This paper proposes a new variable stiffness soft gripper that enables high-performance grasping tasks in industrial applications. The design of the proposed monolithic soft gripper includes a middle bellow and two side bellows (i.e., fingers). The positions of the fingers are regulated by adjusting the negative pressure in the middle bellow actuator via an on-off controller. The stiffness of the soft gripper is modulated by controlling the positive pressure in the fingers through the use of a proportional air-pressure regulator. It is experimentally shown that the proposed soft gripper can modulate its stiffness by 125% within 250ms. It is also shown that the variable stiffness soft gripper can help improve the safety and performance of grasping tasks in industrial applications.
@article{arxiv.2302.02534,
title = {Variable Stiffness Improves Safety and Performance in Soft Robotics},
author = {Mert Aydin and Emre Sariyildiz and Charbel Dalely Tawk and Rahim Mutlu and Gursel Alici},
journal= {arXiv preprint arXiv:2302.02534},
year = {2023}
}
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IEEE International Conference On Mechatronics - Loughborough, UK