矿用装备全生命周期服务系统的研究与应用
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摘要
针对目前矿用装备制造业在设计选型、加工制造、安全生产、监控追溯等方面,存在信息技术发展缓慢、数据整合程度低下、问题反馈滞后等现状,提出了一种基于WSRF的矿用装备全生命周期服务系统,实现了分布式矿用装备从设计到应用阶段相关软、硬件资源的封装与存放,利用资源虚拟化及动态构建技术敏捷响应用户需求,通过XML文档解决消息传递过程的标准化问题。该系统在实际环境下完成搭建并试运行,结果表明:能够有效提高矿用装备的资源利用率,实现接入域内的信息共享与功能重组,将实际应用中存在的问题及时反馈,用于改进产品在设计、检测及制造等环节存在的缺陷,进一步加强矿用装备的安全监管力度,为矿用装备智能制造与智能化管控奠定基础。
According to address the issues such as slowly developed information technology,low degree of data integration and late feedback encountered in designselection,manufacture,safety in production,monitoring and tracing inthe mining equipment manufacturing industry,this study proposes a life cycleservice system of mining equipment.Based on WSRF,this system can encapsulate and store the relevant software and hardware resources over stagesfrom design to application of the distributed mining equipment,response quickly to the user needs utilizing the resource virtualization and dynamic building technology,and solve the problem of standardization of message passingusing XML documents.The system is set up and a test run has been completed in the real environment.The results show that this system can improve the resource sutilization effectively,realize the information sharing and the functional reorganization,and ensure the timely feedback on the problems encountered in the practical application.The system can be used to fix the defects found in the stages of design,test and manufacture of mining equipment,strengthen the safety supervision of the mining equipment,and thus lay the foundation for intelligent manufacturing and control of mining equipment.
According to address the issues such as slowly developed information technology,low degree of data integration and late feedback encountered in designselection,manufacture,safety in production,monitoring and tracing inthe mining equipment manufacturing industry,this study proposes a life cycleservice system of mining equipment.Based on WSRF,this system can encapsulate and store the relevant software and hardware resources over stagesfrom design to application of the distributed mining equipment,response quickly to the user needs utilizing the resource virtualization and dynamic building technology,and solve the problem of standardization of message passingusing XML documents.The system is set up and a test run has been completed in the real environment.The results show that this system can improve the resource sutilization effectively,realize the information sharing and the functional reorganization,and ensure the timely feedback on the problems encountered in the practical application.The system can be used to fix the defects found in the stages of design,test and manufacture of mining equipment,strengthen the safety supervision of the mining equipment,and thus lay the foundation for intelligent manufacturing and control of mining equipment.
引文
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[18]刘建粉,李玮瑶.煤矿大型风机设备磨损监控系统设计[J].计算机测量与控制,2014,22(12):3957-3959.LIU Jianfen,LI Weiyao.Large wind turbines wear condition monitoring system design[J].Computer Measurement&Control,2014,22(12):3957-3959.
[19]贾明涛,邓艳芳,冯军,等.基于信息融合的矿山安全标准化执行系统研究[J].中国安全生产科学技术,2017,13(2):62-67.JIA Mingtao,DENG Yanfang,FENG Jun,et al.Research on work safety standardization execution system for mines based on information fusion[J].Journal of Safety Science and Technology,2017,13(2):62-67.
[20]黄启江,陆宏东,贾少毅,等.煤矿安全生产信息集成智能手机管理系统设计[J].煤炭科学技术,2015,43(11):101-106.HUANG Qijiang,LU Hongdong,JIA Shaoyi,et al.Design on management system of intelligent mobile phone with mine safety production information integration[J].Coal Science and Technology,2015,43(11):101-106.
[21]丁恩杰,金雷,陈迪.互联网+感知矿山安全监控系统研究[J].煤炭科学技术,2017,45(1):129-134.DING Enjie,JIN Lei,CHEN Di.Study on safety monitoring and control system of internet+perception mine[J].Coal Science and Technology,2017,45(1):129-134.
[22]蔡利梅,于励民,陶建平,等.中平能化集团矿井综合自动化系统研究与实践[J].煤炭科学技术,2015,43(11):107-110,48.CAI Limei,YU Limin,TAO Jianping,et al.Study and practice on mine comprehensive automation system of China Pingmei Energy&chemical Group[J].Coal Science and Technology,2015,43(11):107-110,48.
[2]陶飞,张萌,程江峰,等.数字孪生车间:-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.TAO Fei,ZHANG Meng,CHENG Jiangfeng,et al.Digital twin workshop:a new paradigm for future workshop[J].Computer Integrated Manufacturing Systems,2017,23(1):1-9.
[3]丁恩杰,施卫祖,张申,等.矿山物联网顶层设计[J].工矿自动化,2017,43(9):1-11.DING Enjie,SHI Weizu,ZHANG Shen,et al.Top-down design of mine Internet of things[J].Industry and Mine Automation,2017,43(9):1-11.
[4]肖莹莹,李伯虎,侯宝存,等.智慧制造云中供应链管理的计划调度技术综述[J].计算机集成制造系统,2016,22(7):1619-1635.XIAO Yingying,LI Bohu,HOU Baocun,et al.Planning and scheduling technology review of supply chain management in smant manufacturing cloud[J].Computer Integrated Manufacturing Systems,2016,22(7):1619-1635.
[5]裴文良,张树生,李军伟,等.矿用巡检机器人设计及其应用[J].制造业自动化,2017,39(2):73-74,94.PEI Wenliang,ZHANG Shusheng,LI Junwei,et al.The design and application of inspection robot for mine[J].Manufacturing Automation,2017,39(2):73-74,94.
[6]符如康,张长友,张豪.煤矿综采综掘设备智能感知与控制技术研究及展望[J].煤炭科学技术,2017,45(9):72-78.FU Rukang,ZHANG Changyou,ZHANG Hao.Discovery and outlook on intelligent sensing and control technology of minefullymechanized mining and driving equipment[J].Coal Science and Technology,2017,45(9):72-78.
[7]李永红,王晟.互联网驱动智能制造的机理与路径研究:对中国制造2025的思考[J].科技进步与对策,2017,34(16):56-61.LI Yonghong,WANG Sheng.A study on the mechanism and approaches of internet-driven intelligent manufacturing:based on the reflection on made in China 2025[J].Science&Technology Progress and Policy,2017,34(16):56-61.
[8]周剑.两化融合管理体系构建[J].计算机集成制造系统,2015,21(7):1915-1929.ZHOU Jian.Management system construction for integration of informatization and industrialization[J].Computer Integrated Manufacturing Systems,2015,21(7):1915-1929.
[9]TAO F,ZHANG L,LAILI Y.Configurable intelligent optimization algorithm:design and pratice in manufacturing[M].New York:Springer-Verlag,2014.
[10]LIU Shaojun,HU Jianhua,ZHANG Ruiqiang,et al.Application of reliability-centered maintenance for productivity improvement of open pit mining equipment:case study of Sungun Copper Mine[J].Chinese Journal of Mechanical Engineering,2014,(6):2372-2382.
[11]刘照,董泽.基于UML的入厂煤智能管理系统的设计与实现[J].计算机仿真,2014,31(12):405-408.LIU Zhao,DONG Ze.Design and implementation of a feed coal intelligent management system based on UML[J].Computer Simulation,2014,31(12):405-408.
[12]吴立新,余接情,胡青松,等.数字矿山与智能感控的统一空间框架与精确时间同步问题[J].煤炭学报,2014,39(8):1584-1592.WU Lixin,YU Jieqing,HU Qinsong,et al.Unified spatial framework and precise time synchronization for digital mine and mine intelligent perception-control[J].Journal of China Coal Society,2014,39(8):1584-1592.
[13]王军,吴凤和,张艳,等.面向复杂产品的智能设计及成本估算模型[J].计算机集成制造系统,2014,20(4):779-784.WANG Jun,WU Fenghe,ZHANG Yan,et al.Intelligent design and cost assessment models for complex products[J].Computer Integrated Manufacturing Systems,2014,20(4):779-784.
[14]翟桂武,潘涛.煤矿智能生产管理系统的研究与实践[J].煤炭学报,2014,39(8):1530-1538.ZHAI Guiwu,PAN Tao.Research and application of coal mine intelligent production management system[J].Journal of China Coal Society,2014,39(8):1530-1538.
[15]韩建国.神华智能矿山建设关键技术研发与示范[J].煤炭学报,2016,41(12):3181-3189.HAN Jianguo.Key technology research and demonstration of intelligent mines in Shenhua Group[J].Journal of China Coal Society,2016,41(12):3181-3189.
[16]秦翥,冯瑜.面向客户服务的煤炭检测企业实验室信息管理系统[J].工矿自动化,2014,40(11):109-112.QIN Zhu,FENG Yu.Oriented customer service on laboratory information management system of coal testing enterprise[J].Industry and Mine Automation,2014,40(11):109-112.
[17]陈永冉,张义星.基于PCC的综采工作面输送设备监控平台开发[J].煤炭工程,2014,46(2):130-132,135.CHEN Yongran,ZHANG Yixing.Development on monitoring and control platform of conveying equipment applied in fully mechanized coal mining face based on PCC[J].Coal Engineering,2014,46(2):130-132,135.
[18]刘建粉,李玮瑶.煤矿大型风机设备磨损监控系统设计[J].计算机测量与控制,2014,22(12):3957-3959.LIU Jianfen,LI Weiyao.Large wind turbines wear condition monitoring system design[J].Computer Measurement&Control,2014,22(12):3957-3959.
[19]贾明涛,邓艳芳,冯军,等.基于信息融合的矿山安全标准化执行系统研究[J].中国安全生产科学技术,2017,13(2):62-67.JIA Mingtao,DENG Yanfang,FENG Jun,et al.Research on work safety standardization execution system for mines based on information fusion[J].Journal of Safety Science and Technology,2017,13(2):62-67.
[20]黄启江,陆宏东,贾少毅,等.煤矿安全生产信息集成智能手机管理系统设计[J].煤炭科学技术,2015,43(11):101-106.HUANG Qijiang,LU Hongdong,JIA Shaoyi,et al.Design on management system of intelligent mobile phone with mine safety production information integration[J].Coal Science and Technology,2015,43(11):101-106.
[21]丁恩杰,金雷,陈迪.互联网+感知矿山安全监控系统研究[J].煤炭科学技术,2017,45(1):129-134.DING Enjie,JIN Lei,CHEN Di.Study on safety monitoring and control system of internet+perception mine[J].Coal Science and Technology,2017,45(1):129-134.
[22]蔡利梅,于励民,陶建平,等.中平能化集团矿井综合自动化系统研究与实践[J].煤炭科学技术,2015,43(11):107-110,48.CAI Limei,YU Limin,TAO Jianping,et al.Study and practice on mine comprehensive automation system of China Pingmei Energy&chemical Group[J].Coal Science and Technology,2015,43(11):107-110,48.
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