Litcius/Paper detail

Tendon Driven Bistable Origami Flexible Gripper for High-Speed Adaptive Grasping

Weirui Liu, Xu Bai, Hui Yang, Ruixin Bao, Jiaqi Liu

2024IEEE Robotics and Automation Letters64 citationsDOI

Abstract

This paper introduces a novel bistable origami flexible gripper, which is based on a single-vertex and multi-crease (SVMC) origami structure that has sxeveral advantages, including a simple structure, low cost, and strong deformation capacity. This design addresses the drawbacks of slow response speed and low grasping efficiency in traditional gripper models. The origami structure is established using a waterbomb model, and the relationship between the crease angles is analyzed by applying the geometric relationship of spherical triangle to establish kinematic equations. Additionally, potential energy equations in the deformation of SVMC are derived using a torsion spring model, which parameters are determined by conducting a detailed analysis of the influence of crease length and initial angle on energy storage and release processes. In addition, the tendon drive system helps to provide greater grasping force, promoting efficient and stable target grasping when the SVMC return to the initial state. Experimental results show that when subjected to an external trigger force of 2.65N, the flexible gripper can transition from a spreading attitude to a contracted state within 61.58ms, enabling rapid envelopment of the target, dropping the target, and returning to the initial state within 120ms. These findings suggest that the proposed flexible gripper has significant application in high-speed food sorting and fruit picking.

Topics & Concepts

BistabilityTendonComputer scienceBiomedical engineeringMaterials scienceEngineeringMedicineOptoelectronicsAnatomyRobot Manipulation and LearningSoft Robotics and ApplicationsRobotic Mechanisms and Dynamics