• 제목/요약/키워드: Pipe roof excavation

검색결과 16건 처리시간 0.028초

각관 추진 굴착시 궤도노반의 침하경향 실험분석 (Test and analysis of settlement pattern of trackbed during pipe roof excavation)

  • 정관동;엄기영;최찬용;조수익;황인환
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2010년도 춘계학술대회 논문집
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    • pp.895-902
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    • 2010
  • The method in a bid to make better use of limited urban space amidst increasingly expanding urban area have been attempted in various ways. Efficient using underground space is one of the examples. The pipe roof and excavation for underground crossing implemented in this study was the part of evaluation of such attempt. However, the pipe roof method for underground crossing may cause the ground surface to be uplifted or settled down, having effect on structure above the ground. Thus in this study, a laboratory model test designed to evaluate the effect on surface during implementing pipe roof and excavation was carried out. The ground displacement during pipe roof advancing and excavation is usually occurred in a radial shape but as the study focused on trackbed, the evaluation included ground settlement only. Thus, appropriately-scaled model was selected considering domestic geological characteristics and operation characteristics of traditional and high-speed rail trains and the qualitative evaluation of displacement was carried out with a certain ground loss depending on excavation after categorizing trackbed settlement pattern depending on depth of top soil.

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Behavior of Lateral Earth Pressure around the Underpass Constructed by the STS Construction Method

  • Jin, Kyu-Nam;Kim, Hyo-Jin;Sim, Young-Jong
    • 토지주택연구
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    • 제7권4호
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    • pp.271-279
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    • 2016
  • Recently developed trenchless construction methods ensure stability for the ground settlement by inserting steel pipes along the underpass section and integrating steel pipes before ground excavation to form pipe-roof. This study is to confirm the reinforcing effect of pipe-roof by measuring lateral earth pressure acting on the underpass constructed by the STS (Steel Tube Slab) construction method. For this purpose, lateral earth pressure was measured at the left and right side of the pipe-roof after installing earth pressure cells. As a result, lateral earth pressure was measured with considerable reduction because the integrated pipe-roof shared surcharge. Therefore, economic design for the underpass could be expected by sharing design load by pipe-roof. In addition, construction cost was analyzed according to the design-load sharing ratio by pipe-roof. As pipe-roof shares design load by 40%, the total construction cost can decrease by almost 10% in the case of four-lane underpass.

비개착 추진공법에서 관의 형태에 따른 축소모형 융기 및 침하 실험분석 (Analysis of Heaving and Settlement Test of Scale Model Depending on Shape of the Pipe during Pipe Roof Excavation)

  • 엄기영;최찬용;천정연
    • 한국지반신소재학회논문집
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    • 제9권4호
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    • pp.9-15
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    • 2010
  • 국내 지하횡단공법 중 강관추진공법에서 구조물상부의 강관 roof 구조체 건설시 원형관 및 사각관이 가장 많이 사용되고 있다. 본 논문에서는 강관추진시 관형태에 따른 특징을 규명하고자, 관이 지반에 관입될 때 상부에 작용하는 마찰로 인한 지반의 거동특성을 축소모형실험을 실시하였다. 관입관의 형태에 따라 강관추진시 관의 주변 마찰저항력에 의한 지표변위를 파악하였으며, 융기 및 침하실험 결과 동일한 토피고에서 사각관이 원형관보다 관직경의 5~10%정도 융기 및 침하가 많이 일어났다. 그러나, 토피고에 의한 변위량의 차이가 관의 형태에 의한 변위량의 차이보다 크게 측정되었다. 굴착단계별 침하량과 융기량을 모사하기 위해 마찰조건과 지표변위를 일반화된 조건들에 바탕을 둔 변수로 실험을 수행하였고, 그 결과를 관입관의 형태에 따라 비교 분석하였다.

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UPRS 공법과 프론트잭킹 공법의 파이프루프 주변 현장토압 계측결과 비교 (Comparison of earth pressure around pipe-roof between UPRS and front-jacking method)

  • 심영종;진규남;송기일
    • 한국터널지하공간학회 논문집
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    • 제17권5호
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    • pp.513-522
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    • 2015
  • 본 연구의 목적은 비개착공으로 시공되고 있는 지하차도를 대상으로 지하차도 상부 및 측벽에 작용하는 토압을 계측하여 압입된 강관에 의한 지보효과 확인을 목적으로 하고 있다. 근래의 비개착공법은 파이프루프를 형성하기 위한 강관을 압입한 후 강관과 강관사이를 철근으로 보강하고 모르타르를 타설하는 방식으로 침하에 대한 안정성을 보다 확보하기 위한 노력을 기울이고 있다. 이에 최근 적용되고 있는 UPRS(Upgraded Pipe Roof Structure)공법과 프론트잭킹(Front-Jacking)을 중심으로 강관 압입 후 강관에 의한 토압감소효과를 확인하기 위하여 지하차도 주변의 토압을 계측하였다. 그 결과 UPRS공법의 경우 지하차도에 토압이 상당부분 감소하여 강관보강에 의한 지보강성 효과가 발휘되는 것으로 분석되었다. 프론트잭킹 공법의 경우 지하차도 구조물이 외부에서 제작되어 압입되는 형식으로 강관을 보강시킬 필요가 없기 때문에 강관보강에 의한 토압감소효과는 예측한대로 발휘되지 않는 것으로 분석되었다.

축소모형 강관추진실험 경향 분석 (Analysis of pipe roof method test with a reduced-scale model)

  • 엄기영;정관동;이성혁;천정연;장희정;이종태
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2010년도 춘계학술대회 논문집
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    • pp.664-670
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    • 2010
  • The study on mechanical behavior of the structure at the site includes experimental method and numerical analysis method. Experimental method is categorized into true-scale test and laboratory model test. A laboratory model test is to monitor the failure mechanism with a model simulated similar with a real ground so as to identify the quantitative result, while a true-scale model test is the approach which enables to identify the potential problems that may occur with a simulated construction situation similar with a real site circumstance. Thus this study was intended to carry out the experimental test of non open-cut excavation by pipe roof method which is mostly common in domestic sites. as well as was aimed at identifying the ground behavior occurred during pipe penetration using laboratory model test. Appropriate reduced-scale model was selected, taking into account of domestic geological characteristics and operation characteristics of traditional and high-speed rail trains and the qualitative evaluation of displacement was carried out based on a certain ground loss volume depending on excavation after categorizing trackbed settlement pattern by depth of top soil.

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3차원 수치해석을 이용한 RPS 공법의 적용성 평가 (Estimation of RPS Method Using 3-Dimensional Numerical Analysis)

  • 노정민;신은철
    • 한국철도학회논문집
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    • 제9권2호
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    • pp.174-179
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    • 2006
  • Recently, the crossing tunnel has been constructed frequently to connect the separated area by highway and railroad. The construction of crossing tunnel must be progressed while maintaining the existing traffic of the highway as well as railroad. There are many cross funnelling methods such as NTR, TRCM, Messer Shield, Front Jacking, and Pipe Roof Method. The advantages of adopting RPS(Roof Panel Shield) method in crossing tunnel construction with comparing other existing cross funnelling methods are needed a little volume of concrete and easy to change the direction of cutting shoe during the construction of pipe roof, The 3-dimensional numerical analysis of RPS to consider the arching effect was performed for the application in the crossing tunnel under railroad. The earth pressure distribution and settlement were predicted when the RPS method was applied during the excavation for crossing railroad tunnel construction.

RPS공법을 이용한 철도횡단터널의 3차원 수치해석 (3-Dimensional Numerical Analysis of Crossing Tunnel under Railroad using RPS Method)

  • 신은철;김중희;이은수;노정민
    • 한국철도학회:학술대회논문집
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    • 한국철도학회 2005년도 추계학술대회 논문집
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    • pp.454-461
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    • 2005
  • There are many cross tunnelling methods such as NTR, TRCM, Messer Shield, Front Jacking, and Pipe Roof Method. The advantages of adopting RPS(Roof Panel Shield) method in crossing tunnel construction with comparing other existing cross tunnelling method are needed a little space and easy to change the direction of cutting shoe during the construction of pipe roof. The 3-dimensional numerical analysis of RPS was performed for the application in the crossing tunnel under railroad. The earth pressure distribution and settlement were predicted when the RPS method was applied during the excavation for crossing railroad tunnel construction.

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RPS공법을 이용한 철도횡단터널의 2차원수치해석 (2-Dimensional Numerical Analysis of Crossing Tunnel under Railroad using Roof Panel Shield Method)

  • 신은철;노정민;이은수;김경모;김중희;정병철
    • 한국지반공학회:학술대회논문집
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    • 한국지반공학회 2005년도 지반공학 공동 학술발표회
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    • pp.591-600
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    • 2005
  • There are many cross tunnelling methods such as NTR, TRCM, Messer Shield, Front Jacking, and Pipe Roof Method. The advantages of adopting RPS(roof panel shield) method in crossing tunnel construction with comparing other existing cross tunnelling method are needed a little space and easy to change the direction of cutting shoe during the construction of pipe roof. The numerical analysis of RPS was performed for the application in the crossing tunnel under railroad. The earth pressure distribution and settlement were predicted when the RPS method was applied during the excavation for crossing railroad tunnel construction.

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연약 파쇄 지반내 터널의 굴착.보강 설계 및 안정성 분석 (Excavation Support Design and Stability Analysis of Shallow Tunnel in Heavily Fractured Rock Mass)

  • 신희순;신중호;박찬;한공창;최영학;최용기
    • 한국지반공학회:학술대회논문집
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    • 한국지반공학회 2000년도 봄 학술발표회 논문집
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    • pp.87-92
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    • 2000
  • In excavation of tunnels especially located in shallow depth, it is not rare to meet geological change in excavation progress worse than expected in the initial design stage. This paper present a case study on the re-design of excavation and support system of a shallow tunnel under construction where it meets the unexpected bad geological condition during excavation. The detailed geological investigation shows that the rock mass is heavily weathered and fractured with RMR value less than 20. Considering this geological condition, the design concept is focused on the reinforcement of the ground preceding the excavation of tunnel. Two design patterns, LW-grouting & forepoling with pilot tunnelling method and the steel pipe reinforced grouting method, are suggested. Numerical analysis by FLAC shows that these two patterns give the tunnel and roof ground stable in excavation process while the original design causes severe failure zone around the tunnel and floor heaving. In point of the mechanical stability and the degree of construction, the steel pipe reinforced grouting technique proved to be good for the reinforcement of heavily fractured rock mass in tunnelling. This assessment and design process would be a guide in the construction of tunnels in heavily weathered and fractured rock mass situation.

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한강 단층대를 통과하는 하저터널의 안정성 확보에 관한 연구 (Stability Evaluation for a riverbed tunnel in the Han River at the Fault Zone Crossing)

  • 우종태;이송
    • 한국구조물진단유지관리공학회 논문집
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    • 제5권3호
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    • pp.225-231
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    • 2001
  • When building tunnels beneath riverbeds where very large quantities of groundwater inflow exist, added to high water head the soil supporting conditions are very poor because the soil consists of sand and silt, etc. It is necessary to have grouting and mini pipe roof installed in the region for ground reinforcement to decrease permeability. According to this result of horizontal boring and laboratory soil testing, ground reinforcement was achieved by L.W grouting for range of 3.0 times the tunnel radius, to increase stability of the tunnel we used the ling-cut method, 0.8m for one step excavation, shotcrete with 25cm thick, steel lib with H-$125{\times}125$. and a temporary shotcrete invert 20cm thick was installed to prevent deformation of the tunnel.

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