Title :
Design of the gripper for power lines inspection robot
Author :
Chao Chen ; Gaolin Wu ; Qian Wang ; Xingzhe Hou ; Chengjiang Wang ; Ye Linji ; Wang Zhao ; Yuping Wang
Author_Institution :
Power Res. Inst., State Grid CQ Electr., China
Abstract :
This paper proposes a novel gripper for power transmission lines inspection robot. The proposed gripper has advantage of obstacles avoidance. The whole weight of the robot could be supported by the grippers with ball bearings design. The passive rolling motion through ball bearings greatly reduces the friction force between the power transmission cable and the robot, with the result of having a less damage to the cable. What´s more, the emergency braking parts are added to improve security. In addition, a pair of worm gears with self-locking characteristic is used together. It also has large workspace feature with good adaptability for inspection applications on different diameter cables. A test-bed was built for maneuverability evaluation. Numerous experiments were conducted, and the experiment results show that the proposed gripper is efficient for robots maneuverability.
Keywords :
ball bearings; collision avoidance; design engineering; gears; grippers; inspection; power cables; power transmission lines; rolling friction; service robots; ball bearing design; friction force; gripper design; obstacle avoidance; passive rolling motion; power transmission cable; power transmission line inspection robot; robot maneuverability evaluation; self-locking characteristic; test-bed; worm gears; Friction; Grippers; Inspection; Power cables; Prototypes; Robots;
Conference_Titel :
Intelligent Control and Automation (WCICA), 2014 11th World Congress on
DOI :
10.1109/WCICA.2014.7053268
