Author:
Guan Shengqi,Wang Jingguo,Wang Xu,Yu Zijiang,Hao Zhenhu,Zhang Libo,Wang Yingyu,Wang Junqiang
Abstract
According to the development demand of automatic yarn tube loading equipment in textile field, a fingertip gripping stability evaluation method is proposed and applied to the end-effector structure design suitable for multi-size yarn tube gripping. Firstly, by studying the human hand mechanism, the tendon type underdrive principle is used to design the rope sheave layout and tendon path of the end-effector finger, and its overall structural design is introduced; secondly, a virtual spring is used to establish an equivalent model of fingertip contact, and the grasping stability is evaluated from the perspective of system potential energy by constructing a stiffness matrix; on this basis, an elliptical curve under geometric constraints is used as the fingertip profile curve, and the release sample is used to Finally, quantitative analysis of gripping stability based on a yarn tube gripping model. The research results lay the foundation for the design of an efficient and reliable yarn tube gripping device. The working principle and design ideas of the bionic end-effector have some implications for the design of robotic end-effectors serving other fields.
Subject
General Physics and Astronomy
Reference15 articles.
1. Automatic Doffing Machine Rotary Rubbing Type Clamp Pipe Device Design and Simulation[J];Xiuqin;Journal of Qingdao University(Engineering & Technology Edition),2018
2. Design of a magnetorheological robot gripper for handling of delicate food products with varying shapes[J];Pettersson;Journal of Food Engineering,2010
3. Design of all-electric drive automatic doffer [J];Bao-li;Shanghai Textile Science & Technology,2014
4. Pony Doffer An Automatic Doffing Apparatus for Single-Spindle, Continuous Doffing System[J];Inoo;Journal of the Textile Machinery Society of Japan,1965
5. A planar geometric design approach for a large grasp range in underactuated hands;Kragten;Mech. Mach. Theory,2011