面向3C非标检测设备的可配置监控系统研究与实现
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摘要
为解决3C(Computer、Communication、Consumer Electronics)电子产品生产车间非标自动化检测设备的智能监控问题,设计并实现了柔性可配置的车间监控系统。分析了非标设备与车间信息流特点,建立了面向非标设备的车间信息模型,基于此完成了可扩展车间信息模型的创建,通过可扩展标记语言(e Xtensible Markup Language,XML)作为该模型的物理描述文件,从而实现了OPC UA地址空间、关系数据库和客户端界面的灵活设置;开发了一个可扩展的协议驱动模块,并将其嵌入到基于OPC UA的服务器程序内,实现了不同通信协议设备的数据采集。该系统现已应用于苏州某公司的示范线,系统运行状态良好。
To solve the intelligent monitoring problem of 3C( Computer,Communication,Consumer Electronics) nonstandard equipments in electronicproduct production workshop,a flexible and configurable workshop monitoring system is designed and implemented. This paper analyzes the information flow characteristics of nonstandard equipment and workshop,workshop information model with extension ability for nonstandard equipments is designed and implemented. Flexible settings of OPC UA address space,relationaldatabase and client interface are realized,Based on the eXtensible Markup Language( XML) as model Physical description file. Also,a scalable protocol driver module is developed,which is embedded in the OPCUA-based server program. The purpose is to achieve a data collection of equipments with different communication protocol. The system has been applied to a company in Suzhou demonstration line and is running in good condition.
To solve the intelligent monitoring problem of 3C( Computer,Communication,Consumer Electronics) nonstandard equipments in electronicproduct production workshop,a flexible and configurable workshop monitoring system is designed and implemented. This paper analyzes the information flow characteristics of nonstandard equipment and workshop,workshop information model with extension ability for nonstandard equipments is designed and implemented. Flexible settings of OPC UA address space,relationaldatabase and client interface are realized,Based on the eXtensible Markup Language( XML) as model Physical description file. Also,a scalable protocol driver module is developed,which is embedded in the OPCUA-based server program. The purpose is to achieve a data collection of equipments with different communication protocol. The system has been applied to a company in Suzhou demonstration line and is running in good condition.
引文
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[2]宋宝,姚军,杨勇泉.数控机床远程监控平台开发和实现[J].组合机床与自动化加工技术,2012(12):79-81.
[3]Hung M.H,Lin YC,Huy TQ,et al.Development of a cloud-computing-based equipment monitoring system for machine tool industry[D].in IEEE International Conference on Automation Science and Engineering,2012.
[4]曹原,方建安.基于Web的嵌入式远程监控系统[J].机电工程,2011,28(7):859-862..
[5]梁庚,李文.基于分布式OPC、组件连接件和Web Service的电站远程监控系统设计[J].电力自动化设备,2011,31(10):134-138.
[6]王泓晖,刘日良,张承瑞.基于加工特征的车间可重构式自动编程系统设计与实现[J].计算机集成制造系统,2016,22(10):2396-2407.
[7]张兆坤,邵珠峰,王立平,等,数字化车间信息模型及其建模与标准化[J].清华大学学报(自然科学版),2017,57(2):128-133.
[8]陶飞,张萌,程江峰,等,数字孪生车间—一种未来车间运行新模式[J].计算机集成制造系统,2017,23(1):1-9.
[9]刘日良,张承瑞,姜宇,等,基于MTConnect的数控机床网络化监控技术[J].计算机集成制造系统,2013,19(5):1078-1084.
[10]郝晓曦.灯头座铝圈自动装配机构与控制系统设计[J].制造业自动化,2016,38(5):128-131.
[11]赵云伟.小型节拍式服装生产线控制系统的设计[J].液压与气动,2014(12):77-79.
[12]杨志永,李辉.基于PLC与伺服液压的装胎机控制系统设计[J].机床与液压,2012,40(2):53-55.
[13]陆小虎,于东,胡毅,等,基于Agent的数控系统信息集成方法[J].吉林大学学报(工),2015,45(6):1980-1986.