ROSE: Rotation-based Squeezing Robotic Gripper toward Universal Handling of Objects

Robotics: Science and Systems XIX Pub Date : 2023-07-10 DOI:10.15607/RSS.2023.XIX.090

S. T. Bui, Shinya Kawano, V. A. Ho

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Abstract

—Robotics hand/grippers nowadays are not limited to manufacturing lines; instead, they are widely utilized in cluttered environments, such as restaurants, farms, and warehouses. In such scenarios, they need to deal with high uncertainty of the grasped objects’ shapes, postures, surfaces, and material properties, which requires complex integration of sensing and decision-making process. On the other hand, integrating soft materials into the gripper’s design may tolerate the above uncertainties and reduce complexity in control. In this paper, we introduce ROSE , a novel soft gripper that can embrace the object and squeeze it by buckling a funnel-liked thin-walled soft membrane around the object by simple rotation of the base. Thanks to this design, ROSE hand can adapt to a wide range of objects that can fit in the funnel and handle with gentle gripping force. Regardless of this, ROSE can generate a high lift force (up to 33kgf) while significantly reducing the normal pressure on the gripped objects. In our experiment, a 198g ROSE can be integrated into a robot arm with a single actuation and successfully lift various types of objects, even after 400,000 trials. The embracing mechanism helps reduce the dependence of friction between the object and the membrane, as ROSE could pick up a chicken egg submerged inside an olive oil tank. We also report a feasible design for equipping the ROSE hand with tactile sensing while appealing to the scalability of the design to fit a wide range of objects. Video: https://youtu.be/E1wAI09LaoY

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ROSE:面向物体通用处理的旋转挤压机器人抓取器

-机器人手/抓取器现在不局限于生产线;相反，它们被广泛应用于杂乱的环境，如餐馆、农场和仓库。在这种情况下，他们需要处理被抓物体的形状、姿势、表面和材料特性的高度不确定性，这需要复杂的感知和决策过程的整合。另一方面，将软材料集成到夹持器的设计中可以容忍上述不确定性并降低控制的复杂性。在本文中，我们介绍了一种新型的软夹持器ROSE，它可以通过简单的旋转底座，使物体周围的漏斗状薄壁软膜弯曲，从而抱住物体并挤压物体。由于这种设计，ROSE手可以适应各种各样的物体，这些物体可以放入漏斗中，并以温和的握力处理。尽管如此，ROSE可以产生高升力(高达33kgf)，同时显著降低被抓物体的正常压力。在我们的实验中，一个198克的ROSE可以通过一个单一的驱动集成到一个机器人手臂中，并且可以成功地举起各种类型的物体，即使经过40万次试验。拥抱机制有助于减少物体与膜之间的摩擦依赖，就像ROSE可以捡起浸在橄榄油罐里的鸡蛋一样。我们还报告了一个可行的设计，为ROSE手配备触觉感应，同时吸引设计的可扩展性，以适应广泛的对象。的视频:https://youtu.be/E1wAI09LaoY

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Robotics: Science and Systems XIX

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