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蔬菜穴盘苗自动精确移栽组合式取苗机构设计与测试
引用本文:韩绿化, 毛罕平, 胡建平, 徐静云, 赵峥嵘, 马国鑫. 蔬菜穴盘苗自动精确移栽组合式取苗机构设计与测试[J]. 农业工程学报, 2015, 31(Z2): 17-23. DOI: 10.11975/j.issn.1002-6819.2015.z2.003
作者姓名:韩绿化  毛罕平  胡建平  徐静云  赵峥嵘  马国鑫
作者单位:1.江苏省现代农业装备与技术协同创新中心,镇江 212013;2.江苏大学现代农业装备与技术教育部重点实验室,镇江 212013
基金项目:National Natural Science Foundation of China (51475216); National Science & Technology Pillar Program during the Twelfth Five-year Plan Period(2013BAD08B03); Jiangsu Province Science and Technology Support Program of China(BE2012381 & BE2014373); Priority Academic Program Development of Jiangsu Higher Education Institutions(SFE(2014) 37); Jiangsu Province Synergistic Innovation Center Program of Modern Agricultural Equipment and Technology(NZXT02201402); Fund for Independent Innovation of the Jiangsu Province Agricultural Science and Technology (CX(15)1033-5)
摘    要:Precision planting is one key point of precision agriculture.A doorframe type swing seedling pick-up device for the automatic precise field transplanter was designed and tested in a laboratory.The seedling device could automatically extract seedlings from growing trays, transfer them, and release them into the planting unit where they were to be precisely transplanted into the ground.It consisted of a path manipulator and two grippers.The path manipulator for seedling extraction was constructed with creative design of Ⅱ-type mechanism combination in series.It consisted of an oscillating guide linkage mechanism and a grooved globoidal cam mechanism.According to the planned seedling pick-up trajectory, the design of the path manipulator for seedling extraction was finished with a set of the closed loop vector equation.The gripper was a pincette-type mechanism using the pick-up pins to penetrate into the root mass for seedling extraction.It consisted of multiple pick-up pins, U-type pull rod, shaft, stop block, compression spring and frame.The mechanical dimensions of the gripper were determined by the tray size and plant characteristic with a set of rectangular equations and the boundary constraint conditions.The final gripper was developed on the basis of cultural practice for vegetable seedling in China.A prototype of the seedling pick-up device was constructed to examine whether its working efficacy was satisfactory or not.According to the analysis on the work process, the seedling pick-up device could precisely complete a work cycle of approaching, penetrating, extracting, transferring, erecting and discharging a seedling.Taking pepper seedlings, tomato seedlings and cucumber seedlings as the transplanting objects, the performance tests were conducted to evaluate the practicality and adaptability of the pick-up device.The laboratory evaluation showed that the pick-up device equipped with two grippers could extract 70 seedlings per minute with an average success ratio of 90.49%.The quality of extracting seedlings was satisfactory.

收稿时间:2015-10-01

Design and test of combined pick-up device for automatic and precise transplanting of vegetable plug seedlings
Han Lü hua, Mao Hanping, Hu Jianping, Xu Jingyun, Zhao Zhengrong, Ma Guoxin. Design and test of combined pick-up device for automatic and precise transplanting of vegetable plug seedlings[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2015, 31(Z2): 17-23. DOI: 10.11975/j.issn.1002-6819.2015.z2.003
Authors:Han Lü hua  Mao Hanping  Hu Jianping  Xu Jingyun  Zhao Zhengrong  Ma Guoxin
Affiliation:1.Jiangsu Province Synergistic Innovation Center of Modern Agricultural Equipment and Technology,Zhenjiang 212013, China;2.Key Laboratory of Modern Agriculture Equipment and Technology, Ministry of Education, Jiangsu University, Zhenjiang 212013, China
Abstract:Precision planting is one key point of precision agriculture.A doorframe type swing seedling pick-up device for the automatic precise field transplanter was designed and tested in a laboratory.The seedling device could automatically extract seedlings from growing trays, transfer them, and release them into the planting unit where they were to be precisely transplanted into the ground.It consisted of a path manipulator and two grippers.The path manipulator for seedling extraction was constructed with creative design of Ⅱ-type mechanism combination in series.It consisted of an oscillating guide linkage mechanism and a grooved globoidal cam mechanism.According to the planned seedling pick-up trajectory, the design of the path manipulator for seedling extraction was finished with a set of the closed loop vector equation.The gripper was a pincette-type mechanism using the pick-up pins to penetrate into the root mass for seedling extraction.It consisted of multiple pick-up pins, U-type pull rod, shaft, stop block, compression spring and frame.The mechanical dimensions of the gripper were determined by the tray size and plant characteristic with a set of rectangular equations and the boundary constraint conditions.The final gripper was developed on the basis of cultural practice for vegetable seedling in China.A prototype of the seedling pick-up device was constructed to examine whether its working efficacy was satisfactory or not.According to the analysis on the work process, the seedling pick-up device could precisely complete a work cycle of approaching, penetrating, extracting, transferring, erecting and discharging a seedling.Taking pepper seedlings, tomato seedlings and cucumber seedlings as the transplanting objects, the performance tests were conducted to evaluate the practicality and adaptability of the pick-up device.The laboratory evaluation showed that the pick-up device equipped with two grippers could extract 70 seedlings per minute with an average success ratio of 90.49%.The quality of extracting seedlings was satisfactory.
Keywords:design   agricultural machinery   transplants   vegetable   plug seedling   transplanter   pick-up device
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