Repository logo
Communities
Research Outputs
Projects
Researchers
Statistics
Feedback
  1. Home
  2. CRIS
  3. Publications
  4. Application of Counter-Rotary Counterweights to the Dynamic Balancing of a Spatial Parallel Manipulator
Details

Application of Counter-Rotary Counterweights to the Dynamic Balancing of a Spatial Parallel Manipulator

Journal
Applied Mechanics and Materials
ISSN
1662-7482
Date Issued
2012
Author(s)
Acevedo, Mario  
Facultad de Ingeniería - CampGDL  
Ceccarelli, Marco
Carbone, Giuseppe
Type
text::journal::journal article
DOI
10.4028/www.scientific.net/AMM.162.224
URL
https://scripta.up.edu.mx/handle/20.500.12552/4505
Abstract
<jats:p>The dynamic balancing of a spatial parallel manipulator of three degrees-of-freedom, CaPaMan-2 (Cassino Parallel Manipulator 2), by the application of Counter-Rotary Counterweights (CRCW) is analyzed. To accomplish this objective the mass and inertia of the moving platform are dynamically replaced by point masses located at the points of attachment of the legs to the platform and the mechanism is balanced by considering each of the legs independently. This fully parallel manipulator has three identical legs, each one composed by a four-bar mechanism (an articulated parallelogram) connected to the fixed base, and a link supported by the coupler that connects to the mobile platform. This link, seen as a pendulum, is transformed to a dynamic balancer using a Counter-Rotary Counterweight in order to compensate the motion of the moving platform. In a second stage the articulated parallelogram is modified by adding Counter-Rotary Counterweight plus a Counterweight to dynamic balance its part of the system. As a final result it is obtained a new design, with a parallel manipulator dynamic balanced. The resulting model of the manipulator is validated by dynamic simulation, using general purpose software for the analysis and dynamic simulation of multi-body systems (ADAMS).</jats:p>

Creación y actualización de perfiles en Scripta+

Hosting & Support by

Built with DSpace-CRIS software - Extension maintained and optimized by 4Science

  • Accessibility settings
  • Privacy policy
  • End User Agreement
  • Send Feedback
Repository logo COAR Notify