Simple and Reliable: Mechanics Analysis for Robotic Arm of Strawberry Picking Robot

2020 7th International Forum on Electrical Engineering and Automation (IFEEA) Pub Date : 2020-09-01 DOI:10.1109/IFEEA51475.2020.00169

Wenquan Cai, Yuhui Shi

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Abstract

In most of the countries, the method of ridge cropping is adopted to plant strawberry, but most countries rely mainly on manual picking. Under the circumstances, developing a strawberry picking mechanism and its automation to replace manual work is an urgent problem waiting to be solved. In this study, based on 3D modelling, stress analyzing and motion simulation, an automatic picking and simple structure robot was innovatively designed. This paper mainly focuses on the part of two robotic arms. The single robotic arm consists of 5 rotational joints, 5 small motors at the joint, 4 Aluminium alloy skeletons and a pair of claws. The claw is made from light materials, and a pliant component is mounted to the surface. Through calculations of its motion simulation, it indicates that each part of the arm can run flexibly with bearing the requests of stress. Moreover, the claws can reduce damage to the fruit during picking by the soft structure. The results of dynamic simulation show that robotic arms can satisfy the requirements of automatic low-damage picking for strawberries in the greenhouse under the ridge.

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简单可靠:草莓采摘机器人机械臂力学分析

在大多数国家，草莓的种植都采用垄作的方式，但大多数国家主要依靠人工采摘。在这种情况下，开发草莓采摘机构及其自动化取代人工是一个迫切需要解决的问题。在三维建模、应力分析和运动仿真的基础上，创新性地设计了一种结构简单的自动拾取机器人。本文主要研究的是两个机械臂部分。单个机械臂由5个旋转关节、关节处的5个小型电机、4个铝合金骨架和一对爪子组成。该爪由轻质材料制成，表面安装有柔性部件。通过对其运动仿真计算，表明该机械臂各部分能够灵活地运行，并能承受受力要求。此外，爪子的柔软结构可以减少采摘过程中对果实的伤害。动态仿真结果表明，该机械臂能够满足大棚下草莓自动低损伤采摘的要求。

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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2020 7th International Forum on Electrical Engineering and Automation (IFEEA)

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