Research Status of Heat Dissipation Technology for Electric Vehicle Drive Motors

Q3 Engineering
Xuedong Xie, Yongqi Yang, Lu Han, Farui Yan, Baocheng Xie
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引用次数: 0

Abstract

The application of electric vehicles in daily life is becoming increasingly widespread. However, the heat dissipation issues of the electric motors directly impact electric vehicles' stability and safety. Thus, research on the heat dissipation of the electric motor is conducive to improving the reliability of the drive motor and ensuring the overall stability and safety of electric vehicles; there is a growing emphasis on the development trends of heat dissipation technologies for electric vehicle drive motors. In order to meet the increasing requirements of electric vehicles for stability and safety and to solve the problems of low heat dissipation efficiency of electric vehicle drive motors, the size of heat dissipation devices, and the short life span caused by the high temperature of drive motors, the heat dissipation of drive motors is optimized and the heat dissipation structure is improved. Based on the structural characteristics of heat dissipation of electric vehicle drive motors, various representative patents related to the current heat dissipation technology of electric vehicle drive motors are summarized. By summarizing a large number of patents on electric vehicle drive motor heat dissipation technology, it is concluded that the current research on electric vehicle drive motor heat dissipation mainly focuses on liquid heat dissipation or gas heat dissipation and that the main reason for the heat dissipation problem of electric vehicle drive motors is the low heat dissipation efficiency due to over-reliance on a single heat dissipation method, and the reliability is poor due to failure to reasonably control heat dissipation according to the need for heat dissipation. This paper proposes a new idea of heat dissipation for electric vehicle drive motors, which effectively combines liquid heat dissipation and gas heat dissipation. Moreover, the heat dissipation efficiency will be significantly higher than the existing heat dissipation scheme, and the proposed heat dissipation concept of "ondemand distribution" will effectively improve the utilization rate of the heat dissipation medium and reduce the heat dissipation cost and the reasonable heat dissipation structure will reduce the volume of the heat dissipation device. The reasonable heat dissipation structure will also reduce the volume of the heat dissipation device. In addition, the future development of heat dissipation technology for electric vehicle drive motors is also discussed. The heat dissipation scheme proposed in this paper will effectively improve the heat dissipation problem of electric vehicle drive motors. Compared with the existing heat dissipation methods, the heat dissipation efficiency of the heat dissipation scheme proposed in this paper will be improved by more than 8.5%, and the service life of the drive motor will be extended by more than 5.1%, while the size of the electric vehicle drive motor will be reduced by 6%. More related patents will be invented in the future.
电动汽车驱动电机散热技术的研究现状
电动汽车在日常生活中的应用越来越广泛。然而,电机的散热问题直接影响电动汽车的稳定性和安全性。为了满足电动汽车对稳定性和安全性不断提高的要求,解决电动汽车驱动电机散热效率低、散热装置体积大、驱动电机温度高寿命短等问题,对驱动电机散热进行优化,改进散热结构。根据电动汽车驱动电机的散热结构特点,总结了当前与电动汽车驱动电机散热技术相关的各种代表性专利。通过总结大量有关电动汽车驱动电机散热技术的专利,总结出目前电动汽车驱动电机散热的研究主要集中在液体散热或气体散热方面,而造成电动汽车驱动电机散热问题的主要原因是过分依赖单一的散热方式,导致散热效率低,并且不能根据散热需要合理控制散热,可靠性差。本文提出了一种电动汽车驱动电机散热的新思路,将液体散热和气体散热有效地结合在一起。本文提出的 "按需分配 "散热理念将有效提高散热介质的利用率,降低散热成本,合理的散热结构将减小散热装置的体积。合理的散热结构也会减少散热装置的体积。本文提出的散热方案将有效改善电动汽车驱动电机的散热问题。与现有的散热方法相比,本文提出的散热方案的散热效率将提高 8.5%以上,驱动电机的使用寿命将延长 5.1%以上,电动汽车驱动电机的体积将减小 6%。未来还将发明更多相关专利。
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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来源期刊
Recent Patents on Engineering
Recent Patents on Engineering Engineering-Engineering (all)
CiteScore
1.40
自引率
0.00%
发文量
100
期刊介绍: Recent Patents on Engineering publishes review articles by experts on recent patents in the major fields of engineering. A selection of important and recent patents on engineering is also included in the journal. The journal is essential reading for all researchers involved in engineering sciences.
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