设计简介
摘 要
本次设计题目为“外圆及端面加工的组合机床的液压系统设计”,目的是设计一个对掘进机箱的TY170外圆和端面进行加工的组合机床的动力滑台液压系统,首先确定组合机床的总体方案,查找相关参数,再根据相关参数进行液压系统相关内容计算,明确具体的液压设计方案同时确定需要的液压元件,之后进行相关计算的验证用来求证所进行的的设计方案是否可行,再进行液压原理图,液压装配图等的绘制。
本次设计采用了参数计算,图纸绘制的方法,得到了可以进行本次设计加工的组合机床,其中切削力和摩擦力等对方案设计的进行产生了巨大影响,可以得出一个结论:机床床身所受的力是决定并引导本次设计的主要因素。其中液压系统的计算要考虑到油管中有油之后的实际情况和理论计算值有一定偏差,所以一定要进行最后的系统相关参数的重新验算。
关键词:组合机床;液压系统;动力滑台;切削力;
Hydraulic system design of combined machine tool for excircle and end face machining
Abstract
The graduation design topic for the design of hydraulic system of modular machine tool the outer circle and the end surface processing, the purpose is powerslider hydraulic system of modular machine tool for processing the design of a driving chassis of the TY170 circle and the first to determine the overall scheme of the combination machine, find the relevant parameters, and then the related contents of the hydraulic system according to the calculation of relevant parameters, clear the design scheme of hydraulic concrete hydraulic components need to be determined at the same time, after the relevant calculation is used to verify the confirmation of the design scheme is feasible, then the hydraulic principle diagram, assembly drawing, hydraulic drawing.This design adopts the method of parameter calculation, drawing, the combination machine can be the design process, which had a great influence on cutting force and friction force of the design, we can draw a conclusion: the machine body force is determined and guide the design of the main factors. The calculation of the hydraulic system should take into account the oil pipe in the actual situation and the theoretical calculation of the value of a certain deviation, so it is necessary to carry out the last of the relevant parameters of the system re check.
Key words: modular machine tool; hydraulic system; power slide; cutting force;
目 录
Abstract····························································IV
序论 ···························································1
1.组合机床总体设计及工况分析·································3
1.1组合机床的结构方案进行拟定·····································3
1.2组合机床配置形式的选择···································4
1.3组合机床的总图绘制··········································· 5
1.4组合机床通用部件的选择·········································5
2 .组合机床的液压系统设计及要求····································8
2.1负载与运动分析···································8
3.确定液压系统主要参数····································10
3.1初选液压缸工作压力··································10
3.2计算液压缸主要尺寸··································10
4.拟定液压系统方案和基本的图 ··········································13
4.1选择基本回路················································13
4.2组成液压基本原理图·········································15
5.计算和选择液压元件···············································16
5.1确定液压泵的规格和电动机功率····································16
5.2确定其他元件及辅件···································17
6、液压缸设计基础·········································20
6.1液压缸的轴向尺寸········································20
6.2主要零件强度校核········································20
7.验算液压系统性能·················································23
7.1验算系统压力损失·············································23
7.2验算系统发热与温升················································25
8.设计总结···············································26
参考文献·························································27
致 谢························································37
