OPTIMIZED DESIGN AND TESTING OF A PEANUT-PICKING DEVICE WITH A LARGE FEEDING VOLUME

IF 0.6 Q4 AGRICULTURAL ENGINEERING INMATEH-Agricultural Engineering Pub Date : 2023-08-17 DOI:10.35633/inmateh-70-39

Xu Li, Shuqi Shang, Xiaoning He, Zelong Zhao, Ning Zhang, Yaxiu Hou, Jinbiao Zhang, Dongwei Wang

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Abstract

For a peanut picking device with a feeding rate greater than 5 kg/s, the problem of low picking rate and high damage rate will occur during the picking process. A discrete element model is developed to determine the range of values of the main influencing factors affecting the peanut picking device. A three-factor, three-level orthogonal combination test was carried out with feeding volume, drum speed, and peanut picking gap as test factors to investigate the effects of the main influencing factors on the quality of peanut picking operation of the peanut picking device. The results of the field trials showed that the best results were achieved at the optimum combination of drum speed of 508 r·min-1, peanut picking gap of 22 mm, and feeding volumes of 6.3 kg/s. At this time, the peanut picking rate was 99.17%, and the peanut breakage rate was 0.91, meeting the standard technical requirements for mechanized peanut harvesting. The study results provide a theoretical basis for further enhancing the development of peanut combine harvesting equipment.

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大进给量花生加工装置的优化设计与试验

对于进料速率大于5 kg/s的花生采摘装置，在采摘过程中会出现采摘速率低、破损率高的问题。建立了离散元模型，确定了影响花生采摘装置的主要影响因素的取值范围。以进料量、滚筒转速、花生采摘间隙为试验因素，进行三因素三水平正交组合试验，探讨主要影响因素对花生采摘装置花生采摘作业质量的影响。田间试验结果表明，在转鼓转速为508 r·min-1、采摘间隙为22 mm、给料量为6.3 kg/s的最佳组合下，可获得最佳效果。此时花生采收率为99.17%，花生破碎率为0.91，满足花生机械化采收标准技术要求。研究结果为进一步加强花生联合收获设备的研制提供了理论依据。

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来源期刊

INMATEH-Agricultural Engineering AGRICULTURAL ENGINEERING-

CiteScore

1.30

自引率

57.10%

发文量