• CN:11-2187/TH
  • ISSN:0577-6686

›› 2012, Vol. 48 ›› Issue (24): 1-7.

• 论文 •    下一篇

基于磁悬浮轴承高速电主轴的法向磨削力检测方法

李德广;刘淑琴;樊迪   

  1. 山东大学电气工程学院;河北工业大学信息工程学院
  • 发布日期:2012-12-20

Normal Grinding Force Measuring Based on High Speed Magnetic Bearing Spindle

LI Deguang;LIU Shuqin;FAN Di   

  1. 山东大学电气工程学院 河北工业大学信息工程学院
  • Published:2012-12-20

摘要: 利用磁悬浮轴承高速电主轴作为检测器件解决高速磨削法向磨削力实时在线测量困难的问题。通过对磁悬浮轴承高速电主轴转子的动力学分析,得到法向磨削力与电主轴转子位移的两阶导数和转子受到的电磁力的关系。转子的位移数据可由磁悬浮轴承电主轴中的位移传感器的输出得到。为了精确求取电磁力,气隙磁通密度采用图解法求出,消除线性化引入的系统误差;气隙宽度由遍历搜索法标定,消除系统加工装配误差对电磁力测量带来的影响;引入修正系数对由漏磁、磁滞和边缘效应带来的测量误差进行补偿,修正系数由三层神经网络动态实时求出。通过静态和动态试验对电磁力和动态磨削力的检测结果进行验证,试验结果证明基于磁悬浮轴承高速电主轴的法向磨削力检测方法的有效性和准确性。

关键词: 磁悬浮轴承电主轴, 电磁力, 法向磨削力, 气隙标定, 图解法, 修正系数

Abstract: High speed magnetic bearing spindle is used as detection device to solve the difficulty of inline measuring of the normal grinding force. Magnetic bearing spindle rotor dynamics is analyzed to obtain the relationship of the normal grinding force with derivatives of rotor displacements and magnetic force of the magnetic bearing. The displacement data can be obtained from displacement sensor. In order to accurately solve the magnetic force, air gap flux density is obtained using the graphic method to eliminate the systematic errors introduced by the linearization; Air gap width is calibrated using multi-point method to eliminate the impact of the system assembly error on the measurement of electromagnetic force; A correction factor calculated by the three-layer neural network is introduced to deal with the measurement error caused by the magnetic flux leakage, hysteresis and edge effects; Finally, static and dynamic experiments are done to verify the measuring of magnetic force and dynamic grinding force. Experiment results show the validity and accuracy of the detection of the grinding force based on magnetic bearing spindles.

Key words: Air gap calibration, Graphical method, Magnetic bearing spindle, Magnetic force, Modification factor, Normal grinding force

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