Session: MSNDC-01-02 Computational Methods and Software Tools in Multibody Systems and Nonlinear Dynamics

Paper Number: 72162

Start Time: August 18, 01:00 PM

72162 - Preliminary Study on Multibody Modeling and Simulation of an Underactuated Gripper With Differential Transmission 

Robotic grippers have represented a challenge for designers and engineers since at least three decades   due to the complexity of grasping and manipulation tasks, and on device limits.

Underactuated and soft robotic grippers are a technology that allows good dexterity and manipulating capabilities, by reducing the actuators. However, this type of device requires the use of complex mechanical systems to compensate the underactuated implementation limits such as differential mechanism. The differential mechanism is necessary to decouple finger closures and distribute forces.

The multibody simulation allows to evaluate the main parameters of the elements to understand how the differential system can work. The development and design of complex mechanical systems is simplified by this technique.

In particular, this paper presents a multibody simulation analysis which recreates an elementary model of a gripper with two links, with a single actuator; the developed model reproduces the grasping of an object using a mechanical differential pulley system, placed beneath the fingers. Some results are presented to study the role of the differential when the fingers grasp an object with different configurations.

The aim of this work is to shows as   an  accurate yet manageable multibody model integrated in Matlab environment able to extend classical grasp metrics to a more general dynamic setup.

Presenting Author: Gabriele Maria Achilli Department of Engineering, University of Perugia, Polo Scientifico Didattico Di Terni, Italy

Authors:

Gabriele Maria Achilli University of Perugia
Silvia Logozzo Department of Engineering, University of Perugia
Maria Cristina Valigi University of Perugia
Monica Malvezzi University of Siena