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文章摘要
基于田口算法的电磁铁结构的优化设计
Designing an Electromagnet Using Taguchi Method and Dynamic Characteristic Analysis
Received:March 31, 2019  Revised:March 31, 2019
DOI:10.19753/j.issn1001-1390.2020.15.024
中文关键词: 断路器  电磁铁  等效磁路  田口算法  瞬态仿真
英文关键词: circuit breaker  electromagnetic  equivalent magnetic circuit method  Taguchi method  transient simulation.
基金项目:国家自然科学基金项目( 51607184)
Author NameAffiliationE-mail
DONG Runpeng* College of Electrical Engineering,Naval University of Engineering Dongxiaopeng1990@163.com 
ZHUANG Jinwu College of Electrical Engineering,Naval University of Engineering 13871161550@163.com 
HU Xinkai College of Electrical Engineering,Naval University of Engineering 13971631995@163.com 
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中文摘要:
      电磁铁凭借其快速性和稳定性可作为真空断路器的合闸机构。由于电磁铁的结构参数较多,在过往设计研究中难以考虑各参数对电磁力影响的耦合关系,本文针对这一问题,提出了一种基于田口算法的电磁铁多结构优化方法。首先对电磁铁进行等效磁路分析,确定对电磁力影响较大的参数作为田口算法的控制因子;以不同位置的最大电磁力为优化目标,基于有限元分析和田口算法建立直角表,分析了各控制因子对电磁力的影响规律,考虑电磁铁的功率及体积限制,并对电磁铁的最终参数进行选择;将电磁场和运动方程耦合计算,开展了电磁机构的瞬态有限元分析,对比了电磁铁优化前后的运动特性;最后进行样机实验,实验与仿真结果表明,经过优化后的电磁铁所需的驱动电流更小,使用100mF电容预充72V电压时可在135ms完成6mm运动行程。该方法可指导电磁铁结构的优化。
英文摘要:
      
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