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Pneumatically Driven Multi-DOF Surgical Forceps Manipulator with a Bending Joint Mechanism Using Elastic Bodies

Takikawa Kyouhei, Ryoken Miyazaki, Takahiro Kanno, Gen Endo, Kenji Kawashima

Year
2016
Citations
9

Abstract

[abstFig src='/00280004/13.jpg' width='300' text='Proposed pneumatically driven multi-DOF surgical forceps manipulator' ] In this study, a pneumatically-driven forceps manipulator was developed for a master-slave-type surgical robot. The proposed manipulator had two flexible joints, one for the bending joint at the tip and the other for transmitting a bending force from the actuators to the wires of the forceps. The manipulator had two degree-of-freedoms (DOFs) of bending driven by only two pneumatic cylinders and a gripper driven by a cylinder. Given the interoperability in real surgery, a mechanism was proposed such that the clean forceps part could be easily attached to and detached from the filthy drive unit. An experiment of the master-slave-system was conducted with the proposed manipulator to verify the tracking performance of the cylinders’ position and the bending angle of the forceps manipulator.

Keywords

ForcepsMechanism (biology)BendingHydraulic cylinderActuatorSurgical robotPneumatic actuatorPneumatic cylinderCylinderManipulator (device)

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