Fire Science and Engineering (한국화재소방학회논문지)

Korean Institute of Fire Science and Engineering (한국화재소방학회)
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TUTUM Easy-seismic: Development of a Seismic Design Automation Software for Building Fire Protection Systems

TUTUM Easy-seismic: 소방시설 내진설계 자동화 소프트웨어 개발

  • Oh, Chang-Soo (Graduate School of Industry, Pukyong National University) ;
  • Choi, Jun-Ho (Department of Fire Protection Engineering, Pukyong National University)
  • 오창수 (부경대학교 산업대학원 대학원) ;
  • 최준호 (부경대학교 소방공학과)
  • Received : 2019.10.01
  • Accepted : 2019.10.21
  • Published : 2019.10.31
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Abstract

In line with the "mandatory seismic design of fire protection facilities," development of design automation software is indispensable for improving the reliability and efficiency of seismic design. The seismic design automation software developed in this study is an automated S/W for seismic design of fire-fighting facilities, and functions such as automatic arrangement of anti-shake braces according to Korea National Fire Agency's Seismic Design Standards for fire-fighting facilities, output of seismic bracing calculation bills and automatic quantities counting. In addition, the seismic design automation software not only reduces the work speed by three times compared to the manual design of the designer, but also improves the reliability of the design by reducing the human error related to the design quantity such as the brace. In addition, in the seismic design method of fire protection facilities that have been approached conservatively, it was possible to perform the optimal seismic design by using computer algorithms for at least in the use of braces.

'소방시설 내진설계 의무화'에 발맞추어 내진설계의 신뢰성과 효율성 향상을 위해서는 설계 자동화 소프트웨어 개발이 필수불가결하다. 본 연구에서 개발한 내진 설계 자동화 S/W는 소방청의 「소방시설의 내진설계 기준(이하 "국내 기준")」에 따른 흔들림 방지 버팀대(이하 "버팀대")의 자동 배치, 계산서 출력 및 그리고 물량 자동 산출 등의 기능을 제공한다. 또한, 자동화 S/W는 설계자의 수동설계와 비교하였을 때 약 3배 정도의 업무 속도를 단축시켜줄 뿐만 아니라 버팀대 등의 설계물량과 관련한 휴먼에러를 줄임으로써 설계안의 신뢰성을 높여준다. 뿐만 아니라 그동안 보수적으로 접근했던 소방시설의 내진설계방식에 있어 적어도 버팀대 사용에 대해서 컴퓨터 알고리즘을 이용한 최적의 내진설계를 수행할 수 있었다.

Keywords

References

  1. J. T. Hwang, J. G. Lee, K. J. Jung and H. G. Kwon, "Develpment of Water Seismic Performance Evaluation S/W (ASAD-W)", KISTEC, Infrastructure Safety, Vol. 48, pp. 123-135, Korea Infrastructure Safety Corporation (2016).
  2. National Fire Agency, "Technical Standard for Performance certification and product Inspection of Gas System Fire Extinguishing System Design Program", No. of National Fire Agency Notice 2017-1, Enforce a Law (2017).
  3. MBN, "LH deveolps First Domestic Digest Pipe Repair Calculation Program", http://www.mk.co.kr (2019).
  4. http://kor.ysmetals.com/, Korea Yangsoo Metals Co., Ltd Website (2019).
  5. Ministry of Public Safety and Security, "Seismic Design Criteria for Fire Protection System in 2016" (2016).
  6. Ministry of Public Safety and Security, "Common Application of Seismic Design Criteria" (2017).
  7. KDS 57 17 00 : 2017, "Waterworks Seismic Design" (2017).
  8. Ministry of Education, "Seismic Design Criteria for School Facilities", Enforce a Law (2018).
  9. KGS GC203 2018, "Code for Seismic Design of Gas Facilites and Aboveground Pipes" (2018).
  10. KDS 41 17 00 : 2019, "Buildong Seismic Design Standards" (2019).
  11. J. O. Lee, H. K. Kim and S. B Cho, "A Study on Performancebased Seismic Design Method of Fire Extinguishing Pipe System", Fire Science and Engineering, Vol. 31, No. 4, pp. 86-94 (2017). https://doi.org/10.7731/KIFSE.2017.31.4.086
  12. NFPA 13, "Standard for the Installation of Sprinkler Systems, Ch.9" (2016).
  13. KFI, "KFI Recognition Standard for Sway Brace Device" (2016).
  14. KDS 14 20 54 : 2016, "Design Criteria for Concrete Anchors" (2016).
  15. Ministry of Land, Infrastructure and Transport, "Smart Construction Technology Roadmap" (2018).
  16. C. S. Oh and J. -H. Choi, "Development of Seismic Design Automation Software for Fire Protection System", Annual Conference of Korea Institute of Fire Safety Science, pp. 93-94 (2018).