Dynamic Simulation of Four-DOF Handling Robot under Different Driving Modes

Proceedings of the International Symposium on Big Data and Artificial Intelligence Pub Date : 2018-12-29 DOI:10.1145/3305275.3305311

Fang Jiang, J. Qin, Sheng Chen

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Abstract

The working conditions of different driving modes can affect the speed and acceleration of the handling part of the handling robot. In this paper, the cylindrical coordinate four-degree-of-freedom handling robot was taken as the research object, and the dynamic model was established by the Lagrangian equation for the handling robot. In this paper, three driving modes of the handling robot were set up, and the dynamics simulation analysis was carried out in the Adams simulation software. The speed and acceleration of the grabbing position under the three conditions of low speed, normal and critical speed were studied. The results shown that the speed of the hand end of the robot was proportional to the speed required under different working conditions. The acceleration was proportional to the normal and low speed conditions, but under the critical condition, the acceleration has a "W" type change instead of Linear change. This result provides an effective experimental basis for the subsequent optimization design of such robot transmission rods.

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不同驱动模式下四自由度搬运机器人的动力学仿真

不同驱动模式的工作条件会影响搬运机器人搬运部分的速度和加速度。本文以柱坐标四自由度搬运机器人为研究对象，利用拉格朗日方程建立了搬运机器人的动力学模型。本文建立了搬运机器人的三种驱动模式，并在Adams仿真软件中进行了动力学仿真分析。研究了低速、正常转速和临界转速三种工况下抓取位置的速度和加速度。结果表明，在不同工况下，机器人手端速度与所需速度成正比。加速度与正常和低速条件成正比，但在临界条件下，加速度呈“W”型变化，而不是线性变化。该结果为该机器人传动杆的后续优化设计提供了有效的实验依据。

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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Proceedings of the International Symposium on Big Data and Artificial Intelligence

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