +22,15 @@ BIOYOND_PolymerReactionStation_Deck:
init_param_schema: {}
registry_type: resource
version: 1.0.0
YB_Deck16:
category:
- deck
class:
module: unilabos.resources.bioyond.decks:YB_Deck
type: pylabrobot
description: BIOYOND PolymerReactionStation Deck
handles: []
icon: 配液站.webp
init_param_schema: {}
registry_type: resource
version: 1.0.0

388
unilabos/resources/bioyond/bottle_carriers.py
View File

@@ -2,11 +2,17 @@ from pylabrobot.resources import create_homogeneous_resources, Coordinate, Resou
from unilabos.resources.itemized_carrier import Bottle, BottleCarrier
from unilabos.resources.bioyond.bottles import (
BIOYOND_PolymerStation_Solid_Stock,
BIOYOND_PolymerStation_Solid_Vial,
BIOYOND_PolymerStation_Liquid_Vial,
BIOYOND_PolymerStation_Solution_Beaker,
BIOYOND_PolymerStation_Reagent_Bottle
YB_Solid_Stock,
YB_Solid_Vial,
YB_Liquid_Vial,
YB_Solution_Beaker,
YB_Reagent_Bottle,
YB_5ml_Dispensing_Vial,
YB_20ml_Dispensing_Vial,
YB_Small_Solution_Bottle,
YB_Large_Solution_Bottle,
YB_Large_Dispense_Head,
YB_Pipette_Tip
)
# 命名约定:试剂瓶-Bottle烧杯-Beaker烧瓶-Flask小瓶-Vial
@@ -51,13 +57,13 @@ def BIOYOND_Electrolyte_6VialCarrier(name: str) -> BottleCarrier:
size_y=carrier_size_y,
size_z=carrier_size_z,
sites=sites,
model="BIOYOND_Electrolyte_6VialCarrier",
model="Electrolyte_6VialCarrier",
)
carrier.num_items_x = 3
carrier.num_items_y = 2
carrier.num_items_z = 1
for i in range(6):
carrier[i] = BIOYOND_PolymerStation_Solid_Vial(f"{name}_vial_{i+1}")
carrier[i] = YB_Solid_Vial(f"{name}_vial_{i+1}")
return carrier
@@ -89,16 +95,16 @@ def BIOYOND_Electrolyte_1BottleCarrier(name: str) -> BottleCarrier:
resource_size_y=beaker_diameter,
name_prefix=name,
),
model="BIOYOND_Electrolyte_1BottleCarrier",
model="Electrolyte_1BottleCarrier",
)
carrier.num_items_x = 1
carrier.num_items_y = 1
carrier.num_items_z = 1
carrier[0] = BIOYOND_PolymerStation_Solution_Beaker(f"{name}_beaker_1")
carrier[0] = YB_Solution_Beaker(f"{name}_beaker_1")
return carrier
def BIOYOND_PolymerStation_6StockCarrier(name: str) -> BottleCarrier:
def YB_6StockCarrier(name: str) -> BottleCarrier:
"""6瓶载架 - 2x3布局"""
# 载架尺寸 (mm)
@@ -138,18 +144,18 @@ def BIOYOND_PolymerStation_6StockCarrier(name: str) -> BottleCarrier:
size_y=carrier_size_y,
size_z=carrier_size_z,
sites=sites,
model="BIOYOND_PolymerStation_6VialCarrier",
model="6StockCarrier",
)
carrier.num_items_x = 3
carrier.num_items_y = 2
carrier.num_items_z = 1
ordering = ["A1", "A2", "A3", "B1", "B2", "B3"] # 自定义顺序
for i in range(6):
carrier[i] = BIOYOND_PolymerStation_Solid_Stock(f"{name}_vial_{ordering[i]}")
carrier[i] = YB_Solid_Stock(f"{name}_vial_{ordering[i]}")
return carrier
def BIOYOND_PolymerStation_6VialCarrier(name: str) -> BottleCarrier:
def YB_6VialCarrier(name: str) -> BottleCarrier:
"""6瓶载架 - 2x3布局"""
# 载架尺寸 (mm)
@@ -189,20 +195,20 @@ def BIOYOND_PolymerStation_6VialCarrier(name: str) -> BottleCarrier:
size_y=carrier_size_y,
size_z=carrier_size_z,
sites=sites,
model="BIOYOND_PolymerStation_6VialCarrier",
model="6VialCarrier",
)
carrier.num_items_x = 3
carrier.num_items_y = 2
carrier.num_items_z = 1
ordering = ["A1", "A2", "A3", "B1", "B2", "B3"] # 自定义顺序
for i in range(3):
carrier[i] = BIOYOND_PolymerStation_Solid_Vial(f"{name}_solidvial_{ordering[i]}")
carrier[i] = YB_Solid_Vial(f"{name}_solidvial_{ordering[i]}")
for i in range(3, 6):
carrier[i] = BIOYOND_PolymerStation_Liquid_Vial(f"{name}_liquidvial_{ordering[i]}")
carrier[i] = YB_Liquid_Vial(f"{name}_liquidvial_{ordering[i]}")
return carrier
def BIOYOND_PolymerStation_1BottleCarrier(name: str) -> BottleCarrier:
def YB_1BottleCarrier(name: str) -> BottleCarrier:
"""1瓶载架 - 单个中央位置"""
# 载架尺寸 (mm)
@@ -230,16 +236,16 @@ def BIOYOND_PolymerStation_1BottleCarrier(name: str) -> BottleCarrier:
resource_size_y=beaker_diameter,
name_prefix=name,
),
model="BIOYOND_PolymerStation_1BottleCarrier",
model="1BottleCarrier",
)
carrier.num_items_x = 1
carrier.num_items_y = 1
carrier.num_items_z = 1
carrier[0] = BIOYOND_PolymerStation_Reagent_Bottle(f"{name}_flask_1")
carrier[0] = YB_Reagent_Bottle(f"{name}_flask_1")
return carrier
def BIOYOND_PolymerStation_1FlaskCarrier(name: str) -> BottleCarrier:
def YB_1FlaskCarrier(name: str) -> BottleCarrier:
"""1瓶载架 - 单个中央位置"""
# 载架尺寸 (mm)
@@ -267,10 +273,348 @@ def BIOYOND_PolymerStation_1FlaskCarrier(name: str) -> BottleCarrier:
resource_size_y=beaker_diameter,
name_prefix=name,
),
model="BIOYOND_PolymerStation_1FlaskCarrier",
model="1FlaskCarrier",
)
carrier.num_items_x = 1
carrier.num_items_y = 1
carrier.num_items_z = 1
carrier[0] = BIOYOND_PolymerStation_Reagent_Bottle(f"{name}_bottle_1")
carrier[0] = YB_Reagent_Bottle(f"{name}_bottle_1")
return carrier
def YB_6x5ml_DispensingVialCarrier(name: str) -> BottleCarrier:
"""5ml分液瓶板 - 4x2布局8个位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 50.0
# 瓶位尺寸
bottle_diameter = 15.0
bottle_spacing_x = 42.0 # 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 - (4 - 1) * bottle_spacing_x - bottle_diameter) / 2
start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
sites = create_ordered_items_2d(
klass=ResourceHolder,
num_items_x=4,
num_items_y=2,
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="6x5ml_DispensingVialCarrier",
)
carrier.num_items_x = 4
carrier.num_items_y = 2
carrier.num_items_z = 1
ordering = ["A1", "A2", "A3", "A4", "B1", "B2", "B3", "B4"]
for i in range(8):
carrier[i] = YB_5ml_Dispensing_Vial(f"{name}_vial_{ordering[i]}")
return carrier
def YB_6x20ml_DispensingVialCarrier(name: str) -> BottleCarrier:
"""20ml分液瓶板 - 4x2布局8个位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 70.0
# 瓶位尺寸
bottle_diameter = 20.0
bottle_spacing_x = 42.0 # 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 - (4 - 1) * bottle_spacing_x - bottle_diameter) / 2
start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
sites = create_ordered_items_2d(
klass=ResourceHolder,
num_items_x=4,
num_items_y=2,
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="6x20ml_DispensingVialCarrier",
)
carrier.num_items_x = 4
carrier.num_items_y = 2
carrier.num_items_z = 1
ordering = ["A1", "A2", "A3", "A4", "B1", "B2", "B3", "B4"]
for i in range(8):
carrier[i] = YB_20ml_Dispensing_Vial(f"{name}_vial_{ordering[i]}")
return carrier
def YB_6x_SmallSolutionBottleCarrier(name: str) -> BottleCarrier:
"""配液瓶(小)板 - 4x2布局8个位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 65.0
# 瓶位尺寸
bottle_diameter = 35.0
bottle_spacing_x = 42.0 # 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 - (4 - 1) * bottle_spacing_x - bottle_diameter) / 2
start_y = (carrier_size_y - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
sites = create_ordered_items_2d(
klass=ResourceHolder,
num_items_x=4,
num_items_y=2,
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="6x_SmallSolutionBottleCarrier",
)
carrier.num_items_x = 4
carrier.num_items_y = 2
carrier.num_items_z = 1
ordering = ["A1", "A2", "A3", "A4", "B1", "B2", "B3", "B4"]
for i in range(8):
carrier[i] = YB_Small_Solution_Bottle(f"{name}_bottle_{ordering[i]}")
return carrier
def YB_4x_LargeSolutionBottleCarrier(name: str) -> BottleCarrier:
"""配液瓶(大)板 - 2x2布局4个位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 95.0
# 瓶位尺寸
bottle_diameter = 55.0
bottle_spacing_x = 60.0 # X方向间距
bottle_spacing_y = 60.0 # 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 - (2 - 1) * bottle_spacing_y - bottle_diameter) / 2
sites = create_ordered_items_2d(
klass=ResourceHolder,
num_items_x=2,
num_items_y=2,
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="4x_LargeSolutionBottleCarrier",
)
carrier.num_items_x = 2
carrier.num_items_y = 2
carrier.num_items_z = 1
ordering = ["A1", "A2", "B1", "B2"]
for i in range(4):
carrier[i] = YB_Large_Solution_Bottle(f"{name}_bottle_{ordering[i]}")
return carrier
def YB_6x_LargeDispenseHeadCarrier(name: str) -> BottleCarrier:
"""加样头(大)板 - 1x1布局1个位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 95.0
# 瓶位尺寸
bottle_diameter = 35.0
bottle_spacing_x = 42.0 # 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 - (1 - 1) * bottle_spacing_x - bottle_diameter) / 2
start_y = (carrier_size_y - (1 - 1) * bottle_spacing_y - bottle_diameter) / 2
sites = create_ordered_items_2d(
klass=ResourceHolder,
num_items_x=1,
num_items_y=1,
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="6x_LargeDispenseHeadCarrier",
)
carrier.num_items_x = 1
carrier.num_items_y = 1
carrier.num_items_z = 1
carrier[0] = YB_Large_Dispense_Head(f"{name}_head_1")
return carrier
def YB_AdapterBlock(name: str) -> BottleCarrier:
"""适配器块 - 单个中央位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 30.0
# 适配器尺寸
adapter_diameter = 80.0
# 计算中央位置
center_x = (carrier_size_x - adapter_diameter) / 2
center_y = (carrier_size_y - adapter_diameter) / 2
center_z = 0.0
carrier = BottleCarrier(
name=name,
size_x=carrier_size_x,
size_y=carrier_size_y,
size_z=carrier_size_z,
sites=create_homogeneous_resources(
klass=ResourceHolder,
locations=[Coordinate(center_x, center_y, center_z)],
resource_size_x=adapter_diameter,
resource_size_y=adapter_diameter,
name_prefix=name,
),
model="AdapterBlock",
)
carrier.num_items_x = 1
carrier.num_items_y = 1
carrier.num_items_z = 1
# 适配器块本身不包含瓶子,只是一个支撑结构
return carrier
def YB_TipBox(name: str) -> BottleCarrier:
"""枪头盒 - 8x12布局96个位置"""
# 载架尺寸 (mm)
carrier_size_x = 127.8
carrier_size_y = 85.5
carrier_size_z = 55.0
# 枪头尺寸
tip_diameter = 10.0
tip_spacing_x = 9.0 # X方向间距
tip_spacing_y = 9.0 # Y方向间距
# 计算起始位置 (居中排列)
start_x = (carrier_size_x - (12 - 1) * tip_spacing_x - tip_diameter) / 2
start_y = (carrier_size_y - (8 - 1) * tip_spacing_y - tip_diameter) / 2
sites = create_ordered_items_2d(
klass=ResourceHolder,
num_items_x=12,
num_items_y=8,
dx=start_x,
dy=start_y,
dz=5.0,
item_dx=tip_spacing_x,
item_dy=tip_spacing_y,
size_x=tip_diameter,
size_y=tip_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="TipBox",
)
carrier.num_items_x = 12
carrier.num_items_y = 8
carrier.num_items_z = 1
# 创建96个枪头
for i in range(96):
row = chr(65 + i // 12) # A-H
col = (i % 12) + 1 # 1-12
carrier[i] = YB_Pipette_Tip(f"{name}_tip_{row}{col}")
return carrier

185
unilabos/resources/bioyond/bottles.py
View File

@@ -2,7 +2,7 @@ from unilabos.resources.itemized_carrier import Bottle, BottleCarrier
# 工厂函数
def BIOYOND_PolymerStation_Solid_Stock(
def YB_Solid_Stock(
name: str,
diameter: float = 20.0,
height: float = 100.0,
@@ -12,15 +12,15 @@ def BIOYOND_PolymerStation_Solid_Stock(
"""创建粉末瓶"""
return Bottle(
name=name,
diameter=diameter,
diameter=diameter,# 未知
height=height,
max_volume=max_volume,
barcode=barcode,
model="BIOYOND_PolymerStation_Solid_Stock",
model="Solid_Stock",
)
def BIOYOND_PolymerStation_Solid_Vial(
def YB_Solid_Vial(
name: str,
diameter: float = 25.0,
height: float = 60.0,
@@ -34,11 +34,11 @@ def BIOYOND_PolymerStation_Solid_Vial(
height=height,
max_volume=max_volume,
barcode=barcode,
model="BIOYOND_PolymerStation_Solid_Vial",
model="Solid_Vial",
)
def BIOYOND_PolymerStation_Liquid_Vial(
def YB_Liquid_Vial(
name: str,
diameter: float = 25.0,
height: float = 60.0,
@@ -52,11 +52,11 @@ def BIOYOND_PolymerStation_Liquid_Vial(
height=height,
max_volume=max_volume,
barcode=barcode,
model="BIOYOND_PolymerStation_Liquid_Vial",
model="Liquid_Vial",
)
def BIOYOND_PolymerStation_Solution_Beaker(
def YB_Solution_Beaker(
name: str,
diameter: float = 60.0,
height: float = 70.0,
@@ -70,11 +70,11 @@ def BIOYOND_PolymerStation_Solution_Beaker(
height=height,
max_volume=max_volume,
barcode=barcode,
model="BIOYOND_PolymerStation_Solution_Beaker",
model="Solution_Beaker",
)
def BIOYOND_PolymerStation_Reagent_Bottle(
def YB_Reagent_Bottle(
name: str,
diameter: float = 70.0,
height: float = 120.0,
@@ -88,5 +88,168 @@ def BIOYOND_PolymerStation_Reagent_Bottle(
height=height,
max_volume=max_volume,
barcode=barcode,
model="BIOYOND_PolymerStation_Reagent_Bottle",
model="Reagent_Bottle",
)
def YB_100ml_Liquid_Bottle(
name: str,
diameter: float = 50.0,
height: float = 80.0,
max_volume: float = 100000.0, # 100mL
barcode: str = None,
) -> Bottle:
"""创建100ml液体瓶"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="100ml_Liquid_Bottle",
)
def YB_Liquid_Bottle(
name: str,
diameter: float = 40.0,
height: float = 70.0,
max_volume: float = 50000.0, # 50mL
barcode: str = None,
) -> Bottle:
"""创建液体瓶"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="Liquid_Bottle",
)
def YB_High_Viscosity_Liquid_Bottle(
name: str,
diameter: float = 45.0,
height: float = 75.0,
max_volume: float = 60000.0, # 60mL
barcode: str = None,
) -> Bottle:
"""创建高粘液瓶"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="High_Viscosity_Liquid_Bottle",
)
def YB_Large_Dispense_Head(
name: str,
diameter: float = 35.0,
height: float = 90.0,
max_volume: float = 50000.0, # 50mL
barcode: str = None,
) -> Bottle:
"""创建加样头(大)"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="Large_Dispense_Head",
)
def YB_5ml_Dispensing_Vial(
name: str,
diameter: float = 15.0,
height: float = 45.0,
max_volume: float = 5000.0, # 5mL
barcode: str = None,
) -> Bottle:
"""创建5ml分液瓶"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="5ml_Dispensing_Vial",
)
def YB_20ml_Dispensing_Vial(
name: str,
diameter: float = 20.0,
height: float = 65.0,
max_volume: float = 20000.0, # 20mL
barcode: str = None,
) -> Bottle:
"""创建20ml分液瓶"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="20ml_Dispensing_Vial",
)
def YB_Small_Solution_Bottle(
name: str,
diameter: float = 35.0,
height: float = 60.0,
max_volume: float = 40000.0, # 40mL
barcode: str = None,
) -> Bottle:
"""创建配液瓶(小)"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="Small_Solution_Bottle",
)
def YB_Large_Solution_Bottle(
name: str,
diameter: float = 55.0,
height: float = 90.0,
max_volume: float = 150000.0, # 150mL
barcode: str = None,
) -> Bottle:
"""创建配液瓶(大)"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="Large_Solution_Bottle",
)
def YB_Pipette_Tip(
name: str,
diameter: float = 10.0,
height: float = 50.0,
max_volume: float = 1000.0, # 1mL
barcode: str = None,
) -> Bottle:
"""创建枪头"""
return Bottle(
name=name,
diameter=diameter,
height=height,
max_volume=max_volume,
barcode=barcode,
model="Pipette_Tip",
)

60
unilabos/resources/bioyond/decks.py
View File

@@ -1,6 +1,7 @@
from os import name
from pylabrobot.resources import Deck, Coordinate, Rotation
from unilabos.resources.bioyond.warehouses import bioyond_warehouse_1x4x4, bioyond_warehouse_1x4x2, bioyond_warehouse_liquid_and_lid_handling
from unilabos.resources.bioyond.warehouses import bioyond_warehouse_1x4x4, bioyond_warehouse_1x4x2, bioyond_warehouse_liquid_and_lid_handling, bioyond_warehouse_1x2x2, bioyond_warehouse_1x3x3, bioyond_warehouse_10x1x1, bioyond_warehouse_3x3x1, bioyond_warehouse_3x3x1_2, bioyond_warehouse_5x1x1
class BIOYOND_PolymerReactionStation_Deck(Deck):
@@ -66,3 +67,60 @@ class BIOYOND_PolymerPreparationStation_Deck(Deck):
for warehouse_name, warehouse in self.warehouses.items():
self.assign_child_resource(warehouse, location=self.warehouse_locations[warehouse_name])
class BIOYOND_YB_Deck(Deck):
def __init__(
self,
name: str = "YB_Deck",
size_x: float = 4150,
size_y: float = 1400.0,
size_z: float = 2670.0,
category: str = "deck",
setup: bool = False
) -> None:
super().__init__(name=name, size_x=4150.0, size_y=1400.0, size_z=2670.0)
if setup:
self.setup()
def setup(self) -> None:
# 添加仓库
self.warehouses = {
"321窗口": bioyond_warehouse_1x2x2("321窗口"),
"43窗口": bioyond_warehouse_1x2x2("43窗口"),
"手动传递窗左": bioyond_warehouse_1x3x3("手动传递窗左"),
"手动传递窗右": bioyond_warehouse_1x3x3("手动传递窗右"),
"加样头堆栈左": bioyond_warehouse_10x1x1("加样头堆栈左"),
"加样头堆栈右": bioyond_warehouse_10x1x1("加样头堆栈右"),
"15ml配液堆栈左": bioyond_warehouse_3x3x1("15ml配液堆栈左"),
"母液加样右": bioyond_warehouse_3x3x1_2("母液加样右"),
"大瓶母液堆栈左": bioyond_warehouse_5x1x1("大瓶母液堆栈左"),
"大瓶母液堆栈右": bioyond_warehouse_5x1x1("大瓶母液堆栈右"),
}
# warehouse 的位置
self.warehouse_locations = {
"321窗口": Coordinate(-150.0, 158.0, 0.0),
"43窗口": Coordinate(4160.0, 158.0, 0.0),
"手动传递窗左": Coordinate(-150.0, 877.0, 0.0),
"手动传递窗右": Coordinate(4160.0, 877.0, 0.0),
"加样头堆栈左": Coordinate(385.0, 1300.0, 0.0),
"加样头堆栈右": Coordinate(2187.0, 1300.0, 0.0),
"15ml配液堆栈左": Coordinate(749.0, 355.0, 0.0),
"母液加样右": Coordinate(2152.0, 333.0, 0.0),
"大瓶母液堆栈左": Coordinate(1164.0, 676.0, 0.0),
"大瓶母液堆栈右": Coordinate(2717.0, 676.0, 0.0),
}
for warehouse_name, warehouse in self.warehouses.items():
self.assign_child_resource(warehouse, location=self.warehouse_locations[warehouse_name])
def YB_Deck(name: str) -> Deck:
by=BIOYOND_YB_Deck(name=name)
by.setup()
return by

116
unilabos/resources/bioyond/warehouses.py
View File

@@ -5,15 +5,15 @@ def bioyond_warehouse_1x4x4(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=4,
num_items_x=1,
num_items_y=4,
num_items_z=1,
num_items_z=4,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=147.0,
item_dy=106.0,
item_dz=130.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
@@ -34,7 +34,113 @@ def bioyond_warehouse_1x4x2(name: str) -> WareHouse:
category="warehouse",
removed_positions=None
)
# 定义benyond的堆栈
def bioyond_warehouse_1x2x2(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=2,
num_items_y=2,
num_items_z=1,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="YB_warehouse",
)
def bioyond_warehouse_10x1x1(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=10,
num_items_y=1,
num_items_z=1,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
def bioyond_warehouse_1x3x3(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=1,
num_items_y=3,
num_items_z=3,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
def bioyond_warehouse_2x1x3(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=2,
num_items_y=1,
num_items_z=3,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
def bioyond_warehouse_3x3x1(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=3,
num_items_y=3,
num_items_z=1,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
def bioyond_warehouse_5x1x1(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=5,
num_items_y=1,
num_items_z=1,
dx=10.0,
dy=10.0,
dz=10.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
def bioyond_warehouse_3x3x1_2(name: str) -> WareHouse:
"""创建BioYond 4x1x4仓库"""
return warehouse_factory(
name=name,
num_items_x=3,
num_items_y=3,
num_items_z=1,
dx=12.0,
dy=12.0,
dz=12.0,
item_dx=137.0,
item_dy=96.0,
item_dz=120.0,
category="warehouse",
)
def bioyond_warehouse_liquid_and_lid_handling(name: str) -> WareHouse:
"""创建BioYond开关盖加液模块台面"""

2
unilabos/resources/graphio.py
View File

@@ -624,6 +624,8 @@ def resource_bioyond_to_plr(bioyond_materials: list[dict], type_mapping: Dict[st
Returns:
pylabrobot 格式的物料列表
"""
print("1:bioyond_materials:",bioyond_materials)
# print("2:type_mapping:",type_mapping)
plr_materials = []
for material in bioyond_materials: