Coupling Mechanisms for Multi-Fingered Robotic Hands with Skew Axes

The design of wristed, multi-fingered robotic hands for specific tasks usually leads to solutions in which the position of the joint axes have little to do with those of anthropomorphic hands. Joint axes tend to be skewed, which makes difficult the location of the physical joint along the axis. In addition, transmissions that work smoothly with parallel or perpendicular axes may not work well with skew axes. In this work, we present the optimal design of a simple five-fingered hand, consisting of a wrist joint and five fingers with a revolute joint each. This hand is designed for a two-position task and optimized first for dimensions and to avoid self-intersection. Then a transmission to couple the degrees of freedom is also optimized, in order to create an underactuated, pick-and-place hand able to create 5 contact points while being driven with single actuation.

[1]  Alba Perez Gracia,et al.  Kinematic Synthesis of Multi-Fingered Robotic Hands for Finite and Infinitesimal Tasks , 2012, ARK.

[2]  Ali Tamimi,et al.  Structural Synthesis of Hands for Grasping and Manipulation Tasks , 2016, ARK.

[3]  Alba Perez-Gracia Dimensional Synthesis of One-Jointed Multi-fingered Hands , 2015 .

[4]  K. H. Hunt,et al.  Kinematic chains for robot hands. I: Orderly number-synthesis , 1995 .

[5]  Yimesker Yihun,et al.  Link-Based Performance Optimization of Spatial Mechanisms , 2013 .

[6]  Neda Hassanzadeh,et al.  A Design Implementation Process for Robotic Hand Synthesis , 2015 .

[7]  Erol Ozgur,et al.  Structural synthesis of dexterous hands , 2014, 2014 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[8]  Marco Ceccarelli,et al.  Design and simulation of an underactuated finger mechanism for LARM Hand , 2015, Robotica.

[9]  J. K. Salisbury,et al.  Kinematic and Force Analysis of Articulated Mechanical Hands , 1983 .

[10]  Alba Perez-Gracia,et al.  KINEMATIC SYNTHESIS USING TREE TOPOLOGIES , 2014 .

[11]  Xiaoping Qian,et al.  A Taylor Expansion Approach for Computing Structural Performance Variation From Population-Based Shape Data , 2017 .

[12]  Kenneth J. Waldron,et al.  A study of overconstrained linkage geometry by solution of closure equations — Part II. Four-bar linkages with lower pair joints other than screw joints☆ , 1973 .

[13]  Guilin Yang,et al.  Numerical inverse kinematics for modular reconfigurable robots , 1999 .

[14]  Gim Song Soh,et al.  Development of Underactuated Mechanical Fingers Based on Anthropometric Data and Anthropomorphic Tasks , 2014 .

[15]  Lung-Wen Tsai,et al.  Structural synthesis of multi-fingered hands , 2002 .

[16]  A. E. Samuel,et al.  Kinematic chains for robot hands—II. Kinematic constraints, classification, connectivity, and actuation , 1995 .

[17]  Stefano Stramigioli,et al.  Modeling and IPC Control of Interactive Mechanical Systems - A Coordinate-Free Approach , 2001 .

[18]  Shaowei Fan,et al.  Thumb Configuration and Performance Evaluation for Dexterous Robotic Hand Design , 2017 .