摘要
为了提升电磁铆枪性能,本文对手持式电磁铆枪驱动头进行优化设计,实现了驱动头感生脉冲电磁力、放大电磁力应力波和对铆钉实施加载的基本功能,同时实现了驱动头防松设计。同时,通过电磁铆接力测试试验,研究了应力波放大器的几何形状和次级线圈厚度对电磁铆接力的影响效果,提出了驱动头优化设计建议。
In order to improve the performance of the electromagnetic riveting gun, the driving head of hand-held electromagnetic riveting gun was designed to generate pulse electromagnetic force, amplify the electromagnetic force stress wave and deform rivets. The anti-loosening design of the driving head was realized. Based on the design, the electromagnetic riveting force test experiment was conducted, and the influences of the geometry of the stress wave amplifier and the thickness of the secondary coil on the electromagnetic riveting force were investigated. The optimal design proposal of the driving head was proposed.
作者
杨晓娜
曹增强
左杨杰
杨友涛
杨柳
YANG Xiao-na;CAO Zeng-qiang;ZUO yang-jie;无(AVIC Xi'an Aircraft Industry Group Co,Ltd.,Xi'an 710089;School of Mechatronics,Northwestern Polytechnical University,Xi'an 710072;Sichuan University,School of Aerospace Science and Engineering,Chengdu 610064;CNOOC(China)Co.,Ltd.Shenzhen Branch,Shenzhen 518000;Xi’an ASN Technology Group Co,Ltd,Xi'an 710072)
出处
《航空精密制造技术》
2021年第5期43-46,共4页
Aviation Precision Manufacturing Technology
关键词
电磁铆接
电磁铆枪
优化设计
electromagnetic riveting
electromagnetic riveting gun
optimized design
