Osamu Azami scite author profile

A cylindrical soft actuator is suitable for applications in which pneumatic or hydraulic cylinders are conventionally used. In this report, we discuss the force output model of a spring-reinforced-type cylindrical soft actuator. This type of actuator outputs a larger force than the air pressure multiplied by the pressure-receiving area. We construct a quasi-static model to explore the reason for this phenomenon, based on the strength of materials. A thick-walled cylinder model with three boundary conditions was defined and analyzed. The model indicates that the rubber cylinder itself transmits pneumatic pressure and contributes to the output force. We also modeled the relationship between the pressure and the elongation of the soft actuator. Experiments were conducted to evaluate the proposed models.

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Robotic Forceps Driven by Extension Type Pneumatic Soft Actuator

Azami

Kanno

Miyazaki

et al. 2018

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Development of Hydraulically-driven Soft Hand for Handling Heavy Vegetables and its Experimental Evaluation

Azami

Ishibashi

Komagata

et al. 2023

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652 A Comparison between the Object Grasp by Multi Degrees of Freedom Hand and the Object Grasp by String Wound Hitch

Azami

Shigematsu

Hirakoso

et al. 2015

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Osamu Azami

Development of the extension type pneumatic soft actuator with built-in displacement sensor

Model of a Coil-Reinforced Cylindrical Soft Actuator

Robotic Forceps Driven by Extension Type Pneumatic Soft Actuator

Development of Hydraulically-driven Soft Hand for Handling Heavy Vegetables and its Experimental Evaluation

652 A Comparison between the Object Grasp by Multi Degrees of Freedom Hand and the Object Grasp by String Wound Hitch

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