大蒜果秧分离机构参数优化及试验  被引量：41

作　　者：于昭洋[1,2] 胡志超[1,2] 王海鸥[1,2] 彭宝良[1,2] 谢焕雄[1,2] 吴峰[1,2] 

机构地区：[1]农业部南京农业机械化研究所,南京210014 [2]农业部现代农业装备重点实验室,南京210014

出　　处：《农业工程学报》2015年第1期40-46,共7页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家自然科学基金资助项目(51375247);国家现代农业产业技术体系建设专项(CARS-14-08B)

摘　　要：为了提高大蒜果秧分离机构的作业质量,降低蒜头的平均留茎长度、伤损率、提高切痕合格率,该文运用Box-Benhnken的中心组合试验设计理论,在构建的大蒜果秧分离试验台上,对主夹持链输送速度、蒜株夹持角度、蒜株夹持高度、夹持株数等影响其作业质量的4个因素进行四因素三水平的响应面试验。建立了响应面数学模型,分析了各影响因素对作业质量的影响,同时,对各影响因素进行了综合优化。结果表明试验因素对果秧分离质量有较大影响,综合优化结果为主夹持链输送速度1.05 m/s,蒜株夹持角度77°,蒜株夹持高度220 mm,夹持株数2株,此时平均留茎长度为36.9 mm、伤损率为2.23%、切痕合格率为98.29%。研究结果可为大蒜果秧分离机构的结构完善设计和作业参数优化提供依据。In the present, the mechanized harvest technology of garlic in China is still in infancy. Most of the current domestic garlic harvesters only can accomplish the processes of digging and laying. However, the garlic combine harvester, which can synchronously finish the processes of digging, cleaning soil, cutting stem, cutting beard, gathering garlic bulb, etc., is still under test and demonstration. Furthermore, picking is the most important and difficult process of combine harvest, because the bad separation will result in another manual cutting. Different with the harvest mode of the developed countries, the farmers in China pull out the young garlic shoot in its early stage, which causes the garlic to collapse and affects its locating in the application of half feeding combine harvest. Besides, the residual stem is long, the damage rate is high and the cut pass rate is low. In view of the above problems, a picking device of garlic combine harvester was designed, realizing the garlic plant flexibly clamped, the garlic being sorted one by one and aligned automatically. In order to further study the garlic picking device, the garlic picking testbed was designed. The garlic picking testbed consists of a garlic picking device, shelf and transmission system. The main goal of testbed is the garlic picking device which consists of a clamping device, a rank-alignment device, a cutting device. In order to enhance operational performance of garlic picking device, reduce the residual stem length, the damage rate and increase cutting surface pass rate, the Box-Benhnken central composite experimental design principle was conducted in this paper. A four factors and three levels response surface experiment was completed on the garlic picking testbed, with four factors which affect picking quality. This paper established the response surface model and studied the factors affecting picking quality. At the same time, it synthetically optimized the factors affecting picking quality. The results showed that trial factors had great

关 键 词：农业机械 分离机构 联合收获 半喂入 果秧分离 优化 输送速度 夹持 

分 类 号：S225.7[农业科学—农业机械化工程]