中国农业机械化科学研究院集团有限公司 主管

北京卓众出版有限公司 主办

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

马铃薯低损收获技术

赵晋 黄赟 柳国光 徐锦大

赵晋,黄赟,柳国光,等.马铃薯低损收获技术[J].农业工程,2023,13(8):14-17. doi: 10.19998/j.cnki.2095-1795.2023.08.003
引用本文: 赵晋,黄赟,柳国光,等.马铃薯低损收获技术[J].农业工程,2023,13(8):14-17. doi: 10.19998/j.cnki.2095-1795.2023.08.003
ZHAO Jin,HUANG Yun,LIU Guoguang,et al.Low-loss harvesting technology of potato[J].Agricultural Engineering,2023,13(8):14-17. doi: 10.19998/j.cnki.2095-1795.2023.08.003
Citation: ZHAO Jin,HUANG Yun,LIU Guoguang,et al.Low-loss harvesting technology of potato[J].Agricultural Engineering,2023,13(8):14-17. doi: 10.19998/j.cnki.2095-1795.2023.08.003

马铃薯低损收获技术

doi: 10.19998/j.cnki.2095-1795.2023.08.003
基金项目: 浙江省尖兵计划项目(2022C02007);金华市院地合作项目(2021-4)
详细信息
    作者简介:

    赵晋,工程师,主要从事农机与检测技术研究 E-mail:qitianqing123@163.com

    徐锦大,通信作者,正高级工程师,主要从事农业机械研究 E-mail: why0578@163.com

  • 中图分类号: S22

Low-loss Harvesting Technology of Potato

  • 摘要:

    马铃薯是重要的粮食作物,对于保障粮食安全具有积极作用,在其生产过程中,机械化收获是促进高效生产的关键环节。目前,马铃薯机械化收获过程中会造成薯块损伤,进而容易引起薯块腐烂,影响整体品质和产量,在一定程度上限制了马铃薯机械化收获技术的推广应用。阐述了国内外马铃薯收获装备研究状况,探讨分析了防缠绕、挖掘、薯土分离和集薯等收获技术及其过程中存在的马铃薯机械损伤情况,以期提高马铃薯机收效果。

     

  • [1] 孙传祝,魏忠彩,苏国粱,等.基于高效低损目标的马铃薯收获机改进设计[J].农机化研究,2018(12): 65 - 69 .

    SUN Chuanzhu,WEI Zhongcai,SU Guoliang,et al.Improved design of potato harvester based on high efficiency and low loss target[J].Journal of Agricultural Mechanization Research,2018(12): 65 - 69 .
    [2] 胡彬生,骆赞磊,邱瑜,等.南方丘陵山区薯类生产机械化现状与发展思路:以江西省为例[J].现代农业装备,2020,41(2): 69 - 75 .

    HU Binsheng,LUO Zanlei,QIU Yu,et al.Research statusand development path of tuber production mechanization in China souther hilly area:take Jiangxi Province as an example[J].Modern Agricultural Equipment,2020,41(2): 69 - 75 .
    [3] 张兆国,李彦彬,王海翼,等.马铃薯机械化收获关键技术与装备研究进展[J].云南农业大学学报(自然科学),2021,36(6): 1092 - 1103 .

    ZHANG Zhaoguo,LI Yanbin,WANG Haiyi,et al.Research progress on key technology and equipment of potato mechanized harvest[J].Journal of Yunnan Agricultural University (Natural Science),2021,36(6): 1092 - 1103 .
    [4] 郭新峰.小型马铃薯收获机关键部件的设计与研究[D].石河子:石河子大学,2017.

    GUO Xinfeng.Design and research on the key components of small potatoharvester[D].Shihezi:Shihezi University,2017.
    [5] 胡良龙,田立佳,计福来,等.国内甘薯生产收获机械化制因思索与探讨[J].中国农机化,2011(3): 16 - 18 .

    HU Lianglong,TIAN Lijia,JI Fulai,et al.Analysis and discussion on the restriction causations for harvesting mechanization of sweet potato in China[J].China Agricultural Mechanization,2011(3): 16 - 18 .
    [6] 窦青青,孙永佳,孙宜田,等.国内外马铃薯收获机械现状与发展[J].中国农机化学报,2019,40(9): 206 - 210 .

    DOU Qingqing,SUN Yongjia,SUN Yitian,et al.Current situation and development of potato harvesting machinery at home and abroad[J].Journal of Chinese Agricultural Mechanization,2019,40(9): 206 - 210 .
    [7] 徐锦大,王涛,吴列洪,等.丘陵山区薯类生产装备有效供给的现状与对策[J].中国农机化学报,2017,38(5): 129 - 134 .

    XU Jinda,WANG Tao,WU Liehong,et al.Present situation and countermeasures about effective supply of potato production equipment in hilly and mountainous areas[J].Journal of Chinese Agricultural Mechanization,2017,38(5): 129 - 134 .
    [8] 柳国光,王涛,程林润,等.马铃薯收获农机农艺融合试验[J].农业工程,2021,11(6): 28 - 33 .

    LIU Guoguang,WANG Tao,CHENG Linrun,et al.Experiment on integration of agricultural machinery and agronomy for potato harvest[J].Agricultural Engineering,2021,11(6): 28 - 33 .
    [9] 唐兴隆,任桂英,张涛,等.西南地区马铃薯收获损伤原因综述[J].农业开发与装备,2020(9): 93 - 94 .
    [10] 康璟,李涛,王蒂,等.马铃薯收获中机械损伤的分析与思考[J].农业机械,2013(7): 137 - 139 .
    [11] 吕金庆,杨晓涵,温信宇.马铃薯块茎机械损伤研究现状与发展趋势[C]//中国作物学会马铃薯专业委员会,甘肃省农业农村厅,定西市人民政府.马铃薯产业与美丽乡村(2020).黑龙江科学技术出版社,2020.DOI: 10.26914/c.cnkihy.2020.018989.
    [12] 王涛,柳国光,楼婷婷,等.丘陵山区甘薯收获机的研制与试验[J].中国农机化学报,2019,40(12): 41 - 46,71 .

    WANG Tao,LIU Guoguang,LOU Tingting,et al.Development and test of sweet potato harvester in hilly area[J].Journal of Chinese Agricultural Mechanization,2019,40(12): 41 - 46,71 .
    [13] 战长龄,蒋金琳,周申,等.马铃薯收获机防缠绕装置的设计与试验研究[J].农机化研究,2015(12): 193 - 196 . doi: 10.3969/j.issn.1003-188X.2015.12.042

    ZHAN Changling,JIANG Jinlin,ZHOU Shen,et al.Design and test of potato harvesting machine with anti-winding device[J].Journal of Agricultural Mechanization Research,2015(12): 193 - 196 . doi: 10.3969/j.issn.1003-188X.2015.12.042
    [14] 魏忠彩,李学强,孙传祝,等.马铃薯收获与清选分级机械化伤薯因素分析[J].中国农业科技导报,2017,19(8): 63 - 70 .

    WEI Zhongcai,LI Xueqiang,SUN Chuanzhu,et al.Analysis of potato mechanical damage in harvesting and cleaning and sorting storage[J].Journal of Agricultural Science and Technology,2017,19(8): 63 - 70 .
    [15] 柳国光,王涛,姚爱萍,等.浙江省马铃薯机械化收获关键技术探讨[J].中国农机化学报,2019,40(8): 48 - 52 .

    LIU Guoguang,WANG Tao,YAO Aiping,et al.Discussion on key technologies of potato mechanized harvesting in Zhejiang Province[J].Journal of Chinese Agricultural Mechanization,2019,40(8): 48 - 52 .
    [16] 李涛,李娜,刘存根,等.薯类收获机挖掘深度自动控制系统设计与试验[J].农业机械学报,2021,52(12):16-23.

    LI Tao,LI Na,LIU Cungen,et al.Development of automatic depth control system employed in potato harvester[J].Transactions of the Chinese Society for Agricultural Machinery,2021,52(12):16-23.
    [17] 崔刚,马云海,杨德秋,等.马铃薯挖掘铲仿生减阻技术研究概况[J].农业工程,2019,9(9): 19 - 22 .

    CUI Gang,MA Yunhai,YANG Deqiu,et al.Research situation of bionic resistance reducing technology about potato digging shovel[J].Agricultural Engineering,2019,9(9): 19 - 22 .
    [18] 赵萍,赵吉喆,樊昱,等.马铃薯仿生挖掘铲的设计与有限元静力学分析[J].中国科技论文,2017,12(22): 2543 - 2548 .

    ZHAO Ping,ZHAO Jizhe,FAN Yu,et al.Design and finite element stress analysis on the potato bionic digging shovel[J].Chinese Science and Technology Paper,2017,12(22): 2543 - 2548 .
    [19] 侯国强,韩休海,陈维刚.马铃薯收获机工作原理与伤薯问题产生机理研究[J].农机使用与维修,2021(8): 20 - 21 .
    [20] 邓伟刚.马铃薯块茎碰撞损伤特性与表皮摩擦损伤机理研究[D].呼和浩特:内蒙古农业大学,2021.

    DENG Weigang.Study on the collision damage characteristics and peel friction damage mechanisms of potato tubers[D].Hohhot:Inner Mongolia Agricultural University,2021.
    [21] 武德勇.马铃薯与杆条升运链碰撞损伤试验研究与参数设计[D].杨凌:西北农林科技大学,2022.

    WU Deyong.Experimental study on collision damage of rod lifting chain to potato and parameter design[D].Yangling:Northwest A & F University,2022.
  • 加载中
计量
  • 文章访问数:  24
  • HTML全文浏览量:  5
  • PDF下载量:  6
  • 被引次数: 0
出版历程
  • 收稿日期:  2023-03-12
  • 修回日期:  2023-06-06
  • 出版日期:  2023-08-20

目录

    /

    返回文章
    返回