锻压技术

法兰盖级进模结构设计

英文标题：Structure design on progressive die for flange cover

作者：李凌华

分类号：TG385

出版年,卷(期):页码：2021,46(12):192-196

摘要：

分析了法兰盖的结构和冲压工艺，指出用级进模生产法兰盖钣金件，并在级进模上安装攻牙装置，对法兰盖上的螺纹孔进行攻牙。首先，介绍了法兰盖级进模的料带图，指出其重点工序为落料、翻边、攻牙和脱模，难点为确定级进模的步距；然后，介绍了确定落料模尺寸的方法，并着重分析了该产品翻边孔底孔直径的计算方法；最后，介绍了攻牙机构，指出在该模具上安装攻牙机构等，并利用上模的上下运动作为动力源，在模具冲压过程中对产品实现攻牙工序。由于产品上相邻螺纹孔相隔的距离太近，分两个工位对4个螺纹孔进行攻牙。

The structure and stamping process of flange cover were analyzed, and a progressive die was proposed to produce the sheet metal parts of flange cover. Then, a tapping device was installed on the progressive die to tap the threaded holes on the flange cover. First, the strip layout of the progressive die for flange cover was introduced, and it was pointed out that the key processes for this set of flange cover progressive die were blanking, flanging, tapping and stripping, and the difficulty was to determine the step distance of the progressive die. Next, the method to determine the sizes of blanking die was described, and the calculation method of bottom hole diameter for flanging hole of part was mainly analyzed. Finally, the tapping device was introduced, which was installed on the die, and the tapping process for product was realized by using the up and down movement of upper die as the power source during the stamping process of die. In addition, because the distance between adjacent threaded holes on the part was too close, four threaded holes were tapped in two positions.

基金项目：

湖南省教育厅科技处项目（20C0262）

李凌华（1988-），男，硕士，讲师 E-mail：550578572@qq.com

参考文献：

[1] 金龙建. 多工位级进模设计手册[M]. 北京：机械工业出版社，2015.

Jin L J. Multistation Progressive Die Design Manual [M]. Beijing: China Machine Press，2015.

[2] 沈言锦，张志鹏.冲孔弯曲件多工位级进模设计[J].模具制造，2011，11（5）:37-42.

Shen Y J,Zhang Z P.Design of multiposition progressive die for punching holes and bending parts[J].Die ＆ Mould Manufacture，2011，11（5）:37-42.

[3] 李晋，李辉.多模一次变薄拉深筒形件尺寸精度研究 [J].热加工工艺，2018，47（11）: 117-119.

Li J，Li H.Study on dimensional accuracy of multidie onetime ironing cylindrical parts [J].Hot Working Technology，2018，47（11）:117-119.

[4] 徐晓，王二冬，夏琴香，等.某汽车底梁加固件冲压成形全工序数值模拟分析[J].现代制造工程，2017, 39(8)：57-62.

Xu X, Wang E D, Xia Q X, et al .Numerical simulation analysis of complete stamping process for stiffener part of automotive beam[J].Modern Manufacturing Engineering，2017, 39(8)：57-62.

[5] 曾建强. 带凸缘圆筒形件的拉深工艺计算方法[J].模具技术，2003，21（5）：32-34.

Zeng J Q.Calculation method of drawing process for cylindrical parts with flanges [J]. Mould Technology，2003，21（5）：32-34.

[6] 龙玲，殷国富，胡新如.多工位级进模具运动仿真技术研究与应用[J].机械设计与制造， 2012，50（2）：239-241.

Long L，Yin G F，Hu X R.Research and application of the motion simulation of multiposition progressive die[J].Machinery Design & Manufacture， 2012，50（2）：239-241.

[7] 白治新. 电动机定子片复合冲模设计[J]. 机械工程师, 2020, 351（9）：109-111.

Bai Z X. Design of composite punching die for motor stator sheet[J]. Mechanical Engineer, 2020, 351(9):109-111.

[8] 徐宇，俞弘伯.端盖复合模设计[J].模具技术,2013,39(1)：19-21.

Xu Y,Yu H B.End cover complex die design[J].Die & Die Industry, 2013,39(1)：19-21.

[9] 刘波. 基于智能制造的定位卡圈冲压模具设计[J]. 模具技术，2020，37（5）：33-37.

Liu B. Design of stamping die for locating ferrule based on intelligent manufacturing[J]. Die and Mould Technology,2020，37(5):33-37.

[10]刘建超，张宝忠. 冲压模具设计与制造 [M]. 北京：高等教育出版社，2009.

Liu J C， Zhang B Z. Stamping Die Design and Manufacturing [M]. Beijing: Higher Education Press， 2009.

[11]范英杰. 机械基础 [M]. 北京：机械工业出版社，2019.

Fan Y J. Fundamentals of Machinery [M]. Beijing: China Machine Press，2019.

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