三自由度转台机械臂的运动学与动力学分析

Masoud Dorosti, J. H. Nobari
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引用次数: 2

摘要

三自由度转台机械手是一种实现空间旋转运动的机器人机构。该机制有助于制作运动场景,以测试移动车辆的制导和导航系统。它具有复杂的动力学方程,这对控制目标至关重要。本文对该机械手的适用运动学进行了研究。然后,我们选择了最优的运动学,并尝试应用牛顿第二旋转定律得到动力学方程。我们使用牛顿第二定律,而不是使用Denavit-Hartenberg和牛顿-欧拉方法等常见的机器人建模方法。我们提取了包含所有设计参数的完整的动力学方程,如转动惯量因子,甚至不平衡和摆动效应。最后通过仿真对所得方程进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kinematic and dynamic analysis of 3-DOF Rotary Table manipulator
3-DOF Rotary Table manipulator is a robotic mechanism which brings about spatial rotational movements. This mechanism helps to make a movement scenario in order to test Guidance and Navigation Systems of moving vehicles. It has complicated dynamic equations which are crucial for control objectives. In this paper, we study applicable kinematics of this manipulator. Afterward, we choose the best kinematics and try to get the dynamic equations by applying the Newton's Second Law for Rotation. We use the Newton's Second Law instead of using common methods in robotic modeling such as Denavit-Hartenberg and Newton-Euler methods. We have extracted full dynamic equations that contain all designing parameters such as Moment of Inertia factor in all round and even the unbalanced and wobble effect. Finally we have verified obtained equations by simulation.
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