An Underactuated Adaptive 3D Printed Robotic Gripper

Kuat Telegenov; Yedige Tlegenov; Almas Shintemirov; IEEE

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An Underactuated Adaptive 3D Printed Robotic Gripper

Kuat Telegenov, Yedige Tlegenov, Almas Shintemirov and IEEE

2014 10TH FRANCE-JAPAN/ 8TH EUROPE-ASIA CONGRESS ON MECATRONICS (MECATRONICS), pp.110-115

01/01/2014

Abstract

Automation & Control Systems

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

This paper presents the preliminary work on prototype design and analysis of a 3D printed three-fingered underactuated robotic gripper with a breakaway clutch mechanism. An underactuated mechanical design, kinematics of gripper's finger and a breakaway clutch mechanism are described in details. These elements provide passive adaptive object grasping and relatively high load carrying capacity of the gripper. The robotic gripper was prototyped using 3D printing technology and off-the-shelf components. Simulation and experimental results of grasping performance characterization of the robotic gripper are also presented.

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Title: An Underactuated Adaptive 3D Printed Robotic Gripper
Creators - without role: Kuat Telegenov - Nazarbayev University
Yedige Tlegenov
Almas Shintemirov
IEEE
Publication Details: 2014 10TH FRANCE-JAPAN/ 8TH EUROPE-ASIA CONGRESS ON MECATRONICS (MECATRONICS), pp.110-115
Publisher: IEEE
Number of pages: 6
Identifiers: 9943008908331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Conference proceeding