压电驱动高精度柔性并联机构的研制

2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale Pub Date : 2013-08-01 DOI:10.1109/3M-NANO.2013.6737396

D. Wei, Shi Ruochong, Sun Pengfei, Du Zhijiang, S. Li-ning

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引用次数: 1

摘要

提出了一种以柔性铰链为被动关节，通过6个独立的压电致动器实现运动平台沿6个自由度定向的高精度指向柔性并联机器人。在性能分析的基础上，设计了一种运动精度高、位移大的右圆柔性铰链。在运动学逆解的基础上，采用多目标优化方法对并联机构参数进行优化。并对最终设计的机构进行了工作空间的确定和仿真分析。最后，搭建了高精度瞄准系统并进行了性能测试，验证了系统满足设计目标的要求。概述的概念和方法可以扩展到各种应用程序。

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Development of a piezo-actuated high-precision flexible parallel mechanism

A flexible parallel manipulator was proposed for high-precision pointing, which employed flexure hinges as passive joints and oriented its moving platform along all six degrees of freedom by means of six independent piezoelectric actuators. A right-circular flexure hinge with high motion accuracy and large displacement was designed based on performance analysis. The parameters of parallel mechanism were optimized by multi-objective optimization on the foundation of inverse kinematics. Moreover, workspace determination and simulation analysis were performed based on the final designed mechanism. Finally, a high-precision pointing system was built up and the performance tests had been implemented, which validated the proposed system satisfied the requirement of design targets. The concept and approach outlined can be extended to a variety of applications.

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2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale

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