Title :
Mechanism design and dynamic simulation of high maneuverable mobile platform for wall-climbing robot
Author :
Hong Chen ; Fen-fen Tian ; Guang-Zhong Cao ; Yan Liu ; Nan-ning Xie ; Tao Lin
Author_Institution :
Shenzhen Key Lab. of Electromagn. Control, Shenzhen Univ., Shenzhen, China
Abstract :
A high maneuverable mobile platform for wall climbing robot was developed based on Electromagnetic adsorption principle. The Dual-body mechanism was designed to improve maneuverability performance effectively. The mobile platform included electromagnetic adsorption mechanism and wheeled moving dual-body mechanism. By means of Solidworks three-dimensional model of mobile platform was established, and dynamic Simulations of obstacle negotiation on steel wall were performed. The simulation results indicated that the mobile platform not only can possess steering ability, but also can cross L-form and inverted L-form obstacle. The mechanism design provided high reference value to research wall climbing robot.
Keywords :
collision avoidance; control engineering computing; electromagnetic wave absorption; mobile robots; solid modelling; Solidworks; dynamic simulations; electromagnetic adsorption principle; high maneuverable mobile platform; inverted L-form obstacle; maneuverability performance; mechanism design; obstacle negotiation; steel wall; steering ability; three-dimensional model; wall climbing robot; wheeled moving dual-body mechanism; Adsorption; Climbing robots; Force; Mobile communication; Wheels; Wall-climbing robot; dynamic simulation; high maneuverable; mechanism design; mobile platform;
Conference_Titel :
Information Science and Technology (ICIST), 2014 4th IEEE International Conference on
Conference_Location :
Shenzhen
DOI :
10.1109/ICIST.2014.6920602
