摘要:本次的毕业设计是液晶显示窗的塑料零件模具设计,其精度一般且体积较小,所给定材料为PMMA。在进行成型工艺和计算的过程中需考虑到工艺的经济性、零件成型技术和复杂程度等的其他诸多的因素。本次的设计中也说明了注塑模具成型零件以及其他相关零件的选择原则和选择方法。通过参考大量与注塑模具相关的信息和翻阅各种注塑模具相关手册,并通过计算来确定模具的结构和尺寸,通过不断地计算和修改,以及在指导老师的细心照顾和耐心指导下不断反复地修改,最后成功地绘制了模具的装配图和零件图。23990
确定液晶显示窗的设计方案,即为一模两腔的模具设计方案。然后着重于如何解决该方案中的一下内容,主要包括塑料零件的模具结构、注塑模具设计过程、注塑模具设计主要零部件的设计要点等。 毕业论文关键词:注塑模具设计;模具结构;一模两腔
Plastic Mold Design of Panasonic Microwave Liquid Crystal Display Window
Abstract: This design is for a given material for PMMA small size, the general accuracy of the liquid crystal display window plastic parts for mould design. In consideration of the economy, parts of the molding technology and complexity, and many other factors in the molding process on the basis of the analysis and calculation. It also of injection mold shaping parts, and other related parts to illustrate the selection principle and selection method. During to refer to a lot of useful information related to injection mold and leaf through all kinds of manual, And through the calculation to determine the mould structure and size, Through continuous calculation and modification, And in guiding the teacher's careful care under the guidance and patience to constantly modify again and again, Finally sure to draw the assembly drawing and part drawing.
Make sure the design of the liquid crystal display window, namely the mould with one module and two cavities. Then focuses on the solution, this paper mainly includes the mould structure and injection mold design process, key points of injection mold design of main components.
Key words: injection mold design; the mould structure; one module and two cavities
目 录
1 概述 1
1.1 课题来源1
1.2 课题的研究目的1
2 塑件结构工艺性分析2
2.1 塑件造型2
2.2 塑件分析4
2.2.1 塑件设计要求4
2.2.2 塑件结构分析4
2.2.3 脱模斜度4
2.3 塑件原材料分析5
2.3.1 PMMA材料特性5
2.3.2 PMMA塑料主要用途5
2.3.3 塑料材料成型性能5
2.3.4 PMMA成型温度条件6
2.3.5 塑件的公差与表面质量6
3 拟定注塑模具结构7
3.1 分型面的确定7
3.2 型腔数目的确定7
3.3 拟选注射机型号8
3.3.1 注射量的计算8
3.3.2 选择注射机9
3.4 注射机相关参数的校核9
3.3.1 注射量的校核9
3.3.2 注射压力校核9
3.3.3 锁模力的校核10
3.3.4 注射模的安装尺寸的校核10
4 浇注系统的设计13
4.1 主流道设计13
4.2 分流道设计14
4.3 浇口的设计15
4.4 浇注系统的平衡16
5 推出机构设计17
5.1 推出结构的原则17
5.2 脱模力的计算18
6 温度调节系统的设计20
7 合模导向机构设计22
7.1 导柱的设计22
7.2 导套的设计22
8 结构零部件的设计24
8.1 成型零件的结构设计及计算25
8.2 动定模板的长、宽尺寸的确定26
8.3 动模(A)板和定模(B)板厚度的确定27