一种基于虚拟仪器技术的轮辋跳动量非接触式在线检测
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摘要
提出了一种基于虚拟仪器技术的轮辋跳动量非接触式在线检测方法。该检测系统利用涡流式位移传感器测量轮辋的跳动量,并由Lab VIEW编程完成检测数据的分析与处理,能够实时显示检测曲线、超差值及超差位置等,并可对不合格产品进行标记、报警和剔除。此外,该检测系统可以存储和统计检测数据,便于发现和分析产品质量及生产设备等问题,具有一定的推广应用价值。
This paper introduces a kind of on-line and non-contact measuring method based on the virtual instrument technology.The run-out can be detected accurately by using the eddy current displacement sensor. Lab VIEW is used to process and analyze the detected data. The real time detected result is displayed in this system such as detection curve,out-of-tolerance value and position,etc. and the mark,alarm and elimination to unqualified products are made. In addition,the measured data can be stored and the statistical figures be collected in this system to discover and analyze the problems of the products quality and production equipment.Therefore,this method has wide application value.
This paper introduces a kind of on-line and non-contact measuring method based on the virtual instrument technology.The run-out can be detected accurately by using the eddy current displacement sensor. Lab VIEW is used to process and analyze the detected data. The real time detected result is displayed in this system such as detection curve,out-of-tolerance value and position,etc. and the mark,alarm and elimination to unqualified products are made. In addition,the measured data can be stored and the statistical figures be collected in this system to discover and analyze the problems of the products quality and production equipment.Therefore,this method has wide application value.
引文
[1]袁海兵,邱新桥,王荣志.在线式汽车轮辋跳动检测机的设计[J].测控技术,2011,30(2):4-7.
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[4]徐国林.钢圈轮辋跳动量检测过程设备的构造:中国,200810121548.6[P].2009-04-01.
[5]张凤娟,谢彪.基于51单片机的轮辋跳动量检测系统[J].科技传播,2012(11):185-192.
[6]于保军,王晓东,孙锐.轮毂轴向及径向跳动参数检测系统研制[J].机械工程与自动化,2006(4):82-83.
[7]王欣威,慕丽.基于Lab VIEW的电涡流位移传感器测量系统设计与研究[J].机床与液压,2009,37(9):160-162.
[8]国家发展与改革委员会.QC/T 717-2004.汽车车轮跳动量的要求和检测方法[S].北京:中国标准出版社,2004-10-20.
[2]张凤娟,谢彪,钱颖.轮辋跳动量检测装置:中国,201120246603.1[P].2012-03-14.
[3]李忠国.浅析影响汽车轮毂跳动的几个因素[J].设计与研究,2007(5):35-36.
[4]徐国林.钢圈轮辋跳动量检测过程设备的构造:中国,200810121548.6[P].2009-04-01.
[5]张凤娟,谢彪.基于51单片机的轮辋跳动量检测系统[J].科技传播,2012(11):185-192.
[6]于保军,王晓东,孙锐.轮毂轴向及径向跳动参数检测系统研制[J].机械工程与自动化,2006(4):82-83.
[7]王欣威,慕丽.基于Lab VIEW的电涡流位移传感器测量系统设计与研究[J].机床与液压,2009,37(9):160-162.
[8]国家发展与改革委员会.QC/T 717-2004.汽车车轮跳动量的要求和检测方法[S].北京:中国标准出版社,2004-10-20.