Hydraulically-actuated compliant revolute joint for medical robotic systems based on multimaterial additive manufacturing
A. Pfeil, Marius Siegfarth, François Geiskopf, Tim Pusch, Laurent Barbé, Pierre Renaud
- Year
- 2019
- Citations
- 2
Abstract
In this paper, an active compliant revolute joint actuated by hydraulic energy is developed. The joint is made of polymer for integration in medical robotic systems, even in a challenging environment such as Magnetic Resonance Imaging (MRI). The use of multimaterial additive manufacturing allows us to develop two original aspects. First, a new seal design is proposed to build miniature hydraulic cylinders embedded in the active joint, with low level of friction. Second, a rack-and-pinion mechanism is being integrated to a compliant revolute joint to obtain a high level of compactness. Design and experimental assessment of the hydraulic cylinder and the compliant joint with embedded rack-and-pinion are presented, as well as an illustration in the context of needle manipulation with passive teleoperation.
Keywords
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