双稳软爪，机械嵌入式传感和驱动快速抓取

2020 29th IEEE International Conference on Robot and Human Interactive Communication (RO-MAN) Pub Date : 2020-08-01 DOI:10.1109/RO-MAN47096.2020.9223487

T. G. Thuruthel, S. H. Abidi, M. Cianchetti, C. Laschi, E. Falotico

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引用次数: 14

摘要

柔性机器人抓手具有较好的抓取非结构物体的能力，具有简单的传感和控制策略。然而，它们仍然受到速度、传感能力和驱动机制的限制。因此，它们在高动态抓取任务中的使用受到限制。提出了一种具有可调双稳态特性的柔性机械手，用于无传感器动态抓取。双稳态机构允许我们在软系统中存储任意大的应变能，然后在接触时释放。该机构还提供了灵活性类型的驱动机构，因为抓取和传感阶段是完全被动的。理论背景背后的机构提出了有限元分析，以提供洞察设计参数。最后，我们通过实验证明了在0.02秒内无传感器动态抓取未知物体，包括感知和驱动的时间。

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A bistable soft gripper with mechanically embedded sensing and actuation for fast grasping

Soft robotic grippers are shown to be high effective for grasping unstructured objects with simple sensing and control strategies. However, they are still limited by their speed, sensing capabilities and actuation mechanism. Hence, their usage have been restricted in highly dynamic grasping tasks. This paper presents a soft robotic gripper with tunable bistable properties for sensor-less dynamic grasping. The bistable mechanism allows us to store arbitrarily large strain energy in the soft system which is then released upon contact. The mechanism also provides flexibility on the type of actuation mechanism as the grasping and sensing phase is completely passive. Theoretical background behind the mechanism is presented with finite element analysis to provide insights into design parameters. Finally, we experimentally demonstrate sensor-less dynamic grasping of an unknown object within 0.02 seconds, including the time to sense and actuate.

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2020 29th IEEE International Conference on Robot and Human Interactive Communication (RO-MAN)

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