Micromachines (Dec 2021)

Theoretical and Experimental Investigations into a Crawling Robot Propelled by Piezoelectric Material

  • Xiangli Zeng,
  • Yue Wu,
  • Shangyan Han,
  • Yanbo Liu,
  • Haohua Xiu,
  • Fengjun Tian,
  • Luquan Ren

DOI
https://doi.org/10.3390/mi12121577
Journal volume & issue
Vol. 12, no. 12
p. 1577

Abstract

Read online

Conventional motors with complicated electromagnetic structures are difficult to miniaturise for millimetre- and centimetre-sized robots. Instead, small-scale robots are actuated using a variety of functional materials. We proposed a novel robot propelled by a piezoelectric ceramic in this work. The robot advances due to the asymmetric friction created by the spikes on the surface. The structural modelling was completed, static and dynamic models were established to predict the moving characteristics, the prototype was built using three dimensional (3D) printing technology, and the models were evaluated via experiments. Compared with conventional inchworm-type robots, the proposed robot is superior in simple structure because the clamping components are replaced by spikes with asymmetric friction. Compared with SMA (shape memory alloy) actuating inchworm-type robots, it has a faster velocity with higher resolution. Meanwhile, the components are printed through an additive manufacturing process that is convenient and avoids assembly errors. This design could make contributions to many areas, such as pipe inspection, earthquake rescue, and medicine delivery.

Keywords