永磁同步直驱电机结构优化设计及故障仿真

Zheng Liu, Xutao Yu, Gang Niu
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引用次数: 1

摘要

本文建立了列车牵引传动系统中永磁同步直驱电机的有限元模型。基于两类故障的机理,对故障电机进行建模和仿真,对电机和电路进行联合仿真。首先,根据项目实际需求,基于ANSYS RMxprt模块建立电机模型,并对模型进行参数化扫描,实现电机结构优化。在此基础上,将所建立的模型导入ANSYS Maxwell模块进行电磁场计算,并注入两种典型故障,退磁(由电流引起)和偏心,研究电机故障的影响。最后,通过ANSYS simplover进行联合仿真,验证了模型的正确性和联合仿真的可行性,为牵引传动系统故障演化的研究提供了新的思路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structure optimization design and fault simulation of permanent magnet synchronous direct drive motor
In this paper, the finite element model of permanent magnet synchronous direct drive motor in train traction drive system is established. Based on the mechanism of two types of faults, a fault motor is modeled and simulated, the joint-simulation of motor and circuit is carried. Firstly, according to the actual requirements of the project, the motor model is established based on ANSYS RMxprt module, and the parametric scanning of the model is carried out to realize the structural optimization of the motor. On this basis, the developed model is imported into ANSYS Maxwell module to calculate the electromagnetic field, and two typical faults, demagnetization (caused by current) and eccentric-city, are injected to study the influence of motor fault. Finally, through the joint-simulation with ANSYS Simplorer, the correctness of the model and the feasibility of joint-simulation are verified, which provides a new idea for the research of fault evolution of traction transmission system.
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