通过半主动多自由度内骨骼设计和实现具有更强形状适应性和横向刚度的欠驱动抓手

Yafeng Cui, Xin An, Zhonghan Lin, Zhibin Guo, Xin-Jun Liu, Huichan Zhao
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引用次数: 0

摘要

抓取是机器人与人类和环境互动的一项关键任务。人们对软抓手进行了广泛研究,其中一些已应用于工业和日常生活。典型的软抓手面临两个挑战:刚度不足和对各种物体的适应性不够。受人手的启发,本文提出了一种软硬混合气动机械手,由带柔软皮肤和刚性内骨骼的手指以及活动手掌组成。通过对刚性内骨骼中四个关节锁定状态的不同组合,每个手指在充气状态下可获得 9 种不同姿态,在放气状态下可获得 13 种不同姿态,从而使抓手能够适应更多的物体。同时,由于内骨骼的存在,抓手的横向刚度得到了显著增强(横向抓取时的负载重量比∼7.5)。我们还提出了一系列抓取策略,用于抓取不同大小和形状的物体,以充分利用抓手的多功能配置。实验证明,该机械手能很好地贴合圆柱形和棱柱形物体的表面,并成功地抓取了雅礼协会-CMU-伯克利物体集中的所有工具和形状物体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and implementation of an underactuated gripper with enhanced shape adaptability and lateral stiffness through semi-active multi-degree-of-freedom endoskeletons
Grasping is a key task for robots to interact with humans and the environment. Soft grippers have been widely studied and some have been applied in industry and daily life. Typical soft grippers face two challenges: lack of stiffness and insufficient adaptability to various objects. Inspired by the human hand, this paper proposes a soft-rigid hybrid pneumatic gripper composed of fingers with soft skin and rigid endoskeletons, and an active palm. Through different combinations of the four joints’ locking states within the rigid endoskeleton, each finger obtains 9 different postures in its inflating state and 13 different postures in its deflating state, endowing the gripper with the capability of adapting to a wider variety of objects. Simultaneously, due to the endoskeletons, the lateral stiffness of the gripper is significantly enhanced (load-to-weight ratio∼7.5 for lateral grasping). We also propose a series of grasping strategies for grasping objects with different sizes and shapes to utilize the versatile configurations of the gripper. Experiments demonstrated that the gripper conformed well to the surfaces of cylindrical and prismatic objects and successfully grasped all tool items and shape items in the Yale–CMU–Berkeley object set.
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