Feature-based integration of conceptual and detailed mould design

The plastic production industry has been growing rapidly in recent years, and injection mould, which is especially widely used in 4C (computer, communication, consumer electronics, and car) products, is the most popular in moulding plastic. The diverse requirements of customers and pressures of just-in-time production are big challenges in the injection mould industry. The advantages, that keep products’ quality and increase work efficiency, will decide a company's competitive capabilities. Therefore, this study proposes a feature-based integration of the conceptual and detailed mould design process within the computer-aided design (CAD) tool. It adopts a feature-oriented method and the dedicated application programming interface (API) to implement the features integration function of the conceptual and detailed mould design. Based on intellectualised, customised, and standardised procedures, not only does this prevent probable engineering mistakes and generate consistent web reports, but also transmits the intact feature information from conceptual to detailed mould design, thus shortening detailed mould design processes. In the case studies of this paper, using the feature-based navigating system can result in time savings up to 56% and 59%. The results show significant time savings over traditional mould design processes.

[1]  Yang Jian A Study on Knowledge based Injection Mold Design System , 2001 .

[2]  L.-S. Turng,et al.  A knowledge base system for the design and manufacture of injection-molded plastic products , 1998, 1998 IEEE Information Technology Conference, Information Environment for the Future (Cat. No.98EX228).

[3]  Hongbo Lan,et al.  An Internet-based intelligent design system for injection moulds , 2008 .

[4]  Kwai-Sang Chin,et al.  An Interactive Knowledge-Based CAD System For Mould Design in Injection Moulding Processes , 2001 .

[5]  W. M. Chan,et al.  A 3D CAD knowledge-based assisted injection mould design system , 2003 .

[6]  Andrew Y. C. Nee,et al.  Computer-Aided Injection Mold Design and Manufacture , 2004 .

[7]  Shui Yee Wong,et al.  A hybrid case-based reasoning CAD system for injection mould design , 2008 .

[8]  Kwai-Sang Chin,et al.  Knowledge-based evaluation for the conceptual design development of injection molding parts , 1996 .

[9]  Wen-Ren Jong,et al.  Web-based navigating system for conceptual mould design with knowledge management , 2011 .

[10]  Kim Seng Lee,et al.  A Parametric-Controlled Cavity Layout Design System for a Plastic Injection Mould , 2003 .

[11]  Andrew Y. C. Nee,et al.  Automatic initial design of injection mould , 2000 .

[12]  Kim Seng Lee,et al.  Application of standardization for initial design of plastic injection moulds , 2003 .

[13]  Maria L. H. Low,et al.  3D RAPID REALIZATION OF INITIAL DESIGN FOR PLASTIC INJECTION MOULDS , 2004 .

[14]  Wen-Ren Jong,et al.  A collaborative navigation system for concurrent mold design , 2009 .