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Optimal design of a micro parallel positioning platform. Part II: Real machine design

Published online by Cambridge University Press:  12 January 2005

Kun-Ku Oh
Affiliation:
School of Mechanical and Aerospace Engineering, Seoul National University, Seoul 151-744 (Republic of Korea)
Xin-Jun Liu
Affiliation:
School of Mechanical and Aerospace Engineering, Seoul National University, Seoul 151-744 (Republic of Korea)
Deuk Soo Kang
Affiliation:
School of Mechanical and Aerospace Engineering, Seoul National University, Seoul 151-744 (Republic of Korea)
Jongwon Kim
Affiliation:
School of Mechanical and Aerospace Engineering, Seoul National University, Seoul 151-744 (Republic of Korea)

Abstract

In part I of this paper (previous issue of Robotica) a dual stage system with the coarse and fine actuators is adopted to achieve sub-micron accuracy with a large working space for the proposed new three degree-of-freedom (DOF) miniaturized micro parallel mechanism with high mobility and one type of the architecture with vertical actuator locations in all three legs (C-VV type) among six possible coarse actuator architectures is selected for the coarse actuator architecture.

In this part of the paper, an optimal kinematic parameter set is determined for the selected coarse actuator architecture. To determine this set, the design tool of the physical model of the solution space (PMSS) and the evaluation of the conditioning index (CI) and global mobility conditioning index (GMCI) are used. The basic size of the micro parallel mechanism is 45.0 mm×22.5 mm×22.9 mm with 100° mobility, the workspace 5.0 mm (y-axis)×5.0 mm (z-axis), and sub-micron resolution. After finishing the design of the main coarse actuator architecture, one architecture among six possible fine actuator architectures is selected to achieve sub-micron positioning accuracy based on the requirements of the continuous fine motion and smaller platform resolution. The selected coarse-and-fine actuator combination is used for the micro positioning platform for laser-machining application.

Type
Research Article
Copyright
2005 Cambridge University Press

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