Optimization on kinematic characteristics and lightweight of a camellia fruit picking machine based on the Kriging surrogate model

IF 1.2 4区工程技术 Q3 ENGINEERING, MECHANICAL Mechanics & Industry Pub Date : 2021-01-01 DOI:10.1051/MECA/2021017

Di Kang, Zejun Chen, Youhua Fan, Cheng Li, Chen Mi, Yingqi Tang

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引用次数: 7

Abstract

In order to achieve fully automated picking of camellia fruit and overcome the technical difficulties of current picking machinery such as inefficient service and manual auxiliary picking, a novel multi-links-based picking machine was proposed in this paper. The working principle and process of this device was analyzed. The mechanism kinematics equation was given, and the velocity executive body was obtained, as well as the acceleration. The acceleration at pivotal positions was tested in the camellia fruit forest, and the simulated results agreed well with the experimental ones. Then, the maximum acceleration of executive body and weight was considered as the optimization objective, and the rotating speed of crank, the radius and thickness of crank and the length and radius of link rod were regarded as the design variable. Based on the Kriging surrogate model, the relationship between variables and optimization objectives was built, and their interrelations were analyzed. Finally, the optimal solution was acquired by the non-dominated sorting genetic algorithm II, which resulted in the reduction of the maximum acceleration of executive body by 31.30%, as well as decrease of weight by 27.51%.

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基于Kriging代理模型的茶花采摘机运动特性及轻量化优化

为了实现油茶果实的全自动化采摘，克服现有采摘机械服务效率低、人工辅助采摘等技术难题，提出了一种新型的多环节采摘机。分析了该装置的工作原理和工作过程。给出了机构的运动学方程，得到了速度执行体和加速度。在油茶林中进行了关键位置加速度的实验，模拟结果与实验结果吻合较好。以执行机构的最大加速度和重量为优化目标，以曲柄转速、曲柄半径和厚度、连杆长度和半径为设计变量。基于Kriging代理模型，建立了变量与优化目标之间的关系，并分析了它们之间的相互关系。最后，采用非支配排序遗传算法II获得最优解，使执行体最大加速度降低31.30%，权重降低27.51%。

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来源期刊

Mechanics & Industry ENGINEERING, MECHANICAL-MECHANICS

CiteScore

2.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： An International Journal on Mechanical Sciences and Engineering Applications With papers from industry, Research and Development departments and academic institutions, this journal acts as an interface between research and industry, coordinating and disseminating scientific and technical mechanical research in relation to industrial activities. Targeted readers are technicians, engineers, executives, researchers, and teachers who are working in industrial companies as managers or in Research and Development departments, technical centres, laboratories, universities, technical and engineering schools. The journal is an AFM (Association Française de Mécanique) publication.