Resumen
Parallel mechanisms with reduced Degree Of Freedom (DOF) have grown
in importance for industry and researchers as they offer a simpler architecture and lower
manufacturing/operating costs with great performance. In this paper, a two-degree-offreedom
parallel robot is proposed and analyzed. The robot with a xed base, a moving
platform, and three legs achieve translational and rotational motions through actuation
on prismatic and revolute joints and can be applied to pick-and-place applications, vehicle
simulators, etc. Through homogeneous transformation matrices and Sylvesters dialytic
elimination method, a closed-form solution for direct kinematics is obtained for all possible
assembly modes. Inverse kinematics is solved by the closed-form solution as well. This
greatly decreases computational time, suggesting the optimality of the proposed approach.
A case study is investigated to validate the solutions found and is compared with a CAD
model to corroborate the obtained results. Finally, a workspace calculation is carried out
for different geometrical parameters of the robot.
in importance for industry and researchers as they offer a simpler architecture and lower
manufacturing/operating costs with great performance. In this paper, a two-degree-offreedom
parallel robot is proposed and analyzed. The robot with a xed base, a moving
platform, and three legs achieve translational and rotational motions through actuation
on prismatic and revolute joints and can be applied to pick-and-place applications, vehicle
simulators, etc. Through homogeneous transformation matrices and Sylvesters dialytic
elimination method, a closed-form solution for direct kinematics is obtained for all possible
assembly modes. Inverse kinematics is solved by the closed-form solution as well. This
greatly decreases computational time, suggesting the optimality of the proposed approach.
A case study is investigated to validate the solutions found and is compared with a CAD
model to corroborate the obtained results. Finally, a workspace calculation is carried out
for different geometrical parameters of the robot.
| Idioma original | Inglés |
|---|---|
| Páginas (desde-hasta) | 2144-2154 |
| Número de páginas | 11 |
| Publicación | Scientia Iranica |
| Volumen | 25 |
| N.º | 4 |
| DOI | |
| Estado | Publicada - ago. 2017 |
| Publicado de forma externa | Sí |