气力滚筒式排种器种子吸附边界模型及验证

为了探索气力滚筒式播种机对不同规格小粒蔬菜种子吸附性能的影响,该文对种子在吸种孔外部气流场中处于临界运动时与吸种孔的位置关系进行了理论分析。通过分析吸种孔外部气流场的气体的流动状态以及种子在气流场中的绕流阻力与其到吸种孔距离的关系,并对种子在气流场中运动临界状态进行受力分析,从而推导出种子吸附边界的数学模型。分析吸附边界大小对种子吸附性能的影响,以菜心种子、芥兰种子、辣椒种子为试验对象,排种器真空度在1 k Pa-12 k Pa变化,吸种孔半径为0.25 mm,导种板为无振动和振幅为0.4 mm。试验结果与模型分析结果一致:种子吸附的前提条件是种子持续不断的进入吸附边界内,种子的吸附性能与种子...

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Bibliographic Details
Published in农业工程学报 Vol. 32; no. 23; pp. 12 - 20
Main Author 张静 李志伟 刘皞春 吴钢
Format Journal Article
LanguageChinese
Published 华南农业大学工程学院,广州,510642 2016
Subjects
吸种孔
吸附边界
模型
气流场
滚筒式排种器
种子
吸附边界
models
roller-type metering
吸种孔
seed
模型
滚筒式排种器
suction pore
suction-boundary
种子
气流场
airflow field
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ISSN1002-6819
DOI10.11975/j.issn.1002-6819.2016.23.002

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Summary:为了探索气力滚筒式播种机对不同规格小粒蔬菜种子吸附性能的影响,该文对种子在吸种孔外部气流场中处于临界运动时与吸种孔的位置关系进行了理论分析。通过分析吸种孔外部气流场的气体的流动状态以及种子在气流场中的绕流阻力与其到吸种孔距离的关系,并对种子在气流场中运动临界状态进行受力分析,从而推导出种子吸附边界的数学模型。分析吸附边界大小对种子吸附性能的影响,以菜心种子、芥兰种子、辣椒种子为试验对象,排种器真空度在1 k Pa-12 k Pa变化,吸种孔半径为0.25 mm,导种板为无振动和振幅为0.4 mm。试验结果与模型分析结果一致:种子吸附的前提条件是种子持续不断的进入吸附边界内,种子的吸附性能与种子边界的大小和种子形状和大小有关;对于小粒蔬菜种子,扁平种子的单粒率低于球形种子,球形种子的直径越小,越难获得高的单粒率。对于小粒扁平种子和直径较小的小粒球形种子,合理的供种方法和增大排种器真空度使吸种孔不空种,再清除吸种孔上的多余种子,是实现排种器精密播种的一种途径。研究结果为气力滚筒式播种机的精密播种研究提供参考。
Bibliography:11-2047/S
Zhang Jing, Li Zhiwei, Liu Haochun, Wu Gang (1. College of Engineering, South China Agricultural University, Guangzhou 510642, China)
Aiming to explore the influence of pneumatic roller type seeder on the absorbability of small seeds with varied sizes, the paper performs a theoretic analysis on the relation between the seed that is in critical motion in the airflow field outside the suction pore and the corresponding position of the suction pore. The state of gas-flow in the airflow field outside the suction pore is analyzed as well as the connection between the seed's flow resistance in the airflow field and the seed's distance to the center of the airflow field, and furthermore, a force analysis is conducted on the seeds in critical motion in the airflow field. Subsequently, a mathematical model of seeds' suction-boundary is established. Simple comparison approach is adopted. The experiment conditions are that the diameter of the seed is 2 mm, the vacuum pressure of seed metering device is 4 kP a, t
ISSN:1002-6819
DOI:10.11975/j.issn.1002-6819.2016.23.002