V-Shape Pneumatic Torsional Actuator: A Building Block for Soft Grasper and Manipulator

Robotic joints are fundamental components in artificial graspers and manipulators, and they are designed to achieve high dexterity to carry out various tasks. Traditional robotic hands are often driven by rigid joints, such as tendons and electric motors, resulting in bulky and complex designs. Soft robotics, composed of flexible and compliant materials, offers promising solutions to mimic the human hands and handle delicate objects safely. In this article, we propose a simple yet effective V-shape pneumatic torsional actuator (V-PTA) as the building blocks of soft grasper and manipulators. The proposed actuator is capable of producing large angular changes and twisting torque, responding fast to pneumatic changes, and scaling to appropriate dimensions easily. Because the design is generic and modular in nature, these lightweight actuators could also be assembled to form a variety of patterns of structures to suit the needs of individual tasks. We further fabricated robotic graspers and manipulators based on multiple V-PTA and demonstrated that our design could offer solutions to execute daily laboratory operations that interact with small and irregular components. Experimental data confirmed that the V-PTA building block structure could potentially pave the path forward for miniature robotic automation in laboratory or industrial settings.