Abstract

This article introduces a wall-climbing robot that uses the reverse thrust of the propeller as the adsorption force. The robot is symmetrically distributed in structure and the adsorption force is symmetrically distributed before and after so that it can adapt to the surface of a variety of different media materials and achieve stable adsorption and movement of a variety of wall surfaces. The robot mainly uses the reverse thrust of the aircraft propeller as the adsorption force to achieve wall adsorption. The robot relies on four wheels to move forward. The forward power mainly comes from the combined action of the propeller reverse thrust component and the front wheel driving force. During the movement of the robot, the steering is realized by the front wheel differential control. In this paper, we design the structure of a dual-propeller dynamic adsorption wall mobile robot, plan the movement process of the robot from the ground to the wall, analyze the stable adsorption conditions of the robot wall, and carry out the robot’s motion performance and adaptability test under different ground/wall environments to verify that the robot is stable and feasible.

Highlights

  • In the last few years, there has been a growing interest in climbing robots for several civilian and industrial fields

  • According to the adsorption method, the robot can be divided into vacuum negative pressure, magnetic adsorption, bionic, and reverse thrust

  • Vacuum negative pressure robots [2,3,4] are mostly used on walls with relatively smooth walls and are widely used for cleaning glass walls, but the adsorption surface is prone to gas leakage, and the wall surface has high requirements for flatness and almost no obstacle crossing ability

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Summary

Introduction

In the last few years, there has been a growing interest in climbing robots for several civilian and industrial fields. Design and plan the robot movement from the ground to the wall, analyze the stable adsorption conditions of the robot wall, and carry out the robot’s motion performance and adaptability test under different ground/wall environarticle usesthrust dual propellers as the reverse thrust power the front ments. According This to the reverse of the propeller, the robot makes the unit, robotand move wheel differential steering power unit. Robot Design structure and control, easy operation, and excellent motion stability

Design
Robot Motion Design
Propeller Power Test
Experimental device for reverse test of propeller
Force Analysis ofFigure the Robot
Robot Electrical System Design
Traction Measurement
Vertical
11. Stable
Conclusions

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