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Design of an Underactuated Finger Based on a Novel Nine-Bar Mechanism

Ming Cheng, Shaowei Fan, Dapeng Yang, Li Jiang

2020Journal of Mechanisms and Robotics23 citationsDOI

Abstract

Abstract Elastic elements are commonly adopted to realize underactuation in the design of human-friendly prosthetic hands. The stiffness of these elastic elements, which is a key factor affecting the grasp performance of the underactuated finger, has not well addressed when considering both the stability and adaptability. In this study, an adaptive anthropomorphic finger that adopted a novel nine-bar mechanism is proposed. This nine-bar mechanism is integrated through a coupled four-bar mechanism and an adaptive seven-bar mechanism. The developed finger based on the nine-bar mechanism is able to improve the grasp stability in the global workspace under an extremely small spring stiffness. A quantitative analysis of the grasp stability was carried out. Comparative experiments on the grasps using the finger with/without adaptability were also performed. The results validated that our finger has a good stability when grasping the objects of different sizes.

Topics & Concepts

UnderactuationGRASPMechanism (biology)Bar (unit)AdaptabilityWorkspaceStability (learning theory)StiffnessProsthetic handComputer scienceFour-bar linkageEngineeringControl theory (sociology)SimulationArtificial intelligenceStructural engineeringRobotMotion (physics)PhysicsProgramming languageBiologyMachine learningMeteorologyQuantum mechanicsControl (management)EcologyRobot Manipulation and LearningMuscle activation and electromyography studiesSoft Robotics and Applications
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