Home /Research /Complex Three-Dimensional Terrains Traversal of Insect-Scale Soft Robot
LOCOMOTION

Complex Three-Dimensional Terrains Traversal of Insect-Scale Soft Robot

Ying Liu, Jiaming Liang, Jiangfeng Lu, Huimin Chen, Zicong Miao, Dongkai Wang, Xiaohao Wang, Min Zhang

Year
2022
Citations
10

Abstract

This article proposes a piezoelectric-driven insect-scale soft robot with ring-like curved legs, enabling it to traverse complex three-dimensional (3D) terrain only by body-terrain mechanical action. Relying on the repeated deformation of the main body's n and u shapes, the robot's leg-ground mechanical action produces an "elastic gait" to move. Regarding the detailed design, first, a theoretical curve of the front leg with a fixed angle of attack of 75° is designed by finite element simulation and comparative experiments. It ensures no increase in drag and no decrease in the lift when climbing steps. Second, a ring-like leg structure with 100% closed degree is proposed to ensure a smooth pass through small-sized uneven terrain without getting stuck. Then, the design of the overall asymmetrical structure of the robot can improve the conversion ratio of vibration to forward force. The shape of curved legs is controlled by pulling the flexible leg structure with two metal wires working as spokes. The semirigid leg structure made of fully flexible materials has shape stability and structural robustness. Compared with the plane-legged robot, the curved-legged robot can smoothly traverse different rugged 3D terrains and cross the terrain covering obstacles 0.36 times body height (BH) at a speed of >4 body lengths per second. Moreover, the curved-legged robot shows 100% and 64% chances of climbing steps with 1.2- and 1.9-times BH, respectively.

Keywords

TraverseRobotTerrainClimbingLift (data mining)Legged robotSoft roboticsEngineeringComputer scienceDrag

Related papers

Browse all LOCOMOTION papers