水稻联合收获田间试验机籽粒与杂余搅龙设计.doc
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水稻联合收获田间试验机籽粒与杂余搅龙设计,摘要: 本课题研究,该水稻收割机可以一次性完成收割、脱粒、筛选和分离等作业,而搅龙的设计包括籽粒搅龙和杂余搅龙的设计。在联合收割机中的脱出物、籽粒与杂余需要前后或上、下输送,最为常用的输送装置是螺旋输送器,它是一种结构简单、工作可靠的输送器...
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水稻联合收获田间试验机籽粒与杂余搅龙设计
摘要: 本课题研究水稻联合收获田间试验机籽粒与杂余搅龙设计,该水稻收割机可以一次性完成收割、脱粒、筛选和分离等作业,而搅龙的设计包括籽粒搅龙和杂余搅龙的设计。在联合收割机中的脱出物、籽粒与杂余需要前后或上、下输送,最为常用的输送装置是螺旋输送器,它是一种结构简单、工作可靠的输送器,能进行水平、倾斜和垂直输送,又叫“搅龙”,籽粒与杂余搅龙是联合收获机的关键工作部件之一。籽粒搅龙主要完成干净籽粒的收集,并输送至粮箱;杂余搅龙主要完成二次杂余的收集并输送至脱粒分离装置或清选装置。需要在原来传统收割机的基础上进行改善,实物考查、测量,然后分工合作,最后设计的籽粒与杂余搅龙符合整个水稻联合收割机的要求。
关键字:水稻联合收割机 杂余搅龙 籽粒搅龙
Rice harvest field testing machine of grain and a tailing auger design
Abstract: The research of Paddy combine harvester is to design a grain auger and a tailing auger. The Paddy combine harvester can complete harvesting, threshing,screening and separation operation.Auger design includes grain a grain auger and a tailing auger. The combine of grain, grain and remainder need transportation around or Up and down. The most commonly used is the screw conveyor conveying device. It is a conveyor that has the advantages of simple structure, reliable work and can be horizontal, tilt and vertical transmission. Also,it is called "auger". The grain and the tailing auger is one of the key parts of combine harvester. The auger mainly complete the clean grain collection, and transported to the grain bin. The tailing auger mainly complete the collection of second miscellaneous and delivery to the threshing separation device or cleaning device. The need for improvement in the original traditional harvester. Physical examination, measurement, and the division of labor, the final design of the grain and the tailing auger meet the requirements of Paddy combine harvester.
Keyword: Paddy combine harvester a grain auger a tailing auger.
目 录
第一章 绪 论
1.1 引 言---------------------------------------------------- 1
1.2 研究的内容及意义----------------------------------------- 2
1.2.1 设计内容-------------------------------------------- 2
1.2.2 设计意义-------------------------------------------- 2
1.3 本课题所涉及的软件---------------------------------------- 2
1.3.1 Cad技术的应用-------------------------------------- 2
1.3.2 Solidedge技术的应用-------------------------------- 3
1.3.2 CATIA的应用---------------------------------------- 4
第二章 整体方案的设计
2.1 原理设计--------------------------------------------------4
2.1.1 设计思想--------------------------------------------4
2.1.2 工作流程--------------------------------------------5
2.2 方案设计--------------------------------------------------5
第三章 结构设计及分析
3.1 搅龙横轴的设计---------------------------------------------6
3.1.1 搅龙横轴螺旋叶片的设计-------------------------------7
3.1.2 搅龙横轴的尺寸和强度校核-----------------------------7
3.1.3搅龙横轴上的连接件:---------------------------------10
3.1.3.1搅龙横轴与皮带轮的连接----------------------- 10
3.1.3.2搅龙横轴与链轮的连接------------------------- 10
3.2 搅龙外套设计----------------------------------------------10
3.3 搅龙斜轴的设计--------------------------------------------11
3.3.1搅龙斜轴螺旋叶片设计-------------------------------- 11
3.3.2搅龙斜轴的尺寸和强度校核---------------------------- 11
3.3.3搅龙斜轴上的连接件---------------------------------- 12
总结
4.1 课题设计小结---------------------------------------------12
4.2 自我小结-------------------------------------------------13
致谢--------------------------------------------------------------14
参考文献---------------------------------------------------------15
摘要: 本课题研究水稻联合收获田间试验机籽粒与杂余搅龙设计,该水稻收割机可以一次性完成收割、脱粒、筛选和分离等作业,而搅龙的设计包括籽粒搅龙和杂余搅龙的设计。在联合收割机中的脱出物、籽粒与杂余需要前后或上、下输送,最为常用的输送装置是螺旋输送器,它是一种结构简单、工作可靠的输送器,能进行水平、倾斜和垂直输送,又叫“搅龙”,籽粒与杂余搅龙是联合收获机的关键工作部件之一。籽粒搅龙主要完成干净籽粒的收集,并输送至粮箱;杂余搅龙主要完成二次杂余的收集并输送至脱粒分离装置或清选装置。需要在原来传统收割机的基础上进行改善,实物考查、测量,然后分工合作,最后设计的籽粒与杂余搅龙符合整个水稻联合收割机的要求。
关键字:水稻联合收割机 杂余搅龙 籽粒搅龙
Rice harvest field testing machine of grain and a tailing auger design
Abstract: The research of Paddy combine harvester is to design a grain auger and a tailing auger. The Paddy combine harvester can complete harvesting, threshing,screening and separation operation.Auger design includes grain a grain auger and a tailing auger. The combine of grain, grain and remainder need transportation around or Up and down. The most commonly used is the screw conveyor conveying device. It is a conveyor that has the advantages of simple structure, reliable work and can be horizontal, tilt and vertical transmission. Also,it is called "auger". The grain and the tailing auger is one of the key parts of combine harvester. The auger mainly complete the clean grain collection, and transported to the grain bin. The tailing auger mainly complete the collection of second miscellaneous and delivery to the threshing separation device or cleaning device. The need for improvement in the original traditional harvester. Physical examination, measurement, and the division of labor, the final design of the grain and the tailing auger meet the requirements of Paddy combine harvester.
Keyword: Paddy combine harvester a grain auger a tailing auger.
目 录
第一章 绪 论
1.1 引 言---------------------------------------------------- 1
1.2 研究的内容及意义----------------------------------------- 2
1.2.1 设计内容-------------------------------------------- 2
1.2.2 设计意义-------------------------------------------- 2
1.3 本课题所涉及的软件---------------------------------------- 2
1.3.1 Cad技术的应用-------------------------------------- 2
1.3.2 Solidedge技术的应用-------------------------------- 3
1.3.2 CATIA的应用---------------------------------------- 4
第二章 整体方案的设计
2.1 原理设计--------------------------------------------------4
2.1.1 设计思想--------------------------------------------4
2.1.2 工作流程--------------------------------------------5
2.2 方案设计--------------------------------------------------5
第三章 结构设计及分析
3.1 搅龙横轴的设计---------------------------------------------6
3.1.1 搅龙横轴螺旋叶片的设计-------------------------------7
3.1.2 搅龙横轴的尺寸和强度校核-----------------------------7
3.1.3搅龙横轴上的连接件:---------------------------------10
3.1.3.1搅龙横轴与皮带轮的连接----------------------- 10
3.1.3.2搅龙横轴与链轮的连接------------------------- 10
3.2 搅龙外套设计----------------------------------------------10
3.3 搅龙斜轴的设计--------------------------------------------11
3.3.1搅龙斜轴螺旋叶片设计-------------------------------- 11
3.3.2搅龙斜轴的尺寸和强度校核---------------------------- 11
3.3.3搅龙斜轴上的连接件---------------------------------- 12
总结
4.1 课题设计小结---------------------------------------------12
4.2 自我小结-------------------------------------------------13
致谢--------------------------------------------------------------14
参考文献---------------------------------------------------------15
