酿酒葡萄覆膜埋藤机的设计与分析

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英文篇名：Design and Analysis of the Film Mulching and Vine Burying Machine for Wine Grape 作者：朱新月 ; 王丽红 ; 徐亭 ; 彭慧杰 ; 党永强 ; 高明勇 英文作者：Zhu Xinyue;Wang Lihong;Xu Ting;Peng Huijie;Dang Yongqiang;Gao Mingyong;College of Mechanical and Electronic Engineering,Key Laboratory of Northwest Agricultural Equipment,Ministry of Agriculture,Shihezi University;Agricultural Machinery Bureau in Xinjiang Manasi; 关键词：埋藤机 ; 酿酒葡萄 ; 覆膜 ; 免埋土越冬 英文关键词：vine buring machine;;wine grape;;film mulching;;overwintering without being buried soil 中文刊名：NJYJ 英文刊名：Journal of Agricultural Mechanization Research 机构：石河子大学机械电气工程学院/农业部西北农业装备重点实验室;新疆玛纳斯县农机局; 出版日期：2018-06-21 出版单位：农机化研究 年：2019 期：v.41 基金：国家自然科学基金项目(51505306);; 新疆生产建设兵团英才培养工程项目(CX9452) 语种：中文; 页：NJYJ201903014 页数：7 CN：03 ISSN：23-1233/S 分类号：82-88

摘要

为解决新疆酿酒葡萄人工埋藤劳动强度大及效率低的问题,针对酿酒葡萄免埋土越冬的埋藤方式,设计了一种适合新疆酿酒葡萄种植模式的覆膜埋藤机。阐述了该埋藤机的结构和工作原理,分别对埋藤机的铺膜装置、旋耕输送覆土装置进行了设计。通过对覆土圆盘进行受力分析,验证了其结构设计的合理性,并对刮板输送带进行输土性能分析,确定了刮板输土量的影响因素。该研究为解决新疆酿酒葡萄机械化埋藤作业提供了参考。
        In order to solve the problem of high labor intensity and low efficiency of artificial burying vine for wine grape in Xinjiang,based on the mode of overwintering without burying soil,a kind of film laminating and vine burying machine suitable for wine grape planting mode in Xinjiang was designed.The structure and working principle of the vine burying machine were expounded,and the film mulching device and rotary tillage soil conveying and covering device were designed respectively.The rationality of the structure designed was verified by the force analysis of the soil covered disc,while the influencing factors of soil conveying capacity of scraper were determined by the analysis of soil conveying performance of scraper conveyor belt.The study provides a reference for solving the mechanized vine burying operation of wine grape in Xinjiang.

引文

[1]刘俊.张家口市葡萄产业发展建议[J].河北林业科技,2013(2):44-54.
    [2]陈习刚.葡萄、葡萄酒的起源及传入新疆的时代与路线[J].古今农业,2009,(1):51-61.
    [3]蒲胜海,张计峰,丁峰,等.新疆葡萄产业发展现状及研究动态[J].北方园艺,2013(3):200-203.
    [4]葡萄色彩多功效各不同[J].创造,2015(9):94.
    [5]吴映梅.葡萄籽的营养保健功能及开发利用[J].安徽农业科学,2017,45(8):105-106,120.
    [6]杨兰涛,王丽红,坎杂,等.4PZ-1型自走式酿酒葡萄收获机的研制与试验[J].农业工程学报,2017,33(1):38-44.
    [7]新疆丰收季丨60万亩酿酒葡萄正在压榨、发酵酿出美酒香飘全国[EB/OL].20117-10-12.http://news.ifeng.com/a/20171012/52603069_0.shtml.
    [8]尤军,郭辉,胡洁,杨宛章.葡萄埋藤机研究综述[J].农业工程,2013,3(2):8-10.
    [9]董正恩,王合.MT-35型葡萄埋藤机的设计研究[J].农业机械,2012(26):77-78.
    [10]章慧全.3MT-5.0型葡萄埋藤机的研制[J].农业科技与装备,2013(11):44-46.
    [11]蒙贺伟,李进江,坎杂,等.PM-1200型悬挂式葡萄埋藤机研制[J].农机化研究,2012,34(2):97-100.
    [12]王华民,李维山,叶萍,等.葡萄越冬覆盖新法[J].农村科技,2007(10):40.
    [13]李银芳,潘伯荣,阿迪力·吾彼尔,等.吐鲁番葡萄越冬双层覆膜不同拱架方法与膜下温度的关系[J].干旱区资源与环境,2016,30(6):153-158.
    [14]李银芳.寒冷地区双层覆盖式果树越冬技术[J].北方园艺,2008(12):17-20.
    [15]修德仁.初议葡萄覆膜防寒越冬[C]//中国农学会.葡萄产业化与标准化生产——2007年第十三届全国葡萄学术研讨会论文集.中国农学会,2007:5.
    [16]王志强,王海波,刘凤之,等.前置式防寒土清除机的研制与试验[J].中国农机化学报,2015,36(6):88-91,107.
    [17]赵佳乐,贾洪雷,郭明桌,等.免耕播种机有支撑滚切式防堵装置设计与实验[J].农业工程学报,2014,30(10):20-26.
    [18]中国农业机械化科学研究院.农业机械设计手册[K].北京:中国农业科学技术出版社,2007.