2BP-2000型水稻育秧播种机分盘装置研制  被引量：2

作　　者：谢方平[1,2,3] 杨靖 符志勇 刘大为 龚明[3] 程乐根 XIE Fangping;YANG Jing;FU Zhiyong;LIU Dawei;GONG Ming;CHENG Legen(College of Mechanical and Electrical Engineering,Hunan Agricultural University,Changsha 410128,China;Hunan Province Key Laboratory of Intelligent Agricultural Machinery Equipment,Changsha 410128,China;Key Laboratory of Southern Intelligent Seedling,Ministry of Agriculture and Rural Affairs,Yiyang,413055,China)

机构地区：[1]湖南农业大学机电工程学院,长沙410128 [2]智能农机装备湖南省重点实验室,长沙410128 [3]农业农村部南方智能育秧/苗重点实验室,益阳413055

出　　处：《农业工程学报》2024年第3期26-36,共11页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家重点研发计划项目(2020YFD1000305-4);湖南省教育厅科学研究项目(21A0131);湖南省重点研发计划项目(2021NK2022)。

摘　　要：针对现有育秧播种机分盘装置生产效率较低、高速作业时易出现卡盘和秧盘输送不连续等问题,该研究设计了一种生产效率不低于2000盘/h的机械气动式自动分盘装置,可快速、准确完成分盘和供盘,适配2BP-2000型水稻育秧播种机高速播种。阐述了分盘装置的基本结构和工作原理,开展分盘、接盘过程分析,确定装置稳定分盘、接盘作业的关键机构与工作参数。分盘稳定性试验结果表明,生产率为1600~2000盘/h时,分盘稳定性不低于98.67%。开展以层叠秧盘数、生产率和秧盘质量为试验因素,以接盘成功率为试验指标的三因素三水平正交旋转组合试验,得到影响接盘成功率的因素主次关系为生产率、层叠秧盘数、秧盘质量,其中生产率、层叠秧盘数对接盘成功率影响显著(P<0.05),秧盘质量对接盘成功率影响不显著(P≥0.05),表明分盘装置对不同质量的秧盘适应性较好,其最优参数组合为:生产率2000盘/h、层叠秧盘数6盘/层、秧盘质量750 g/盘,该条件下分盘装置的接盘成功率均值为98.43%,与预测值仅相差0.29个百分点。研究结果对提高水稻硬盘育秧播种机械化水平具有实用价值。An assembly line of rice seedling sowing can be used to effectively enhance the production efficiency with less labor intensity in the better adaptability of seedlings for machine transplantation.However,manual delivery has been confined to the large-scale operation of the number of trays in the front-end tray-splitting device.The current splitting tray device cannot fully meet the requirements of high-speed operations in conjunction with the rice seedling sowing assembly line.In this study,a mechanical pneumatic automatic splitting tray device was designed to rapidly and accurately split and supply trays,with a production efficiency of at least 2000 trays/h.The high-speed sowing was suitable to equip with the 2BP-2000 rice seedling planter.Three mechanisms consisted of a splitting tray,a conveyor,and a limit auxiliary,together with a control system.The tray paddle was indirectly lifted or lowered by the extension and contraction of the cylinder piston rod,enabling continuous trays splitting of stacked trays.The maximum number of trays per stack was 10 trays.The structure and motion parameters of the tray splitting mechanism were determined during operation.The conveyor mechanism was divided into the tray and its splitting sections.The motion model of the seedling tray conveying mechanism was established using theoretical analysis.The conveying speed of tray tray-splitting section was about 2.5 times that of the sowing one under different production rates.The seedling trays were then conveyed without spacing.The control system was designed with PLC as the core,in order to determine the wiring logic and control flow.A single-factor test was conducted to clarify the effect of different production rates on the stability of the chuck and tray-splitting device.An evaluation index was taken as the splitting tray stability.The results showed that the better stability of splitting tray was achieved in not less than 98.67%at a production rate of 1600 to 2000 trays/h.A three-factor and three-level orthogonal rotary test wa

关 键 词：农业机械 试验 水稻育秧播种 分盘装置 分盘稳定性 接盘成功率 

分 类 号：S224.9[农业科学—农业机械化工程]