Nut box parts stamping process and die design
Abstract:In recent years,the rapid development of China's household electrical appliance industry of mold industry,especially Die with the increasing demands put forward in 2004,Die in the proportion of the proportion of the entire mold industry has been greatly increased,experts predict,In the next few years, China will continue to maintain industrial Die average annual growth rate reached 15% of the high rate of development. In the next few years, China will continue to maintain industrial Die average annual growth rate reached 15% of the high rate of development. In the next few years, China will continue to maintain industrial Die average annual growth rate reached 15% of the high rate of development. Stamping is an important method of metal forming, it is mainly applied to relatively soft metal forming, can be a molding of precision parts of complex shape. This topic is to petrochemical, chemical, electric power industries gasket flange structure as a design model, Die related knowledge will be used as the basis to explain Die design process. The design of the nut box for the progressive die design, the use of Auto CAD software to design parts drawing. Clear design ideas, determine the process of stamping and forming part of the various specific details of the calculation and verification. The structure of such a design die is used to ensure reliable, to ensure coordination with other components. And the mapping of the mold assembly and part drawings. The topic box on the nut stamping die design, consolidate and deepen the knowledge, and achieved satisfactory results, to achieve the desired design intent.
Keywords: Stamping die Stamping Molding Die Diesign Metal Forming
目 录
1 绪 论 3
1.1 模具行业的发展现状及市场前景 3
1.2 冲压工艺介绍 3
1.3 冲压工艺的种类 4
1.4 冲压行业阻力和障碍与突破 5
2 冲裁件的工艺分析 7
2.1 工件尺寸精度 8
2.2 工件展开长度计算 8
3 冲裁工艺方案的确定 10
4 模具结构形式的确定 11
5 模具总体设计 12
5.1 模具类型的选择 12
5.2 操作方式 12
5.3 卸料、出件方式 12
5.4 确定送料方式 13
5.5 确定导向方式 13
6 模具设计计算 14
6.1 排样、计算条料宽度、确定步距、材料利用率 14
6.2 冲压力的计算 18
6.3 压力中心的确定 20
6.4 模具刃口尺寸的计算 21
6.5 模具弯曲部分工作尺寸计算 23
7 主要零部件设计 27
7.1 工作零部件的结构设计 27
8 校核模具闭合高度及压力机有关参数 33
8.1 校核模具闭合高度 33
8.2 冲压设备的选定 33
9 设计并绘制模具总装图及选取标准件 34
10 模具的安装调试 35
10.1 模具的安装调试 35
参考文献 36