1. Development of a humanoid robot hand with coupling four-bar linkage
- Author
-
Xinhua Liu, Xian-hua Zheng, and Li Shengpeng
- Subjects
Coupling ,0209 industrial biotechnology ,Computer science ,lcsh:Mechanical engineering and machinery ,Mechanical Engineering ,02 engineering and technology ,Linkage (mechanical) ,Transmission system ,021001 nanoscience & nanotechnology ,Four-bar linkage ,law.invention ,Robot control ,020901 industrial engineering & automation ,law ,Robot ,lcsh:TJ1-1570 ,Development (differential geometry) ,0210 nano-technology ,Humanoid robot ,Simulation - Abstract
To improve the operating performance of robots’ end-effector, a humanoid robot hand based on coupling four-bar linkage was designed. An improved transmission system was proposed for the base joint of the thumb. Thus, a far greater motion range and more reasonable layout of the palm were obtained. Moreover, the mathematical model for kinematics simulation was presented based on the Assur linkage group theory to verify and optimize the proposed structure. To research the motion relationships between the fingers and the object in the process of grasping object, the grasping analysis of multi-finger manipulation was presented based on contact kinematics. Finally, a prototype of the humanoid robot hand was produced by a three-dimensional printer, and a kinematics simulation example and the workspace solving of the humanoid robot hand were carried out. The results showed that the velocities of finger joints approximately met the proportion relationship 1:1:1, which accorded with the grasping law of the human hand. In addition, the large workspace, reasonable layout, and good manipulability of the humanoid robot hand were verified.
- Published
- 2017