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标题:超高速微细切削电主轴内装式永磁无刷直流电机设计研究 |
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作者:陈小军,肖曙红,吴利杰 |
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| 2013年第2期 访问次数:307次 |
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摘 要:在分析超高速微细切削电主轴内装式永磁无刷直流电机的设计特点的基础上,研究了超高速电主轴用永磁无刷直流电机结构及电磁设计方法。基于场路耦合有限元法分析了气隙长度和充磁方式对电机性能的影响;运用有限元分析软件Ansoft RMxprt模块建立电机二维有限元仿真模型,然后导入Maxwell 2D对电机的空载和负载特性进行仿真分析。仿真结果表明,超高速永磁无刷直流电机的设计合理,电机性能能够满足电主轴的使用要求。
关键词:超高速电主轴;永磁无刷直流电机;场路耦合有限元法;Ansoft;充磁方式
Abstract: Based on the analysis of micro-cutting ultra-high-speed electric spindle built-in permanent magnetic brushless DC motor design features, studied the ultra-high-speed electric spindle permanent magnet brushless DC motor structure and electromagnetic design method. Based on the field-circuit coupling finite element method on the important influencing of the motor performance were analyzed air-gap length and magnetizing method;By using finite element analysis software Ansoft RMxprt module to build motor finite element simulation model, and then imported Maxwell2D on motor no-load and load characteristic simulation analysis. The simulation results show that, high speed permanent magnet brushless DC motor design is reasonable, the motor performance can meet the requirements of the use of electric spindle.
Key words: ultra-high-speed motorized spindle; brushless DC motor; field-circuit coupling finite element method; ansoft; magnetizing method
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