Soft Robot for Inspection Tasks Inspired on Annelids to Obtain Peristaltic Locomotion
Diego E. Martinez-Sanchez,
X. Yamile Sandoval-Castro,
Nicolas Cruz-Santos,
Eduardo Castillo-Castaneda,
Maximiano F. Ruiz-Torres,
Med Amine Laribi
Affiliations
Diego E. Martinez-Sanchez
Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada Unidad Querétaro, Mecatrónica, Instituto Politécnico Nacional, Querétaro 76090, Mexico
X. Yamile Sandoval-Castro
Tecnologico de Monterrey, School of Engineering and Sciences, Monterrey 64849, Mexico
Nicolas Cruz-Santos
Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada Unidad Querétaro, Mecatrónica, Instituto Politécnico Nacional, Querétaro 76090, Mexico
Eduardo Castillo-Castaneda
Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada Unidad Querétaro, Mecatrónica, Instituto Politécnico Nacional, Querétaro 76090, Mexico
Maximiano F. Ruiz-Torres
Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada Unidad Querétaro, Mecatrónica, Instituto Politécnico Nacional, Querétaro 76090, Mexico
Med Amine Laribi
Department of GMSC, Pprime Institute CNRS, ENSMA, University of Poitiers, 86000 Poitiers, France
Soft robotics is a rapidly advancing field that leverages the mechanical properties of flexible materials for applications necessitating safe interaction and exceptional adaptability within the environment. This paper focuses on developing a pneumatic soft robot bio-inspired in annelids or segmented worms. Segmentation, also called metamerism, increases the efficiency in body movement by allowing the effect of muscle contraction to generate peristaltic locomotion. The robot was built using elastomers by the casting technique. A sequence of locomotion based on two stages, relaxation and contraction, was proposed; the contraction stage is actuated by a vacuum pump. The locomotion performances are compared using different elastomers, such as Ecoflex 00-30, Dragon Skin 20, Mold Star 15 Slow, and Mold Star 30. Experimental tests were carried out inside a plexiglass pipe, 1 inch in diameter; a wide range of frequencies was tested for relaxation and contraction stages to evaluate the effect on the speed of the robot.
