基于NX/Mold Wizard的MiniPC电脑挡风板热流道注塑模具设计+CAD图纸_毕业论文

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基于NX/Mold Wizard的MiniPC电脑挡风板热流道注塑模具设计+CAD图纸

摘要:模具工业对经济和社会的发展有着重要的推进作用,加工产业中广泛运用着多种多样的模具,其中注塑产品因其质轻,物美,在生活中应用广泛,在模具产业中发展迅速。随着技术的发展和对产品质量的追求,相对比冷流道注塑,热流道技术具有节约原料,提升注射的质量和缩短成型周期的特点,同时我国在热流道的使用趋于上升和发展阶段,越来受到人们的重视,对于模具工业自身发展有着积极的推广和发展作用。本设计通过使用NX/Mold Wizard向导模组,对产品采取了材料特性及成型工艺的分析、塑件分模设计、模架设计、热流道浇注设计、顶出系统设计、冷却水路设计,绘制成型零件二维图及模具装配图。通过分析计算,解决制件自身多处复杂倒扣,并进行模流分析,校核产品设计。46935

毕业论文关键词: 注塑模模具;NX/Mold Wizard;热浇道

MiniPC computer plate of hot runner injection mold design based on NX/Mold Wizard

Abstract: Die and mold industry on economic and social development has an important role in the promotion and processing industry widely used a variety of mold, which injection molding products for its light quality, light, in life widely used, in the mold industry rapid development. With the development of technology and the pursuit of the quality of the products, relative than the cold runner injection, hot runner technology has saving raw materials, improve the quality of injection and shorten the molding cycle etc., at the same time, our country in the application of hot runner tends to rise and development stage, more to receive people's attention, for the development of the mold industry itself has a positive role in the promotion and development. The design by using NX/Mold Wizard module, material properties and forming process analysis of product, plastic parts mold design, mold design, hot runner design, top of the design of the system, and the cooling water, drawing forming part 2D drawing and mold assembly drawing. Through analysis and calculation, to solve many complex parts itself upside down, and mold flow analysis, optimization of product design.

Key words: Injection Mold Design;NX/Mold Wizard;Hot Runner

目  录

1  前言 1

1.1  课题来源 1

1.2  选题背景及意义 1

1.3  热流道注塑模具 1

2  塑件结构及工艺性分析 3

2.1  塑件 3

2.2  塑件材料性能及成型性能分析 3

2.2.1  ABS+PMMA的材料性能 3

2.2.2  ABS+PMMA的成型性能 4

2.3  塑件壁厚分析 4

2.4  模具设计流程 4

2.4.1  传统的塑料模具设计 4

2.4.2  NX塑料模具设计 5

3  MiniPC电脑挡风板模具设计 6

3.1  分型面设计 6

3.2  型腔数量确定及排列 7

3.3  模仁尺寸的确定 8

3.4  成型零件的设计 9

3.4.1  型芯型腔设计 10

3.4.2  侧向分型抽芯机构设计 11

3.4.3  成型零件尺寸计算 (责任编辑:qin)