摘要
大变形、小应力、小中心漂移的柔性铰链的研制一直是柔性铰链研究的难题。本文在参考国外某款柔性铰链的基础上,利用V型结构设计、叠加理论和对称布置方法设计了一种新型的柔性铰链。针对这种柔性铰链的设计进行了概念性研究,建立了铰链的数学模型,研究了这种新型柔性铰链的性能。有限元方法分析表明,该设计方法增加了铰链柔性部分的长度,降低了它的中心漂移和最大应力,得到其最大转角约为16°,最大中心漂移为3.557μm,最大应力为499.8 MPa,满足了最初的设计指标要求。结果证明该铰链具有一定的实用价值。
The development of flexure hinges with large deflection,low stress,small parasitic center shift has always been a difficult problem.On the basis of some foreign flexure hinges,this paper designed a new kind of flexure hinge by using a V shape structure,symmetric layout and the superposition principle.The concept design theory of this flexure hinge was analyzed,and a mathematic model was established to analyze its performance.Analyzed results show that the length of flexure part for the hinge has increased and its parasitic center shift and maximal stress have decreased.Finite element method indicates that its maximal deflection is about 16°,maximal parasitic center shift is 3.557 μm,and maximal stress is 499.8 MPa,respectively,which meets the requirement of design target and the results prove that this flexure hinge has a good quality in practices.
出处
《中国光学与应用光学》
2010年第2期146-151,共6页
Chinese Optics and Applied Optics Abstracts
基金
国家863高技术研究发展计划资助项目(No.863-2-5-1-13B)
关键词
蝶型柔性铰链
柔性单元
V型设计
中心漂移补偿
最大应力
最大转角
butterfly flexure hinge
flexure element
V shape design
parasitic center shift compensation
maximal stress
maximal deflection