通过降低铁芯偏斜的铁氧体双层辐条式永磁同步电机的轴向力来提高其性能的研究

Machines Pub Date : 2024-04-22 DOI:10.3390/machines12040280
Dong-Woo Nam, Kangbeen Lee, Si-Woo Song, Won-Ho kim, Jae-Jun Lee
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引用次数: 0

摘要

最近,由于稀土矿资源的价格波动和供应不稳定,使用非稀土永磁体的电机得到了大量开发。因此,人们开始研究使用无镝永磁体和铁氧体永磁体的电机,特别是铁氧体永磁体通常采用辐条式结构,即磁通集中器,以补偿其低矫顽力和残余磁通密度。然而,一般来说,辐条式 PMSM 并不使用太多的磁阻转矩,因此双层辐条式 PMSM 因其更高效的设计而受到研究。与一般辐条式 PMSM 不同,双层辐条式 PMSM 可以通过增加 d 轴和 q 轴磁阻差来利用高磁阻转矩。然而,随着磁阻差的增大,会产生振动和噪音,从而对机械部件造成不利影响,并缩短电机的使用寿命。虽然在之前的研究中,通过应用铁芯偏斜似乎解决了这一问题,但研究证实,轴向漏磁通引起的轴向力发生在每安培最大转矩(MTPA)控制部分,并且转矩纹波增大。因此,本文提出了一种可应用对称磁芯偏斜并减少轴向力的模型。首先,分析了以往研究中产生轴向力的原因。在分析这些原因的基础上,提出了一种新的对称铁芯偏斜结构,并通过有限元分析验证了其合理性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Study on Performance Improvement through Reducing Axial Force of Ferrite Double-Layer Spoke-Type Permanent Magnet Synchronous Motor with Core Skew
Recently, due to the price fluctuation and supply instability of rare earth mineral resources, there has been a lot of development of electric motors using non-rare-earth permanent magnets. As a result, motors using Dy-free permanent magnets and ferrite permanent magnets are being researched, and, in particular, ferrite permanent magnets often utilize spoke-type structures, which are magnetic flux concentrators, to compensate for their low coercivity and residual flux density. However, in general, spoke-type PMSMs do not use much reluctance torque, so double-layer spoke-type PMSMs have been studied for their more efficient design. Unlike general spoke-type PMSMs, double-layer spoke-type PMSMs can utilize high reluctance torque by increasing the difference between d-axis and q-axis reluctance. However, as the difference in magnetic resistance increases, vibration and noise are generated, which adversely affects the mechanical part and shortens the life of the motor. Although this problem seemed to be solved by applying core skew in the previous study, it was confirmed that the axial force caused by the axial leakage flux occurred in the maximum torque per ampere (MTPA) control section and the torque ripple was increased. Therefore, in this paper, a model that can apply symmetrical core skew and reduce axial force is proposed. First, the causes of the axial force generated in previous studies were analyzed. Based on the analysis of these causes, a new symmetrical core skew structure was proposed, and its justification was verified through FEA.
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