提升设备工况监测与故障诊断网络试验平台

发布时间：2018-05-15 01:20

本文选题：提升设备 + 故障诊断　；参考：《太原理工大学》2017年硕士论文

【摘要】：矿井提升设备负责人员与矸石的运输,其在煤矿生产中发挥着极其重要的作用,一旦发生故障,就会严重影响煤矿的正常生产,甚至造成人身伤亡。因此,开发能够对其工作情况进行全面监测与故障诊断的试验平台具有重要的实际意义。基于组态技术、数据库技术、网络通讯技术和ASP.NET技术,分别开发了提升设备工况监测与故障诊断现场试验子平台、提升设备工况监测与故障诊断互联网试验子平台、提升设备工况监测与故障诊断移动互联网试验子平台。第一,基于提升设备的工作原理和结构原理将提升设备划分为运行系统、制动系统、电控系统、主轴系统、磁粉制动器加载系统,通过这种方式的划分,分别开发其监测与诊断功能,不仅达到了全面监测提升设备的目的,而且逻辑较为清晰,用户体验较好。第二,基于组态技术对提升设备上述各系统的监测与诊断子平台进行了开发,子平台分为技术参数查询、监测与诊断、数据报表、趋势曲线等四个功能模块,分别实现了提升设备各个系统的技术参数、工况监测与故障诊断、实时数据报表和历史数据报表、趋势曲线的查询。第三,鉴于互联网技术的蓬勃发展,对上述基于组态技术的现场试验子平台进行了扩展,分别开发了提升设备工况监测与故障诊断互联网试验子平台和提升设备工况监测与故障诊断移动互联网试验子平台,其中互联网试验子平台包括设备监测、设备诊断、设备资料、操作规程等在内的十一个功能模块,移动互联网试验子平台包括设备监测、设备诊断、曲线查询、数据查询等在内的七个功能模块。方便了人们使用个人电脑和移动设备(如手机)对提升设备进行远程工况监测与故障诊断。第四,本文针对开发出来的平台,进行了测试与现场应用。测试结果表明,该平台能够有效的对提升设备以现场、互联网、移动互联网的方式进行工况监测与故障诊断。
[Abstract]:The transportation of mine hoisting equipment personnel and gangue plays an extremely important role in coal mine production. Once failure occurs, it will seriously affect the normal production of coal mine, and even cause casualties. Therefore, it is of great practical significance to develop a test platform for monitoring and fault diagnosis. Based on configuration technology, database technology, network communication technology and ASP.NET technology, a sub-platform for monitoring and fault diagnosis of lifting equipment is developed, and an Internet test sub-platform for monitoring and fault diagnosis of lifting equipment is developed, respectively. Lifting equipment condition monitoring and fault diagnosis mobile Internet test subplatform. First, based on the working principle and structure principle of the lifting equipment, the lifting equipment is divided into running system, braking system, electric control system, spindle system, magnetic powder brake loading system. The function of monitoring and diagnosis is developed separately, which not only achieves the purpose of overall monitoring and lifting equipment, but also has clear logic and good user experience. Secondly, based on configuration technology, the monitoring and diagnosis sub-platform of the above mentioned systems of lifting equipment is developed. The sub-platform is divided into four functional modules: technical parameter query, monitoring and diagnosis, data report, trend curve, etc. The technical parameters, condition monitoring and fault diagnosis, real-time data report and historical data report, and trend curve query are realized respectively. Third, in view of the vigorous development of Internet technology, the above field test subplatform based on configuration technology has been extended. The working condition monitoring and fault diagnosis sub-platform of lifting equipment and mobile Internet test platform of lifting equipment condition monitoring and fault diagnosis are developed respectively. The Internet test subplatform includes equipment monitoring and equipment diagnosis. Eleven functional modules, such as equipment information, operation rules, etc., and seven functional modules, including equipment monitoring, equipment diagnosis, curve query, data query and so on, are included in the mobile Internet test subplatform. It is convenient for people to use personal computers and mobile devices (such as mobile phones) to monitor and diagnose remote working conditions of lifting equipment. Fourthly, this paper carries on the test and the field application to the developed platform. The test results show that the platform can effectively monitor and diagnose the working conditions of the lifting equipment in the way of field, Internet and mobile Internet.
【学位授予单位】：太原理工大学
【学位级别】：硕士
【学位授予年份】：2017
【分类号】：TP274;TD534

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