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Design and experiment of a small-scale walking robot employing stick-slip motion principle

Gangqiang Wang, Chaodong Li, Tao Yuan

Year
2017
Citations
18

Abstract

We describe the design and control of a four legged walking robot, 45 g in weight and 130 mm × 105 mm × 25 mm in size. Each leg consists of two piezoelectric bimorph actuators that are bonded at the free end by a flexure and an end-effector. The robot generates stick-slip locomotion when applying sawtooth shaped voltage signals. Friction between legs and a contact surface is analyzed by using the Coulomb friction model. Locomotion characteristics are measured in several experiments. The robot was driven with frequencies up to 75 Hz, and a maximum velocity of 65 mm/s was obtained at two frequencies: 45 Hz with 190 Vpp driving voltage and 60 Hz with 170 Vpp driving voltage, respectively.

Keywords

Sawtooth waveBimorphSlip (aerodynamics)RobotVoltageActuatorAcousticsControl theory (sociology)Materials scienceMechanics

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