Title :
A Novel Wall Climbing Robot Based on Bernoulli Effect
Author :
Wagner, Matthias ; Chen, Xiaoqi ; Nayyerloo, Mostafa ; Wang, Wenhui ; Chase, J. Geoffrey
Author_Institution :
Tech. Univ. of Munich, Munich
Abstract :
It is a challenge for mobile robots to climb a vertical wall primarily due to requirements for reliable locomotion, high manoeuvrability, and robust and efficient attachment and detachment. Such robots have immense potential to automate tasks which are currently accomplished manually, offering an extra degree of human safety in a cost effective manner. In contrast to vacuum suction, magnetic adhesion, and dry techniques used existing wall climbing robots, Canterbury´s research effort focuses on a novel approach which achieves attachment and detachment based on Bernoulli effect. The adhesion force is achieved on a variety of surfaces, independent on the material of the wall and surface conditions. Such ubiquitous mobility with a force/weight ratio as high as 5 is nearly impossible to be achieved by other adhesion methods.
Keywords :
legged locomotion; robust control; Bernoulli effect; Canterbury research effort; dry techniques; force-weight ratio; human safety; locomotion reliability; magnetic adhesion; mobile robots; vacuum suction; vertical wall climbing; wall climbing robot; Adhesives; Climbing robots; Costs; Humans; Magnetic materials; Mobile robots; Robotics and automation; Robustness; Safety; Vacuum technology; Bernoulli Effect; adhesion; attachment mechanism; attraction force; wall climbing robot;
Conference_Titel :
Mechtronic and Embedded Systems and Applications, 2008. MESA 2008. IEEE/ASME International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-2367-5
Electronic_ISBN :
978-1-4244-2368-2
DOI :
10.1109/MESA.2008.4735656
