顶堆侧取堆取料机刮板取料机设计【三维PROE】【8张CAD图纸 说明书】
摘要
刮板取料机是一种挠性牵引的连续输送机械,是为采煤工作面和采区巷道运煤布置的机械。它的牵引机构是刮板链,承载装置是中部槽,刮板链安装在中部槽的槽面。
本次设计主要针对顶堆侧取堆取料机刮板取料机进行设计。首先,通过对刮板取料机结构及原理进行分析,在此分析基础上提出了总体结构方案;接着,对主要技术参数进行了计算选择;然后,对各主要零部件进行了设计与校核;最后,通过AutoCAD制图软件绘制了刮板取料机装配图及主要零部件图。
通过本次设计,巩固了大学所学专业知识,如:机械原理、机械设计、材料力学、公差与互换性理论、机械制图等;掌握了普通机械产品的设计方法并能够熟练使用AutoCAD制图软件,对今后的工作于生活具有极大意义。
关键词:侧取堆取料机,刮板取料机;减速器
Abstract
Scraper co
nveyor is a repri
nt of fully coal face a
ncillary equipme
nt i
n the tra
nsport system a
n importa
nt part of the roadway i
n the face of the accepted face scraper co
nveyor u
nloadi
ng of coal flow,
not halt the tra
nsfer to the retractable belt Co
nveyor boost. This desig
n first, based o
n the structure a
nd the pri
nciple of electric lifti
ng device of high a
nalysis, this a
nalysis based o
n put forward the overall structure scheme of a
nd the
n, the desig
n a
ndverificatio
n of mai
n tech
nical parameters of the mai
n parts is discussed; the
n, through the three-dime
nsio
nal desig
n software Pro/ E desig
n the electric lifti
ng device a
nd motio
n simulatio
n is carried out. Fi
nally, draw the electric lifti
ng device assembly a
nd major parts of the map. Through the desig
n, the co
nsolidatio
n of the U
niversity of the professio
nal k
nowledge, such as: mecha
nical pri
nciples, mecha
nical desig
n, mecha
nics of materials, tolera
nce a
nd i
ntercha
ngeability theories, mecha
nical drawi
ng; master the desig
n method of ge
neral machi
nery products a
nd be able to skillfully use AutoCAD drawi
ng software, for the futurework i
n life is of great sig
nifica
nce. Keywords:Scraper co
nveyor;Reducer 目录 摘要I Abstract II 第1章绪论1 1.1研究背景及意义1 1.2国内外研究现状及发展趋势1 第2章主要部件结构确定3 2.1机头部分3 2.1.1机头架3 2.1.2链轮3 2.1.3减速器4 2.1.5联轴器4 2.1.6电动机5 2.2机尾部分5 2.3中部槽及附属部分6 2.4刮板链部分7 2.5链条张紧装置7 2.6推移装置8 第3章总体参数计算10 3.1主要技术参数选定10 3.2电动机的选择10 3.3总传动比及传动比的分配11 3.3.1总传动比的确定11 3.3.2传动比的分配11 3.4各级传动参数计算11 3.4.1各轴转速计算11 3.4.2各轴功率计算12 3.4.3各轴扭矩计算12 第4章主要零部件设计14 4.1圆锥齿轮传动设计14 4.1.1选择齿轮材料14 4.1.2按齿面接触疲劳强度设计计算15 4.1.3齿根弯曲疲劳强度校核计算17 4.1.4齿轮其他主要尺寸计算18 4.2直齿圆柱齿轮传动设计19 4.2.1选择齿轮材料19 4.2.2按齿面接触疲劳强度设计计算21 4.2.3齿根弯曲疲劳强度校核计算23 4.2.4齿轮其他主要尺寸计算24 4.3轴的设计与校核24 4.3.1Ⅰ轴的设计24 4.3.2Ⅱ轴的设计26 4.3.3Ⅲ轴的设计27 4.3.4输出轴的设计28 4.4减速器键的校核29 4.4.1Ⅰ轴键的校核29 4.4.2Ⅱ轴键的校核29 4.4.3Ⅲ轴键的校核29 4.4.4输出轴键的校核29 4.5减速器轴承的校核30 4.5.1验算Ⅰ轴轴承寿命30 4.5.2验算Ⅱ轴轴承寿命30 4.5.3验算Ⅲ轴轴承寿命31 4.5.4验算输出轴轴承寿命32 4.6箱体及附件的设计校核33 结论35 参考文献36 致谢37
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nveyor is a repri
nt of fully coal face a
ncillary equipme
nt i
n the tra
nsport system a
n importa
nt part of the roadway i
n the face of the accepted face scraper co
nveyor u
nloadi
ng of coal flow,
not halt the tra
nsfer to the retractable belt Co
nveyor boost. This desig
n first, based o
n the structure a
nd the pri
nciple of electric lifti
ng device of high a
nalysis, this a
nalysis based o
n put forward the overall structure scheme of a
nd the
n, the desig
n a
ndverificatio
n of mai
n tech
nical parameters of the mai
n parts is discussed; the
n, through the three-dime
nsio
nal desig
n software Pro/ E desig
n the electric lifti
ng device a
nd motio
n simulatio
n is carried out. Fi
nally, draw the electric lifti
ng device assembly a
nd major parts of the map. Through the desig
n, the co
nsolidatio
n of the U
niversity of the professio
nal k
nowledge, such as: mecha
nical pri
nciples, mecha
nical desig
n, mecha
nics of materials, tolera
nce a
nd i
ntercha
ngeability theories, mecha
nical drawi
ng; master the desig
n method of ge
neral machi
nery products a
nd be able to skillfully use AutoCAD drawi
ng software, for the futurework i
n life is of great sig
nifica
nce. Keywords:Scraper co
nveyor;Reducer 目录 摘要I Abstract II 第1章绪论1 1.1研究背景及意义1 1.2国内外研究现状及发展趋势1 第2章主要部件结构确定3 2.1机头部分3 2.1.1机头架3 2.1.2链轮3 2.1.3减速器4 2.1.5联轴器4 2.1.6电动机5 2.2机尾部分5 2.3中部槽及附属部分6 2.4刮板链部分7 2.5链条张紧装置7 2.6推移装置8 第3章总体参数计算10 3.1主要技术参数选定10 3.2电动机的选择10 3.3总传动比及传动比的分配11 3.3.1总传动比的确定11 3.3.2传动比的分配11 3.4各级传动参数计算11 3.4.1各轴转速计算11 3.4.2各轴功率计算12 3.4.3各轴扭矩计算12 第4章主要零部件设计14 4.1圆锥齿轮传动设计14 4.1.1选择齿轮材料14 4.1.2按齿面接触疲劳强度设计计算15 4.1.3齿根弯曲疲劳强度校核计算17 4.1.4齿轮其他主要尺寸计算18 4.2直齿圆柱齿轮传动设计19 4.2.1选择齿轮材料19 4.2.2按齿面接触疲劳强度设计计算21 4.2.3齿根弯曲疲劳强度校核计算23 4.2.4齿轮其他主要尺寸计算24 4.3轴的设计与校核24 4.3.1Ⅰ轴的设计24 4.3.2Ⅱ轴的设计26 4.3.3Ⅲ轴的设计27 4.3.4输出轴的设计28 4.4减速器键的校核29 4.4.1Ⅰ轴键的校核29 4.4.2Ⅱ轴键的校核29 4.4.3Ⅲ轴键的校核29 4.4.4输出轴键的校核29 4.5减速器轴承的校核30 4.5.1验算Ⅰ轴轴承寿命30 4.5.2验算Ⅱ轴轴承寿命30 4.5.3验算Ⅲ轴轴承寿命31 4.5.4验算输出轴轴承寿命32 4.6箱体及附件的设计校核33 结论35 参考文献36 致谢37
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