基于TwinCAT和C#的弧焊数据采集分析系统
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摘要
为保证对焊接过程实现实时监控,优化焊接工艺参数,提高焊接质量,搭建了弧焊焊接过程数据采集分析系统。根据生产现场和数据采集分析的需求,构建了实时采集系统层次构架模型,提出了以传感器、倍福公司模拟量输入端子和嵌入式控制器等为主体硬件,ADS协议和实时以太网为实时通讯协议,Twin CAT PLC和C#为开发语言的分布式弧焊实时数据采集系统的设计方案。实现了弧焊焊接过程中电弧电压、电流、离子气和保护气的实时采集、显示、存储以及焊接质量分析,完成焊接设备数字化集成,提升车间管理水平。
To ensure the real-time monitoring of the welding process and optimize the welding process parameters to improve the welding quality,a data acquisition and analysis system for the arc welding process was developed. According to the requirements of the production site and data acquisition analysis,a real-time acquisition system hierarchical framework model was constructed. The design scheme of distributed arc welding real-time data acquisition system was proposed based on sensors,real-time analog input terminals and embedded controllers,ADS protocol and real-time Ethernet as real-time communication protocol,TwinCAT PLC and C# as development language. The real-time acquisition,display,storage and welding quality analysis of arc voltage,current,ion gas and shielding gas were realized in the arc welding process. The digital integration of welding equipment was completed and the workshop management level was improved.
To ensure the real-time monitoring of the welding process and optimize the welding process parameters to improve the welding quality,a data acquisition and analysis system for the arc welding process was developed. According to the requirements of the production site and data acquisition analysis,a real-time acquisition system hierarchical framework model was constructed. The design scheme of distributed arc welding real-time data acquisition system was proposed based on sensors,real-time analog input terminals and embedded controllers,ADS protocol and real-time Ethernet as real-time communication protocol,TwinCAT PLC and C# as development language. The real-time acquisition,display,storage and welding quality analysis of arc voltage,current,ion gas and shielding gas were realized in the arc welding process. The digital integration of welding equipment was completed and the workshop management level was improved.
引文
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[12]邢民强,李东升,王明明,等.基于Twin CAT与C#混合编程的数控系统开发[J].机械工程与自动化,2016(3):131-133.
[2]Gruber F E.Industry 4.0:a best practice project of the automotive industry[M].Springer,Berlin,Heidelberg,2013.
[3]张曙.工业4.0和智能制造[J].机械设计与制造工程,2014(8):1-5.
[4]Schmidt R,Michael M9hring,Ralf-Christian Hrting,et al.Industry 4.0-potentials for creating smart products:empirical research results[C].BIS 2015 18th International Conference on Business Information Systems,Lecture Notes in Business Information Processing(LNBIP),2015.
[5]贺正楚,潘红玉.德国“工业4.0”与“中国制造2025”[J].长沙理工大学学报:社会科学版,2015(3):103-110.
[6]周济.智能制造---“中国制造2025”的主攻方向[J].中国机械工程,2015,26(17):2273-2284.
[7]易倍羽.关于航天数字化制造质量保证的探讨[J].质量与可靠性,2016(5):26-29.
[8]齐艳娜.电弧焊接过程质量监测系统[D].哈尔滨:哈尔滨工业大学硕士学位论文,2009.
[9]邹旺,李少波.数字化车间生产现场数据采集与智能管理研究[J].组合机床与自动化加工技术,2018(1):150-153.
[10]戚宝运,许自力,毛勤俭.数字化车间MES系统构建[J].指挥信息系统与技术,2013,4(1):25-29.
[11]黄振林,刘俊杰,贾维科,等.基于可编程控制器的智能制造数字化车间的研究与实现[J].自动化博览,2017(8):46-51.
[12]邢民强,李东升,王明明,等.基于Twin CAT与C#混合编程的数控系统开发[J].机械工程与自动化,2016(3):131-133.
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