Review on gravity compensation by mechanism synthesis

Authors

  • Purav P. Parekh Department of Mechanical Engineering, LDRP – Institute of Technology and Research, Gandhinagar, India
  • Krishan Kumar Gotewal Remote Handling and Robotics Technology Development Division, Institute for Plasma Research, Gandhinagar, India
  • Manoah Stephen M. Remote Handling and Robotics Technology Development Division, Institute for Plasma Research, Gandhinagar, India
  • Kaushal Bhavsar Department of Mechanical Engineering, LDRP – Institute of Technology and Research, Gandhinagar, India

Keywords:

Counter balance, Compensation, Non-Linear Spring, Pulley and Gear

Abstract

An articulated robot spends a very high amount of energy carrying the weight of its own arm while working against gravity, which results in an increase in size actuators, which also increases the expense and weight of the system. Thus, a high amount of actuated power is utilized to compensate for the gravitational torques. Gravitational Torques are generated due to the mass of the robot arm and inertia of the payload. This torques severely affect the dynamic performance of the robot and the ability to withstand external forces. The presented review paper gives a detailed idea on various methods to compensate the gravitational torque, in which the gravity effect is compensated fully by a mechanical structure that reduces the actuator size.

Metrics

Metrics Loading ...

Downloads

Published

01-01-2020

How to Cite

Parekh, P. P., Gotewal, K. K., Stephen M., M., & Bhavsar, K. (2020). Review on gravity compensation by mechanism synthesis. Manufacturing Technology Today, 19(1-2), 53–60. Retrieved from https://mtt.cmti.res.in/index.php/journal/article/view/157

Issue

Vol. 19 No. 1-2 (2020): January-February 2020

Section

Articles

License

All the articles published in Manufacturing Technology Today (MTT) Journal are held by the Publisher. Central Manufacturing Technology Institute (CMTI) as a publisher requires its authors to transfer the copyright prior to publication. This will permit CMTI to reproduce, publish, distribute, and archive the article in print and electronic form and also to defend against any improper use of the article.

Most read articles by the same author(s)