E. Navas, R. Shamshiri, V. Dworak, Cornelia Weltzien, Roemi Fernández
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引用次数: 0
摘要
农业 4.0 为各种操作的自动化带来了诸多挑战,其中包括收割这一基本任务。自动收获高价值作物的一个关键环节是抓取和分离娇嫩的水果,同时不损坏水果或干扰环境。软体机器人系统,特别是软体抓手,为这一问题提供了一个前景广阔的解决方案,因为它们可以在非结构化环境中运行,对物体进行精细操作,并能安全地与人类互动。在此背景下,本文介绍了一种软机械手的设计,用于中小型水果的收获和拾放操作。该机械手采用 3D 打印技术,使用柔性热塑性弹性纤维丝制造而成。这种方法利用软机器人原理(如柔性结构和气动驱动),能够制造出经济、紧凑、易于复制和可互换的抓手。
Soft gripper for small fruits harvesting and pick and place operations
Agriculture 4.0 presents several challenges for the automation of various operations, including the fundamental task of harvesting. One of the crucial aspects in the automatic harvesting of high value crops is the grip and detachment of delicate fruits without spoiling them or interfering with the environment. Soft robotic systems, particularly soft grippers, offer a promising solution for this problem, as they can operate in unstructured environments, manipulate objects delicately, and interact safely with humans. In this context, this article presents a soft gripper design for harvesting as well as for pick-and-place operations of small and medium-sized fruits. The gripper is fabricated using the 3D printing technology with a flexible thermoplastic elastomer filament. This approach enables the production of an economical, compact, easily replicable, and interchangeable gripper by utilizing soft robotics principles, such as flexible structures and pneumatic actuation.
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