大粒种子定向精量播种装置参数优化试验  被引量：21

作　　者：杨艳丽[1] 辜松[1,2,3] 李恺[1] 刘凯[1] 张青[1] 钟绿祥[1] 贾冬冬[3] 刘骁靓[1] 

机构地区：[1]华南农业大学工程学院,广州510642 [2]华南农业大学南方农业机械与装备关键技术省部共建教育部重点实验室,广州510642 [3]东北农业大学工程学院,哈尔滨150030

出　　处：《农业工程学报》2013年第13期15-22,共8页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家"863"计划资助项目(2013AA102440603)

摘　　要：针对传统精量播种机难以对大粒种子进行定向精量播种,该文基于直线振动器定向送种、气缸驱动种穴转向及负压针式播种技术,开发了一种可实现大粒种子45°定向精量播种的装置。以瓠瓜种子为播种对象,对定向种穴机构和负压播种机构进行参数优化试验,得到定向种穴与种子输送轨道出口的垂直距离为1.5mm、水平距离为0、直线振动器送种速度为65mm/s时,种子进入定向种穴内的成功率可达98.89%;负压吸嘴垂直运种速度为40mm/s、种子压入基质深度为3mm、压种停滞时间为1s时,种子相对于设定方向的角度偏转平均值仅为0.8°。通过对大粒种子定向精量播种装置进行综合播种作业性能试验,得到该装置播种作业生产率可达6000穴/h以上,单粒率为97%,91%以上种子角度偏转小于10°,95%以上种子角度偏转小于15°,种子最大角度偏转小于25°。该研究可为大粒种子定向精量播种机的开发设计提供参考。A tray seeder is important equipment that greatly increases seeding efficiency and decreases the intensity of labor in the industrial seedlings production. In order to solve the problem of a traditional precision seeder being not suitable for seeding large cucurbitaceous seeds, such as bottle gourd, pumpkin, and watermelon seeds, whose sizes and weights are bigger than ordinary vegetable seeds, a precision directing seeder for large cucurbitaceous seeds was developed to achieve precision seeding in the same direction at a 45° angle. The cotyledons of seedlings could grow up in the same direction as a 45° seeding angle to avoid cotyledons of adjacent seedlings being covered each other. Precision seeding in the same direction at 45° angle was achieved by transporting seeds with a linear vibrator, directing seeds with seed-slots, and seeding with air-suction nozzles. The seeder was controlled by a programmable logic controller. The size of the seed-slot was determined according to the maximum measurements of the 100 normal seeds selected randomly to accommodate almost all the seeds. Optimal operation and structure parameters of the directing seed-slot mechanism and air-suction seeding mechanism were obtained by experimenting with bottle gourd seeds, using a standard tray with 50 cells. The air pressure of the pneumatic system was 0.5 MPa, and the negative pressure of the air-suction nozzle absorbing seed was 0.04 MPa. Results indicated that, with 1.5 mm of the vertical distance from the exit of seed transporting track to seed-slot, 0mm of the horizontal distance and 65 mm/s of the transporting speed of linear vibrator, the success rate of transporting seed into directing seed-slots could reach up to 98.89%; with 40 mm/s of the vertical transporting speed of air-suction nozzle, 3 mm of the depth of the seeds pushed into substrate, and 1 second of the residence time for pushing seeds in substrate, the angular deflection was at the minimum, with 0.8 degree of the mean value of the angular deflection and 15° of the

关 键 词：农业机械 试验 种子 定向精量播种 角度偏转 

分 类 号：S223.2[农业科学—农业机械化工程]