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辊刷式蓖麻收获机采摘机构优化设计与试验
引用本文:刘磊, 吴腾, 孔凡婷, 孙勇飞, 陈长林, 谢庆, 石磊. 辊刷式蓖麻收获机采摘机构优化设计与试验[J]. 农业工程学报, 2021, 37(8): 19-29. DOI: 10.11975/j.issn.1002-6819.2021.08.003
作者姓名:刘磊  吴腾  孔凡婷  孙勇飞  陈长林  谢庆  石磊
作者单位:1.农业农村部南京农业机械化研究所,南京 210014
基金项目:中央级公益性科学研究院所基本科研业务费专项(S201931、S202111-02、S202003-03);中国农业科学院创新工程(棉麻类收获机械)
摘    要:针对蓖麻机械化采收时采净率低、破损率高等难题,结合蓖麻物理特性和种植模式,研究设计了辊刷式蓖麻收获机采摘机构。首先在分析采摘机构总体结构的基础上阐述了辊刷式采摘原理,阐明了辊刷、螺旋输送器、传动系统等关键部件的设计。进一步地,为探究采摘机构相关参数的最优组合,提高蓖麻采摘质量,采用Box-Benhnken响应面试验设计理论,以前进速度、辊刷转速、刷丝长度为影响因素,以采净率、籽粒破损率及含杂率为作业质量评价指标,进行参数优化试验。建立各影响因素与指标之间的回归数学模型,并分析各因素对响应值的交互影响,同时对模型进行了综合优化,获得最优参数组合为:前进速度0.72 m/s、辊刷转速371.69 r/min、刷丝长度56.60 mm,对应的采净率、籽粒破损率、含杂率分别为90.81%、0.17%、11.27%。对优化结果进行验证试验,试验结果表明在最优参数组合下,采净率为91.36%、籽粒破损率为0.18%、含杂率为11.67%,各评价指标与预测值均很接近。研究结果可为辊刷式蓖麻收获机进一步完善结构设计和工作参数优化提供参考。

关 键 词:农业机械  设计  试验  蓖麻  采摘机构
收稿时间:2021-01-13
修稿时间:2021-03-14

Optimized design and experiment of the picking mechanism for brush-roller castor harvesters
Liu Lei, Wu Teng, Kong Fanting, Sun Yongfei, Chen Changlin, Xie Qing, Shi Lei. Optimized design and experiment of the picking mechanism for brush-roller castor harvesters[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2021, 37(8): 19-29. DOI: 10.11975/j.issn.1002-6819.2021.08.003
Authors:Liu Lei  Wu Teng  Kong Fanting  Sun Yongfei  Chen Changlin  Xie Qing  Shi Lei
Affiliation:1.Nanjing Research Institute for Agricultural Mechanization, Ministry of Agriculture and Rural, Nanjing 210014, China
Abstract:Abstract: Castor is one of the top ten oil crops in the world, which has a extremely high economic value. For a long time, the harvesting of castor bean has relied on manual operations, so the development of the castor industry have been greatly restricted by the high labor intensity and low efficiency. At present, there are few studies on harvesting machinery of castor, and the mechanization of castor harvesting is still in the initial stage. The existing castor harvesting equipments are not suitable for the growth features of castor, which has the problems of high loss rate and high damage rate. In order to solve these problems, a brush-roller harvesting method was proposed in this paper. The harvesting principle of brush-roller castor harvester is that the castor capsules are separated from the plant by the brushing force caused from the brush wire. According to the physical characteristics and planting mode of castor, the picking mechanism of brush-roller castor harvester was designed. Firstly, the structure of the picking mechanism was introduced, the picking mechanism is mainly composed of crop divider, brush roller, screw conveyor, transfer case, et. Then, the kinematic and mechanical analysis of the working process of the mechanism was carried out, so as to determine the structural parameters and working parameters of each part of the picking mechanism. In order to improve the harvesting quality of castor, we conducted a field experiment in October 2020 in Hohhot, Inner Mongolia. In the field experiment, Box-benhnken response surface design theory was used on the basis of single fator experiment to optimize the working parameters of the picking mechanism. The picking rate, the breakage rate and the impurity rate were used as the evaluation indexes of working quality. And the moving speed, the brush roller speed and the length of brush wire were taken as three factors influencing the working quality. The quadratic polynomial response surface regression model was established, and the influence of various factors on the response value was analyzed. From the regression model and variance analysis of regression equation, it could be seen that: lower moving speed, moderate brush roller speed, and shorter brush wire led to higher picking rate; Lower moving speed, lower brush roller speed, and longer brush wire led to lower breakage rate; Higher moving speed, lower brush roller speed, and longer brush wire led to lower impurity rate. The experiment results also showed that the significant effects of moving speed, length of brush wire and brush roller speed on increasing the picking rate were in a decreasing order. The significant effects of brush roller speed, length of brush wire and moving speed on reducing the breakage rate and the impurity rate were in a decreasing order. At the same time, the factors were multi-objective optimized comprehensively, and the optimization results were verified by experiments. The results showed that the optimum parameters were: 0.72 m/s for the moving speed, 372 r/min for the brush roller speed and 57 mm for the length of brush wire. Under these conditions, the picking rate was 91.36%, the breakage rate was 0.18%, and the impurity rate was 11.67%. The measured values of each index were in good agreement with the theoretical optimization values, which meant that the model established was reliable and could be used for optimization. The results can provide a reference for further improving the structure design and working parameters optimization of the brush-roller castor harvester.
Keywords:agricultural machinery   design   experiment   castor   picking mechanism
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