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Soft Rod-Climbing Robot Inspired by Winding Locomotion of Snake

Bing Liao, Hongbin Zang, Mingyang Chen, Yunjie Wang, Xin Lang, Nana Zhu, Zheng Yang, Yan Yi

Year
2020
Citations
205

Abstract

Soft climbing robots have attracted much attention of researchers for their potential applications on the wall or inside the tube. However, making a soft robot climb on the outer surface of a rod or tube by agile and efficient motion has long been a challenge. Inspired by the winding climbing locomotion of arboreal snakes, a tethered pneumatic-actuated winding-styled soft rod-climbing robot that consists of two winding actuators and a telescopic actuator is proposed in this work. Based on constant curvature assumption, we develop a theoretical model to analyze the linear and bending motion of the actuators. We demonstrate that our robot can perform climbing locomotion similar to snakes, including turning around a corner along a rod, climbing a vertical rod with a maximum speed of 30.85 mm/s (0.193 body length/s), and carrying a larger payload (weight, 500 g, more than 25 times its self-weight) than existing soft climbing robots do on a vertical surface. In addition, the experimental tests exhibit the potential applications of the robot in special environments such as high-voltage cables, nuclear power plants, and underwater sites.

Keywords

ClimbClimbingRobotActuatorEngineeringSoft roboticsSimulationPropulsionPayload (computing)Mechanical engineering

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