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  The journal resolutely  resists all academic misconduct, once found, the paper will be withdrawn immediately.

Title:
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ClassificationCode:TG386.2
year,vol(issue):pagenumber:2024,49(2):202-207
Abstract:

 In order to meet the mass production need of a certain porous plate, a multi-station progressive die production method was determined by analyzing the forming process, and according to the characteristics of large size and multiple hole types of parts, the intermittent blanking layout and layout sequence of punches and dies were designed. Firstly, the working status of punches and dies at different positions was different, and the holes were punched through eleven steps and the material utilization rate reached 88.5%. Secondly, part of the holes were punched by a mechanical intermittent mechanism, and a cam structure was set up in the intermittent place. Accompanied by the opening and closing action of the die, the cam was driven to rotate by the cooperation of pawl rod and ratchet, and the eccentric movement of cam caused the slide plate to move, so that the punch and die were in a reasonable state, and the number of punching for part of the holes was different from the number of press stroke. Finally, the die adept the floating guide pins to guide material and the guide pin for positioning, and rolling guide posts and bushings to guide, so that the die could produce parts that met the industrial requirements.

 
Funds:
基金项目:河北省自然基金资助项目(E2020208044,E2021208025)
AuthorIntro:
作者简介:闫华军(1978-),男,博士,副教授
Reference:

 


 


[1]金岩. TypeC外壳成形工艺及级进模设计
[J].模具制造,2022,22(3):1-5.

 

Jin Y. Forming process and progressive die design for the TypeC shell
[J]. Die & Mould Manufacture,2022,22(3):1-5.

 


[2]王天宝, 袁博. 管帽零件多工位级进模设计
[J].锻压技术,2022,47(1):168-171.

 

Wang T B,Yuan B. Design on multiposition progressive die for tube cap parts
[J]. Forging & Stamping Technology, 2022,47(1):168-171.

 


[3]刘晶晶. 某产品结构件冲孔折弯模具设计与分析
[J].机械管理开发,2022,37(1):4-5,10.

 

Liu J J. Design and analysis of punching and bending tooling for structural parts of a product
[J]. Mechanical Management and Development,2022,37(1):4-5,10.

 


[4]赵德世, 杜坡, 刘杰.汽车加强板多工位级进模设计
[J].锻压技术,2023,48(8):219-223.

 

Zhao D S, Du P, Liu J. Design on multistation progressive die for automobile reinforcement plate
[J]. Forging & Stamping Technology,2023,48(8):219-223.

 


[5]陈炎嗣. 多工位级进模设计与制造
[M]. 北京:机械工业出版社, 2006.

 

Chen Y S.Design of Multiposition Progressive Die
[M]. Beijing: China Machine Press, 2006.

 


[6]陈炎嗣, 沈丽. 棘轮凸轮间歇切断机构在级进模中的应用
[J].模具制造,2007,(5):7-9. 

 

Chen Y S, Shen L. The application of ratch cam intermittence shutoff mechanism in progressive die
[J]. Die & Mould Manufacture, 2007,(5): 7-9.

 


[7]孙文, 田文春, 纪小虎,等.电池连接件多工位级进模设计
[J].锻压技术,2023,48(1):196-201.

 

Sun W, Tian W C, Ji X H, et al. Design on multistation progressive die for battery connector
[J]. Forging & Stamping Technology, 2023, 48(1): 196-201.

 


[8]李厚佳, 金龙建. 紧固连接件级进模设计
[J]. 模具工业, 2022, 48(9): 27-34.

 

Li H J, Jin L J. Design of progressive die for fastening connector
[J]. Die & Mould Industry, 2022,48(9):27-34.

 


[9]陈景茂, 黄珍媛, 苏达权, 等. 医用器械面板支架多工位级进模设计
[J]. 锻压装备与制造技术, 2022, 57(4): 108-111.

 

Chen J M, Huang Z Y, Su D Q, et al. Design of multiposition progressive die for medical instrument panel bracket
[J]. China Metal Forming Eqipment & Manufacturing Technology, 2022, 57(4): 108-111.

 


[10]冯晓杰.卡箍卷圆级进模设计
[J]. 模具工业, 2022, 48(8): 26-30.

 

Feng X J. Design of edge rolling progressive die for clip
[J]. Die & Mould Industry, 2022, 48(8): 26-30.

 


[11]王希亮, 滕斌, 庄严. 弹簧片精密级进模设计
[J]. 模具工业, 2022, 48(5): 26-28.

 

Wang X L, Teng B, Zhuang Y. Design of progressive die for leaf spring
[J]. Die & Mould Industry, 2022, 48(5): 26-28.

 


[12]孙克锐, 徐海利. 双杯壳类零件冷挤压成形工艺及模具设计
[J]. 锻压技术, 2022, 47(7): 154-161.

 

Sun K R, Xu H L. Cold extrusion process and die design of double cup shell parts
[J]. Forging & Stamping Technology, 2022, 47(7): 154-161.

 
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