loading
刷新页面 加入收藏夹

玉米籽粒收获脱粒装置设计-脱粒机含18张CAD图+说明书

图片展示附件预览 2022-03-10 文件列表浏览 下载 收藏已收藏 报告错误 手机访问 [复制链接]

玉米籽粒收获脱粒装置设计-脱粒机含18张CAD图+说明书

A0玉米籽粒收获脱粒装置总装配图

玉米籽粒收获脱粒装置设计
摘要
玉米作为我国第二大农作物,其脱粒效率对玉米产量影响很大。目前国内外已有的大型玉米收获机不适合小型农业生产,大型一体化机器开进农田,会造成土地压实,且玉米的破碎率较高。
针对这一问题,本文已结合挤搓式和差速式脱粒装置的优点,对现有的中小型玉米脱粒装置的滚筒结构进行改进。设计一个主要由入料斗、滚筒、电动机和V带组成的玉米籽粒脱粒收获装置。该设计主要对漏斗和滚筒结构进行设计。工作时人工从入料口投入玉米,使玉米滑入脱粒区。在脱粒区,滚筒上的钉齿对玉米进行挤搓和摩擦,同时滚筒与凹板形成差速,进而完成脱粒。对入料斗进行设计,改进其结构,防止一次性投入过多装置卡死。对脱粒区进行设计时,改变滚筒结构,将钉齿设计为齿板结构,以便于设计伸缩结构,采用齿轮齿条控制,带动螺纹传动,从而实现齿的伸缩控制。
该装置设计的小型玉米脱粒装置,适合于小型农业生产,可以满足对不同直接的玉米脱粒,具有净脱率高、效率高的特点,同时伸缩齿以降低破损率。价格实惠,操作简便,农民愿意接受。

关键词:破损率;挤搓式;挤压;滚筒

英文摘要
Design of corn threshing and harvesting device
Abstract
As the second largest crop in China, threshing efficiency of maize has a great influence on maize yield. At present, the existing large scale corn harvesters at home and abroad are not suitable for small scale agricultural production. When the large-scale integrated machine enters the farmland, it will cause land compaction and the crushing rate of corn is high.
In order to solve this problem, this paper has combined the advantages of extruder and differential threshing device, and improved the drum structure of the existing small and medium-sized corn threshing device. A corn threshing and harvesting device was designed, which was mainly composed of hopper, roller, motor and V belt. The main design of the funnel and drum structure design. At work, the corn is artificially put into the feed mouth to make the corn slide into the threshing area. In the threshing area, the nail teeth on the drum squeeze and rub the corn, and at the same time, the drum and the concave plate form a differential velocity, and then the threshing is completed. The hopper is designed and its structure is improved to prevent too much equipment from getting stuck at one time. When the threshing area is designed, the drum structure is changed, and the nail tooth is designed as the tooth plate structure, so as to facilitate the design of the telescopic structure. The rack and pinion control is adopted to drive the screw transmission, so as to realize the telescopic control of the tooth.
The device design of small corn threshing device, suitable for small agricultural production, can meet the different direct corn threshing, has the characteristics of high net rate, high efficiency, while adjusting the expansion of the tooth can reduce the rate of damage. The price is affordable, the operation is simple, the farmer is willing to accept.

Keywords: breakage rate; Crowded rub type; Extrusion; Drum

目录
1绪论1
1.1选题的依据及意义1
1.2国内外研究现状1
1.2.1国外玉米脱粒机发展现状1
1.2.2我国玉米脱粒机的发展过程2
1.2.3玉米挤搓式原理脱粒装置2
1.2.4差速式原理玉米脱粒装置3
2技术任务书(RJ) 5
2.1设计依据5
2.2产品的用途及适用范围5
2.3主要参数设计5
2.4主要研究内容与方案6
3设计技术说明书7
3.1装置的工作原理7
3.2电机的设计7
3.2.1电动机功率设计7
3.2.2电动机的选择9
3.3整机结构的设计10
3.4外部结构的设计11
3.4.1入料斗的设计11
3.4.2出料斗的设计11
3.4.1排芯斗的设计12
3.5滚筒的设计13
3.5.1滚筒的作用13
3.5.2齿板的设计13
3.5.3圆柱滚筒的设计14
3.6伸缩结构的设计14
3.6.1伸缩结构的作用14
3.6.2齿轮齿条的设计14
3.6.3伸缩杆的设计16
3.6.4齿条轴的设计17
3.6.5右端螺纹控制结构18
3.7圆锥滚杆的设计18
3.7.1圆锥滚杆的作用18
3.7.2圆锥滚杆的尺寸设计18
3.8小齿轮传动部分的设计19
3.8.1齿轮设计的作用19
3.8.2主动轮的设计19
3.8.3从动轮的设计20
3.9 V带传动部分的设计22
3.9.1 V带的作用22
3.9.2 V带型号的选择23
3.9.3主动轮的设计23
3.9.4从动轮的设计23
3.9.5 V带长度的设计24
3.9.6带的参数设计25
3.9.7主动轮结构的设计26
3.9.8从动轮的结构设计28
3.10滚筒阶梯轴的设计29
3.10.1轴的基准直径的设计29
3.10.2阶梯轴的强度校核31
3.11圆锥滚杠轴的设计35
3.12凹板的设计35
3.12.1凹凸板的作用35
3.12.2凹板的选择36
3.12.3凹板的尺寸设计36
3.13轴承的选择37
3.14脱粒仓的设计37
3.14.1脱粒仓的作用37
3.14.2脱粒仓的结构尺寸37
4使用说明书39
4.1操作说明39
4.2注意事项39
5标准化审查报告40
结论41
参考文献42
致谢44

V带主动轮A2

V带主动轮A2

V带从动轮A2

V带从动轮A2

主轴A3

主轴A3

伸缩齿的部件图A2

伸缩齿的部件图A2

入料斗A3

入料斗A3

出料斗A3

出料斗A3

字数

字数

排芯斗A4

排芯斗A4

摘要

摘要

机架A3

机架A3

滚筒A2

滚筒A2

目录

目录

端盖1A4

端盖1A4

端盖2.A3

端盖2.A3

端盖3.A2

端盖3.A2

脱离箱装配图A1

脱离箱装配图A1

设计所包含文件

设计所包含文件

齿条轴A3

齿条轴A3

齿板A2

齿板A2

齿轮主动轮A2

齿轮主动轮A2

齿轮从动轮A2

齿轮从动轮A2

申明:内容来自用户上传,著作权归原作者所有,如涉及侵权问题,请与我们联系,我们将及时处理!

评论及评价 如果您已下载,请选择星级评价并提交评论
    loading