Study of Structural Stability and Seismic Performances of 4-Way Sway Prevention Brace

doi:10.15683/kosdi.2022.9.30.646

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2022 Vol.18, Issue 3 Preview Page Next Page

Original Article

Study of Structural Stability and Seismic Performances of 4-Way Sway Prevention Brace 4방향흔들림방지버팀대의 구조 안정성 및 내진 성능 연구: 오수언¹ㆍ이항준²ㆍ좌성훈³*
Soo Un O¹, Hang Jun Lee², Sung Hoon Choa³*; ¹PhD Student, Seoul National University of Science and Technology, Seoul, Republic of Krea
²CEO, Make soon Inc., Pusan, Republic of Korea
³Professor, Seoul National University of Science and Technology, Seoul, Republic of Korea

30 September 2022. pp. 646-659

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Abstract

Purpose: In this study, we developed a 4-way sway prevention brace that efficiently reduces the installation area and has excellent stability and seismic performance compared to the conventionl sway prevention brace used in existing firefighting facilities. The performance and reliability of the developed 4-way way prevention brace were analyzed by the tensile, compression tests and seismic tests. Method: As the static test, 4-way sway prevention braces were installed on the horizontal and vertical pipes to perform the tensile and compression tests based on the KFI certification standard and the maximum movement was measured at the rated load. As a dynamic test, 4-way sway prevention braces were installed in the pipes filled with water, and the test response spectrum to the input excitation wave were measured through the acceleration sensors. After the seismic tests, separation, failure, and local deformation of the pipes, and 4-way sway prevention braces were not observed. Result: The results of the tensile and compression tests indicated that the maximum movement of the pipe during tension and compression was 50% to 70% or less compared to the certification values, indicating that the performances of the 4-way sway prevention braces were very excellent. The results of the the seismic tests indicated that the test response spectrum of the 4-way sway prevention braces is within the required response spectrum. Conclusion: In this study, it was found that the 4-way sway prevention braces satisfied the KFI certification standard and were superior compared to the existing sway prevention brace in terms of the stability, cost, and installation area.

Keywords

4-way Sway Prevention Brace

Pipe

Tensile Test

Compression Test

Seismic Test

Test Response Spectrum

연구목적: 본 연구에서는 기존 소방 시설에 사용되고 있는 흔들림방지버팀대에 비하여 설치 면적을 효율적으로 감소시키고, 안정성과 내진 성능이 우수한 4방향 흔들림방지버팀대를 개발하였다. 개발된 4방향 흔들림방지버팀대의 성능 및 신뢰성을 인장 및 압축 시험과 내진 시험을 통하여 검증하였다. 연구방법: KFI 인증 기준에 따라 정적시험으로서 수평 및 수직 배관에 4방향 흔들림방지버팀태을 설치하여 인장 및 압축 시험을 수행하였으며, 정격 하중에 최대 움직임을 측정하였다. 또한 동적시험으로서 물이 채워진 배관에 4방향 흔들림방지버팀태를 설치하고 가속도센서를 통하여 입력 가진파에 대한 시험응답스펙트럼을 측정하였다. 또한 내진 시험 후 배관 및 흔들림방지버팀대의 이탈, 파손 및 국부변형을 관찰하였다. 연구결과: 인장 및 압축 실험을 수행한 결과, 인장 및 압축 시에 배관의 최대 움직임은 규정 기준 대비 50%~70% 이하로서 4방향 흔들림방지버팀태의 성능이 매우 우수함을 알 수 있었다. 4방향 흔들림방지버팀태의 내진 시험결과 ,시험응답스펙트럼이 요구응답스펙트럼을 포괄하고 있음을 알 수 있었다. 시험 종료 후에 배관 및 흔들림방지버팀대의 이탈이나 파손 및 국부변형 등은 발생하지 않았으며, 시설물의 구조적 안정성이 유지됨을 확인할 수 있었다. 결론: 본 연구에서는 정적 실험 및 동적 실험을 통하여, 개발된 4방향 흔들림방지버팀대가 KFI 인중 기준을 만족하고 있음을 알 수 있었고, 기존 흔들림방지버팀대에 비하여 효율성과 경제성 및 안정성과 내진 성능이 우수함을 확인할 수 있었다.

키워드

4방향 흔들림방지버팀대

배관

인장

압축

내진 시험

시험응답스펙트럼.

References

Bang, D.-S., Lee, J.-O., (2018). "A study on seismic design method considering physical properties of piping material." Fire Science and Engineering, Vol. 32, No. 2, pp. 38-47. 10.7731/KIFSE.2018.32.2.038
Choi, H.-S., Lee, J.-O. (2019). "Seismic analysis of firefighting pipe networks." Fire Science and Engineering, Vol. 33, No. 5, pp. 149-154. 10.7731/KIFSE.2019.33.5.149
Gyu, J.-B., Sin, J.-Y., Kim, S.-W., Gim, M.-U., Cheung, J.-H. (2017). "Shake table tests for seismic performance evaluation of fire protection riser pipes." Journal of the Architectural Institute of Korea, Vol. 37, No. 2, pp. 1293-1294.
Jin, S.-Y., Choi, S-G., Park, S.-M., Yeon, T.-Y., Kim, C.-S., Kim, S.-K. (2020). "A study on the development of floor-fixed standpipe sway brace for narrow space." Fire Science and Engineering, Vol. 34, No. 1, pp. 47-54. 10.7731/KIFSE.2020.34.1.047
Kim, G.-Y., Choi, J.-S., Kim, C.-Y., Kim, J.-H., Lee, K.-H., Yun, D.-J. (2018). "Performans accreditation test of sway brace tomainta in the function of fire piping during earthquake." The Conference of The Korean Society for Noise and Vibration Engineering, pp. 350-350 .
Lee, D.-M. (2008). "The study on the seismic design for water extinguishing piping system." Fire Science and Engineering, Vol. 22, No. 1, pp. 10-15.
Lee, J.-O., Kim, H.-K., Cho, S.-B. (2017). "A study on performance - based seismic design method of fire." Fire Science and Engineering, Vol. 31, No. 4, pp. 86-94. 10.7731/KIFSE.2017.31.4.086
Lim, G.-T., Lim, S.-H. (2019). "A study on seismic protection equipment for fire pipes installed on buildings." Industry Promotion Research, Vol. 4, No. 1, pp. 1-9.
Park, I.-J., Yoon, J.-G., Park, S.-h. (2014). "Seismic performance evaluation of water extinguishing facilities using shaking table tests." Korean Society of Hazard Mitigation, Vol. 13, p. 6.
Park, S.-H. (2016). Seismic Response Estimation of Water Extinguishing Facilities Using Shaking Table Tests. Korean Society of Disaster & Security, pp. 201-206.
Park, S.-H., Choi, Y.-C., Seo, J.-W. (2020). A Study on the System Improvement of Seismic Design Fire Service Facilities in Korea. The Society of Air-Conditioning And Refrigerating Engineers of Korea, pp. 487-491.
Shin, Y.-C., Han, B.-C., Park, S.-G., Lee H.-J., Kwon, Y.-J. (2009). "The study on the necessity of seismic design for fire protection system and the establishment of standard." Fire Science and Engineering, Vol. 23, No. 2, pp. 6-12.
Thak, S.-I., Yu, B.-G., Son, B.-S. (2017). "A Study on the seismic resistance design of sway brace device using internet of things." Fire Science and Engineering, Vol. 31, No. 1, pp. 58-62. 10.7731/KIFSE.2017.31.1.058
Yousife, D.-F., Aldefae, A.-H., Zubaidi, S.-L., Aldelfee, A.-N. (2021). "Seismic Performance of Underground Water Pipelines." International Conference on Advance of Sustainable Engineering and its Application, Wasit, Iraq, pp. 101-106. 10.1109/ICASEA53739.2021.9733071

Information

Publisher :The Korean Society of Disaster Information
Publisher(Ko) :한국재난정보학회
Journal Title :Journal of the Society of Disaster Information
Journal Title(Ko) :한국재난정보학회논문집
Volume : 18
No :3
Pages :646-659
DOI :https://doi.org/10.15683/kosdi.2022.9.30.646

[1] Bang, D.-S., Lee, J.-O., (2018). "A study on seismic design method considering physical properties of piping material." Fire Science and Engineering, Vol. 32, No. 2, pp. 38-47. 10.7731/KIFSE.2018.32.2.038

[2] Choi, H.-S., Lee, J.-O. (2019). "Seismic analysis of firefighting pipe networks." Fire Science and Engineering, Vol. 33, No. 5, pp. 149-154. 10.7731/KIFSE.2019.33.5.149

[3] Gyu, J.-B., Sin, J.-Y., Kim, S.-W., Gim, M.-U., Cheung, J.-H. (2017). "Shake table tests for seismic performance evaluation of fire protection riser pipes." Journal of the Architectural Institute of Korea, Vol. 37, No. 2, pp. 1293-1294.

[4] Jin, S.-Y., Choi, S-G., Park, S.-M., Yeon, T.-Y., Kim, C.-S., Kim, S.-K. (2020). "A study on the development of floor-fixed standpipe sway brace for narrow space." Fire Science and Engineering, Vol. 34, No. 1, pp. 47-54. 10.7731/KIFSE.2020.34.1.047

[5] Kim, G.-Y., Choi, J.-S., Kim, C.-Y., Kim, J.-H., Lee, K.-H., Yun, D.-J. (2018). "Performans accreditation test of sway brace tomainta in the function of fire piping during earthquake." The Conference of The Korean Society for Noise and Vibration Engineering, pp. 350-350 .

[6] Lee, D.-M. (2008). "The study on the seismic design for water extinguishing piping system." Fire Science and Engineering, Vol. 22, No. 1, pp. 10-15.

[7] Lee, J.-O., Kim, H.-K., Cho, S.-B. (2017). "A study on performance - based seismic design method of fire." Fire Science and Engineering, Vol. 31, No. 4, pp. 86-94. 10.7731/KIFSE.2017.31.4.086

[8] Lim, G.-T., Lim, S.-H. (2019). "A study on seismic protection equipment for fire pipes installed on buildings." Industry Promotion Research, Vol. 4, No. 1, pp. 1-9.

[9] Park, I.-J., Yoon, J.-G., Park, S.-h. (2014). "Seismic performance evaluation of water extinguishing facilities using shaking table tests." Korean Society of Hazard Mitigation, Vol. 13, p. 6.

[10] Park, S.-H. (2016). Seismic Response Estimation of Water Extinguishing Facilities Using Shaking Table Tests. Korean Society of Disaster & Security, pp. 201-206.

[11] Park, S.-H., Choi, Y.-C., Seo, J.-W. (2020). A Study on the System Improvement of Seismic Design Fire Service Facilities in Korea. The Society of Air-Conditioning And Refrigerating Engineers of Korea, pp. 487-491.

[12] Shin, Y.-C., Han, B.-C., Park, S.-G., Lee H.-J., Kwon, Y.-J. (2009). "The study on the necessity of seismic design for fire protection system and the establishment of standard." Fire Science and Engineering, Vol. 23, No. 2, pp. 6-12.

[13] Thak, S.-I., Yu, B.-G., Son, B.-S. (2017). "A Study on the seismic resistance design of sway brace device using internet of things." Fire Science and Engineering, Vol. 31, No. 1, pp. 58-62. 10.7731/KIFSE.2017.31.1.058

[14] Yousife, D.-F., Aldefae, A.-H., Zubaidi, S.-L., Aldelfee, A.-N. (2021). "Seismic Performance of Underground Water Pipelines." International Conference on Advance of Sustainable Engineering and its Application, Wasit, Iraq, pp. 101-106. 10.1109/ICASEA53739.2021.9733071

Journal of the Society of Disaster Information ISSN:1976-2208(Print) 2671-5287(Online) 한국재난정보학회논문집

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