A statically balanced and bi-stable compliant end effector combined with a laparoscopic 2DoF robotic arm
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Published:2012-12-05
Issue:2
Volume:3
Page:85-93
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ISSN:2191-916X
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Container-title:Mechanical Sciences
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language:en
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Short-container-title:Mech. Sci.
Author:
Lassooij J.,Tolou N.,Tortora G.,Caccavaro S.,Menciassi A.,Herder J. L.
Abstract
Abstract. This article presents the design of a newly developed 2DoF robotic arm with a novel statically balanced and bi-stable compliant grasper as the end effector for laparoscopic surgery application. The arm is based on internal motors actuating 2 rotational DoFs: pitch and roll. The positive stiffness of the monolithic grasper has been compensated using pre-curved straight guided beams that are preloaded collinear with the direction of actuation of the grasper. The result is a fully compliant statically balanced laparoscopic grasper. The grasper has been successfully adapted to a robotic arm. The maximum force and stiffness compensations were measured to be 94% and 97% (i.e. near zero stiffness) respectively. Furthermore, the feasibility of adjusting for bi-stable behavior has been shown. This research can be a preliminary step towards the design of a statically balanced fully compliant robotic arm for laparoscopic surgery and similar areas.
Funder
European Commission
Publisher
Copernicus GmbH
Subject
Industrial and Manufacturing Engineering,Fluid Flow and Transfer Processes,Mechanical Engineering,Mechanics of Materials,Civil and Structural Engineering,Control and Systems Engineering
Reference32 articles.
1. Alterovitz, R.: Surgical Robotics, Robotics & Automation Magazine, 16, 16–17, 2009. 2. Breedveld, P., Stassen, H. G., Meijer, D. W., and Stassen, L. P. S.: Theoretical background and conceptual solution for depth perception and eye-hand coordination problems in laparoscopic surgery, Min. lnvas. Ther. and Allied Technol., 8, 227–234, 1999. 3. Chen, G. and Zhang, S.: Fully-compliant statically-balanced mechanisms without prestressing assembly: concepts and case studies, Mech. Sci., 2, 169–174, https://doi.org/10.5194/ms-2-169-2011, 2011. 4. De Lange, D. J. B. A., Langelaar, M., and Herder, J. L.: Towards the design of a statically balanced compliant laparoscopic grasper using topology, Proceedings ASME DETC 26th Biennial, Mechanisms and Robotics Conference, 10–13 September, Baltimore, Maryland, paper number DETC2008/MECH-49794, 2008. 5. Dunning, A. G., Tolou, N., and Herder, J. L.: Review Article: Inventory of platforms towards the design of a statically balanced six degrees of freedom compliant precision stage, Mech. Sci., 2, 157–168, https://doi.org/10.5194/ms-2-157-2011, 2011.
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