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Dissertation/Thesis Abstract

A Self-Sealing Suction Technology for Versatile Grasping
by Kessens, Chad C., Ph.D., University of Maryland, College Park, 2018, 292; 10844746
Abstract (Summary)

This thesis describes the design, development, and evaluation of a novel "self-sealing" suction technology for grasping. As humans desire robots capable of handling an increasingly diverse set of tasks, end effectors that are able to grasp the widest possible range of object shapes and sizes will be needed to achieve the desired versatility. Technologies enabling the exertion of local pulling contact forces (e.g. suction) can be extraordinarily useful toward this end by handling objects that do not have features smaller than the grasper, a challenge for traditional grippers. However, simple operation and cost effectiveness are also highly desirable.

To achieve these goals, we have developed a self-sealing suction technology for grasping. A small valve inside each suction cup nominally seals the suction port to maintain a vacuum within the system. Through the reaction forces of object contact, a lever action passively lifts the valve to engage suction on the object. Any cups not contacting the object remain sealed. In this way, a system with a large number of cups may effectively operate using any subset of its cups, even just one, to grasp an object. All cups may be connected to a central vacuum source without the need for local sensors or powered actuators for operation, forming a simple, compact, cost effective system.

This thesis begins with the detailed design and analysis of the self-sealing suction technology. An extensive evaluation of the technology's robustness and performance demonstrates its features and limits. This includes self-seal quality and leakage, object seal and reseal, cycle performance, and normal and shear force-displacement, among other characterizations. It then describes the development of several devices utilizing the technology. The potential impact of the technology is highlighted through applications of human-controlled, robotic, and aerial grasping and perching. Finally, mathematical tools are developed to analyze potential grasps developed using the technology.

Indexing (document details)
Advisor: Desai, Jaydev P.
Commitee: Baz, Amr, Chopra, Inderjit, Chopra, Nikhil, Hahn, Jin-Oh
School: University of Maryland, College Park
Department: Mechanical Engineering
School Location: United States -- Maryland
Source: DAI-B 80/01(E), Dissertation Abstracts International
Subjects: Mechanical engineering, Robotics
Keywords: Aerial, Grasping, Hand, Robot, Suction, Vacuum
Publication Number: 10844746
ISBN: 978-0-438-43414-1
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