中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2011年
15期
1862-1866
,共5页
程敏%潘勇%刘保国%白会涛
程敏%潘勇%劉保國%白會濤
정민%반용%류보국%백회도
电磁支撑%机械支撑%变刚度支撑%支撑刚度
電磁支撐%機械支撐%變剛度支撐%支撐剛度
전자지탱%궤계지탱%변강도지탱%지탱강도
electromagnetic support%mechanical support%variable stiffness support%support stiffness
利用电磁支撑的支撑刚度参数随励磁电流变化而改变的原理,构建了具有机械支撑和电磁支撑并联特点的支撑形式,实现机械系统变刚度支撑。在对电磁支撑的基本结构及特点进行阐述的基础上,通过对其数学模型的分析,得到了电磁力的线性化准则和支撑系统综合刚度为正的准则,探讨了衔铁偏心和动态间隙对电磁支撑特性的影响。对具有机械支撑和电磁支撑并联特点的悬臂梁实验装置系统的电磁支撑刚度与附加阻尼参数进行了识别。结果表明:附加阻尼参数的实验值远远小于理论值,在一定条件下可以忽略不计;支撑刚度参数的识别值在静态工作点附近具有较高的精度,说明该电磁支撑可以实现机械系统变刚度支撑。
利用電磁支撐的支撐剛度參數隨勵磁電流變化而改變的原理,構建瞭具有機械支撐和電磁支撐併聯特點的支撐形式,實現機械繫統變剛度支撐。在對電磁支撐的基本結構及特點進行闡述的基礎上,通過對其數學模型的分析,得到瞭電磁力的線性化準則和支撐繫統綜閤剛度為正的準則,探討瞭銜鐵偏心和動態間隙對電磁支撐特性的影響。對具有機械支撐和電磁支撐併聯特點的懸臂樑實驗裝置繫統的電磁支撐剛度與附加阻尼參數進行瞭識彆。結果錶明:附加阻尼參數的實驗值遠遠小于理論值,在一定條件下可以忽略不計;支撐剛度參數的識彆值在靜態工作點附近具有較高的精度,說明該電磁支撐可以實現機械繫統變剛度支撐。
이용전자지탱적지탱강도삼수수려자전류변화이개변적원리,구건료구유궤계지탱화전자지탱병련특점적지탱형식,실현궤계계통변강도지탱。재대전자지탱적기본결구급특점진행천술적기출상,통과대기수학모형적분석,득도료전자력적선성화준칙화지탱계통종합강도위정적준칙,탐토료함철편심화동태간극대전자지탱특성적영향。대구유궤계지탱화전자지탱병련특점적현비량실험장치계통적전자지탱강도여부가조니삼수진행료식별。결과표명:부가조니삼수적실험치원원소우이론치,재일정조건하가이홀략불계;지탱강도삼수적식별치재정태공작점부근구유교고적정도,설명해전자지탱가이실현궤계계통변강도지탱。
Based on the principles of support stiffness parameter of electromagnetic support varying with exciting current,an support style with parallel electromagnetic and mechanical support was proposed to make the machine system with variable stiffness supporting.By studying on the theoretical model of the electromagnetic support,the linearized rule and the rule of the system total stiffness being positive were obtained,on the basis of that the basic structure and characteristics of electromagnetic support were described,and the eccentricity of frame and dynamic gap affecting the electromagnetic support characteristics were also analyzed.The electromagnetic support stiffness and additional damping parameters of the cantilever beam system with parallel electromagnetic and mechanical support were identified.The results show that the experimental values of additional damping parameter are always far smaller than the theoretical values and can be ignored,but the experimental values of stiffness parameter are accurate near the static operating point,which provides facts for the realization of variable stiffness supporting.
