Title :
Wall-climbing robot with mechanically synchronized gait
Author :
Deshpande, Shrinath ; Bakse, Amol ; Wabale, Shivaraj ; Deshmukh, Arvind ; Patil, Digvijay
Author_Institution :
Robot. & Autom. Lab., Coll. of Eng. Pune, Pune, India
Abstract :
This paper presents a wall-climbing robot for inspection and glass cleaning of high rise building application. A novel quadruped mechanism is proposed, which is composed of a combination of a four-bar and slider crank mechanism with vacuum adhesion module. Adhesion feedback system with intelligent gripping ensures adhesion between vacuum cup and the graspable surface. The climbing motion is analyzed. A prototype of the wall-climbing robot with compact size and low power consumption has been developed and performance tests have been conducted. The experimental results demonstrate that the wall-climbing robot has characteristics such as excellent stability, good weight carrying capacity and no complex control logic.
Keywords :
adhesion; bars; buildings (structures); cleaning; grippers; inspection; legged locomotion; service robots; stability; adhesion feedback system; climbing motion; four-bar; glass cleaning; graspable surface; high rise building application; inspection; intelligent gripping; mechanically synchronized gait; quadruped mechanism; slider crank mechanism; stability; vacuum adhesion module; vacuum cup; wall-climbing robot; weight carrying capacity; Angular velocity; Batteries; Battery charge measurement; Robots; Size measurement; Torque; Wall climbing robot; embedded system; mechanically synchronized gait; vacuum adhesion with feedback mechanism;
Conference_Titel :
Industrial Instrumentation and Control (ICIC), 2015 International Conference on
Conference_Location :
Pune
DOI :
10.1109/IIC.2015.7150863
