Transactions of Materials and Heat Treatment

Title：Design on multi-position progressive die for structural part of the glass rail in the car door

Authors： Guo Mingji Xia Qinxiang Wang Ting Chen Zhiping Zhao Xuezhi

Unit： South China University of Technology Guangdong Kelon Mould Co. Ltd.

KeyWords： automotive structural part progressive die layout design glass rail

ClassificationCode：TG385.2

year,vol(issue):pagenumber：2014,39(9):97-101

Abstract：

The structural part of the glass rail in the car door is complexly shaped. It is produced through various processes like bending, drawing, trimming, shaping, flanging, punching, cutting, etc. Its stamping technology scheme of thirteen progressive positions with double-row and bilateral carrier was determined by stamping technological analysis and calculation of technological parameters. The design and manufacture of progressive die were conducted based on analyzing the bending-drawing composite structure, floating flanging-shaping structure and the whole structure. The results of the actual production show that the thirteen-position progressive die is of high quality, feasible structure, and efficient production, so that it meets requirements of large-scale production.

Funds：

广东省中国科学院全面战略合作项目（2012B091100251）

郭鸣骥（1990-），男，硕士研究生

Reference：

［1］周大勇，李伟，候银. 汽车零件高速落料冲压自动化生产线浅谈[J]. 锻压装备与制造技术，2012，(2)：19-21.Zhou D Y, Li W, Hou Y. Discussion about automatic & high-speed blanking and pressing production line for auto parts [J]. China Metalforming & Manufacturing Technology, 2012，(2):19-21.
［2］侧卫. 我国模具行业2010年运行情况及“十二五”发展展望[J]. 航空制造技术,2011,(Z1)：61-63.Ce W. General situation in 2010 and development prospect during the 12th five-year plan for china mold industry [J]. Aeronautical Manufacturing Technology, 2011，(Z1): 61-63.
［3］Tor S B, Britton G A, Zhang W Y. A knowledge-based blackboard framework for stamping process planning in progressive die design [J]. International Journal of Advanced Manufacturing Technology, 2005, (7):774-783.
［4］姜立忠，张建营，周耀东，等. 汽车结构件多工位精密级进模排样及模具设计[J]. 锻压技术，2009，34(3)：41-43.Jiang L Z, Zhang J Y, Zhou Y D, et al. Layout and design of multi-position precision progressive die for automotive structural part[J]. Forging & Stamping Technology, 2009，34(3): 41-43.
［5］陈志超，夏琴香，郭新年，等. 某高强钢板汽车结构件多工位级进模设计[J]. 锻压技术，2012，37(2)：47-50.Chen Z C, Xia Q X, Guo X N. et al. Design of multi-position progressive die of automotive structural part made by high-strength steel [J]. Forging & Stamping Technology, 2012，37(2): 47-50.
［6］聂昕，成艾国，申丹凤. 汽车结构件级进模的料带优化设计[J]. 中国机械工程，2011，(6)：723-728. Nie X, Cheng A G, Shen D F. Optimization design of blank sheet in body panel progressive stamping[J]. China Mechanical Engineering, 2011, (6): 723-728.
［7］Guangming Wei, Qinxiang Xia, Saijun Zhang, et al. Layout design for high strength steel automotive structural parts based on UG-PDW[A]. 2011 Second International Conference on Mechanic Automation and Control Engineering[C]. Inner Mongolia, 2011.
［8］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 and Manufacture of Multi-position Progressive Die [M]. Beijing: China Machine Press，2006.
［9］王尚林，武晓红. 电机前后支架级进模的设计与制造[J]. 锻压技术，2011，36(2)：100-106.Wang S L, Wu X H. Progressive die design and manufacture of motor anterior and posterior trestle[J]. Forging & Stamping Technology, 2011, 36(2): 100-106.
［10］文建平. 压板冲孔、切断、弯曲级进模设计[J]. 锻压技术，2012，37(4)：90-93.Wen J P. Progressive die design for plate punching, cutting and bending process[J]. Forging & Stamping Technology, 2012, 37(4): 90-93.
［11］夏琴香，袁宁. 模具设计及计算机应用[M]. 广州：华南理工大学出版社，2008.Xia Q X，Yuan N. Die & Mould Design and Computer Applications[M]. Guangzhou: South China University of Technology Press，2008.

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