85L储物箱体注塑模具设计+CAD图纸_毕业论文

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85L储物箱体注塑模具设计+CAD图纸

摘要:模具是现代化工业生产的重要工艺装备,被称为“工业之母”。而注塑模具又在整个模具工业中一枝独秀,发展极为迅速,在汽车、航天航空、通信电子、家用电器等领域有着极为广泛的应用。本次毕业设计选择的产品是85L的储物箱,储物箱作为常见的家用储物容器,用途广泛,可以用来放置衣物、蔬菜水果、玩具等。同时,储物箱具备环保、无毒无、重量轻、清洁方便、堆放整齐等优点,是我们家居生活的实用商品。储物箱尺寸约为683x432x358,使用了Pro/ENGINEER进行模具结构的设计,采用了多组侧向抽芯机构以及液压系统传动,同时,使用了先进的针阀式热流道系统四点进胶方式,使用CAD进行2D图纸的绘制。29307
毕业论文关键词:注塑模具;热流道系统;侧向抽芯
85L storage box mold design
Abstract:Mold is an important modern industrial production technology and equipment, known as "the mother of industry." And again in the entire mold injection mold industry thriving, extremely rapid development in the automotive, aerospace, communications, electronics, home appliances and other fields has a very wide range of applications. This graduation project selected product is 85L of storage boxes, storage boxes as common household storage containers, versatile, can be used to place clothing, fruits and vegetables, toys and so on. Meanwhile, the storage box with environmentally friendly, non-toxic, odorless, light weight, easy to clean, neatly stacked, etc., is practical merchandise our home life. Storage box size is about 683x432x358, using Pro / ENGINEER mold structure design, using multiple sets of lateral pulling mechanism and a hydraulic drive system, while the use of advanced hot runner system four o'clock needle into the plastic way ,using CAD drawings in 2D drawing.
KeyWords:Injection mold; hot runner systems; lateral Pulling
目录
摘要    i
Abstract    i
目录    ii
1 绪论    1
  1.1 选题背景    1
  1.2 国内外模具工业的发展状况    1
  1.3 模具工业的发展趋势    1
2 储物箱的成型工艺分析    4
  2.1 塑件的原始参数    4
  2.2 塑件的结构及工艺分析    5
    2.2.1 脱模斜度    5
    2.2.2 壁厚    5
    2.2.3 加强筋    5
    2.2.4 孔    6
    2.2.5 圆角    6
2.3塑件材料的选择    6
3 注塑成型原理及设备选择    8
  3.1 注塑成型原理    8
  3.2 注塑成型工艺参数    8
    3.2.1 温度    8
    3.2.2 压力    9
    3.2.3 时间    10
3.3 注塑机的选择    10
4 模具结构设计    12
  4.1 分型面的选择及模架的选择    12
  4.2 浇注系统设计    15
    4.2.1 热流道系统    15
    4.2.2 针阀式热流道系统设计    16
  4.3 抽芯机构设计    17
    4.3.1 四边滑块液压抽芯    17
    4.3.2 斜顶液压抽芯    18
    4.3.3 侧边圆孔液压抽芯    19
  4.4 推出机构设计    19
    4.4.1 推板脱模设计    19
    4.4.2 脱模力的计算    20 (责任编辑:qin)