设计描述：
文档包括:
word版设计说明书一份，76页，约25000字
外文翻译一份

CAD版本图纸，共6张
A0-乳化液泵装配图.dwg
A0-泵体1.dwg
A0-泵体2.dwg
A1-曲轴.dwg
A2-连杆.dwg
A2-连杆总成.dwg

摘要
在当今的生产技术领域内，广泛应用着乳化液泵，它与乳化液箱组成乳化液泵站，是井下综合采煤工作面支护设备的动力源泉，煤矿井下支护作业“外注式单体液压支柱”及“液压支架”的专用小型推移式注液设备。该泵具有体积小、重量轻、操作简便、移动灵活、工作平稳可靠和高效节能安全的特点，尤其空间狭小的坑道口，掘进头，低煤层等地段，更是一般大型泵站无法替代的产品。此次设计乳化液泵主要是因为它在煤矿工业上有主要的应用。
在此次设计中，首先选用往复泵采用了对比的方法进行总体方案的设计，确定泵的型式，选用曲轴连杆机构为传动方式的结构型式，将曲线运动转变为直线运动。总体方案确定以后通过液力计算对液力端型式进行选择，根据流体力学及流体机械对传动端的结构型式进行选择。选出电机的型号考虑到给定的设计参数通过计算确定泵的主要结构尺寸及参数。再通过设计计算进行液力端主要部件液缸体的设计及校核，传动端的主要部件减速机构、曲轴、连杆的设计及校核，经过校核计算，最终设计合理。
关键词：柱塞  流量  往复泵  曲柄   连杆

Abstract
In the nowadays field of the technique of the production,extensive use the pump of the emulsification,it integrate with the emulsification liquid make up of emulsification pumping station.It is the bottom of a well synthetical excavate coal working face timbering facility's power headspring,it is also the appropriative minitype process injecting liquid equipment which uses coal mine bottom of a well timbering work “ in the manner of qutside injecting monocase hydraulic pressure  underpinning” and “hydraulic pressure bracket”.The pump have many traits eg: small volume、light weight、manipulate simple and convenient、moving  agility 、work  placidity and credibility、 high  efficiency、 saving energy sources , safety and so on.Especially in narrowness roomage's sap ostium、 grub entrance、low coal seam  region and so on,it is also the bigness pumping station cannot instead. In this about design the pump of the emulsification,the importance of the reason is that it has extensive use at the coal mine industry.
oncoming design, in the first place, choosing to and fro pump adopting the contrast method go along collectivity project design, confirm the pump' type, chooseing the crank connects pole orgnization's transmission fashion configuration style. Hadorwould the curve sport transform  the    beeline sport .After the collectivity project design, get across liquid mechanics calculate choosing fluid force end configuration style .Bases hydrodynamics and hydro- mechanism chooseing the transmission end configuration style.Vote in electromotor's type considering the giving design parameter overpass counting confirm the pump mostly configuration dimension and parameter,after the parameter making certain basis power electing electromotor's type.Afterwards passing reckon design for the fluid force end important part liquefy urnbody go along designing and validating ,transmission end's important parts eg: decelerate organization、crank and connects pole's designing and validating, come by the validate accounting ,at last testify the design is feasible.
Key words:The pillar fills   flux   to and fro pump   crank  connects pole

目录
摘要...................................................Ⅰ
Abstract...............................................Ⅱ
第一章 绪论
1.1选题的意义......................................1
1.2 乳化液的用途....................................1
1.3 设计的理论基础研究的内容及方法..................1
    1.4 乳化液泵的发展状况及趋势........................2
第二章 总体方案的确定...................................4
2.1 泵型的选择及特点............................... 4
         2.1.1机动泵及其共同特点.........................4
    2.1.2直接作用泵及其特点........................5
2.1.3手动泵及其特点.............................6
2.1.4柱塞泵及其特点.............................6
2.1.5隔膜泵及其特点.............................7
2.1.6卧式泵及其共同特点.........................7
2.1.7立式泵及其共同特点.........................8
2.2液力端结构型式选择...............................8
2.3传动端结构型式选择...............................9
第三章 泵的主要结构参数的选择与确定....................11
3.1泵的主要尺寸参数的确定..........................11
3.1.1给定设计参数..............................11
3.1.2柱塞直径和行程的确定......................12
3.2原动机的选择...................................16
3.2.1原动机功率的选择与确定....................16
3.2.2电动机的选择..............................17
第四章  主要零部件的设计...............................19
4.1液力端主要零部件的设计..........................19
4.1.1液缸体壁厚的确定及强度校核.................20
4.2传动端主要零部件的设计..........................21
4.2.1机体的组成及设计...........................21
4.2.2曲轴设计.................................28
1.曲轴的结构特点和选择....................28
2.曲轴结构设计............................30
3.曲轴受力分析............................34
4.曲轴外力计算............................34
5.曲轴强度校核............................41
4.2.3连杆设计............................ .....46
1.连杆结构型式特点........................46
2.连杆的结构设计..........................48
3.连杆强度和稳定性校核....................52
4.2.4柱塞及其密封..............................54
第5章 泵使用说明书.................................... 58
5.1结构说明.........................................58
5.1.1箱体传动部件...............................58
5.1.2泵的液压部分...............................59
5.1.3自动卸载原理...............................59
5.1.4泵的维修和保养.............................60

结论..................................................63
致谢..................................................64参考文献...............................................65
附录1..................................................68
附录2 .................................................72