Analysis of Mechanical Adhesion Climbing Robot Design for Wind Tower Inspection

S. Mondal, Patricio L. C. Marquez, M. Tokhi
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引用次数: 15

Abstract

Mmaintenance of wind turbine farms is a huge task, with associated significant risks and potential hazard to the safety and wellbeing of people who are responsible for carrying the tower inspection tasks. Periodic inspections are required for wind turbine tower to ensure that the wind turbines are in full working order, with no signs of potential failure. Therefore, the development of an automated wind tower inspection system has been very crucial for the overall performance of the renewable wind power generation industry. In order to determine the life span of the tower, an investigation of robot design is discussed in this paper. It presents how a mechanical spring-loaded climbing robot can be designed and constructed to climb and rotate 360° around the tower. An adjustable circular shape robot is designed that allows the device to fit in different diameters of the wind generator tower. The rotational module is designed to allow the wheels to rotate and be able to go in a circular motion. The design further incorporates a suspension that allows the robot to go through any obstacle. This paper also presents afiniteelement spring stress analysis and Simulink control system model to find the optimal parameters that are required for the wind tower climbing robot.
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测风塔机械附着爬升机器人设计分析
风电场的维护是一项艰巨的任务,对负责塔架检查任务的人员的安全和福祉有着重大风险和潜在危害。风力涡轮机塔架需要定期检查,以确保风力涡轮机处于完全工作状态,没有潜在故障迹象。因此,开发自动化风塔检测系统对可再生风力发电行业的整体性能至关重要。为了确定塔架的使用寿命,本文对机器人的设计进行了研究。它介绍了如何设计和建造一个机械弹簧加载的攀爬机器人,使其能够绕塔360°攀爬和旋转。设计了一个可调节的圆形机器人,使该设备能够适应风力发电塔的不同直径。旋转模块设计为允许车轮旋转并能够进行圆周运动。该设计还包含了一个悬架,可以让机器人穿过任何障碍物。本文还提出了有限元弹簧应力分析和Simulink控制系统模型,以找到爬塔机器人所需的最佳参数。
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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