Research regarding wires elastic deformations influence on joints positioning of a wire-driven robotic arm

IOP Conf. Series: Materials Science and Engineering Pub Date : 2016-08-01 DOI:10.1088/1757-899X/145/5/052006

C. Ciofu, G. Stan

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Abstract

In this paper, we present the influence of driving wires deformation on positioning precision of joints from an elephant's trunk robotic arm. Robotic arms driven by wires have the joint accuracy largely depending on wires rigidity. The joint moment of resistance causes elastic deformation of wires and it is determined by: manipulated object load, weight loads previous to the analyzed joint and inherent resistance moment of joint. Static load analysis emphasizes the particular wires elastic deformation of each driven joint from an elephant's trunk robotic arm with five degrees of freedom. We consider the case of a constant manipulated load. Errors from each driving system of joints are not part of the closed loop system. Thus, precision positioning depends on wires elastic deformation which is about microns and causes angle deviation of joints about tens of minutes of sexagesimal degrees. The closer the joints to base arm the smaller positioning precision of joint. The obtained results are necessary for further compensation made by electronic corrections in the programming algorithm of the elephant's trunk robotic arm to improve accuracy.

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钢丝弹性变形对线驱动机械臂关节定位的影响研究

本文研究了驱动导线变形对象鼻机械臂关节定位精度的影响。钢丝驱动机械臂的关节精度很大程度上取决于钢丝的刚性。节点的阻力矩引起钢丝的弹性变形，它由被操纵物体荷载、被分析节点之前的自重荷载和节点的固有阻力矩决定。静载荷分析着重研究五自由度象鼻机械臂各驱动关节的特定钢丝弹性变形。我们考虑恒定操纵载荷的情况。各个关节驱动系统产生的误差不属于闭环系统。因此，精确定位依赖于钢丝的弹性变形，这种弹性变形约为微米，并导致关节角偏差约为数十分六角度。关节离基臂越近，关节的定位精度越小。所得结果为进一步对象鼻机械臂编程算法进行电子修正补偿以提高精度提供了必要的依据。

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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IOP Conf. Series: Materials Science and Engineering

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