具有抓握机制的仿生跨径向机械手

N. Dasanayake, P. Viduranga, U. Perera, S.A.P.K. Siyambalagoda, T. Cooray, K.R.T. Fernando, R. Ranaweera, R. Gopura
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引用次数: 0

摘要

提出了一种十九自由度的跨径向机械手,命名为iGrasp hand。该装置由三个单元组成:抓握单元、手腕单元和手单元。iGrasp Hand的手指由6个马达驱动,连接到一个欠驱动的基于肌腱的机构。一种新颖的抓紧机构,安装单向轴承,引入,以实现手指在抓握被动等距收缩。掌弓是由无名指和小指的腕掌关节促进的。建立了分析手指运动的数学模型,并制作了样机进行实验测试。此外,还实现了位置控制算法以实现目标抓取模式。为了评价该装置的有效性,进行了多次实验。结果表明,iGrasp Hand能够实现从强力到精确的12种抓取模式。手掌的弯曲和拇指的反对/重新定位运动允许抓取较小的物体。此外,还研究了在等距保持过程中降低能耗的潜力。iGrasp Hand可以完成超过70%的日常生活活动,模仿人手的拟人化移动指数为40%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
iGrasp Hand: A Biomimetic Transradial Robotic Hand Prosthesis with a Clutching Mechanism
This paper proposes a nineteen degrees of freedom transradial robotic hand prosthesis, named iGrasp Hand. The device consists of three units: clutching unit, wrist unit and hand unit. Fingers of the iGrasp Hand are actuated by six motors, coupled to an under-actuated tendon-based mechanism. A novel clutching mechanism, installed with one-way bearings, is introduced to achieve passive isometric contraction of fingers during grasps. Palmar arching is facilitated by the addition of carpometacarpal joints in the ring and little fingers. A mathematical model is formulated to analyse finger motion and a prototype is fabricated for experimental testing. Moreover, a position control algorithm is implemented to achieve targeted grasping patterns. Several experiments were carried out to evaluate the effectiveness of the device. The results reveal the capability of iGrasp Hand in achieving twelve grasping patterns, ranging from power to precision grasps. The palmar arching and opposition/re position movement of the thumb allows the grasping of smaller objects. Furthermore, the potential for reducing energy consumption during the isometric hold was investigated. The iGrasp Hand can perform over 70% of activities-of-daily-Iiving and mimic the human hand with an anthropomorphism mobility index of 40%.
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