Soft Robotic Gripper Driven by Flexible Shafts for Simultaneous Grasping and In-Hand Cap Manipulation

• Published in: IEEE transactions on automation science and engineering Vol. 18; no. 3; pp. 1134 - 1143
• Main Authors: Liu, Quanquan, Gu, Xiaoyi, Tan, Ning, Ren, Hongliang
• Format: Journal Article
• Language: English
• Published: New York IEEE 01.07.2021; The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
• Subjects: Actuation; Capping; Custom design; Fingers; Flexible shaft; Force; Grasping; Grasping (robotics); Grippers; Hand (anatomy); in-hand manipulation; Manipulators; Robotics; simultaneous exertion of bending and tangential force; soft finger; Soft robotics; Stiffness; Torque
• ISSN: 1545-5955; 1558-3783
• DOI: 10.1109/TASE.2020.2997076

Performing a successful robotic grasping to uncertain objects in unstructured environments is challenging. This study presents a new compliant soft robotic gripper for objects handling and cap manipulation through the coordination of three soft fingers and in-hand manipulation. The experiments are conducted to validate that the soft robotic gripper can successfully realize simultaneous grasping and capping manipulations with only one flexible shaft actuation for every single soft finger. Note to Practitioners -Uncertain object manipulation tasks pose significant challenges to a robotic gripper while grasping and capping unknown objects without damaging them. The existing rigid grippers have experienced flexible manipulation through multiple degrees of freedom (DoFs) by complex mechanical structures, and the soft gripper can realize stiffness-compliant manipulation differently. The proposed novel robotic in-hand manipulation can execute grasping and cap manipulation by a single flexible shaft to simultaneously achieve bending and rotational movements. The relationship between stretching force and finger's curvature can enable a custom design for user-specific applications.