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基于爪齿余摆运动的株间机械除草装置研制与试验
引用本文:胡 炼,罗锡文,严乙桉,陈雄飞,曾 山,张 龙.基于爪齿余摆运动的株间机械除草装置研制与试验[J].农业工程学报,2012,28(14):10-16.
作者姓名:胡 炼  罗锡文  严乙桉  陈雄飞  曾 山  张 龙
作者单位:华南农业大学 南方农业机械与装备关键技术教育部重点实验室,广州510642;华南农业大学工程学院,广州510642
基金项目:国家科技支撑项目(2011BAD20B06);国家自然科学基金项目(31171864);广东省引进国(境)外高层次人才智力项目;948项目"精准农业智能关键技术引进与创新子课题"(2011-G32)
摘    要:为了实现作物株间区域精确机械除草,设计了一种利用除草爪齿余摆运动原理的株间机械除草装置,研究了装置的除草和避苗工作原理,建立了相应数学模型并分析了除草爪齿余摆运动的参数对除草效果的影响,获得了合理的工作参数。在试验平台上进行了基于爪齿余摆运动的株间机械除草装置避苗试验研究,试验结果表明,基于爪齿余摆运动的株间机械除草装置除草爪齿避苗和除草切换控制快速可靠,室内试验的伤苗率小于8%;能够满足株距20cm及以上栽种的作物株间除草要求,可以保证每个株间区域均有除草爪齿进入实施除草;除草装置的前进速度不影响进入株间区域的除草爪齿数量,但前进速度的增加会导致伤苗率增大;进入株间区域的除草爪齿数量与作物栽种株距均匀性无关,仅与作物栽种的株距有关。该文为爪齿余摆株间除草装置精准控制提供依据。

关 键 词:农业机械  除草  速度  株间除草  余摆运动
收稿时间:3/4/2012 12:00:00 AM
修稿时间:2012/6/20 0:00:00

Development and experiment of intra-row mechanical weeding device based on trochoid motion of claw tooth
Hu Lian,Luo Xiwen,Yan Yi''an,Chen Xiongfei,Zen Shan and Zhang Long.Development and experiment of intra-row mechanical weeding device based on trochoid motion of claw tooth[J].Transactions of the Chinese Society of Agricultural Engineering,2012,28(14):10-16.
Authors:Hu Lian  Luo Xiwen  Yan Yi'an  Chen Xiongfei  Zen Shan and Zhang Long
Institution:1,2(1.Key Laboratory of Key Technology on Agricultural Machine and Equipment,Ministry of Education,South China Agricultural University Guangzhou 510642,China;2.College of Engineering,South China Agricultural University,Guangzhou 510642,China)
Abstract:In order to achieve the intra-row precision mechanical weeding, an intra-row weed mechanical control device was designed based on the trochoid motion of the weeding claw tooth. The principles of weeding and crop plants avoiding were studied. And the corresponding mathematical model of the intra-row weed mechanical control device was established. The trochoid motion parameters for weed control were analyzed. The experiment of avoiding crop plants damage for the intra-row weed mechanical control device was tested on the experimental platform. Result showed that the time for switching from weeding state to crop plant avoiding state and for switching back was able to meet the switching requirement. Damaging crop plants in indoor tests was less than 8%.The intra-row weed mechanical control device was able to meet the intra-row weeding requirement for crops with a plant spacing of 20cm and larger, and ensure available weeding claw tooth for each intra-row area. The forward speed of weeding device did not affect the number of entering the intra-row region, but the increasing of forward speed would cause an increase injury rate of seedlings. The number of the claw tooth entering the intra-row area was not relevant with the uniformity of the crop plant spacing, but the crop plant spacing. This study provides a basis for precision control of intra-row mechanical weed control device.
Keywords:agricultural machinery  weed control  speed  mechanical weed control  intra-row weed control  trochoid motion
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