Design, simulation, and experiment for the end effector of a spherical fruit picking robot

IF 2.3 4区计算机科学 Q2 Computer Science

International Journal of Advanced Robotic Systems Pub Date : 2023-11-01 DOI:10.1177/17298806231213442

Ziyue Li, Xianju Yuan, Zhanpeng Yang

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引用次数: 0

Abstract

The end effector characterizing a flipping–cutting way is designed firstly for picking spherical fruits with a good universality, which is mainly composed of three parts such as a clamping mechanism, a flipping mechanism, and a cutting mechanism. Subsequently, the kinematics simulation for the clamping mechanism, flipping mechanism, and cutting mechanism will be implemented by mathematical models and the ADAMS software, and results reflected through them are consistent with each other, thus presenting the feasibility of the structural scheme and two models. On the basis of scheme and results of models, the sample of the end effector is manufactured. Finally, picking experiments in a lab will be also conducted in view of diverse indexes, such as the successful grabbing action, flipping–cutting action, flipping–breaking action, average fruit picking time, success rate, and damage rate. It is drawn from experimental results that the success rate of grabbing is 100%, and a success rate for picking is over 80%. An average picking time is about 9.6s, and very few fruits are damaged. Therefore, such a scheme is feasible, further presenting a good reference for designing the entire robot in a field of picking diverse spherical fruits.

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球形水果采摘机器人末端效应器的设计、模拟和实验

首先设计了通用性较好的球形水果采摘翻转切割方式的末端效应器，主要由夹持机构、翻转机构和切割机构等三部分组成。随后，通过数学模型和 ADAMS 软件对夹紧机构、翻转机构和切削机构进行运动学仿真，得出的结果一致，从而证明了结构方案和两个模型的可行性。在方案和模型结果的基础上，制造出末端效应器的样品。最后，还将在实验室进行采摘实验，实验指标包括抓取动作成功率、翻转切割动作成功率、翻转破碎动作成功率、平均采摘时间、成功率和损坏率。实验结果表明，抓果成功率为 100%，摘果成功率超过 80%。平均采摘时间约为 9.6 秒，而且很少有水果受损。因此，这种方案是可行的，为在采摘各种球形水果的领域设计整个机器人提供了很好的参考。

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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来源期刊

International Journal of Advanced Robotic Systems ROBOTICS-

CiteScore

6.50

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： International Journal of Advanced Robotic Systems (IJARS) is a JCR ranked, peer-reviewed open access journal covering the full spectrum of robotics research. The journal is addressed to both practicing professionals and researchers in the field of robotics and its specialty areas. IJARS features fourteen topic areas each headed by a Topic Editor-in-Chief, integrating all aspects of research in robotics under the journal''s domain.