手持式风送授粉机研制与试验  被引量：9

作　　者：丁素明[1] 薛新宇[1] 蔡晨[1] 秦维彩[1] 方金豹[2] 孙竹[1] 

机构地区：[1]农业部南京农业机械化研究所,南京210014 [2]中国农业科学院郑州果树研究所,郑州450009

出　　处：《农业工程学报》2014年第13期20-27,共8页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家公益性行业(农业)科研专项资助项目(201203025);陕西省科技统筹创新工程计划(2011KTZD02;2012KTJD03)

摘　　要：针对中国果树授粉大多采用人工点授、蜜蜂授粉等作业方式,迫切需要机械授粉机具的现状,研制了手持式风送授粉机。该机采用可变速的直流电机驱动离心风机,依照流体力学射流原理,计算授粉出口风速并设计了离心风机,叶片型式采用径向直板叶片,叶轮型式为平前盘,叶轮直径38 mm,叶片数为6,叶片宽度为18 mm。通过室内试验和样机田间试验分别测试了风机性能特性和气流速度对花粉分布的影响及猕猴桃柱头处的花粉覆盖率,试验结果表明:风机转速在8 000 r/min时风量为3.0×10-3 m3/s,满足风送授粉作业要求,风机转速9 000 r/min时全压效率较高,达到43%;花粉分布受风速影响较大,花粉竖直分布量以及喷粉量与出口风速成正比,且水平分布、竖直分布峰值随着风速的增加而后移,竖直分布峰值在距出口一定距离内保持稳定,显示花粉在一定速度的定向气流中能保持较好的直线传播;随着出口风速的增加,柱头处花粉覆盖率提高,当出口风速达到19.5 m/s时,花朵柱头平均有57.66%的花粉覆盖率。研究结果可为进一步研究风送授粉机的结构设计和作业参数优化提供依据。Pollination is a very important process for high yield and quality of fruits production. The artificial and bee pollinations are wildly used in fruits production, but they are unadaptable to large scale production. So a kind of handheld air-assisted pollination device was developed. Through theoretical calculation, the air supply device was determined to adopt 6 impellers, the impeller diameter is 38 mm and the guide blades width is 18 mm. The motor is driven by DC power. A wind velocity indicator was used and the test ring was put at 500 mm ahead of the air inlet which is connected with a set of rams to fan pipes. The ram＇s diameter is 38 mm, same as the impeller. The results of fan performance test showed that the air volume was 3.0×10-3 m3/s at 8 000 r/min of fan speed, which can meet the design requirements. The highest total pressure efficiency is 43% at 9 000 r/min of fan speed. With the speed increase, the total pressure efficiency dropped rapidly but the power increased and the variation trends of the air volume and air pressure are not significant. The fan property was tested and the performance curve graphic was drawn. The air velocity field at different rotational speeds of the handheld air-assisted pollination device were studied and validated by the experiment data. The results showed that the velocity of central plane diffused at a fixed angle and decayed along the centre line, and the theoratical values closely related to the experiment data. In order to study the effect of airflow speed on pollination, the basic principle of pneumatic pollination was analyzed. Tests were conducted to validate the effect of airflow speed on pollens distribution based on pollens density, horizontal distribution and vertical distribution in the lab. The results show that the flow rate of nozzle is affected by wind velocity significantly. When the winds velocity reaches 25 m/s, the variation trends of the flow rate of nozzle are not significant with the speed increase. And the pollens distribution is affected by wi

关 键 词：农业机械 优化 试验 授粉 风送 流速 猕猴桃 

分 类 号：S233.75[农业科学—农业机械化工程] S334.22[农业科学—农业工程]