A compliant-mechanism-based three degree-of-freedom manipulator for small-scale manipulation

John  Speich; Michael  Goldfarb

doi:10.1017/S0263574799001903

Abstract

This paper describes the design of a small-scale three degree-of-freedom compliant-mechanism-based manipulator with an approximately 2 cm×2 cm×2 cm cubic workspace. The manipulator exhibits a significantly larger range of motion and better spatial structural properties than a conventional compliant mechanism, due primarily to a unique flexure joint developed by the authors. A brief description of the mechanics of the flexure joint is followed by a description of the design of the manipulator. Following the mechanical description, the design of the low-level manipulator controller is discussed. Finally, data is presented that demonstrates manipulator performance.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Speich, J.E. and Goldfarb, M. 2002. Implementation of loop-shaping compensators to increase the transparency bandwidth of a scaled telemanipulation system. Vol. 3, Issue. , p. 2886.

Speich, J.E. and Goldfarb, M. 2005. An implementation of loop-shaping compensation for multidegree-of-freedom macro-microscaled telemanipulation. IEEE Transactions on Control Systems Technology, Vol. 13, Issue. 3, p. 459.

Zhong, Z.W. and Yeong, C.K. 2006. Development of a gripper using SMA wire. Sensors and Actuators A: Physical, Vol. 126, Issue. 2, p. 375.

Onori, Mauro Bruzzone, Luca and Molfino, Rezia M. 2006. A novel parallel robot for current microassembly applications. Assembly Automation, Vol. 26, Issue. 4, p. 299.

Alise, M. Roberts, R.G. and Repperger, D.W. 2006. The wave variable method for multiple degree of freedom teleoperation systems with time delay. p. 2908.

Zhong, Z.W. and Chan, S.Y. 2007. Investigation of a gripping device actuated by SMA wire. Sensors and Actuators A: Physical, Vol. 136, Issue. 1, p. 335.

Tian, Yanling Shirinzadeh, Bijan and Zhang, Dawei 2008. Stiffness estimation of the flexure-based five-bar micro-manipulator. p. 599.

Kyung, J.H. Ko, B.G. Ha, Y.H. and Chung, G.J. 2008. Design of a microgripper for micromanipulation of microcomponents using SMA wires and flexible hinges. Sensors and Actuators A: Physical, Vol. 141, Issue. 1, p. 144.

Ouyang, P. R. Tjiptoprodjo, R. C. Zhang, W. J. and Yang, G. S. 2008. Micro-motion devices technology: The state of arts review. The International Journal of Advanced Manufacturing Technology, Vol. 38, Issue. 5-6, p. 463.

Tian, Yanling Shirinzadeh, Bijan Zhang, Dawei and Alici, Gursel 2008. Intelligent Robotics and Applications. Vol. 5315, Issue. , p. 250.

Tian, Y. Shirinzadeh, B. and Zhang, D. 2009. A flexure-based five-bar mechanism for micro/nano manipulation. Sensors and Actuators A: Physical, Vol. 153, Issue. 1, p. 96.

Alise, Marc Roberts, Rodney G. Repperger, Daniel W. Moore, Carl A. and Tosunoglu, Sabri 2009. On Extending the Wave Variable Method to Multiple-DOF Teleoperation Systems. IEEE/ASME Transactions on Mechatronics, Vol. 14, Issue. 1, p. 55.

Tian, Yanling and Shirinzadeh, Bijan 2009. Development of a flexure-based 3-RRR parallel mechanism for nano-manipulation. p. 1324.

Tian, Y. Shirinzadeh, B. Zhang, D. Liu, X. and Chetwynd, D. 2009. Design and forward kinematics of the compliant micro-manipulator with lever mechanisms. Precision Engineering, Vol. 33, Issue. 4, p. 466.

Tekeş, Ayşe Sönmez, Ümit and Güvenç, Bilin Aksun 2010. Trajectory Control of Compliant Parallel-Arm Mechanisms. Journal of Mechanical Design, Vol. 132, Issue. 1,

Tian, Y. Shirinzadeh, B. and Zhang, D. 2010. Design and dynamics of a 3-DOF flexure-based parallel mechanism for micro/nano manipulation. Microelectronic Engineering, Vol. 87, Issue. 2, p. 230.

Tian, Y Shirinzadeh, B Zhang, D and Zhong, Y 2011. Modelling and analysis of a three-revolute parallel micro-positioning mechanism. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Vol. 225, Issue. 5, p. 1273.

Tian, Y. Zhang, D. and Shirinzadeh, B. 2011. Dynamic modelling of a flexure-based mechanism for ultra-precision grinding operation. Precision Engineering, Vol. 35, Issue. 4, p. 554.

Kern, D. Bauer, J. and Seemann, W. 2012. Advances in Mechanisms Design. Vol. 8, Issue. , p. 193.

Shi, Hongliang and Su, Hai-Jun 2013. An Analytical Model for Calculating the Workspace of a Flexure Hexapod Nanopositioner. Journal of Mechanisms and Robotics, Vol. 5, Issue. 4,

Download full list

Article contents

A compliant-mechanism-based three degree-of-freedom manipulator for small-scale manipulation

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

A compliant-mechanism-based three degree-of-freedom manipulator for small-scale manipulation

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests