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Determining of Optimal Dimensions of Compliant Spring Guiding Systems

Determining of Optimal Dimensions of Compliant Spring Guiding Systems
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摘要 Compliant mechanisms transfer an input force or displacement to another point through elastic body deformation. The field of compliant mechanisms is expected to continue to grow as materials with superior properties are developed. The paper takes into consideration some typical spring guiding systems, being able to realize translating planar displacement of the link. Some types of compound spring guiding systems, such as S-shaped guiding spring system, U-shaped guiding spring system and four spring guiding system with additional rigid-body link have been considered and analyzed as compliant structures. The mobility as well as guiding accuracy of the developed compliant mechanisms, that is, their capability to realize translating planar displacement of the link, have been researched, and the optimal dimensions of the mechanism have been determined in order to provide minimal guiding inaccuracy.
作者 Nenad T. Pavlovic Nenad D. Pavlovic Milos Milogevic
机构地区 Faculty of Mechanical Engineering
出处 《Journal of Mechanics Engineering and Automation》 2011年第6期455-463,共9页 机械工程与自动化(英文版)
关键词 Compliant mechanisms spring guiding systems guiding accuracy MOBILITY 引导系统 最佳尺寸 Spring 兼容机制 优化 平面位移 指导系统 弹簧系统
分类号 TP316 [自动化与计算机技术—计算机软件与理论] TU431 [建筑科学—岩土工程]
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参考文献13

  • 1L.L. Howell, Compliant Mechanisms, John Wiley &Sons, Inc., New York, 2001.
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  • 3L.L. Howell, A. Midha, A method for the design of compliant mechanisms with small-length flexural pivots, ASME Journal of Mechanical Design 116 (1) (1994) 280-290.
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  • 5N.D. Pavlovi6, D. Petkovi6, N.T. Pavlovi6, Optimal selection of the compliant mechanism synthesis method, in Proceedings of the International Conference Mechanical Engineering in XXI Century, Ni~, 2010, pp. 247-250.
  • 6F. Bottcher, G. Christen, H. Pfefferkorn, Structure and function of joints and compliant mechanism, Motion Systems 2001, Collected Short Papers of the Innovationskolleg "Bewegungssysteme"Friedrich-Schiller Universit~it Jena, Technische Universit~it Jena, Technische Universit~it Ilmenau, Shaker Verlag, Aachen, 2001, pp. 30-35.
  • 7N.T. Pavlovi6, N.D. Pavlovi6, Rectilinear guiding accuracy of roberts-qe6hxmeB compliant four-bar linkage with silicone joints, MexamIKa aa MatuumIxe XII (4) (2004) 53-56.
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Journal of Mechanics Engineering and Automation
2011年 第6期

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