KR101293683B1 - Suspention method for buried structures using joint member - Google Patents

Abstract

PURPOSE: A suspension method for an obstruction using a wing member is provided to improve workability and stability of a work and to prevent an obstruction from being damaged. CONSTITUTION: A suspension method for an obstruction using a wing member comprises as follows. An upper support unit (100) is installed on the upper part of an obstruction (1). A side of the obstruction is preliminarily excavated. A wing member (200) is individually installed on both sides of the obstruction. The wing member and the upper support unit are connected by a connection member (300). The lower part of the obstruction is excavated.

Description

Hanging obstacles using wing member {SUSPENTION METHOD FOR BURIED STRUCTURES USING JOINT MEMBER}

The present invention relates to the construction field, and more particularly, to a hanging method of obstacles.

Obstacles (1) exposed to the construction section when underground structures (a) such as underground roads and trains must be constructed by the submerged construction method in the lower part of the section where the obstacles (1) such as sewer pipes and wire conduits are buried. It is necessary to temporarily hang by a separate temporary structure (Fig. 1,2).

1 and 2 are views for explaining a conventional obstacle hanging method.

As shown in the drawing, first, the widthwise beam 13 supported by the pile 11 is installed, and both sides of the obstacle 1 are excavated, and then both ends of the wire supported by the widthwise beam 13 ( Install 2) around obstacles (1).

In the case where the obstacle 1 has a rectangular cross-sectional structure, there is a problem of breakage due to bending when the wire 2 directly contacts the edge of the obstacle 1, so that the obstacle 2 between the wire 2 and the obstacle 1 Spacers 3, such as wood, are installed so that the wires 2 are bent at a gentle angle in the corner region.

In this state, the lower part of the obstacle 1 is excavated, and the sub beam 22 and the main beam 23 are installed in the bracket 21 provided on the main pile 12, so that the main beam 23 is the obstacle ( By contacting the lower end of 1), the obstacle 1 is supported upward.

In order to ensure stable contact between the main beam 23 and the lower end of the obstacle 1, a filler 24 is provided therebetween.

Then, the bottom of the obstacle (1) is completely excavated and the underground structure (a) is constructed.

However, such a conventional method has the following problems.

First, since the wire 2 installed to surround the obstacle 1 is a flexible material having a relatively large deformation, the obstacle 1 is supported by the wire 2 without the main beam 23. In this state, deflection of the obstacle 1 occurs.

If the obstacle 1 is a concrete pipeline, the problem is serious in that the occurrence of deflection at some points is connected to the crack of the obstacle 1.

Second, since the obstacle 1 is supported by the wire 2 is a dangerous state due to the deformation of the wire 2 as described above, the stability of the work when the lower excavation of the obstacle 1 is problematic.

Third, after digging both sides of the obstacle (1) to install the sub-beams 22, through the lower portion of the obstacle (1) to proceed with the excavation to install the main beam 23, in a narrow space The workability is poor because it is necessary to transport and install these materials.

Fourth, since it is very difficult to construct the main beam 23 so that the lower end of the main beam 23 and the obstacle (1) exactly contact, it is necessary to charge by a separate filler 24, which is excessive labor and cost It takes

The present invention has been made to solve the above problems, and there is no fear of damaging the obstacles, and an object of the present invention is to propose a obstacle hanging method excellent in work stability and workability.

In order to solve the above problems, the present invention, in order to construct the underground structure (a) in the lower portion of the obstacle (1), in the hanging method of temporarily hanging the obstacle (1), the obstacle (1) An upper support part 100 installing step of installing the upper support part 100 on an upper part of the upper part; Pre-excavation step of excavating the side of the obstacle (1); A pair of wing member installation steps of installing wing members 200 on both sides of the obstacle 1, respectively; An upper support part connecting step of connecting the wing member 200 and the upper support part 100 by a connection member 300; The present invention provides a method for hanging obstacles using a wing member including a main excavation step of digging the lower portion of the obstacle 1.

The upper support part 100 includes a pair of longitudinal beams 110 installed in the longitudinal direction on the left and right sides of the obstacle 1, respectively; And a widthwise beam 120 installed in the width direction so as to be supported by the pair of longitudinal beams 110. The connecting member 300 is supported upward by the widthwise beam 120. It is preferred to be installed.

The upper support part 100 preferably includes a pile 111 embedded to support the pair of longitudinal beams 110.

The upper support part 100 includes a second longitudinal beam 130 installed in a longitudinal direction so as to be supported by the widthwise beam 120, and the connection member 300 includes the second longitudinal beam ( 130 is preferably installed to be supported upward.

The wing member 200 preferably has a connection member through-hole 201 formed in the vertical direction so that the connection member 300 penetrates and engages.

The wing member installation step is to install an anchor 210 on the side of the obstacle (1) to protrude to the outside; Installing a formwork 202 to surround the side of the obstacle (1); Placing concrete on the formwork 202 to form the wing member 200, to be integrally coupled to the anchor 210; preferably.

The wing member installation step is to form a coupling member installation groove 221 or a coupling member installation hole 222 on the side of the obstacle (1); Manufacturing a precast member 200a having a coupling member through hole 223 formed along a width direction thereof; By coupling the coupling member 220 penetrating the coupling member through-hole 223 to the coupling member mounting groove 221 or the coupling member mounting hole 222, the precast member 200a to the obstacle (1). It is preferable to include; forming on the side of the) to form the wing member 200.

The connection member 300 is preferably a steel bar or strand.

The present invention provides a obstacle hanging method excellent in the stability and workability of work without fear of damage to the obstacle.

1 is a cross-sectional view of a conventional obstacle hanging method.
2 is a longitudinal sectional view of a conventional obstacle hanging method.
3 or less shows an embodiment of the present invention,
3 to 6 are process diagrams of the first embodiment.
7 is a perspective view of the obstacle and the wing member.
8 is a process diagram of the second embodiment.
9 is a process diagram of the third embodiment.
10 is a process chart of a fourth embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown below in Figure 3, the present invention basically relates to a suspension method for temporarily hanging the obstacle (1) in order to construct the underground structure (a) in the lower portion of the obstacle (1), It is made by the same process.

The upper support part 100, such as the longitudinal beam 110, the width | variety beam 120, is installed in the upper part of the obstacle 1 (FIG. 3).

Excavating the sides of the obstacle 1, but the lower portion of the obstacle 1 is not excavated, but the center part is left, so that the obstacle 1 is in a state of being supported upward by the portion (Fig. 4). ).

The wing members 200 are respectively installed on both sides of the obstacle 1, which may take a field casting method, a coupling method of a precast member, and the like (FIG. 5).

The wing member 200 and the upper support part 100 are connected by the connection member 300 so that the obstacle 1 is supported upward by a pair of wing members 200 installed at both sides (FIG. 6). ).

As a result, a stable suspension structure of the obstacle 1 is completed, and thus, the bottom of the obstacle 1 is mainly excavated to form an underground structure.

The method according to the present invention has the following effects.

First, there is no fear of damage due to sagging of the obstacle 1.

In the conventional method, since the obstacle 1 must be surrounded by one member, there is a problem of sagging of the obstacle 1 due to the use of a flexible wire.

However, in the present invention, a pair of separate wing members 200 is installed at both lower edges of the obstacle, and the pair of wing members 200 are connected to each other by the connection member 300 to support the obstacle 1. Since it takes a structure to make, the connection member 300 by using a material with less deformation can be used, it can solve the same problem as the conventional method.

Second, when the lower excavation of the obstacle (1) the work stability is excellent.

The method according to the present invention does not excavate the lower part of the obstacle 1 in a state where the obstacle 1 is temporarily supported by the wire 2 as in the prior art, and the center portion of the lower part of the obstacle 1 is not excavated. In the non-drilled state, the support structure by the wing member 200, etc. is completed, and since the bottom main excavation work of the obstacle 1 is performed afterwards, a safe operation is possible.

Third, the workability is excellent.

Since the wing member 200 and the connection member 300 have a smaller size than the sub beam 22 and the main beam 23 used in the conventional method, even when the space is narrow, excellent workability can be expected. .

Fourth, labor and cost can be reduced.

After excavation of the lower edge of the obstacle 1, since the wing member 200 can be accurately installed on the side of the obstacle 1, it is unnecessary to install a separate filler 24 as in the conventional method. The labor and cost of doing so can be greatly reduced.

EMBODIMENT OF THE INVENTION Hereinafter, the Example regarding the specific content of the construction method by this invention is described.

The upper support part 100 may be installed on the obstacle 1, and may have any structure that can support the vertical connecting member 300 upwards, but may be in the longitudinal direction on the left and right sides of the obstacle 1, respectively. A pair of longitudinal beams 110 installed; And a widthwise beam 120 installed in the width direction so as to be supported by the pair of longitudinal beams 110. The vertically connecting member 300 is installed to be supported upward by the widthwise beam 120. Taking the structure is preferred for structural stability (FIG. 6).

In the case of solid ground, there would be no problem even if a pair of longitudinal beams 110 were installed on the ground, but in the case of soft ground, a separate pile 111 was buried, whereby a pair of longitudinal beams were installed. It is desirable to allow 110 to be supported (FIG. 6).

And a second longitudinal beam 130 in the longitudinal direction so as to be supported by the widthwise beam 120, and the vertical connecting member 300 is supported upward by the second longitudinal beam 130. It is more preferable to install in terms of structural stability and workability.

The coupling structure of the wing member 200 and the connecting member 300 may be any type as long as a stable hanging structure of the obstacle 1 is secured, but the connecting member through groove 201 is vertically connected to the wing member 200. It is formed, it is preferable to take the structure through which the connecting member 300 is coupled through it for structural stability (Figs. 6 and 7).

The wing member 200 may be installed by a field casting method, a coupling method of a precast member, and the like (FIG. 5).

In the former case, installing an anchor 210 on the side of the obstacle (1) to protrude outward; Installing a formwork 202 to surround the side of the obstacle (1); Forming the wing member 200 by pouring concrete in the formwork 202, to be integrally coupled with the anchor 210; is preferably configured by (Fig. 8).

In the latter case, forming a coupling member installation groove 221 or coupling member installation hole 222 on the side of the obstacle (1); Manufacturing a precast member 200a having a coupling member through hole 223 formed along a width direction thereof; By coupling the coupling member 220 penetrating the coupling member through hole 223 to the coupling member mounting groove 221 or the coupling member mounting hole 222, the precast member 200a is provided on the side surface of the obstacle 1. Forming the wing member 200 by installing in the; is preferably configured by (Fig. 9.10).

When the wall of the obstacle 1 is thick, it is preferable to form the coupling member mounting groove 221 on the side of the obstacle 1, and to install the coupling member 220, and the obstacle 1 When the thickness of the wall is thin, it is preferable to penetrate the coupling member mounting hole 222 on the side surface of the obstacle 1 and to penetrate the coupling member 220.

The connection member 300 may be formed of a flexible material such as a stranded wire, or may be formed of a rigid material such as a steel bar. In the former case, the connection member 300 is preferably tensioned and fixed to the support 200.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: obstacle 100: upper support
110: longitudinal beam 111: file
120: widthwise beam 130: second longitudinal beam
200: wing member 300: connection member

Claims (8)

In the hanging method of temporarily hanging the obstacle (1) in order to construct the underground structure (a) in the lower portion of the obstacle (1),
An upper support part 100 installation step of installing an upper support part 100 on an upper part of the obstacle 1;
Pre-excavation step of excavating the side of the obstacle (1);
A pair of wing member installation steps of installing wing members 200 on both sides of the obstacle 1, respectively;
An upper support part connecting step of connecting the wing member 200 and the upper support part 100 by a connection member 300;
A main excavation step of digging the lower portion of the obstacle 1;
Hanging obstacle method using a wing member containing. The method of claim 1,
The upper support part 100
A pair of longitudinal beams 110 installed in the longitudinal direction on the left and right sides of the obstacle 1, respectively;
And a width beam 120 installed in the width direction so as to be supported by the pair of longitudinal beams 110.
The connecting member 300 is
Hanging obstacles using the wing member, characterized in that installed so as to be supported upward by the width beam (120). The method of claim 2,
The upper support part 100
A pile 111 embedded to support the pair of longitudinal beams 110;
Obstruction hanging method using a wing member comprising a. The method of claim 2,
The upper support part 100
And a second longitudinal beam 130 installed in the longitudinal direction so as to be supported by the width beam 120.
The connecting member 300 is
The obstacle hanging method using the wing member, characterized in that installed so as to be supported by the second longitudinal beam (130) upward. The method of claim 1,
The wing member 200
Hanging method using a hedge member, characterized in that the connecting member through groove 201 is formed in the vertical direction so that the connecting member 300 is coupled through. The method of claim 5,
The wing member installation step is
Installing an anchor 210 on the side of the obstacle (1) to protrude to the outside;
Installing a formwork 202 to surround the side of the obstacle (1);
Placing concrete in the formwork 202 to form the wing member 200, to be integrally coupled to the anchor 210;
Obstruction hanging method using a wing member comprising a. The method of claim 5,
The wing member installation step is
Forming a coupling member installation groove 221 or a coupling member installation hole 222 on the side of the obstacle 1;
Manufacturing a precast member 200a having a coupling member through hole 223 formed along a width direction thereof;
By coupling the coupling member 220 penetrating the coupling member through-hole 223 to the coupling member mounting groove 221 or the coupling member mounting hole 222, the precast member 200a to the obstacle (1). Installed on the side of the blade to form the wing member 200;
Obstruction hanging method using a wing member comprising a. The method of claim 1,
The connecting member 300 is hanging obstacle method using a wing member, characterized in that the steel bar or strand.

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