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Establishment of Information Interface Technology between Hull and Outfitting Designs

선체설계와 의장설계간의 정보인터페이스 기법 연구

  • Choi, Yeong-Tae (Daewoo Ship Building and Marine Engineering Co., Ltd.) ;
  • Suh, Heung-Won (Daewoo Ship Building and Marine Engineering Co., Ltd.) ;
  • Lee, Soon-Sup (Department of Naval Architecture and Ocean Engineering, Gyeongsang National University)
  • 최영태 (대우조선해양(주) 정보기술팀) ;
  • 서흥원 (대우조선해양(주) 정보기술팀) ;
  • 이순섭 (경상대학교 조선해양공학과)
  • Received : 2013.11.09
  • Accepted : 2013.12.09
  • Published : 2013.12.20

Abstract

Ship design engineering refers to the development and design of shipbuilding architectures in a drawing which reflects all relevant manufacturing processes. This paper provides analysis methods for model-information interfaces between hull structure design and outfitting design, and a technical application for manufacturing phases reflecting the pipe support pad and angle item automatically. The existing information procedure of pipe support pad and angle system processes information using drawing without model specification. Outfitting design team directly distributes drawings to the shop floor then manual-based marking and installation work are conducted refer to the distributed drawings. As a result, this process has become time consuming and causes problems in the productivity and quality improvement due to the rework caused by omitted or incorrect marking. The pipe support pad and angle marking is a method that automatically updates model information to hull structure design using sets of data that analyse the generated model in outfitting design processes. Therefore, this approach provides an efficient solution through design references without manual activities such as a reflection of hull structure design, cutting process, numerical control work, and dimension measurement and marking. The conversion of a method from the existing procedure based on manual marking to the reflective and automatic approach would have enabled to proceed installation work without manual activities for the measurement. Therefore, this research study proposes an efficient approach using pre-data analysis of model information interfaces between design and manufacturing phases to improve productivity during construction for shipbuilding.

Keywords

References

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