KR100565963B1 - Trussed arch roof established upside underground structure and its construction method before constructing of underground structure - Google Patents

Abstract

The present invention relates to an arch truss roof installed on the upper part of an underground structure and a construction method thereof, and after the trench is formed by an open type, a space part is formed by a corrugated steel sheet and an underground structure is formed by forming an underground tunnel under the space part. When digging, it is possible to greatly reduce the soil content and to reduce the load on the underground structure.

Arch truss roof space installation method before construction of the underground structure according to the present invention, the excavation step of digging soil of the site where the corrugated steel sheet is to be formed while the upper portion of the underground structure 10 is to be constructed, the space portion 25 Assembling the corrugated steel plate 23 to form a, and the step of assembling corrugated steel sheet and reinforcing the structure of the space portion to reinforce the structure inside the space 25, and excavate the soil of the lower side of the corrugated steel sheet to form the underground structure 10 It is characterized in that it comprises a step of forming the underground structure, and backfilling the mixture to fill the upper portion of the corrugated steel plate 23 of the space portion 25 to the mixture 30.

Corrugated steel sheet, underground structure, space part, filling mixture

Description

Trussed Arch Roof established Upside Underground Structure and its Construction Method before constructing of Underground Structure}             

1 is a general topographical state diagram showing the topographic conditions of the section where the underground structure is installed.

2 is a cross-sectional view of an underground structure constructed by a conventional cladding method.

Figure 3a to 3d is a step-by-step construction state showing a step-by-step underground construction construction method using a corrugated steel sheet according to the present invention.

Figure 4 is a construction state showing another embodiment of the reinforcing material to reinforce the space of the present invention.

Explanation of symbols on the main parts of the drawings

10: underground structure 22: support

23: corrugated steel sheet 24: reinforcing material

25: space part 30: filling mixture

31: Tobun 32: Styropol

The present invention relates to an arch truss roof installed in the upper part of the underground structure before the construction of the underground structure and a construction method thereof. It relates to an arch truss roof installed on top of the top-down underground structure that can reduce the load of the underground structure by forming a and the construction method.

In general, in order to excavate an underground structure, the toffee layer on the underground structure must be thicker than a certain thickness so that the underground structure can be constructed without collapsing by the arch action.

However, as shown in FIG. 1, there is a case in which the underground structure T is inevitably required to be constructed in a shallow section of the entry and exit A or the valley portion B of the underground structure due to the terrain conditions.

This shallow toffee area cannot be arched because the ground itself is not strong. For this reason, the underground structure in this case was forced to build the underground structure by the underground construction method as shown in FIG.

In the conventional method for constructing underground structures in a shallow toffee area, as shown in FIG. 2, the ground 1 is attached to a sufficient size so that the front-facing lining concrete 3 of the underground structures can be constructed, but the left and right slopes 2 After the opening work is carried out to a large extent so as to have a safe slope so as not to collapse, the formwork and the support for forming the lining concrete 3 are installed, and the concrete is laid on the formwork to form the lining concrete 3. After disassembling the support and the formwork after the lining concrete 3 has been cured, the construction has been carried out by filling the soil 4 again in the upper portion of the lining concrete 3.

However, when the underground structure is installed as an open type, a large amount of soil should be dug up by making the left and right slopes small enough. As a result, environmental damage and many construction costs and construction periods are required. In addition, after the underground structure is installed, more than the amount of soil to be backfilled to the upper part of the underground structure is needed to be excavated by the excavation, and the backfilled soil acts as the upper load to the underground structure itself, which lowers the durability of the underground structure. The service life is shortened, and when the reconstruction of the underground structure, the digging or backfilling becomes complicated.

Therefore, the present invention was developed in view of such a situation, and by carrying out the burrow while supporting the reinforcement in a detachable manner to significantly reduce the amount of cut during construction of underground structures with shallow entrances and toffees of underground structures to be environmentally friendly and safe construction, It provides arch truss roof and its construction method which is installed on the upper part of underground structure through eco-friendly construction that saves earthwork volume and secures safety by forming a space part on the upper part of underground structure as the slope protection is unnecessary by installing underground structure in shallow toffee. Has its purpose.

The construction method of the arch truss roof installed on the basement structure of the present invention for achieving the above object, the step of digging the soil of the site where the corrugated steel sheet is to be formed while the upper portion of the basement structure 10 is to be constructed; , Assembling the corrugated steel sheet 23 to form the space portion 25, and assembling the corrugated steel sheet and reinforcing the structure of the space portion to reinforce the structure inside the space portion 25, and excavating soil from the lower side of the corrugated steel sheet. It is characterized in that it comprises a step of forming the underground structure to form the structure 10, and the mixture backfill step of filling the upper portion of the corrugated steel plate 23 of the space portion 25 with the mixture 30.

In the present invention, the underground structure 10 is formed in the basement, the upper portion of the underground structure 10 with a corrugated steel plate 23 as a roof there is formed a space portion 25 therein, the corrugated steel plate 23 An arch truss formed on the upper part of the underground structure, characterized in that the reinforcing member 24 for reinforcing the space 25 is formed, the filling mixture 30 is filled in the upper outer periphery of the corrugated steel sheet 23 A roof is proposed.

In addition, in the present invention, the arch mixture truss roof is installed on top of the underground structure, characterized in that the filling mixture 30 is made of soil powder 31 and recycled styropole 32 to lower the load of the underground structure (10). .

In addition, in the present invention, the reinforcing material 24 is formed to be tensioned from the outside of the corrugated steel sheet to the center by a plurality of steel wires (29) formed radially to reinforce the space 25 inside the corrugated steel sheet (23). An arch truss roof is proposed that is installed on top of an underground structure.

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

3a to 3d is a step-by-step construction state diagram showing step by step installation method of arch truss roof type space before construction of underground structure according to the present invention, Figure 4 is a construction state diagram showing another embodiment of the reinforcement to reinforce the space of the present invention to be.

As shown in Figures 3a to 3d, the first step of the arch truss roof construction method installed on the upper part of the underground structure according to the present invention is a trench step, the upper side of the site where the underground structure 10 is to be constructed, corrugated steel sheet This is a step of digging soil soil of the site to be formed.

Here, the underground structure refers to the tunnel as an embodiment in the drawings, but is not limited to the tunnel refers to a structure installed to form a space among the structures installed underground.

In addition, in the practice of the present invention is formed to have a constant slope so that the left and right slopes do not collapse in accordance with the site situation, the space where the corrugated steel plate is installed by excavating soil is the upper part of the underground structure to be built later. The slope of digging soil is determined to secure a space for forming the corrugated steel plate 23 and the underground structure 10. In the trench according to the present invention, another method for securing space and securing stability, such as installing a reinforcement 12, may be used.

The next step is the corrugated steel sheet assembly and the space structure reinforcement step, which forms a space portion 25 having an effect of reducing the load acting on the underground structure to be constructed later, which assembles the corrugated steel sheet 23, The structure of the space 25 provided inside the corrugated steel sheet is reinforced.

As shown in FIG. 3B, after forming the supporting parts 22 on both sides of the bottom of the turbine part, the corrugated steel plate 23 is assembled to the upper part of the supporting part 22 to form the underground structure 10 inside the corrugated steel plate 23. The space portion 25 is formed so as to lower the load.

Inside the assembled corrugated steel sheet 23 is provided with a reinforcing member 24 to withstand the upper load of the corrugated steel sheet 23 itself, but the structure or type of material of the reinforcing material 24 is not limited, What is necessary is just to be able to support the inside of the corrugated steel sheet 23 so that an upper part may not collapse or deform under load.

The next step is to form the underground structure, and excavate the soil on the lower side of the corrugated steel sheet and form the underground structure 10. As shown in FIG. The base structure 22 is provided with symmetrical support parts 22 symmetrically along the longitudinal direction of the part, and fixed to support one end of the corrugated steel plate 23 on the support part 22, and then the corrugated steel plates 23 are designed. Assemble with

At this time, assembling the corrugated steel sheets 23 is advantageous to increase the structural strength of the corrugated steel sheets 23 assembly by arranging the corrugated steel sheets 23 in a zigzag form. In addition, when the ground of the attached bottom surface is poor, it is preferable to install the supporting part 22 after reinforcing and reinforcing concrete on the bottom surface of the excavated portion.

After the corrugated steel sheet 23 assembly is completed as described above, the exterior portion 13 is formed on the outer surface of the corrugated steel sheet 23 assembly, and the exterior portion is formed using short concrete or reinforced concrete. Here, the underground structure is described as an embodiment of the tunnel, but the structure is not limited to the tunnel, but any structure that is installed to form a space among the structures installed underground, other structures are included in the scope of the above contents.

The next step is to refill the mixture, and to fill the upper portion of the corrugated steel plate 23 of the space portion 25 with the mixture 30. When the corrugated steel sheet 23 and the reinforcing material 24 are installed as shown in FIG. The upper portion of the corrugated steel sheet 23 is filled with a finish, in which the mixture 30 is made of soil powder 31 and recycled styropole 32 to lower the load of the underground structure 10.

Referring to the arch truss roof installed on the upper part of the underground structure manufactured by the arch truss roof construction method installed on the upper part of the underground structure as follows.

Underground structure 10 is formed underground, the support portion 22 is formed in the longitudinal direction so that the corrugated steel plate 23 is assembled on the upper side of the underground structure, the corrugated steel plate 23 on the base portion 22 This assembly is formed a space portion 25 for lowering the load of the upper portion of the underground structure (10).

In addition, a reinforcing member 24 for supporting the external load of the corrugated steel sheet 23 to reinforce the space 25 inside the corrugated steel sheet 23 has a top and a side portion of the corrugated steel sheet 23. It is formed to be supported on, the filling mixture 30 is filled in the upper outer periphery of the corrugated steel sheet (23).

Here, the reinforcing material 24 may reinforce the upper and side portions of the space portion by forming a structure such as a truss to reinforce the space portion 25 inside the corrugated steel sheet 23 as shown in FIG. 3D, and as shown in FIG. 4. One end of the steel wire 29 may be connected to each other and the other end of the rigid wires may be connected to the other steel wire 29 so as to be tensioned from the outside of the corrugated steel sheet to the center by the plurality of steel wires 29.

The filling mixture 30 is composed of soil powder 31 and recycled styropole 32 to lower the load of the underground structure 10, and also the filling mixture at the upper portion of the underground structure 10 and the lower portion of the space bottom plate 21. 30 may be filled.

Therefore, the underground structure 10 having the corrugated steel sheet 23 inwardly can consistently construct the underground structure 10 in the region where the toffee is shallow, and the space portion formed of the corrugated steel sheet 23 and the reinforcement 24. (25) and the filling mixture (30) is located on top of the underground structure (10) to reduce the external load of the underground structure (10) itself to extend the life of the underground structure (10) and to the structure of the underground structure (10) It improves durability.

As described above, the arch truss roof type space installation method and the space structure of the present invention before the construction of the underground structure is a detachable support while the reinforcement proceeds through the trench to significantly reduce the amount of cut during construction of underground structures with shallow entrance or toffee of the underground structure It is eco-friendly and safe construction, and installation of underground structures on shallow toffees eliminates the need for non-cotton protection and forms a space on top of the underground structures, thus reducing the amount of earthwork and ensuring safety.

In addition, it is possible to reduce the inclination slope of the shaft, to protect the natural environment, to eliminate the need for follow-up work or to dig and backfill in the subsequent work, and to provide an effect of reducing the air while reducing the cost.

In addition, it can be reinforced inside and outside of the corrugated steel sheet assembly, and it is an economical structure, and the inner space of the corrugated steel sheet assembly can be utilized as a space for ventilation, light, work, and the like.

Claims (4)

Digging step of digging soil soil of the site where the underground structure 10 is to be formed while the corrugated steel sheet is formed, Assembling the corrugated steel sheet 23 to form the space portion 25, and assembling the corrugated steel sheet and reinforcing the space portion structure to reinforce the structure inside the space portion 25; An underground structure forming step of digging soil soil under the corrugated steel sheet and forming the underground structure 10; Construction method of the arch truss roof is installed on the basement structure, characterized in that it comprises a step of filling the mixture back to fill the upper portion of the corrugated steel plate 23 of the space 25 with the mixture (30). Underground structure 10 is formed in the basement, the upper portion of the underground structure 10 with a corrugated steel plate 23 as a roof there is formed a space portion 25, the inside of the corrugated steel plate 23 is a space portion Arch truss roof is installed on the basement structure, characterized in that the reinforcing member 24 is formed to reinforce (25), the filling mixture 30 is filled in the upper outer periphery of the corrugated steel sheet (23). The method according to claim 2, The filling mixture 30 is an arch truss roof installed on top of the underground structure, characterized in that consisting of soil powder 31 and recycled styropole 32 to lower the load of the underground structure (10). The method according to claim 2, The reinforcing member 24 is formed to be tensioned from the outside of the corrugated steel sheet to the center by a plurality of steel wires (29) radially formed to reinforce the space 25 inside the corrugated steel sheet (23) Arch truss roof installed on the roof.

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