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割秧后花生收获机捡拾装置设计与试验
引用本文:陈有庆,胡志超,王申莹,曹明珠,徐弘博,王公仆,颜建春.割秧后花生收获机捡拾装置设计与试验[J].农业工程学报,2020,36(16):1-8.
作者姓名:陈有庆  胡志超  王申莹  曹明珠  徐弘博  王公仆  颜建春
作者单位:农业农村部南京农业机械化研究所,南京 210014;农业农村部南京农业机械化研究所,南京 210014;农业农村部南京农业机械化研究所,南京 210014;农业农村部南京农业机械化研究所,南京 210014;农业农村部南京农业机械化研究所,南京 210014;农业农村部南京农业机械化研究所,南京 210014;农业农村部南京农业机械化研究所,南京 210014
基金项目:中央级公益性科研院所基本科研业务费专项(S201917);国家现代农业花生产业技术体系(CARS-13);中国农业科学院科技创新工程
摘    要:先将秧蔓切割再进行收获可较好地实现覆膜种植花生秧蔓饲料化利用。该研究针对割秧后花生植株变短、横向尺寸变小、荚果-秧蔓比增加,原有收获机捡拾装置适应性差的问题,在已有花生捡拾收获技术基础上,对捡拾弹齿间距、弹齿转速、折弯角度、弹齿排数等关键结构和运动参数进行改进,研制了一种适于割秧后收获的弹齿式花生捡拾装置。运用SPSS软件对割秧后花生植株横向尺寸进行统计分析,确定了弹齿间距为7 cm;通过对花生植株低损捡拾和顺畅抛送条件的理论分析,在回转半径为21 cm的条件下,确定捡拾弹齿转速为60 r/min;通过对花生植株被弹齿捡起时的受力情况分析,确定捡拾弹齿折弯角度为102°,并根据铺放厚度,确定捡拾弹齿折弯部分长度为4 cm;建立捡拾弹齿齿尖运动方程,运用Matlab软件对不同排数弹齿齿尖运动轨迹进行分析,确定捡拾弹齿排数为6排。田间试验结果表明,弹齿式花生捡拾装置的平均捡拾率为98.07%,捡拾装置造成的平均落果率为1.23%;满足割秧后花生捡拾收获作业需求。该研究可为割秧后花生以及其他作物捡拾收获机具研发和改进提供借鉴。

关 键 词:农业机械  收获  试验  花生  割秧后收获  捡拾装置
收稿时间:2020/4/29 0:00:00
修稿时间:2020/5/20 0:00:00

Design and experiments of pickup device of peanut harvester after cutting peanut straws
Chen Youqing,Hu Zhichao,Wang Shenying,Cao Mingzhu,Xu Hongbo,Wang Gongpu,Yan Jianchun.Design and experiments of pickup device of peanut harvester after cutting peanut straws[J].Transactions of the Chinese Society of Agricultural Engineering,2020,36(16):1-8.
Authors:Chen Youqing  Hu Zhichao  Wang Shenying  Cao Mingzhu  Xu Hongbo  Wang Gongpu  Yan Jianchun
Institution:Nanjing Research Institute for Agricultural Mechanization, Ministry of Agriculture and Rural Affairs, Nanjing 210014, China
Abstract:Abstract: Peanut straw is excellent feed for animals. In order to realize the animal feed utilization of peanut straw planted with plastic film, a "three-step" harvesting method (cutting-digging-picking and harvesting) was put forward Specifically, peanut straws is cutted before digging to shorten the peanut plant, reduce the transverse size and increase the pod-straw ratio, which is conducive to the harvest operation. At present, there is no suitable pickup device for peanut harvest after cutting straws. Based on the existing peanut combine harvesting techniques, an elastic-tooth pickup device was designed in this paper. As an important part of peanut combine harvester, the elastic-tooth pickup device was mainly composed of pickup elastic tooth, conveying plate, support plate, installation base of pickup elastic tooth, installating tube, main shaft, etc. The transverse sizes of the post-cutting peanut plants were analyzed by using SPSS software, and the separation distance of the neighboring elastic teeth was determined as 7 cm. Based on the theoretical analysis of the conditions of peanut plants picking and throwing, radius of gyration and rotating speed of the elastic tooth determined as 21 cm and 60 r/min, respectively. Through the analysis of the stress situation during the peanut plant picking, the bending angle of the pickup elastic tooth and the length of the bending part were determined to be 102° and 4 cm, respectively. Through analysis of the movement trajectory of the pickup elastic tooth tips by using Matlab software, the movement trajectory of different rows of elastic tooth tips was calculated, the row number of elastic tooth was determined to be 6. Finally, field experiments of the peanut pickup device were carried out. The results showed that the pickup rate was 98.07%, and the drop rate caused by the pickup device was 1.23%, the operation performance of the pickup device met the requirements of peanut pickup harvest after cutting straws. During operation,there were two main reasons for missing picking, firstly, a small amount of peanut plants after cutting were too short and dropped to the ground from the elastic teeth gap; secondly, during the digging operation, some shallow ditches were formed when the tractor tires rolled on the ground, the peanut plants falling in the shallow ditches could not be picked up, resulting in missing picking. There were three main reasons for the pod drop, firstly, some peanut straws decayed and straws strength decreased; secondly, the peanut pod after straws cutting lost the "protection" of peanut vine, which increased the probability of the elastic teeth hitting the pod directly; thirdly, because a small number of peanut plants could not be picked up at one time, and need to be picked up for 2-3 times continuously, multiple picking and beating increased the drop of pod. This study can provide a basis and reference for the development and improvement of the pickup harvest technique for peanut and other short crops.
Keywords:agricultural machinery  harvest  experiments  peanut  harvest after cutting straws  pickup device
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