A Region Based Method to Automated Design of Multi-Piece Molds with Application to Rapid Tooling
Author:
Chen Yong1, Rosen David W.2
Affiliation:
1. 3D Systems, Inc., 26081 Avenue Hall, Valencia, CA 91355 2. The George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA 30332-0405
Abstract
Particularly for rapid tooling applications, delivering prototype parts with turn-around times of less than two weeks requires fast, proven mold design methods. We present a region-based approach to automated mold design that is suitable for simple two-piece molds (consisting of core and cavity), as well as molds with many additional moving sections. In our region-based approach, part faces are partitioned into regions, each of which can be formed by a single mold piece. The basic elements of our approach are concave regions (generalized pockets) and convex faces since these elements are central to the identification of regions. This paper focuses on the initial steps of automated mold design, including a problem formulation, methods for identifying the basic elements from part faces, and combining them into regions. By seeking to minimize the number of mold pieces, different partitions of faces into regions are explored until the smallest number of regions is found. During this process, a linear programming problem is adopted for finding a satisfactory parting direction of a region. Algorithms are presented for the region generating and combining process. Our approach is illustrated with several examples of industrial injection molded parts.
Publisher
ASME International
Subject
Industrial and Manufacturing Engineering,Computer Graphics and Computer-Aided Design,Computer Science Applications,Software
Reference31 articles.
1. Jacobs, P., 1996, Stereolithography and other RP&M Technologies: from Rapid Prototyping to Rapid Tooling, Dearborn, MI, Society of Manufacturing Engineers. 2. Chen, Y., and Rosen, D. W., 2001, “A Reverse Glue Approach to Automated Construction of Multi-piece Molds,” Submitted to ASME JCISE (2001). 3. Rosato, D. V. and Rosato, D. V., 1995, Injection Molding Handbook, Chapman & Hall. 4. Chen, L., Chou, S., and Woo, T. C., 1993, “Parting Directions for Mould and Die Design,” Comput.-Aided Des., 25 (12), pp. 762–768. 5. Weinstein, M., and Manoochehri, S., 1996, “Geometric Influence of a Molded Part on the Draw Direction Range and Parting Line Locations,” Journal of Mechanical Design, 118 (3), pp. 29–39.
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