A spatial hybrid motion compliant mechanism: Design and optimization
نویسنده
چکیده
A hybrid motion system is defined as a mechanical system that combines a macro motion and a micro motion into one system to achieve a large motion and high resolution with fast response simultaneously. In this paper, a spatial hybrid motion mechanism with 3-DOFs is developed that integrates two types of motion through only one compliant mechanism: a macro motion driven by DC servomotors for large workspace and a micro motion driven by PZT actuators for high precision. A unique feature of the developed hybrid motion compliant mechanism is the elimination of coupling interaction between the macro motion and the micro motion by properly structure design. Three issues are addressed in this paper: (1) design principle and implementation of the hybrid motion mechanism; (2) kinematic analysis and dynamic analysis; and (3) optimization design of the hybrid motion mechanism. A spatial hybrid motion mechanism is developed and the optimization is conducted. The Taguchi method is used to identify significant parameters in the design optimization, and finite element analysis results verify the design principle of the parallel architecture for the hybrid motion mechanism. 2010 Elsevier Ltd. All rights reserved.
منابع مشابه
Linkage factors optimization of Multi-outputs of compliant mechanism using Response Surface
This paper presents a linkage factors synthesis and multi-level optimization technique for bi-stable compliant mechanism. The linkage synthesis problem is modeled as multiple level factors and responses optimization problem with constraints. The bi-stable compliant mechanism is modeled as a crank slider mechanism using pseudo-rigid-body model (PRBM). The model exerts the large deflection of fle...
متن کاملDesign and Dynamic Modeling of Planar Parallel Micro-Positioning Platform Mechanism with Flexible Links Based on Euler Bernoulli Beam Theory
This paper presents the dynamic modeling and design of micro motion compliant parallel mechanism with flexible intermediate links and rigid moving platform. Modeling of mechanism is described with closed kinematic loops and the dynamic equations are derived using Lagrange multipliers and Kane’s methods. Euler-Bernoulli beam theory is considered for modeling the intermediate flexible link. Based...
متن کاملABSTRACT Title of Dissertation: DESIGN AND FABRICATION OF ELECTROTHERMAL MICROMOTORS AND COMPLIANT MECHANISMS FOR SPATIAL PARALLEL MICROMANIPULATORS
Title of Dissertation: DESIGN AND FABRICATION OF ELECTROTHERMAL MICROMOTORS AND COMPLIANT MECHANISMS FOR SPATIAL PARALLEL MICROMANIPULATORS Wei-Jen Cheng, Doctor of Philosophy, 2005 Directed By: Associate Professor Don DeVoe Department of Mechanical Engineering In this dissertation a new class of spatial micromechanisms employing compliant joints and electrothermal motors has been developed. Th...
متن کاملPARTICLE SWARM-GROUP SEARCH ALGORITHM AND ITS APPLICATION TO SPATIAL STRUCTURAL DESIGN WITH DISCRETE VARIABLES
Based on introducing two optimization algorithms, group search optimization (GSO) algorithm and particle swarm optimization (PSO) algorithm, a new hybrid optimization algorithm which named particle swarm-group search optimization (PS-GSO) algorithm is presented and its application to optimal structural design is analyzed. The PS-GSO is used to investigate the spatial truss structures with discr...
متن کاملJoint-space Recipes for Manipulator Robots Performing Compliant Motion Tasks: Trajectory-optimization, Interpolation, and Control
This thesis reports research results on three different topics under the theme of the automatic execution of compliant motion tasks for robot manipulators: numerical trajectory optimization, smooth interpolation of orientation, and control algorithm design. The major purpose of this research is to present a comprehensive joint-space solution for robot’s hybrid motion/force control, which we bel...
متن کامل