论文信息 - Energy regenerative hose-free pneumatic actuator

Energy regenerative hose-free pneumatic actuator

Abstract Pneumatic actuators in general require an air-compressor, valves, and pneumatic hoses. This makes them difficult to be used on mobile apparatus. To solve this problem, we previously developed a new gas source that uses the electrolysis/synthesis of water through an ion-exchange membrane. The developed gas source uses a gas/liquid reversible chemical reaction and controls the generation/absorption of gas through an electric current supplied to the membrane. In this paper, we present a control method for the energy-regeneration cycle and perform theoretical and experimental studies to verify its power consumption. This energy-regeneration control method is applied to an actuator, and it works successfully with a power consumption improvement of approximately 20% compared to that without energy-regeneration. Furthermore, we successfully develop a hose-free pneumatic rubber actuator with this control method.

[1] H. Tanaka,et al. Applying a flexible microactuator to robotic mechanisms , 1992, IEEE Control Systems.

[2] Miko Elwenspoek,et al. The electrolysis of water: an actuation principle for MEMS with a big opportunity , 1998 .

[3] George M. Lloyd,et al. Smart hydrogen/metal hydride actuator , 2007 .

[4] Michael Goldfarb,et al. A Gas-Actuated Anthropomorphic Transhumeral Prosthesis , 2007, Proceedings 2007 IEEE International Conference on Robotics and Automation.

[5] Shuichi Wakimoto,et al. New mobile pressure control system for pneumatic actuators, using reversible chemical reactions of water , 2013 .

[6] Stephen A. Morin,et al. Using explosions to power a soft robot. , 2013, Angewandte Chemie.

[7] H. Tsukagoshi,et al. DEVELOPMENT OF A PORTABLE PNEUMATIC POWER SOURCE USING PHASE TRANSITION AT THE TRIPLE POINT , 2005 .

[8] Xin Chen,et al. Soft Mobile Robots with On-Board Chemical Pressure Generation , 2011, ISRR.

[9] Cristina Neagu,et al. An electrochemical microactuator: principle and first results , 1996 .

[10] Shuichi Adachi,et al. SOC estimation of HEV/EV battery using series kalman filter , 2012 .