原文传递 The National Shipbuilding Research Program. 1993 Ship Production Symposium. Paper No. 13: An Engineering Product Model Based on STEP Protocols
题名: The National Shipbuilding Research Program. 1993 Ship Production Symposium. Paper No. 13: An Engineering Product Model Based on STEP Protocols
作者: Ouillette, Joanne J.;Higney, James T.;
关键词: COMPUTER AIDED DESIGN, NAVAL VESSELS, SHIPBUILDING, DESTROYERS, DATA BASES, LOGISTICS SUPPORT, DISTRIBUTION, VENTILATION, ENGINEERING, PIPING SYSTEMS, PARTS, GRAPHICS, VARIATIONS, NAVY, MODELS, SYMPOSIA, INDUSTRIES
摘要: Draft STEP application protocols, developed by the Navy Industry Digital Data Exchange Standards Committee (NIDDESC), have been issued to define the information content of a product model for a ship. The work reported in this paper combines the existing CAD models of the DDG51 Class design with a newly developed non-graphic database so that the overall information content complies with the STEP protocols. This work represents the first-time implementation of the application protocols and is a significant step in the Navy's plan to do the design of variants of the DDG51 Class totally in CAD. The combined graphic/non-graphic database is referred to as the DDG51 engineering product model. Emphasis has been placed on populating the non-graphic database with the information necessary to perform all required engineering analyses. The basic schema described in this paper may be extended to support other areas of interest, such as logistics support. technology. As a cost saving initiative and quality improvement measure, the Navy has implemented the use of 3-D Computer Aided Design (CAD). This effort required the development of leading edge CAD technology and the achievement of a cooperative (rather than competitive) success story by the two DDG51 Class shipbuilders and other industry participants. Over 2,500 drawings, many of which contain over 30 sheets per drawing, are required to build an AEGIS destroyer. Maintaining an error free design baseline defined by these drawings has proven to be a challenge in a 2-D manual environment. To improve efficiency, the entire design is being converted to 3-D CAD. The DDG51 design consists of 77 design zones. A 3-D computer generated representation of each of these zones is being developed. These models contain library parts defining equipment and machinery arrangements, structure, ventilation, electrical, and piping distributive systems.
总页数: 14
报告类型: 科技报告
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