低矮果园环流式循环风送喷雾机设计与试验  被引量：17

作　　者：邱威[1] 孙浩 孙玉慧 廖洋洋 周良富 闻桢杰 Qiu Wei;Sun Hao;Sun Yuhui;Liao Yangyang;Zhou Liangfu;Wen Zhenjie(College of engineering,Nanjing Agricultural University,Nanjing 210095,China;Engineering training center,Nanjing Vocational University of Industry Technology,Nanjing 210023,China)

机构地区：[1]南京农业大学工学院,南京210095 [2]南京工业职业技术大学工程技术实训中心,南京210023

出　　处：《农业工程学报》2021年第6期18-25,共8页Transactions of the Chinese Society of Agricultural Engineering

基　　金：国家自然科学基金项目(51805271);江苏省农业自主创新基金项目(CX181007);南京农业大学SRT专项计划(S20190037)。

摘　　要：传统果园风送施药气流输送模式为出风口到冠层的一维流动,气流经过冠层时会衰减、停滞,存在穿透难、内膛与叶片背面沉积难等问题。该研究采用顶置风机方式,利用风机负压吸风引导气流在冠层内改变运动方向,实现雾滴由外及内、再由下而上运动。在分析环流作用下雾滴运动的基础上,设计一种适应于低矮果园的环流循环风送喷雾机,并开展气流场的分布规律分析与田间试验。试验结果表明:在冠层内膛(高度0.8~1.8 m)、树干中心线两侧0.25 m的中心区域气流角度变化较大,气流环绕对内膛平均风速有显著性影响(P<0.05)。相较于无气流环绕模式,气流环绕风送施药的冠层总体叶片背面雾滴平均覆盖率提高了33.7%;冠层内膛叶片正面雾滴平均覆盖率提高了42.9%,叶片背面雾滴平均覆盖率提高了40.4%。研究结果可为果园风送式施药提供新的思路。Conventional air-assisted spraying declines rapidly to stagnate in general,particularly when the droplets reach the canopy in an orchard.Unfavorable spray effects thus often occur,such as"difficult to penetrate"and"difficult to deposit inside the canopy and the back of leaves".In this study,a new idea was proposed to form multi-source wind disturbance for the direction change of airflow inside the canopy,namely,"from outside to inside,and then from bottom to top".Firstly,the movement tracking of droplet flow under the surrounding airflow was analyzed to determine the structure of a sprayer and the key parameters.The sprayer with a"door"type structure was composed of a surrounding air-assisted system,a spraying and recovery system,a hydraulic drive system,and a crawler chassis.An axial flow fan was placed at the top of the canopy.Specifically,the air inlet of the fan was facing the top of the canopy,whereas,the air outlet of the fan was connected with an air duct to transport the air into eight subsequent outlets.Meanwhile,the negative-pressure suction was generated through the air inlet of the fan,thereby moving the air flow"from bottom to top"in the canopy.Four flumes were arranged below the shields to receive the lost droplets.Two pumps were utilized to transfer the recovered droplets into the auxiliary tank for environmental protection.The size of the gate-type opening was adjusted in a certain range for various planting patterns in an orchard.The key parameters of the surrounding air-assisted system were also optimized using the displacement theory of air volume and jets.The air velocity of the outlet was determined to be 10-20 m/s,while,the wind pressure provided by the axial flow fan cannot be less than 857.8 Pa.Secondly,the stress of the gantry frame was analyzed under the service condition to meet the user needs,where the bending and torsion resistance were verified in the theoretical evaluation.Thirdly,the five-hole probes and ribbon method were selected to field test the distribution of flow direction i

关 键 词：喷雾 设计 环流式 辅助气流 气流运动 果树冠层 

分 类 号：S147.2[农业科学—肥料学]