KR102576665B1 - Leakage prevention structure and leak prevention construction method of structure - Google Patents

Abstract

The present invention relates to a water leak prevention structure and construction method for a structure, and more specifically, to a water leak prevention structure and a water leak prevention structure that can more thoroughly prevent water leaks by installing a water stop agent injection pipe in a structure such as a tunnel and filling it with a water stop agent. It's about the construction method.
The present invention includes the steps of press-fitting a plurality of steel pipes into a tunnel construction target area and forming a steel pipe structure; Excavating the inside of the steel pipe structure; installing a water stopper injection pipe between the neighboring steel pipes; Constructing a tunnel structure by pouring concrete inside the steel pipe structure; and sealing the space between the steel pipe and the tunnel structure by injecting a water-stop agent into the injection pipe.

Description

Leakage prevention structure and leak prevention construction method of structure}

The present invention relates to a water leak prevention structure of a structure and its construction method. More specifically, it relates to a water leak prevention structure and its construction method. More specifically, water leakage is prevented more thoroughly by installing a water stop agent injection pipe such as acrylic, urethane, or epoxy resin in a structure such as a tunnel and filling it with a water stop agent. It relates to water leak prevention structures and construction methods that can be prevented.

Trenchless construction method involves pressing a steel pipe into the ground using a hydraulic jack, transporting soil from inside the steel pipe to the outside with manpower and equipment, and then grouting the inside of the steel pipe, or, if necessary, reinforcing it with rebar or mortar to create a tunnel or underground space underneath the object. Comprehensively defines construction methods for constructing driveways, etc.

This trenchless construction method is especially applied to underground tunnel construction where trenchless construction is not possible due to soft ground where it is difficult to stand alone on the excavation surface, overcrowded traffic, or obstacles to underground structures. Depending on the steel pipe propulsion method, pipe-roof and TRCM ( Tubular roof construction method), NTR (New Tubular Roof), TR&T (Tubular Roof & Trench method), TSM (Tunnel of using Steel pipe Method), STS (Steel Roof construction), UPRS (Upgraded Pipe-roof construction), etc. do.

In the case of this trenchless construction method, a steel pipe structure is manufactured by press-fitting and connecting steel pipes into the ground, and then the lower part or inside is excavated and concrete is poured to form the desired concrete structure. Water seeping from the expansion joint spreads along the gap (cavity) between the steel pipe and the concrete structure and then seeps into the inside of the tunnel, causing water leaks.

In this way, water seeping into reinforced concrete structures causes adverse effects on the structure, such as expansion of reinforcing bars, cracking of the structure, and acidification of the concrete, causing serious problems that weaken the strength of the structure in the long term.

Therefore, there is a need for supplementary measures to fundamentally prevent water from seeping between the steel pipe structure and the tunnel structure.

Meanwhile, until now, when water leakage occurs after tunnel construction is completed, additional drilling is done at the place where the water leak occurred and then a water stopper is injected to block the water leak. However, side effects such as damage to the structure occur due to drilling work, etc. , there is a problem of increasing risk of safety accidents due to work done at heights on the ceiling.

Republic of Korea Patent No. 10-2126647 Republic of Korea Patent No. 10-1017117

The present invention was created to solve the problems of the prior art. The purpose of the present invention is to prevent water leakage by installing a water-stop agent injection pipe between the steel pipe structure and the concrete structure during tunnel construction and filling the water-stop agent through the water-stop agent injection pipe. The goal is to provide a water leak-proof structure and construction method for a structure that can be thoroughly blocked.

In addition, by connecting spare supply pipes to the water stop agent injection pipe at regular intervals, we provide a leak-proof structure and construction method for a structure that can fill the water stop agent even in situations where the water stop agent is not filled smoothly due to blockage of the injection pipe or outlet. is to do

The problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned can be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, the water leak-proof construction method of a tunnel according to the present invention includes the steps of press-fitting a plurality of steel pipes into the tunnel construction target area and forming a steel pipe structure;
Excavating the inside of the steel pipe structure;
installing a water stopper injection pipe between the neighboring steel pipes;
Connecting a plurality of preliminary supply pipes along the longitudinal direction of the water stop agent injection pipe, and installing a check valve at the end of the preliminary supply pipes;
Constructing a tunnel structure by pouring concrete inside the steel pipe structure and simultaneously allowing the preliminary supply pipe to be pulled out into the tunnel structure;
and sealing the space between the steel pipe and the tunnel structure by injecting a water stop agent into each of the water stop agent injection pipe and the preliminary supply pipe.

In addition, in the tunnel water leak prevention construction method according to the present invention, the water stop agent injection pipe has one end drawn out through the tunnel structure and has a structure in which a plurality of discharge ports are formed along the outer peripheral surface in the longitudinal direction to inject the water stop agent through one end. When injected, the space between the steel pipe and the tunnel structure is filled through the outlet.

In addition, in the water leak-proof construction method of a tunnel according to the present invention, the water-stop injection pipe is fixed by a support bracket, and the upper end of the support bracket is left and right so that it can be inserted and glued or welded between neighboring steel pipes. It is characterized in that it consists of a fixing part with an inclined structure, an extension part extending downward from the fixing part, and a fixing ring part into which the water stop injection tube is inserted.

In addition, in the water leak prevention structure of a tunnel according to the present invention, a steel pipe structure;
a tunnel structure formed inside the steel pipe structure;
a water stopper injection pipe disposed between the steel pipe structure and the tunnel structure;
a plurality of preliminary supply pipes installed along the longitudinal direction of the water stop agent injection pipe;
Characterized in that it includes; the water-stop agent injection pipe and the water-stop agent discharged from the water-stop agent injection pipe to seal the space between the steel pipe and the tunnel structure.

In addition, the water leak-prevention structure of the civil engineering structure according to the present invention includes a water stopper plate whose lower part is embedded in the floor and whose upper part is embedded in the wall, and which consists of an elastic portion disposed between the lower part and the upper part;
a water-stop agent injection pipe installed on one side or the other side of the water-stop plate;
It includes a plurality of preliminary supply pipes installed along the longitudinal direction of the water stop agent injection pipe,
The water-stop agent injection pipe has a structure in which a plurality of outlets are formed along the outer peripheral surface in the longitudinal direction, and when the water-stop agent is injected through one end, the space between the floor and the wall is filled through the outlet.

According to the water leak prevention structure and construction method of the structure according to the present invention, during tunnel construction, a water stopper injection pipe is used between the steel pipe structure and the general concrete structure connected to it (expansion joint) and between the steel pipe structure and the concrete structure below. Filling with a water-stop agent has the effect of completely blocking water leaks.

In addition, according to the water leak prevention structure of the structure and its construction method according to the present invention, by connecting spare supply pipes to the water stop agent injection pipe at regular intervals, the water stop agent can be used even in situations where the water stop agent is not filled smoothly due to blockage of the injection pipe or outlet. It has the effect of filling.

The effects of the present invention are not limited to those mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description below.

Figure 1 is a perspective view showing, in the present invention, a steel pipe structure is formed by press-fitting a steel pipe, the interior is excavated, and a water-stop injection pipe is installed.
Figure 2a is a cross-sectional view showing the construction of the tunnel structure in part A of Figure 1, and Figure 2b is a cross-sectional view showing a water stop plate and an injection pipe buried between the wall and the ceiling in the embodiment of Figure 2a.
Figure 3 is a cross-sectional view showing the filling of the water stop agent through the water stop agent injection pipe in Figure 2.
Figure 4a is a perspective view showing the water stop agent injection pipe and the support bracket of the present invention, and Figure 4b is a perspective view showing a spare supply pipe additionally installed in the water stop agent injection pipe of Figure 4a.
Figure 5 is a perspective view showing the water stopper injection pipe of the present invention being installed between steel pipes.
Figure 6 is a diagram showing the water leak prevention structure of the structure according to the present invention.
Figure 7 is a cross-sectional view showing concrete being poured into the form shown in Figure 6 and filling with a water stop agent.

Hereinafter, preferred embodiments of the present invention will be described in detail.

In describing the present invention, if a detailed description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention of the user or operator or precedents. Therefore, the definition should be made based on the contents throughout this specification.

Figure 1 is a perspective view showing the present invention by press-fitting a steel pipe to form a steel pipe structure, excavating the inside, and then installing a water-stop injection pipe, and Figure 2a is a view showing the construction of the tunnel structure in part A of Figure 1. is a cross-sectional view showing, and Figure 2b is a cross-sectional view showing the water stop plate and injection pipe buried between the wall and the ceiling in the embodiment of Figure 2a, and Figure 3 is a water stop agent filled through the water stop agent injection pipe in Figure 2. This is a cross-sectional view showing one appearance. and

Figure 4a is a perspective view showing a water stop agent injection pipe and a support bracket of the present invention, Figure 4b is a perspective view showing a preliminary supply pipe additionally installed in the water stop agent injection pipe of Figure 4a, and Figure 5 is a water stop agent injection pipe of the present invention. This is a perspective view showing the injection pipe being installed between steel pipes.

1 to 3, the water leak prevention structure of the tunnel 10 according to the present invention largely consists of a steel pipe structure 20, tunnel structures 12 and 13 formed inside the steel pipe structure 20, and the steel pipe. A water-stop agent injection pipe 25 disposed between the structure 20 and the tunnel structures 12 and 13, and a water-stop agent injection pipe 25 discharged from the steel pipes 21a and 21b and the tunnel structures 12 and 13. ) may be configured to include a water stopper that seals the space between them.

The water leak-prevention structure of the present invention is a trenchless method in which steel pipes (21a, 21b) are press-fitted into the ground to form a steel pipe structure (20) using a steel pipe structure such as PRS (Pipe Roof Structures) or UPRS (Upgraded Pipe Roof Structures) method. This is to thoroughly prevent water leaks.

Here, in the case of the known PRS (Pipe Roof Structures) or UPRS (Upgraded Pipe Roof Structures) method, there is a difference in the method of forming the steel pipe structure or the method of combining each steel pipe, but in the present invention, for convenience of explanation, water leakage is prevented between individual steel pipes. Let us explain by giving an example of what happens.

The tunnel 10 to which the water leak prevention structure of the present invention is applied has no particular limitations as long as it is a passage or structure made by drilling into the ground, and examples include uses such as roads, railways, waterways, electric wires, and oil pipelines.

The construction method of the water leak prevention structure of a tunnel according to the present invention includes the steps of press-fitting a plurality of steel pipes (21a, 21b) into the tunnel construction target area to form a steel pipe structure (20), and excavating the inside of the steel pipe structure (20). A step of installing a water stopper injection pipe 25 between the neighboring steel pipes 21a and 21b, and constructing tunnel structures 12 and 13 by pouring concrete inside the steel pipe structure 20. and the step of injecting the water stop agent 27 into the water stop agent injection pipe 25 to seal the space between the steel pipes 21a and 21b and the tunnel structure.

First, the steps of forming the steel pipe structure include press-fitting each steel pipe into the ground using hydraulic pressure, etc., removing soil inside the steel pipe and then joining each steel pipe by welding, and reinforcing the steel pipe by pouring concrete into it. This can be exemplified through, but is not limited to this.

After forming the steel pipe structure and excavating the inside of the steel pipe structure, concrete is poured inside the steel pipe, and a support beam or the like can be installed at the bottom of the tunnel to support the steel pipe structure 20, or a cross bar can be installed.

Next, the water stopper injection pipe (25) is installed between the adjacent steel pipes (21a, 21b) with joints.

The water stopper injection pipe 25 can be made of a metal pipe or a synthetic resin pipe as shown in FIGS. 4 and 5. In the case of a metal pipe, it can be directly welded to a steel pipe or fixed by a support bracket 23, In the case of a synthetic resin pipe, it can be fixed by a support bracket (23).

One end of the water stop injection pipe 25 is open and drawn out through the tunnel structure, and the other end is made of a sealed structure, and has a structure in which a plurality of discharge ports 25a are formed along the outer peripheral surface in the longitudinal direction. When agent 27 is injected, the space between the steel pipes 21a and 21b and the tunnel structure 13 is filled through the outlet 25a.

The support bracket 23 has a fixing part 23a at its upper end inclined to the left and right so that it can be inserted and bonded or welded between neighboring steel pipes 21a and 21b, and an extension extending downward from the fixing part. It may be exemplified as consisting of a portion 23b and a fixing ring portion 23c into which the water stop injection tube is inserted, but is not limited thereto.

Meanwhile, the water stopper injection pipe of the present invention is placed between steel pipes and installed along the longitudinal direction of the steel pipe. It may be installed one by one with a length corresponding to the steel pipe, but it is not limited to this and a plurality of pipes may be placed in series. .

In addition, water-stop injection can be performed at the time of tunnel construction, or as a post-water leak measure after tunnel construction. If multiple water-stop injection pipes are installed in series, the water-stop system can be selectively applied only to the section where water leakage occurred. can also be injected.

Meanwhile, comparing the embodiment of FIG. 2b with the embodiment of FIG. 2a, in the case of the embodiment of FIG. 2b, when pouring the wall 12 and the ceiling 13, a water-stop injection pipe ( By additionally embedding 25d) and the water stop plate (30), water leakage from the joints can be blocked more thoroughly. In addition, the water stop agent filling efficiency can be increased by connecting spare supply pipes to each water stop agent injection pipe 25 at regular intervals as shown in FIGS. 2B and 4B. For example, if the water stop agent injection pipe is 50 m, 5 m or Spare supply pipes (26a, 26b, 26c) are connected at intervals of 10 m, and each spare supply pipe is partially embedded in the ceiling and the end can be pulled out toward the H beam (13b) installed before pouring concrete on the ceiling to support the steel pipe. . However, the installed H-beams will be cut except for some parts when pouring the ceiling concrete.

Additionally, a check valve 26' can be installed at the end of the preliminary supply pipe so that it opens only when water stoppage is supplied. The water stop agent can be supplied from the front end of the tunnel structure through the water stop supply pipe to the other end of the tunnel structure. In this case, if the water stop agent supply pipe is blocked at the 20m point, the water stop agent is supplied to the water stop agent supply pipe through the spare supply pipe connected to that point. Thus, exponential filling of the remaining sections can be performed. In addition, if the water stop agent is simultaneously supplied and filled from a plurality of spare supply pipes along with the water stop pipe, the filling time can be shortened and uniform filling of the water stop agent can be achieved for all sections.

Meanwhile, hereinafter, the water leak prevention structure of the structure according to the present invention will be described.

Figure 6 is a diagram showing the water leak prevention structure of the structure according to the present invention, and Figure 7 is a cross-sectional view showing concrete poured into the form and filled with a water stop agent in Figure 6.

Referring to Figures 6 and 7, the water leak prevention structure of the structure according to the present invention is installed at the joint between the floor of the civil engineering structure (11) or the floor of the building structure and the wall (12) installed on the floor (11). In this case, the lower part is embedded in the floor 11, the upper part is embedded in the wall 12, and the water stop plate 30 is made of an elastic part 32 disposed between the lower part and the upper part, and the water stop plate 30 It includes a water stopper injection pipe (25) installed on one side or the other side. Here, the civil engineering structure may be a tunnel.

As shown in FIGS. 4 and 5, the water stop agent injection pipe 25 has a structure in which a plurality of outlets 25a are formed along the outer peripheral surface in the longitudinal direction. When the water stop agent is injected through one end, the outlet 25a is opened. It fills the space between the floor 11 and the wall 12 of the structure.

In this way, in the present invention, installing a water stop agent injection pipe and filling the water stop agent has the advantage of blocking water leakage more thoroughly.

The present invention described above is merely illustrative, and those skilled in the art will appreciate that various modifications and other equivalent embodiments are possible therefrom. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the detailed description above. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached patent claims. In addition, the present invention should be understood to include all modifications, equivalents and substitutes within the spirit and scope of the present invention as defined by the appended claims.

10: tunnel 11: floor
12: Wall 13: Ceiling
13b: H beam 15: Formwork
20: steel pipe structure 21: steel pipe
22: Steel pipe pouring part 22a: Joint part
23: support bracket 23a: fixing part
23b: extension part 23c: fixing ring part
25: water stopper injection pipe 25a: outlet
26a, 26b, 26c: Spare supply pipe 26': Check valve
27: water stopper 30: waterstop plate
31: lower part of water stopper 32: elastic part
32a: hollow hole 33: upper part of water stop plate

Claims (5)

press-fitting a plurality of steel pipes into the tunnel construction target area and forming a steel pipe structure;
Excavating the inside of the steel pipe structure;
installing a water stopper injection pipe between the neighboring steel pipes;
Connecting a plurality of preliminary supply pipes along the longitudinal direction of the water stop agent injection pipe, and installing a check valve at the end of the preliminary supply pipes;
Constructing a tunnel structure by pouring concrete inside the steel pipe structure and simultaneously allowing the preliminary supply pipe to be pulled out into the tunnel structure;
sealing the space between the steel pipe and the tunnel structure by injecting a water stop agent into each of the water stop agent injection pipe and the preliminary supply pipe;
A water leak prevention construction method for a tunnel, comprising:
According to paragraph 1,
The water stop agent injection pipe has a structure in which one end is drawn out through the tunnel structure and a plurality of outlets are formed along the outer peripheral surface in the longitudinal direction. When the water stop agent is injected through one end, it is discharged into the space between the steel pipe and the tunnel structure through the outlet. A water leak prevention construction method for a tunnel characterized by filling.
According to paragraph 1,
The water stopper injection pipe is fixed by a support bracket,
The support bracket has a fixing part inclined to the left and right so that the upper end can be inserted and bonded or welded between neighboring steel pipes, an extension part extending downward from the fixing part, and a place where the water-stop injection pipe is inserted. A water leak prevention construction method for a tunnel, characterized in that it consists of a fixed ring part.
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