雙定子游標磁阻電機的轉矩研究
羅丹�,劉福貴�,楊乾坤�,李寧寧
(河北工業大學 電氣工程學院����,天津 300130)
摘 要:為了滿足很多場合中低速大轉矩直接驅動電機的需要��,基于傳統游標磁阻結構電機改進設計了一種雙定子中間轉子式的新型游標磁阻電機����。分析了傳統游標磁阻電機的工作原理并推導出其電磁轉矩表達式����,利用有限元法對比分析新型游標磁阻電機和傳統游標磁阻電機的性能�,仿真計算得出該新型電機的平均轉矩比傳統游標磁阻電機高44%��,通過對內外定子間的相對角度進行優化�,得出最優角度為15°����,此時其平均轉矩與優化前相比提高9.5%��。
關鍵詞:游標磁阻電機����;雙定子�;電磁轉矩����;齒槽轉矩��;有限元法
中圖分類號:TM352 文獻標識碼:A 文章編號:1007-3175(2018)02-0006-05
Torque Research of Dual-Stator Vernier Reluctance Motor
LUO Dan, LIU Fu-gui, YANG Qian-kun, LI Ning-ning
(School of Electrical Engineering, Hebei University of Technology, Tianjin 300130, China)
Abstract: In order to meet the needs of low speed and high torque direct-drive motors in many occasions, this paper designed a novel kind of dual-stator inner-rotor vernier reluctance motor based on the traditional vernier reluctance topology motor, analyzed the working principle of the traditional vernier reluctance motor and deduced the electromagnetic torque expression. Finite element method was used to analyze and compare the performance of the novel vernier reluctance motor with the traditional one. The simulating calculation result shows that the average torque of the novel motor is increased by 44% compared to the traditional structure. The relative angle between the external stator and the internal stator of the novel motor is optimized to obtain the most optimal angle which is 15o and its average torque is 9.5% higher than that before optimization.
Key words: vernier reluctance motor; dual stator; electromagnetic torque; cogging torque; finite element method
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