Transactions of Materials and Heat Treatment

Title：Design on multi-station progressive die for battery connector

Authors：

Unit：

KeyWords：

ClassificationCode：TG386

year,vol(issue):pagenumber：2023,48(1):196-201

Abstract：

To meet the production requirements of high-precision and mass for battery connectors, it was determined to use the multi-station progressive die method for production. Then, according to the structural characteristics and size requirements of part, the process layout of the multi-station progressive die was designed, which included fourteen steps such as punching, trimming, drawing, vacancy, blanking, cutting waste, etc. , and the whole design process and production points of the die were elaborated in detail. Furthermore, using software Solidworks as a computer-aided design modeling tool, the model of die parts for battery connector was drawn, and the three-dimensional geometric model of the die was obtained after assembling. The die was fed by the feeder, the guide plate guided the material, and the guide pin positioned the material strip precisely to ensure the accuracy and stability of the material feeding. In order to improve the guiding accuracy, this set of die was guided by the combination method of inner guide column and outer guide column. At the same time, a limit device and a false delivery detection device were set to protect the die. The production results show that the size and precision of the battery connector made by the multi-position progressive die can meet the requirements of the product.

Funds：

中央高校基本科研业务费专项资金资助项目(JZ2021HGQB0273)

作者简介: 孙　文(1992-), 男, 硕士研究生 E-mail: 15556429190@ 163. com 通信作者: 薛克敏(1963-), 男, 博士, 教授 E-mail: xuekm0721@ sina. com

Reference：

[1] 　张正修. 多工位连续冲压技术及应用[M]. 北京: 机械工业出版社, 2010.

Zhang Z X. Multi-position Progressive Stamping Technique and Application [M]. Beijing: China Machine Press, 2010.

[2] 　乔女. 异形压板级进模具设计[J]. 模具技术, 2020, (3):21-24.

Qiao N. Design of progressive die for heterotypic pressure plate [J]. Die and Mould Technology, 2020, (3): 21-24.

[3] 　申晨彤, 龚红英, 尤晋, 等. 基于Dynaform 及响应面法的封头零件冲压成形及优化[J]. 塑性工程学报, 2022, 29 (1):54-59.

Shen C T, Gong H Y, You J, et al. Stamping and optimization of head parts based on Dynaform and response surface method [J].Journal of Plasticity Engineering, 2022, 29 (1): 54-59.

[4] 　程一峰, 朱英霞, 程华, 等. 5754 铝合金阶梯形圆筒件多工序冲压模拟[ J]. 塑性工程学报, 2022, 29 ( 6): 58 -66. 　　　　

Cheng Y F, Zhu Y X, Cheng H. Multi-process stamping simulation of 5754 aluminum alloy stepped by cylinder part [J]. Journal of Plasticity Engineering, 2022, 29 (6): 58-66.

[5] 　郑晖, 栾景旺, 孙凌崴. 挡板件多工位级进模设计[J]. 锻压技术, 2021, 46 (5): 169-173.

Zheng H, Luan J W, Sun L W. Design on multi-station progressive die for stop plate part [J]. Forging & Stamping Technology,2021, 46 (5): 169-173.

[6] 　文根保, 熊利军, 袁开波. 轿车发动机缸盖挡尘片级进模设计[J]. 模具工业, 2021, 47 (12): 28-33.

Wen G B, Xiong L J, Yuan K B. Design of progressive die for dust shield of car engine cylinder head [J]. Die & Mould Industry,2021, 47 (12): 28-33.

[7] 　孟玉喜, 张平, 王斌, 等. 圆柱式插头端子多工位级进模设计[J]. 模具制造, 2021, 21 (2): 1-6.

Meng Y X, Zhang P, Wang B, et al. Design of multi-position progressive die for cylindrical plug terminal [J]. Mould Manufacturing,2021, 21 (2): 1-6.

[8] 　毛丹丹. 车载CD 支架多工位级进模的设计[J]. 热加工工艺, 2018, 47 (7): 129-140.

Mao D D. Design of multi-position progressive die for vehicle CD support [J]. Hot Working Tochnology, 2018, 47 (7): 129-140.

[9] 　朱乐平, 冯赞, 王成, 等. 板线材异形弹片复合成形模具设计[J]. 锻压技术, 2021, 46 (5): 201-206.

Zhu L P, Feng Z, Wang C, et al. Design on compound forming die for special shaped shrapnel of plate and wire materials [J].Forging & Stamping Technology, 2021, 46 (5): 201-206.

[10] 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.

[11] 齐秉钧, 张天微. 滚针轴承冲压外圈连续拉伸级进模设计[J]. 模具制造, 2021, (1): 1-5.

Qi B J, Zhang T W. Design of drawing progressive die for the drawn cup of needle bearing [ J]. Die & Mould Manufacture,2021, (1): 1-5.

[12] 罗益旋. 最新冲压新工艺新技术及模具设计实用手册[M].长春: 银声音像出版社, 2004.

Luo Y X. The Latest Stamping Process, New Technology and Mold Design Practical Manual [M]. Changchun: Silver Audio and Video Publishing House, 2004.

[13] 郑家贤. 冲压模具设计使用手册[M]. 北京: 机械工业出版社, 2007.

Zheng J X. Stamping Die Design Manual [M]. Beijing: Machinery Machine Press, 2007.

Service：

【This site has not yet opened Download Service】【Add Favorite】