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小型电动助力播种机设计【18张CAD图纸和说明书】

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关键词：: 18张CAD图纸和说明书播种机设计图纸小型电动助力播种机设计小型电动助力播种机小型电动播种机设计张CAD图纸 CAD图纸】电动小型播种机设计设计电动小型播种机与 CAD图纸和

资源描述：

第1章前言··········································································1

1.1播种机的常识和技术现状······················································1

1.2播种方式及常见播种类型······················································3

1.2.1条播········································································3

1.2.2穴播········································································4

1.2.3撒播········································································4

1.2.4精密播种···································································4

1.2.5联合作业机和免耕播种···················································5

1.3播种工作过程和机械构造······················································5

1.3.1工作过程···································································5

1.3.2机械构造···································································6

1.4 播种机械的发展趋势···························································7

第2章总体设计···································································9

2.1 概述·············································································9

2.2 设计任务·······································································10

2.3 设计目的·······································································10

2.4 动力方案选择·································································10

2.5 设计题目分析及设计思想····················································12

2.6 设计主参数及机构类型确定·················································12

2.6.1工作速度·································································12

2.6.2播量的确定·······························································13

2.6.3种、肥箱的容积·························································13

2.6.4机架设计·································································14

2.6.5工作幅度·································································14

2.6.6 排种、排肥机构设计···················································14

2.6.7开沟器设计·······························································18

2.6.8覆土器设计·······························································20

2.6.9镇压轮设计·······························································21

2.6.10 地轮设计·······························································22

第3章传动设计及播种技术措施···········································23

3.1传动原理简图和动力传递路线图·································23

3.1.1传动原理简图····························································23

3.1.2动力传动路线图·························································23

3.2传动原理·······································································23

3.3技术措施·······································································24

3.3.1播种均匀性和各行排量一致性措施····································24

3.3.2降低破种率措施·························································25

3.3.3种肥同播时，肥料的利用率············································25

第4章零部件设计·······························································26

4.1种箱及肥箱设计·······························································26

4.2开沟器设计及校核····························································27

4.3排种器·········································································28

4.4地轮参数确定··································································29

4.4.1轮子直径和轮辋宽度的确定············································29

4.4.2轮子滚动阻力计算·······················································30

4.5电机和电瓶选择及链轮设计··················································30

4.5.1电机总功率确定·························································30

4.5.2电动机及电瓶的选择····················································31

4.5.3传动比的确定····························································32

4.5.4链轮选择及设计计算····················································33

4.6地轮轴设计·····································································37

4.7键的校核·······································································44

4.8销的校核·······································································45

4.9轴承的校核·····································································45

第5章电气控制系统设计·····················································47

5.1电气系统设计原则·····························································47

5.2电气元件的选择·······························································47

第6章播种机使用·······························································49

6.1播种量调整·····································································49

6.2实际操作说明··································································50

6.2.1播种作业前准备·························································50

6.2.2播种机的试播及作业····················································52

6.2.3播种机的保养与保管····················································53

6.2.4播种质量检查····························································53

第7章播种机的三维建模····················································55

7.1基本零部件的建模·····························································55

7.2零件的装配·····································································56

7.3三维软件学习心得·····························································57

第8章毕业设计小结····························································58

参考文献·············································································60

第1章前言

1.1 播种机的常识和技术现状

以作物种子为播种对象的机械称为种植机械，即播种机械。农业是关系国计民生的基础产业，而播种作业是农业生产过程中六大环节之一，播种机械化是农业机械化过程中最为复杂，也是最为重要的工作。播种机械所面对的播种方式、作物种类和品种变化繁多，这就需要播种机械有较强的适应性并且能满足不同种植要求的工作性能。

播种机一般由机架、牵引或悬挂装置、种子箱、排种器、传动装置、输种管、开沟器、行走轮和覆土镇压装置等组成。其中影响播种质量的主要是排种装置和开沟器。

1.机械播种的农业技术要求：

1)播量符合要求且准确，排种（排肥）均匀稳定，穴距及每穴粒数均匀。

2)播深符合要求且均匀一致，种子应播在湿土上，用湿土覆盖，无露籽现象，覆土均匀，干早地区播后应同时镇压，以利保墒。

3)播行直，行距一致，地头整齐，不重不漏。

4)尽量采用联合作业。

2.播种机的性能指标：排量稳定性、各行排量一致性、排种均匀性和播种均匀性、穴粒数合格率、粒距合格率、播深稳定性、种子破损率。

3.播种机的分类：

播种机的种类很多，一般可按下列方法进行分类。

1)按播种方式分为撒播机、条播机、穴播机和精密播种机。

2)按适应作物分为谷物播种机、中耕作物播种机及其他作物播种机。

3)按联合作业分为施肥播种机、播种中耕通用机、旋耕播种机、旋耕铺膜播种机。

4)按动力联接方式分为牵引式、悬挂式和半悬挂式。

5)按排种原理分为机械式、气力式和离心式播种机。

公元前1世纪,中国已推广使用耧，这是世界上最早的条播机具，至今仍在北方旱作区广泛应用（如图1—1）。

图1—1三耧车

欧洲第一台播种机于1636年在希腊制成。1830年，俄国人在畜力多铧犁上加装播种装置制成犁播机。英、美等国在1860年以后开始大量生产畜力谷物条播机。20世纪以后相继出现了牵引和悬挂式谷物条播机，以及运用气力排种的播种机。1958年挪威出现第一台离心式播种机，50年代以后逐步发展各种精密播种机（如图1—2）。

图1—2气吸式播种机

中国在20世纪50年代从国外引进谷物条播机、棉花播种机等，60年代先后研制成功悬挂式谷物播种机（如图1-3）、离心式播种机、通用机架播种机和气吸式播种机等多种机型,并研制成功了磨纹式排种器。到70年代,已形成播种中耕通用机和谷物联合播种机两个系列并投入生产。供谷物、中耕作物、牧草、蔬菜用的各种条播机和穴播机都已得到推广使用。与此同时，还研制成功了多种精密播种机。

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内容简介：: 本科毕业设计（论文）题目小型电动助力播种机设计系别学科专业班级姓名指导教师完成日期 20 年月日摘要随着近来温室大棚的发展以及环保发展意识的日益增强，小型机的需求就显得更为重要，尤其以电力为动力装置的机械。然而目前广泛应用的播种机是以内燃机及人力为动力装置。本设计电动小型播种机与传统的播种机相比.新颖之处在于播种机完全采用电力为动力装置，从而改善了人们在田间作业时的工作环境，况且更符合环保发展的观点。本设计主要用于农户田间播种和设施种植播种.增加部分装置也可用于施肥、耙磨、除草等田间作业。详细介绍了播种机的结构组成以及各部件的形式、要求以及功用。详细介绍了电动小型播种机动力装置及各部件要求，包括播种机的动力选择、机械传动的选择及尺寸、排种轮设计、排肥轮的设计、开沟器的设计、轴的设计、链轮的设计、其他的各部件设计以及播种机的工作要求、播种前的准备及播种机的使用等。在设计中考虑播种深度连续可调、播种行距连续可调、播种穴距可调、种子破碎率和播种均匀度符合国家标准。设计中在考虑实用的同时，兼顾经济节约，从而达到结构合理、生产成本低、能耗小、效率高，而且操作方便的目的。关键词：电动小型播种机AbstractWith the development of the greenhouse and the consiousness of protecting our ervironment ,boosting up ,the apply of the powy machine becomes more important ,especially the machine with electric power .but at the present time the seeding-machine which is adopted abroadly is drived ba gad engine or man power .this kind of minitype seeding-machine knows from the conventional seeding-machine .Its novel aspect is its drive set which are drived by electric power completly ,so they will improve the work condition ,and accord with euthenics . This design is applied mostly with the farms of the farmers ,they can also used to fertilize、abrade、get rid of grass and so on ,when we incress some equipment .My design introduce the structure of the seeding-machine and the types of many parts 、some request an fuction .My design introduce the drive equipment of the machine and the types of many parts 、request and fuction .My design also introduce the drive equipment of the machine and the request of the parts which consist of the selecting of the power 、the size 、the design of the axial 、chain wheel 、some other parts and so on .We must consider suiting well of the depth 、the row spacing 、the distance of scoop and the rate of seeds breaking up when seeding .In my design ,while thinking over applied ,I give attention to saving econmy ,consequently achieve structure in reason 、the cost of produce lowness 、the cost of power lowness 、the effidiency highness and convenient when operating . KEY WORDS :electromotion minitype seeding-machine 毕业设计（论文）任务书课题名称小型电动助力播种机设计系：专业：班级：姓名：学号：起迄日期：设计（论文）地点: 指导教师：辅导教师：发任务书日期： 20 年月日 1、本毕业设计（论文）课题应达到的目的： 1）培养学生综合应用所学理论知识和技能，分析和解决机械工程实际问题的能力，熟悉生产技术工作的一般程序和方法。 2）培养学生懂得工程技术工作所必须的全局观念、生产观念和经济观念，树立正确的设计思想和严肃认真的工作作风。 3）培养学生调查研究，查阅技术言文献、资料、手册，进行工程计算、图样绘制及编写技术文件的能力。2、本毕业设计（论文）课题任务的内容和要求（包括原始数据、技术要求、工作要求等）：本毕业设计课题任务的内容：电动助力式小型播种机以人力和电动机（48V直流）动力相结合，主要用于农户田间播种和设施种植播种（以小麦、玉米为主），增加部分装置也可用于施肥、耙磨、除草等田间作业。技术要求：播种深度2060mm连续可调，播种行距200500mm连续可调，播种穴距0500mm可调，种子破碎率和播种均匀度符合国家标准，工作要求：最大生产率为10亩/日。该机结构主要由机架、动力装置、操纵机构、开沟器、镇压轮、播种量调节器和料斗等组成。本设计要求达到结构合理、生产成本低、能耗小，效率高，满足工作性能，而且操作方便的目的。设计成果要求设计图纸和设计计算书各1套，并进行计算机仿真样机和优化设计。3、对本毕业设计（论文）课题成果的要求（包括图表、实物等硬件要求）：设计说明书不少于2万字；工程绘图量不少于折合成图幅为A0号的图纸3张；用计算机进行设计、计算与绘图一般不少于2/3；并进行计算机仿真样机和优化设计。查阅文献15篇以上，翻译与课题有关的外文资料，译文字数不少于3000字。4、主要参考文献1 董刚李建功潘凤章主编.机械设计（第三版）北京：机械工业出版社19982成大先主编.械设计图册北京：化学工业出版社 19973蔡春源主编.机电液设计手册北京：机械工业出版社 19974徐灏主编.新编机械设计师手册北京：机械工业出版社 19955朱喜林张代治主编.机电一体化设计基础北京：科学出版社 20046求是科技编著.PLC应用开发技术与工程实践北京：人民邮电出版社 20057雷天觉主编.液压工程手册北京：机械工业出版社 19908孙桓陈作模主编.机械原理（第六版）北京：高等教育出版社 20019王爱玲主编.现代数控机床北京：国防工业出版社 200310赵如福主编.金属机械加工人员手册（第三版）上海科学技术出版社 199011齐麟张亚雄黎上威董学朱胡松春编著蜗杆传动设计（上、下册）北京：机械工业出版社 198712齿轮手册编委会编著齿轮手册（上、下册）北京：机械工业出版社 199013现代机械传动手册编委会编著现代机械传动手册北京：机械工业出版社 199514郭爱莲主编.新编机械工程技术手册经济日报出版社 199115杨公源主编.机电控制技术及应用北京：电子工业出版社 200516袁任光编著.可编程序控制器选用手册北京：机械工业出版社 200217饶振纲王勇卫编著.滚珠丝杠副及自锁装置北京:国防工业出版社 199018陆玉何在洲佟延伟主编.机械设计课程设计（第三版）北京：机械工业出版社 199919数字化手册系列（软件版）编写委员会编著.机械设计手册（软件版）R2.0北京：机械工业出版社 19995、本毕业设计（论文）课题工

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