Home /Research /Design and analysis of a redundantly actuated parallel mechanism for rapid machining
OTHER

Design and analysis of a redundantly actuated parallel mechanism for rapid machining

Jongwon Kim, Frank C. Park, Sun Joong Ryu, Jinwook Kim, Jae Chul Hwang, Changbeom Park, C.C. Iurascu

Year
2001
Citations
194

Abstract

This paper describes the design, construction, and performance analysis of the Eclipse, a redundantly actuated six-degree-of-freedom parallel mechanism intended for rapid machining. The Eclipse is a compact mechanism capable of performing five-face machining in a single setup while retaining the advantages of high stiffness and high accuracy characteristic of parallel mechanisms. We compare numerical and algebraic algorithms for the forward and inverse kinematics of a class of the Eclipse and formalize the notion of machine tool workspace. We also develop a simple method for the first-order elasto-kinematic analysis of parallel mechanisms that is amenable to design iterations. A complete characterization of the singularities of the Eclipse is given, and redundant actuation is proposed as a solution. The Eclipse case study demonstrates how diverse analytical tools originally developed in a robotics context can be synthesized into a practical design methodology for parallel mechanisms.

Keywords

WorkspaceEclipseMachiningComputer scienceKinematicsInverse kinematicsMechanism (biology)Machine toolRoboticsContext (archaeology)

Related papers

Browse all OTHER papers