Propeller-Type Wall-Climbing Robot for Visual and Hammering Inspection of Concrete Surfaces
Yuki Nishimura, Hiromi Mochiyama, Tomoyuki Yamaguchi
Abstract
Periodic inspections are necessary to maintain concrete infrastructures. As efficient and low-cost inspection methods, visual inspection robots to detect cracks and hammering inspection robots to detect internal defects have been developed. However, these robots can generally perform only a single task. To realize multiple tasks by a robot, multiple measurement sensors need to be installed considering the stability of the robot on the wall and measurement performance. Parameters such as weight and size must be designed to ensure the stability of the robot on the wall. We propose a propeller-type wall-climbing robot that can capture images and perform hammering simultaneously while moving on the wall. The static model of robot was established by considering parameters such as the direction of the propeller’s thrust force, weight, and placement of the measurement sensors. This model increases the payload for sensor installation and enables movement on dusty concrete walls with a low friction coefficient. The image captured by the inspection robot is used for crack detection and width estimation.We confirmed that the hammering sounds generated by the robot showed different frequency characteristics on clear and defective areas. The developed inspection robot showed the ability to collect adequate data for concrete health monitoring.