目 录
§前言 任务描述 ····································· 1 一. 冲压件工艺性分 ·································· 2 二. 冲压工艺方案的确定 ······························ 2 三. 主要设计计算 ···································· 2
(1)排养方式的确定以及计算 ······························· 2 (2)冲压力的计算 ········································· 2 (3)压力中心的确定及相关计算 ····························· 3 (4)工作零件刃口尺寸计算 ································· 3 (5)卸料橡胶的设计 ······································· 4
四. 模具总体设计 ···································· 4
(1)模具类型的选择 ······································· 4 (2)定位方式的选择 ······································· 4 (3)卸料,出件方式的选择 ································· 4 (4)导向方式选择 ········································· 5
五. 主要零部件设计 ·································· 5
(1)主要零件的结构设计 ··································· 5
a.落料凸模 ·············································· 5 b.冲孔凸模 ·············································· 5 c.凹模 ················································· 5 (2)定位零件的设计 ······································· 6 (3)导料板的设计 ········································· 6 (4)卸料板部件设计 ······································· 6 (5)模架及其他零部件设计 ································· 6
六. 模具总装图 ······································ 7 七. 冲压设备的选定 ·································· 7 八. 工作零件的加工工艺 ····························· 7 九. 模具的装配 ····································· 8 十.设计小结 ······································· 9 附图 装配图 ········································10
(参考文献)·····························································11
冲裁模设计说明书
冲裁模设计:
根据给定工件图设计冲裁模具。工件尺寸如图所示,料厚t=1, 材料:紫铜; 大批量. 要求: 1.完成模具总装图(3D电子文档); 2.完成总装配图,图纸符合国家制图标准; 3.绘制工程图,图纸符合国家制图标准. 4.编写设计说明书.(A4纸打印)
工件图
工件名称:垫片
工件简图:如图所示 生产批量:大批量 工件材料:紫铜 材料厚度:1 mm
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一. 冲压件工艺性分析
此工件只有冲孔和落料两个工序。材料为紫铜,具有良好的冲压性能,适合冲裁。工件结果简单,有2个直径10mm的孔;孔与孔,孔与边缘之间的距离满足要求,工件的尺寸全部为自由公差,可看着IT14级,尺寸精度底,普通冲裁就能满足要求。
二. 冲压工艺方案的确定
该工件包括落料 冲孔 两个基本工序,可有以下三种工艺方案: 方案一:先落料,后冲孔。采用单工序模生产。 方案二:落料—冲孔复合冲压。采用复合模生产。 方案三:冲孔—落料级进冲压。采用级进模生产。
方案一模具结构简单,但需要两道工序两套模具,成本高而生产效率低,难以满足大批量生产要求。
方案二只需一套模具,工作精度及生产效率都比较高,但制造难度大,并且冲压成品件留在模具上,清理模具上的物料影响冲压速度,操作不方便。
方案三也只需要一副模具,生产效率高,操作方便,设计简单,由于工件精度要求不高,完全能满足工件技术要求。
通过对上述三种方案的分析比较,该件的冲压生产采用方案三为最佳。
三. 主要设计计算
(1)排养方式的确定以及计算
设计级进模,先要设计条料排样图。工件图可视为一矩形中间两个孔,直排材料利用率最高。如 图一 所示的排样方法,可减少废料。第一次冲裁使用活动挡料销,然后第二次可用固定挡料销。搭边值取1.5mm,壁厚取2.5mm,条料宽度为65mm,步距为31.5mm,一个步距的材料利用率为88%(计算见 表一)
(2)冲压力的计算
该模具采用级进模,选择弹性卸料,下出件。冲压力的相关计算见 表一 根据计算结果,冲压设备拟选择 J23-25。
图一 排样图
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