대한건축학회논문집:구조계 (Journal of the Architectural Institute of Korea Structure & Construction)

  • 제28권1호
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  • Pages.141-149
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  • 2012
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  • 1226-9107(pISSN)
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  • 2384-1788(eISSN)
대한건축학회 (Architectural Institute of Korea)
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생산성 및 비용 분석을 통한 철골 구조체 건설 자동화 시스템의 요구성능 분석

The Analysis of Performance Criteria for the Automated Building Construction System on Steel Framework through Productivity and Costs

  • 투고 : 2011.08.10
  • 발행 : 2012.01.25
⟨ 이전 논문 다음 논문 ⟩

초록

Automated building construction systems are currently being employed as an effective alternative for the recent aging of the workforce and the lack of skilled labor. In order to apply such systems effectively in building construction process, the influence on overall construction process by the systems should be examined in the developing phase. Moreover, appropriate performance criteria for the systems should be determined based on the aspect of cost-effectiveness. Therefore, this study analyses performance criteria of an automated building construction system for steel framework by using a simulation technique, CYCLONE, and economic feasibility analysis in order to developing and employing the system efficiently. The study targets the steel girder installation process through a manless steel frame and joint method and bolting robot which is developed by the robot-based construction automation (RCA) group in Korea. The result shows that the manless steel frame and joint method leads substantial productivity improvement for the steel girder installation process by the reduction of loads for resources. In addition, considering productivity and costs of the system on overall process, the maximum permissible capital cost for the bolting robot increases dramatically when a cycle time of the robot ranges from 320 to 440 seconds. The results of this study will help develop cost-efficient system, and serve as a decision support model for appropriate resource inputs of the construction automation method.

키워드

과제정보

연구 과제 주관 기관 : 한국연구재단, 한국건설교통기술평가원

참고문헌

  1. 강동완, 심재규, 김윤겸, 조규만, 현창택, 건설 시뮬레이션을 활용한 공동주택 골조공사의 생산성 분석에 관한 연구, 대한 건축학회논문집 구조계, 26권, 4호, p.p. 123-131, 2010
  2. 김영석, 이정호, 공동주택 외벽 도장 자동화 로봇의 최적개념 모델 제시 및 기술적 타당성 분석, 대한건축학회논문집 구조계, 22권, 9호, p.p. 139-150, 2006
  3. 김창기, 건축시공 자동화를 위한 철골접합부 개선 및 현장 적용성 평가, 고려대학교 대학원 건축사회환경공학과 석사학위 논문, 2010
  4. 대한건설협회, 2011년 상반기 적용 건설업 임금실태 조사 보고서, 2010
  5. 박성훈, 이웅균, 조훈희, 강경인, 고층건물 시공 자동화 시스템의 성능 기준 분석 모델, 대한건축학회논문집 구조계, 25 권, 10호, p.p. 139-147, 2009
  6. 소병각, 우성권, 이시욱, 터널 버력처리 공정의 생산성 분석을 위한 시뮬레이션 모델 개발, 대한토목학회논문집, 28권, 1D호, p.p. 83-91, 2008
  7. 유연택, 박상준, 이정호, 정명훈, 김영석, 흄관매설 자동화 장비의 성능분석을 위한 평가모델의 개발, 한국건설관리학회논문집, 5권, 1호, p.p. 157-166, 2004
  8. 이승열, 한창수, 이계영, 이상헌, 국내 건설 내/외장재 설치 로봇; HUSCOR, 대한건축학회논문집 구조계, 23권, 8호, p.p. 201-212, 2007
  9. 이웅균, 건설자동화 시스템의 공기변화 분석을 통한 의사결정 지원 모델 개발, 한국연구재단(D00314), 2011
  10. 이웅균, 강경인, 건물자동화 시공 시스템 개발 방향에 관한 연구, 한국건축시공학회논문집, 7권, 3호, p.p. 67-73, 2008
  11. 이정호, 김영석, 건설자동화 기계의 연구개발 단계에 따른 성능 분석 모델 개발, 한국건설관리학회논문집, 9권, 2호, p.p 67-80, 2004
  12. 이정호, 박상준, 정명훈, 김영석, PHC 파일 두부정리 자동화 를 위한 파일롯타입 장비의 개발, 한국건설관리학회논문집, 4권, 4호, p.p. 173-181, 2003
  13. 이정훈, 이경석, 김현미, 김영석, 한승우, 건설시뮬레이션 사 이클론 기법을 활용한 시스템 철골계단 공법의 현장 적용성 평가, Journal of Korea Institute of Building Construction, Vol.10, No.6, p.p. 19-26, 2010 https://doi.org/10.5345/JKIC.2010.12.6.019
  14. 조달청, 2011 건축․산업환경설비공사 원가계산 제비율 적용 기준(2011.09.19), 2011
  15. 천진용, 소병각, 추장식, 우성권, 시뮬레이션 모델링을 통한 NATM 터널공정 생산성 향상 분석, 대한토목학회논문집, 25권, 3D호, p.p. 457-462, 2005
  16. Albert T.P. So, W.L. Chan, LAN-based building maintenance and surveillance robot, Automation in Construction, Vol.11, No.6, p.p. 619-627, 2002 https://doi.org/10.1016/S0926-5805(02)00003-1
  17. E. Sarah Slaughter, Mario Eraso, Simulation of Structural Steel Erection to Assess Innovations, IEEE Transactions o n Engineering Management, Vol.44, No.2, p.p. 196-207, 1997 https://doi.org/10.1109/17.584927
  18. Hideo Tanijiri, Bunya Ishiguro, Takashi Arai, Ryoji Yoshitake, Masao Kato, Yasuto Morishima, Nobuhiro Takasaki, Development of automated weather-unaffected building con struction system, Automation in Construction, Vol.6, No.3, p.p. 215-227, 1997 https://doi.org/10.1016/S0926-5805(97)00005-8
  19. Jeong-Ho Lee, Hyun-Seok Yoo, Young-Suk Kim, Jun-Bok Lee, Moon-Young Cho, The development of a machine vis ion-assisted teleoperated pavement crack sealer, Automatio n in Construction, Vol.15, No.5, p.p. 616-626, 2006 https://doi.org/10.1016/j.autcon.2005.06.018
  20. Kyu-Man Cho, Integrated schedule and cost management model for repetitive construction process of high-rise build ings, Ph.D. Dissertation, The University of Seoul, 2009
  21. Mashahiro Nagata, Norimitsu Baba, Hiroshi Tachikawa, Iwao Shimizu, Toshio Aoki, Steel frame welding robot systems and their application at the construction site, Microco mputers in Civil Engineering, Vol.12, No.1, p.p.15-30, 1997 https://doi.org/10.1111/0885-9507.00043
  22. Sangkyun Woo, Daehie Hong, Woo-Chang Lee, Jae-Hun Chung, Tae-Hyung Kim, A robotic system for road lane painting, Automation in Construction, Vol.17, No.2, p.p. 122-129, 2008 https://doi.org/10.1016/j.autcon.2006.12.003
  23. Seoungwoo Han, Productivity Analysis Comparison of Different Types of Earthmoving Operations by Means of Various Productivity Measurements, Journal of Asian Architect ure and Building Engineering, Vol.9, No.1, p.p. 185-192, 2010 https://doi.org/10.3130/jaabe.9.185
  24. Taehoon Hong, Kyuman Cho, Changtaek Hyun, and Seung woo Han, Simulation-Based Schedule Estimation Model for ACS-Based Core Wall Construction of High-Rise Building, Journal of Construction Engineering and Management, Vol.137, No.6, p.p. 393-402, 2011 https://doi.org/10.1061/(ASCE)CO.1943-7862.0000300
  25. Takahiro Sasaki, Kenji Kawashima, Remote control of bac khoe at construction site with a pneumatic robot system, Automation in Construction, Vol.17, No.8, p.p.907-914, 2008 https://doi.org/10.1016/j.autcon.2008.02.004
  26. Tatsuya Wakisakaa, Noriyuki Furuyab, Yasuo Inoueb, Takashi Shiokawa, Automated construction system for high-rise reinforced concrete buildings, Automation in Constructio n, Vol.9, No.3, p.p. 229-250, 2000 https://doi.org/10.1016/S0926-5805(99)00039-4
  27. Tarek M. Zayed, Daniel Halpin, Simulation of concrete batch plant production, Journal of construction Engineering and Management, Vol.127, No.2, p.p. 132-141, 2001 https://doi.org/10.1061/(ASCE)0733-9364(2001)127:2(132)
  28. Tarek M. Zayed, Daniel W. Halpin, Simulation as a Tool for resource management, Proceeding of the 2000 winter si mulation conference, 2000
  29. Young-Bok Ham, Soon-Wook Kwon, Jong-Ho Noh, Jae-Goo Han, Kyoon-Tai Kim, Development of road stripe removing equipment using high-pressure water jet, Automation in Construction, Vol.15, No..5, p.p. 578-588, 2006 https://doi.org/10.1016/j.autcon.2005.06.017
  30. Young S. Kim, Myung H. Jung, Yong K. Cho, Jeongho Lee, and Unsuk Jung, Conceptual Design and Feasibility Analyses of a Robotic System for Automated Exterior Wall Painting, Internal Journal of Advanced Robotic Systems, Vo l.4, No.4, p.p. 417-430, 2007