感应电动机应力分布与振动中的机电故障特征

2007 IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives Pub Date : 2007-12-04 DOI:10.1109/DEMPED.2007.4393089

P. Rodriguez, A. Belahcen, A. Laiho, E. Resina, A. Arkkio

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引用次数: 5

摘要

本文提出了一种从感应电机的气隙应力分布和定子振动中确定机电故障特征的方法。分析了两种类型的感应电动机;一个2极对，星形连接和一个1极对，三角形连接电机。计算了沿气隙的径向电磁应力分布，并将其发展为空间和时间上的双傅立叶级数。计算结果表明，电机定子在故障工况下存在低频低阶应力分布。这些应力波能够在定子表面产生强迫振动。仿真结果与实测振动结果一致。还进行了模态试验以确定固有频率。测量和仿真结果表明，振动的低频分量可以作为感应电机状态监测的可识别信号。断层所呈现的模式可以区分它们。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Signatures of Electromechanical Faults in Stress Distribution and Vibration of Induction Motors

This paper develops a method for determining the signatures of electromechanical faults in the airgap stress distribution and stator vibration of induction machines. Two types of induction motors are analyzed; a 2-pole pairs, star connected and an 1-pole pair, delta connected motor. The radial electromagnetic stress distribution along the airgap is calculated and developed into double Fourier series in space and time. The computations show the existence of low frequency and low order stress distributions acting on the stator of the electrical machine when it is working under faulty conditions. These stress waves are able to produce forced vibration in the stator surface. The simulation results are corroborated by vibration measurements. Modal testing is also carried out to determine the natural frequencies. The measurements and simulations show that low frequency components of the vibrations can be used as identifiable signatures for condition monitoring of induction motors. The patterns presented by the faults allow to discriminate between them.

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来源期刊

2007 IEEE International Symposium on Diagnostics for Electric Machines, Power Electronics and Drives

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