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椭圆弧柔性铰链刚度简化计算及优化设计
引用本文:付锦江,颜昌翔,刘伟,袁婷. 椭圆弧柔性铰链刚度简化计算及优化设计[J]. 光学精密工程, 2016, 24(7): 1703-1710. DOI: 10.3788/OPE.20162407.1703
作者姓名:付锦江  颜昌翔  刘伟  袁婷
作者单位:1. 中国科学院 长春光学精密机械与物理研究所, 吉林 长春 130033;2. 中国科学院大学, 北京 100039
基金项目:国家863高新技术发展资助(2011AA12A103),中国地质调查局工作项目支持(1212011120227)
摘    要:本文主要研究了椭圆弧柔性铰链刚度的优化设计方法。首无,针对椭圆弧柔性铰链刚度计算公式过于复杂的问题,采用幂函数非线性曲线拟合的方法,推导了椭圆弧柔性铰链刚度的近似理论计算公式。然后,基于近似理论计算公式,分析了柔性铰链的精度特性及工作时的最大应力;采用GlobalSearch全域优化指令和Fmincon局域优化指令对椭圆弧柔性铰链工作方向的最大刚度进行了优化设计。最后,采用有限元仿真和实验验证的方法证实近似理论计算公式的适用性和优化结果的可靠性。验证显示:实验结果与近似理论计算结果的相对误差小于5%,表明提出的方法不仅省去了繁杂的有限元模型建立以及计算和修改的过程,大大提高了设计效率;而且通过优化计算可以得到椭圆弧柔性铰链的最大刚度。

关 键 词:椭圆弧柔性铰链  转动刚度  刚度计算  非线性曲线拟合  优化设计  有限元分析
收稿时间:2015-11-12

Stiffness calculation and optimal design of elliptical flexure hinges
FU Jin-jiang,YAN Chang-xiang,LIU Wei,YUAN Ting. Stiffness calculation and optimal design of elliptical flexure hinges[J]. Optics and Precision Engineering, 2016, 24(7): 1703-1710. DOI: 10.3788/OPE.20162407.1703
Authors:FU Jin-jiang  YAN Chang-xiang  LIU Wei  YUAN Ting
Affiliation:1. Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China;2. University of Chinese Academy of Sciences, Beijing 100049, China
Abstract:An optimization design method for elliptical flexure hinges is researched. As the traditional calculation formula for the stiffness of elliptical flexure hinges is more complex, this paper deduces a approximate theoretical formula by nonlinear fitting method with power function. Based on the approximate theoretical formula, it analyzes the precision characteristics of the flexure hinges and their maximum stresses at working. Then, the global optimization solver GlobalSearch and local optimization solver Fmincon are used to design optimally the maximum stiffness of an elliptical flexure hinge at a working direction. Finally, the applicability of the approximate theoretical calculation equation and the accuracy of the optimization results are assessed by comparison with the results from finite element analysis and experimental data. The results show that the relative errors between the finite element simulation, experimental data and the approximate theoretical calculation for the stiffness of elliptic hinge are within 5%. It concludes that the method avoids establishing the complex finite element mode and the processes of calculation and modification, and greatly improves the design efficiency. Moreover, it can obtain the maximum stiffness of the elliptical flexure hinges by optimization calculation.
Keywords:elliptical flexure hinge  rotation stiffness  stiffness calculation  nonlinear curve fitting  optimization design  finite element analysis
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