Research on traction motor heat dissipation of high-power permanent magnet direct drive electric locomotive

SONG Andong; ZHANG Jiafeng; GAO Shenglan

doi:10.13890/j.issn.1000-128X.2022.01.019

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Research on traction motor heat dissipation of high-power permanent magnet direct drive electric locomotive

Electric Traction and Control | 更新时间：2024-08-02

- Research on traction motor heat dissipation of high-power permanent magnet direct drive electric locomotive
- Electric drive for locomotives Issue 1, Pages: 116-119(2022)
- 作者机构：
  
  中车大同电力机车有限公司技术中心，山西大同 037038
- 作者简介：
- 基金信息：
- DOI：10.13890/j.issn.1000-128X.2022.01.019
  CLC： U264.1
- Published：10 January 2022，
  
  Received：02 November 2021，
  
  Revised：04 January 2022，
- 稿件说明：
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SONG Andong, ZHANG Jiafeng, GAO Shenglan. Research on traction motor heat dissipation of high-power permanent magnet direct drive electric locomotive. [J]. Electric drive for locomotives (1):116-119(2022)
DOI：

SONG Andong, ZHANG Jiafeng, GAO Shenglan. Research on traction motor heat dissipation of high-power permanent magnet direct drive electric locomotive. [J]. Electric drive for locomotives (1):116-119(2022) DOI： 10.13890/j.issn.1000-128X.2022.01.019.

摘要

文章介绍了大功率永磁直驱电力机车牵引电机直驱传动结构和电机风路结构设计，对永磁电机散热仿真和温升试验进行对比分析，在有无联轴器的试验条件下对电机进行温升试验，以证明联轴器传动结构对电机散热具有向好改善；重点对试验中轴承温升偏高的问题进行研究和试验验证，开展不同转速和有无联轴器条件下电机温升试验，经过分析研究给出电机轴承温升与转子永磁体发热的关系；通过转子永磁体磁钢分段技术减少转子磁损耗，经过理论分析和试验证明磁钢分段电机轴承温升比非磁钢分段电机明显下降。通过对永磁直驱电机散热技术研究，证明大功率永磁直驱电力机车电机转子采用磁钢分段技术能够有效降低电机损耗，采用直驱电机连接联轴器传递结构可进一步降低电机温升，为后续轨道交通行业大功率永磁直驱电机散热设计和大功率永磁直驱技术的可靠应用奠定基础，提供有益的设计经验。

Abstract

The design of the direct drive transmission structure and the motor air path structure of the traction motor of the high-power permanent magnet direct drive electric locomotive was introduced. The heat dissipation simulation and temperature rise test verification of the permanent magnet motor were compared and analyzed. The temperature rise test of the motor with or without a coupling which proved that the coupling transmission structure had a positive improvement in the heat dissipation of the motor. Focusing on the research and experimental verification of the problem of the bearing high temperature rise in the test

and carrying out the motor temperature rise test under different rotational speeds and different conditions with or without a coupling

the relationship between temperature rise of motor bearing and heating of rotor permanent magnet was provided and analyzed. The magnetic steel segmented technology of rotor permanent magnet was used to reduce the magnetic loss of rotor. Through theoretical analysis and test

it was proved that the bearing temperature rise of magnetic steel segmented motor is significantly lower than that of non-magnetic steel segmented motor. Through the research on the heat dissipation technology of the permanent magnet direct drive motor

it was proved that the use of the magnetic steel segment technology for the motor rotor of the high-power permanent magnet direct drive electric locomotive can effectively reduce the motor loss

and the use of the direct drive motor to connect the coupling transmission structure further reduces the temperature rise of the motor. It lays a foundation for the subsequent high-power permanent magnet direct drive motor heat dissipation design and reliable application of high-power permanent magnet direct drive technology in the rail transit industry

and provides useful design experience.

关键词

牵引电机散热永磁直驱磁钢分段轴承电力机车仿真

Keywords

traction motorheat dissipationpermanent magnet direct drivemagnetic steel segmentbearingelectric locomotivesimulation

references

傅雪军, 杨婷莉, 王晓元. 大功率永磁直驱电力机车牵引电机关键技术研究[J]. 铁道机车车辆, 2020, 40(3): 34-38.

FU Xuejun, YANG Tingli, WANG Xiaoyuan. Study on key technologies of traction motor for high-power permanent magnet direct drive electric locomotive[J]. Railway Locomotive & Car, 2020, 40(3): 34-38.

刘鹏, 原志强, 贾流棡. 大功率永磁直驱系统技术研究及应用[J]. 机车电传动, 2019(6): 62-65.

LIU Peng, YUAN Zhiqiang, JIA Liugang. Research and application of high-power permanent magnet direct drive system technology[J]. Electric Drive for Locomotives, 2019(6): 62-65.

孙德强, 吴楠. 机车大功率直驱永磁牵引电机新型通风散热结构设计[J]. 铁道机车与动车, 2019(10): 8-11.

SUN Deqiang, WU Nan. Design of a new type ventilation and heat dissipation structure for the high-power direct drive permanent magnet traction motors in locomotives[J]. Railway Locomotive and Motor Car, 2019(10): 8-11.

刘鹏, 张佳峰, 于保华. 大功率永磁直驱电力机车牵引系统[J]. 铁道机车车辆, 2020, 40(3): 43-48.

LIU Peng, ZHANG Jiafeng, YU Baohua. Traction system research on high-power permanent magnet direct drive for electric locomotive[J]. Railway Locomotive & Car, 2020, 40(3): 43-48.

任延生, 李嘉宾. 机车大功率永磁直驱牵引电动机设计[J]. 铁道机车与动车, 2021(8): 37-40.

REN Yansheng, LI Jiabin. Design of high-power direct-drive permanent magnet traction motor for locomotives[J]. Railway Locomotive and Motor Car, 2021(8): 37-40.

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