毕 业 设 计
题 目:柴油机柱塞式高压喷油泵结构设计
班 级: 学 号:
姓 名: 指导教师: 完成日期:
一、设计题目(学生空出,由指导教师填写)
柴油机柱塞式高压喷油泵设计
二、设计参数
柴油机 型号 型式
燃烧室型式 压缩比 标定转速 油压(定压)
相应参数
1100
单缸、水冷、卧式、四冲程 涡流室式 直喷 19 2200
喷油压力15MPa
柴油机
12小时标定功率 标定工况燃油消耗率 最大扭矩 最大扭矩转速 最低空车稳定转速
相应参数 11
≤261.3 ≥53.5 ≤1760 ≤800
三、设计要求
(1)总装图 1张 (2)零件图 2张 (3)课程设计说明书(5000~8000字) 1份
四、进度安排(参考)
(1)熟悉相关资料和参考图 2天 (2)确定基本参数和主要结构尺寸 2天 (3)设计计算 3天 (4)绘制总装配草图 4天 (5)绘制总装配图 2天 (6)绘制零件图 2天 (7)编写说明书 3天 (8)准备及答辩 3天
五、指导教师评语
成 绩:
指导教师
日 期
摘要
喷油泵是柴油供给系中最重要的部件,它的性能和质量对柴油机影响极大,被称为柴油机的\心脏\。在柴油机工作过程中,为了保证喷油能够够持续及时的供应适量的燃油,以满足柴油机正常工作的要求,通过多方面考虑,在此设计柱塞式高压喷油泵。
本文根据某柴油机的性能参数来进行喷油泵的结构设计,主要设计内容有:根据实际情况对喷油泵形式进行选择,可以选出本次设计喷油柱塞直径及压缩行程;根据供油需求,选择合适的出油阀,拟定出油阀弹簧安装高度及中径,配以合适的油阀开启弹簧;而又要保证柱塞克服惯性力,摩擦力及负压的影响,给柱塞配以合适回正弹簧,拟定拟定回正弹簧的安装高度及中径,并进行稳定性及强度校核;在回正弹簧确定之后,就可大致得出柱塞的长度,通过画装配图,再详细设计出柱塞的实际长度;在喷油泵设计中,还应根据上面的计算选择符合标准的的类型以及相应尺寸。
最后根据各个零件的尺寸进行喷油泵的总体设计,并对各零件的配合、公差以及安装将间隙进行考虑。
关键词:喷油泵 柱塞式 结构设计
Abstract
The injection pump is the diesel oil supplies is the most important part, its performance and the quality are enormous to the diesel engine influence, is called the diesel engine \In diesel engine work process, to guarantee that the blow can suffice to continue the prompt supply right amount fuel oil, satisfies the diesel engine normal work the request, through various considerations, in this design plunger type high pressure injection pump. this article according to some diesel engine the performance parameter to carry on injection pump's structural design, mainly designs the content to include: Carries on the choice according to the actual situation to the injection pump form, may select this design blow plunger diameter and the compression stroke; According to the feed demand, chooses the appropriate delivery valve, draws up the delivery valve spring mounting height and the pitch diameter, matches by the appropriate oil valve opening spring; And must guarantee that the plunger overcomes the force of inertia, the friction force and the negative pressure influence, matches to the plunger by returns to the spring appropriately, draws up the spring's mounting height and the pitch diameter, and carries on the stability and the intensity examination; After returning to the spring determination, may obtain plunger's length approximately, through picture assembly drawing, again detailed design plunger's virtual length; In injection pump design, but should also act according to the above computation choice meet standards type as well as corresponding size. acts according to each components the size to carry on injection pump's system design finally, and to various components' coordination, the common difference as well as the installment carries on the gap the consideration.
key word: Injection pump plunger type structural design
目录
1 柴油机柱塞式喷油泵概述 ......................................... 1 1.1我国柴油机柱塞式喷油泵发展状况 ............................... 1 1.2 功用、要求、型式 ............................................. 2 2 柱塞泵的泵油原理及工作过程 ..................................... 3 2.1 柱塞泵的泵油机构介绍 ......................................... 3 2.2泵油原理 ..................................................... 4 3 总体参数的确定 ................................................. 5 3.1喷油泵类型的确定 ............................................. 5 3.2喷油泵的初始参数 ............................................. 6 3.3喷油泵机型参数 ............................................... 6 3.4喷油泵流量 ................................................... 6 3.5 喷油泵流量图 ................................................. 7 4 出油阀弹簧参数的确定 ........................................... 8 4.1、选择材料和许用应力 .......................................... 8 4.2 求弹簧钢丝直径d ............................................. 8 4.3 求有效因素 ................................................... 8 4.4 计算总圈数 ................................................... 8 4.5 强度验算 ..................................................... 9 4.6 共振验算 .................................................... 10 4.7 弹簧工作图 .................................................. 10 4.8 出油阀弹簧参数 .............................................. 10 5 柱塞弹簧参数的确定 ............................................ 11 5.1 选择材料和许用应力 .......................................... 11