Research on a novel maintenance robot for power transmission lines

2016 4th International Conference on Applied Robotics for the Power Industry (CARPI) Pub Date : 2016-10-01 DOI:10.1109/CARPI.2016.7745642

Shiyu Xiao, Hongguang Wang, L. Ling

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引用次数: 4

Abstract

The slip vibration damper on power transmission lines (PTLs), which is caused by aeolian vibration, material aging and some outside interference, is a serious fault in power grid. The maintenance task, with high working intensity and risk, is generally completed on the high voltage live line by specially trained workers. This paper presents the development of a novel mobile robot aiming at retrieving slip vibration dampers in power grid. The mobile robot with an operation platform can adapt to uncertain postures of the vibration damper, though the posture varies in a random way within a certain range. After approaching the fault location, the robot first disassembles the connection clamps of the loose vibration damper with specialized tools, and then the vibration damper is transported to the original position and assembled by virtue of a lifter and a revolute sleeve barrel. With the consideration of practical application, safety and performance on maintenance, the robot prototype has been developed. The inverse kinematics with geometrical constraints has been deduced. Robot experiments on mock-up lines have been carried out and the results are shown in this paper.

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一种新型输电线路维护机器人的研究

输电线路滑动减振器是电网中的一种严重故障，它是由风振、材料老化和外界干扰等因素引起的。维修任务工作强度大，危险性大，一般由经过专门培训的工人在高压带电线路上完成。本文介绍了一种新型的移动机器人，用于回收电网中的滑移减振器。带操作平台的移动机器人可以适应减振器姿态的不确定性，但姿态在一定范围内是随机变化的。在接近故障位置后，机器人首先用专用工具拆卸松动减振器的连接夹，然后借助升降机和旋转套筒将减振器搬运到原位置并进行组装。从实际应用、安全性和维护性能等方面考虑，研制了机器人样机。推导了几何约束下的逆运动学方程。在样机上进行了机器人实验，并给出了实验结果。

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2016 4th International Conference on Applied Robotics for the Power Industry (CARPI)

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