Dynamic analysis of a 3-DOF 3-PUU parallel manipulator based on the principle of virtual work

2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) Pub Date : 2015-07-07 DOI:10.1109/AIM.2015.7222744

Song-jun Lu, Yangmin Li

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引用次数: 8

Abstract

This paper presents a straightforward and systematical methodology for conducting the inverse dynamic analysis of a 3-prismatic-universal-universal (PUU) parallel kinematic manipulator (PKM) through employing the principle of virtual work. The proposed 3-PUU PKM possesses three translational degree-of-freedom (DOF). The position, velocity and acceleration of joints are solved via the inverse kinematic analysis, the link Jacobian matrices which map the velocity of the moving platform into the velocity and angular velocity of struts are derived in the fixed coordinate system. Based on the d'Alembert's form of the principle of virtual work, the applied generalized forces of the whole mechanical system are divided into the applied forces of moving platform, struts, sliders, and motor-coupling-leadscrew, respectively. The joint actuated torques are obtained through eliminating the virtual displacement in the dynamic equations. Furthermore, the inertial term, centrifugal and Coriolis term, and gravitational term of the total joint torque are determined. Simulation for a conical spiral trajectory demonstrates that the total torque is dominated by the inertial term.

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基于虚功原理的3-DOF 3-PUU并联机器人动力学分析

本文利用虚功原理，提出了一种简单系统的三棱镜-通用-通用(PUU)并联运动机械臂(PKM)逆动力学分析方法。所提出的3-PUU PKM具有三个平移自由度。通过运动学逆分析求解了关节的位置、速度和加速度，导出了在固定坐标系下将运动平台的速度映射为支柱的速度和角速度的连杆雅可比矩阵。基于虚功原理的达朗贝尔形式，将整个机械系统的广义施加力分为运动平台施加力、支柱施加力、滑块施加力和电机-联轴器-丝杠施加力。通过消除动力学方程中的虚位移，得到关节驱动力矩。进而确定了关节总扭矩的惯性项、离心和科里奥利项以及引力项。对圆锥螺旋轨迹的仿真表明，总转矩主要由惯性项决定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2015 IEEE International Conference on Advanced Intelligent Mechatronics (AIM)

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