一种交替极切向励磁游标永磁电机的分析与设计

doi:10.19595/j.cnki.1000-6753.tces.191106

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摘要提出一种新型带连接桥交替极切向励磁的游标永磁电机用以提升高极比（转子极对数与定子绕组极对数之比）切向励磁游标永磁电机的转矩密度。新型拓扑转子轭部表面均匀分布多个“h”形由连接桥和主齿组成的转子齿,切向励磁的永磁体插入转子齿中。连接桥为主磁场提供磁通路径,避免主磁通以“之”字形来回穿梭在气隙中,还可以减小气隙磁阻,削弱磁障效应,从而增大气隙磁通密度,提升电机的反电动势和转矩密度。此外,新型拓扑永磁体极性相同,磁钢用量减少一半,降低了电机成本。该文首先说明磁障效应产生的原因并介绍新型电机拓扑结构和工作原理;然后分析主要参数对转矩性能的影响;最后通过有限元仿真对比传统拓扑和新型拓扑电磁性能,结果表明,在相同体积与热负荷下,新型拓扑具有更高的转矩密度和更低的磁钢用量。

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	梁子漪
	曲荣海
	李大伟
	任翔
	高玉婷

关键词 ：切向励磁游标永磁电机, 交替极, 连接桥, 磁障效应

Abstract：In this paper, a novel spoke-array vernier permanent magnet (SA-VPM) machine with consequent-pole magnets and flux bridges is proposed to improve the torque density of the SA-VPM machine with high pole ratio (ratio of rotor pole pair number to winding pole pair number). In the proposed SA-VPM machine, the magnets with circumferential magnetization have the same polarity and the flux bridges are attached to the side-faces of rotor permanent magnets (PMs), which can weaken the flux barrier effect and strengthen the flux modulation effect, thus improving the air-gap flux density, back-EMF and torque density. Moreover, the proposed SA-VPM machine can save the usage of PMs due to the consequent-pole structure. The flux barrier effect, configuration and operational principles of the proposed SA-VPM machine are introduced. Then, the influences of several main parameters on torque performance are researched. Finally, the electromagnetic performances of the conventional and proposed SA-VPM machines are compared by finite element analysis (FEA). The results prove that the proposed machine has higher torque density and lower PM usage.

Key words： Spoke-array vernier permanent magnet (SA-VPM) machine consequent-pole flux bridges flux barrier effect

收稿日期: 2019-08-30

PACS:

TM351

基金资助:国家自然科学基金（51520105010）和国家自然科学基金青年基金（51807076）资助项目

通讯作者: 曲荣海男,1969年生,教授,博士生导师,研究方向为电机设计、驱动与控制。E-mail：ronghaiqu@hsut.edu.cn

作者简介: 梁子漪女,1995年生,博士研究生,研究方向为新型永磁电机。E-mail：ziyiliang@hust.edu.cn

引用本文:

梁子漪, 曲荣海, 李大伟, 任翔, 高玉婷. 一种交替极切向励磁游标永磁电机的分析与设计[J]. 电工技术学报, 2020, 35(15): 3173-3181. Liang Ziyi, Qu Ronghai, Li Dawei, Ren Xiang, Gao Yuting. Analysis of a Consequent-Pole Spoke-Array Vernier Permanent Magnet Machine. Transactions of China Electrotechnical Society, 2020, 35(15): 3173-3181.

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https://dgjsxb.ces-transaction.com/CN/10.19595/j.cnki.1000-6753.tces.191106 https://dgjsxb.ces-transaction.com/CN/Y2020/V35/I15/3173

[1] 程杉, 吴思源, 孙伟斌. 考虑电压稳定性和充电服务质量的电动汽车充电站规划[J]. 电力系统保护与控制, 2019, 47(7): 12-21.
Cheng Shan, Wu Siyuan, Sun Weibin.Optimal planning of charging stations for electric vehicles considering voltage stability of distribution system and the quality of service[J]. Power System Protection and Control, 2019, 47(7): 12-21.
[2] 鲍晓华, 刘佶炜, 孙跃, 等. 低速大转矩永磁直驱电机研究综述与展望[J]. 电工技术学报, 2019, 34(6): 1148-1160.
Bao Xiaohua, Liu Jiwei, Sun Yue, et al.Review and prospect of low-speed high-torque permanent magnet machines[J]. Transactions of China Electrotechnical Society, 2019, 34(6): 1148-1160.
[3] Xie Kangfu, Li Dawei, Qu Ronghai, et al.A new perspective on the pm vernier machine mechanism[J]. IEEE Transactions on Industry Applications, 2019, 55(2): 1420-1429.
[4] Qu Ronghai, Li Dawei, Wang Jin.Relationship between magnetic gears and vernier machines[C]// IEEE International Conference on.Electrical Machines and Systems (ICEMS), Beijing, 2011, DOI: 10.1109/ICEMS.2011.6073448.
[5] 林鹤云, 张洋, 阳辉, 等. 永磁游标电机的研究现状与最新进展[J]. 中国电机工程学报, 2016, 36(18): 5021-5034.
Lin Heyun, Zhang Yang, Yang Hui, et al.Overview and recent developments of permanent magnet vernier machines[J]. Proceedings of the CSEE, 2016, 36(18): 5021-5034.
[6] 李岱岩, 白保东, 杨晨, 等. 基于调磁块阵列的永磁游标电机研究[J]. 电工技术学报, 2018, 33(增刊2): 359-366.
Li Daiyan, Bai Baodong, Yang Chen, et al.Study of permanent magnet vernier machine by using magnetic tuning block array[J]. Transactions of China Electrotechnical Society, 2018, 33(S2): 359-366.
[7] 陈晓, 赵文祥, 吉敬华, 等. 考虑边端效应的双边直线永磁游标电机模型预测电流控制[J]. 电工技术学报, 2019, 34(1): 49-57.
Chen Xiao, Zhao Wenxiang, Ji Jinghua, et al.Model predictive current control of double-side linear Vernier permanent magnet machines considering end effect[J]. Transactions of China Electrotechnical Society, 2019, 34(1): 49-57.
[8] Cheng Ming, Wen Honghui, Han Peng, et al.Analysis of airgap field modulation principle of simple salient poles[J]. IEEE Transactions on Industrial Electronics, 2019, 66(4): 2628-2638.
[9] Li Huayang, Zhu Z Q, Liu Yue.Optimal number of flux modulation pole in vernier permanent magnet synchronous machines[J]. IEEE Transactions on Industry Applications, 2019, 55(6): 5747-5757.
[10] Liang Ziyi, Gao Yuting, Li Dawei, et al.Design of a novel dual flux modulation machine with consequent-pole spoke-array permanent magnets in both stator and rotor[J]. CES Transactions on Electrical Machines and Systems, 2018, 2(1): 73-81.
[11] 谢颖, 黑亮声, 华邦杰, 等. 新型永磁游标电机的设计与研究[J].电机与控制学报, 2019, 23(2): 68-74.
Xie Ying, Hei Liangsheng, Hua Bangjie, et al.Design and analysis of a new vernier permanent-magnet motor[J]. Electric Machines and Control, 2019, 23(2): 68-74.
[12] 杨玉波, 刘国鹏, 陈鹏, 等. 基于子域法的游标混合电机电磁性能解析计算[J]. 电机与控制学报, 2019, 23(9): 9-17, 25.
Yang Yubo, Liu Guopeng, Chen Peng, et al.Electromagnetic performance investigation of vernier hybrid machine[J]. Electric Machines and Control, 2019, 23(9): 9-17, 25.
[13] 李祥林, 程明, 邹国棠, 等. 聚磁式磁场调制永磁风力发电机工作原理与静态特性[J]. 电工技术学报, 2014, 29(11): 1-9.
Li Xianglin, Cheng Ming, Chau K T, et al.Principle and analysis of a new flux-concentrating field-modulated permanent-magnet wind power generator[J]. Transactions of China Electrotechnical Society, 2014, 29(11): 1-9.
[14] Li Xianglin, Chau K T, Cheng Ming.Comparative analysis and experimental verification of an effective permanent-magnet vernier machine[J]. IEEE Transactions on Magnetics, 2015, 51(7): 1-9.
[15] 张洋. 新型永磁游标风力发电机设计与分析研究[D]. 南京: 东南大学, 2016.
[16] Li Dawei, Qu Ronghai, Lipo T A.High-power-factor vernier permanent-magnet machines[J]. IEEE Transactions on Industry Applications, 2014, 50(6): 3664-3674.
[17] Zou Tianjie, Li Dawei, Qu Ronghai, et al.Performance comparison of surface and spoke-type flux-modulation machines with different pole ratios[J]. IEEE Transactions on Magnetics, 2017, 53(6): 7402605.
[18] Ren Xiang, Li Dawei, Qu Ronghai, et al.Investigation of spoke array permanent magnet vernier machine with alternate flux bridges[J]. IEEE Transactions on Energy Conversion, 2018: 33(4): 2112-2121.
[19] Kim B, Lipo T A.Analysis of a PM vernier motor with spoke structure[J]. IEEE Transactions on Industry Applications, 2016, 52(1): 217-225.