KR101707376B1 - Structure for constructing underground structure using composite beams and the construction method thereof - Google Patents

Abstract

The present invention relates to a structure to construct an underground structure using a composite beam, and a construction method for the same. According to the present invention, the structure to construct the underground structure using the composite beam comprises: a pair of support piles embedded in a plurality of places to construct an underground structure, temporarily installed by being separated from each other; a temporary bracket individually connected to both sides of the support pile; a pair of temporary supports individually mounted on an upper side of the temporary brackets of the adjacent support piles in a horizontal direction; a composite beam connection bracket arranged on the upper side of the temporary supports; and the composite beam connected to both sides of the composite beam connection bracket. According to the present invention, the cross section of the support pile is able to be reduced as the pair of support piles performs a support role to be different from an existing invention. As the size of the support pile is reduced, CIP equipment is able to be used more than a PRD construction method. As such, the structure to construct the underground structure using the composite beam is able to reduce construction costs and is able to increase a speed of construction.

Description

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a structure for constructing an underground structure using a composite beam,

The present invention relates to an underground structure construction structure and a construction method, and more particularly, to an underground structure construction structure using a composite beam and a construction method thereof.

Generally, the construction method of the underground structure of the building can be divided into the square pavement method and the submerged pavement method according to the construction direction.

In the sanding method, a temporary support means such as a strut, a lacquer, an earth anchor, a rock bolt and the like are installed along with the earth retaining wall to complete the underground earthworks to the foundation bottom level in a state in which the earth retaining wall is not collapsed, This is a method of constructing structures sequentially from the lowest floor to the ground while dismantling the temporary supporting means from below.

The underground construction method is to perform the underground earthworks and concurrently construct the underground structure, so that the underground structure constructed as the earthworks plays a role of supporting the transverse earth pressure, while the underground structure is installed in the downward direction, It is a method to go down.

Such a backfilling method can be classified into a down-up method, an UP-UP method, and a TOP-DOWN method according to classification of cost and air shortening effect more specifically. FIG. 1 is a conceptual view showing a kind of a conventional backhoe method.

The down-up method shown in FIG. 1 (a) is a construction method that proceeds in the order of a basement-level horizontal member construction, a foundation work precedence, a basement-level vertical member construction, and a ground-layer construction in order to reduce the construction cost of the hypothetical steel- Is a priority method.

1 (b) shows a construction method that considers both construction cost reduction and construction time shortening by simultaneously performing the underground floor vertical member construction and the ground floor construction after the basement floor horizontal member construction and the foundation work precedence.

The top-down method shown in FIG. 1 (c) is a method of simultaneously performing the underground work and the ground work, and is a method of considering the shortening of the air preferentially.

As a representative example of the down-up method, there is a method proposed in the registered patent No. 0967496. In the above-mentioned patent, a center file is installed in advance, and a frame structure is formed in advance by using a horizontal structure, an interlayer pillar, or the like. Then, the slabs of the basement are sequentially poured downward, and the piles between the basement and the floor are sequentially poured upward. In the above-mentioned patent, although the inter-basement pillar is described as a steel frame, it is generally practically installed as an RC column. Finally, after inserting the inter-basement interstices, the center pile is removed.

The above-mentioned patent has a disadvantage in that the number of members constituting the floor is too large, there are many joining parts, the workability is lowered, and installation labor is increased.

Also, it is difficult to manage the construction because it is necessary to form a large opening in advance for the post installation of the column between the underground layer and the surrounding part to be installed in the RC column during the construction process.

Korean Registered Patent No. 0967496 (2010. 06. 24), "Underground Structure Construction Device" Korean Registered Patent No. 0967497 (2010. 06. 24), "Construction Method for Underground Structures"

An object of the present invention is to provide an underground structure construction structure and a construction method thereof using a composite beam having improved workability by reducing the number of necessary members.

In order to accomplish the above object, an underground structure construction structure using a composite beam according to an embodiment of the present invention includes a pair of support files inserted into a plurality of locations for installation of an underground structure, and spaced apart from each other; A hypothetical bracket coupled to both sides of the support pile; A pair of temporary shelves which are respectively mounted on the upper side of the temporary brackets of the adjacent support files in the horizontal direction; A brace joint bracket disposed above the temporary shelves; And a composite beam coupled to both sides of the composite beam-combining bracket.

Here, the braided composite bracket may include a lattice-shaped reinforcing rib plate on the inner side.

In addition, the composite beam-combining bracket may also serve as an upper mold for the column.

Further, a reinforced concrete column may be further provided on the lower side of the composite beam-joining bracket.

Further, it is possible to further include a deck plate and a slab disposed at the upper end of the composite beam, wherein the composite view can be disposed parallel to one direction, not in a lattice shape, on a slab basis.

In addition, the support pawl and the temporary bracket may include H-shaped steel, but may be joined to each other by bolts and nuts.

According to another aspect of the present invention, there is provided a method of constructing an underground structure using a composite beam, the method comprising: penetrating a pair of support files into a plurality of locations; Coupling respective temporary brackets to both sides of the support pile; Disposing a pair of temporary shelves so as to be horizontally mounted on the upper side of the temporary brackets of the adjacent support files and having an upper end positioned at a height of a lower surface of the lower shelf of the underground layer; Disposing a composite brace coupling bracket on the temporary shelves; And combining the composite beams on both sides of the composite beam-combining bracket.

The method may further include a step of forming a reinforced concrete column below the composite beam-joining bracket after coupling the composite beams.

Placing a deck plate at an upper end of the composite beam after the step of forming the reinforced concrete column; Placing reinforcing bars on the composite beams and the deck plate; And forming a slab by pouring concrete into the composite sheet and the deck plate.

According to the construction structure of the underground structure using the composite beam and the construction method thereof according to the embodiment of the present invention,

First, since a pair of support files serve as a support, it is possible to reduce the size of the cross-section of the support file. By reducing the size of the support file, the CIP equipment can be used more than the PRD method. have.

Second, by using a pair of support files and a temporary bracket, it is possible to perform construction while correcting the construction error occurring when installing a conventional post, and the post and beam connection can be installed in a fixed position in the drawing It happens.

Third, using a pair of support piles and a temporary bracket, the length of the beam can be constructed according to the dimension of the drawing, so that cutting or extending work becomes unnecessary.

Fourth, by using the composite beams, the strength of the cross section compared with the existing steel beams is very large, so that the existing three steel bars can be changed to one composite beam.

Fifth, the reinforcing rib plate can reinforce the rigidity of the composite brace bracket and prevent the interference of the main pole of the RC column.

Sixth, it is possible to improve the economical efficiency by reducing the number of members by arranging the composite beams only in one direction, not in a lattice shape, on a slab basis.

Seventh, it is possible to improve the workability by reducing the number of necessary members as compared with the conventional underground structure construction method.

FIG. 1 is a conceptual view showing a kind of a conventional backhoe method.
2 is an exploded perspective view showing a construction structure of an underground structure using a composite beam according to an embodiment of the present invention.
3 is an assembled perspective view of an underground structure construction structure using the composite beam shown in FIG.
4 is a cross-sectional view of the AA line shown in Fig.
5 is a longitudinal sectional view of the BB line shown in Fig.
6 is a plan view of an underground structure using an underground structure construction structure using a composite beam according to an embodiment of the present invention.
7 is a flowchart of a method of constructing an underground structure using a composite beam according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 2 is an exploded perspective view showing a construction structure of an underground structure using a composite beam according to an embodiment of the present invention, FIG. 3 is an assembled perspective view of an underground structure construction structure using the composite beam shown in FIG. 2, Fig. 6 is a plan view of an underground structure using an underground structure construction structure using a composite beam according to an embodiment of the present invention, Fig. 7 is a cross-sectional view of an underground structure according to an embodiment of the present invention, Fig. Fig. 2 is a flowchart of a method of constructing an underground structure using a composite beam.

2 to 6, an underground structure construction structure using a composite beam includes a support file 100, a temporary bracket 200, a temporary placement table 300, a composite beam connection bracket 400, and a composite beam 500.

A pair of support piles (100) are disposed at a plurality of locations for installation of underground structures and are spaced apart from each other. The support file 100 is referred to as a reverse-use king post and is penetrated beyond the depth to be excavated.

In the present invention, since the pair of support pawls 100 serve as a support, the size of the cross section of the support pawl 100 can be reduced. In Fig. 4, a perforation hole BR for penetrating the support pile 100 is shown.

If the size of the support file 100 is reduced, the drilling operation can be performed using a CIP (Cast In Place Pile) instead of the PRD (Percusion Rotary Drill), and the CIP equipment can be used more than the PRD method. In other words, it is possible to utilize the earth retaining construction equipment, which not only reduces the construction cost but also shortens the air.

The temporary brackets 200 are coupled to both sides of the support pile 100, respectively. The support pile 100 and the temporary bracket 200 may be formed of various shapes of sections. As shown in FIG. 2, the striking plate 210 is welded on the upper side of the striking bracket 200 to seat the temporary staking base 300, which will be described later.

When the support pile 100 and the temporary bracket 200 are provided as H-shaped steel, they can be coupled to each other by the bolts B and the nuts N, as shown in the figure.

In this way, by using the pair of support pawls 100 and the temporary bracket 200, it is possible to perform construction while correcting the construction error occurring when installing the existing reverse-use king post, and the column- Can be installed. In addition, since the length of the beam can be constructed according to the dimension of the drawing, it is unnecessary to cut or extend the beam.

The pair of temporary shelves 300 are seated horizontally on the upper side of the temporary brackets 200 of the adjacent support files 100. The temporary holder 300 may also be an H-shaped steel or the like.

Next, the brace joint bracket 400 is disposed on the upper side of the pair of temporary shelves 300. The composite brace coupling bracket 400 is provided in a box shape and is arranged so that the composite beam 500 can be engaged with the temporary support base 300 in a direction perpendicular to the temporary support base 300.

In addition, a lattice-shaped reinforcing rib plate 410 is provided on the inner side of the composite-joint bracket 400. The reinforcing rib plate 410 serves to reinforce the rigidity of the composite-joint bracket 400 and to prevent the interference of the main pole of the RC column.

A stud bolt 430 may be provided on one side of the composite beam-joining bracket 400 to increase the adhesive force and the shear joint strength with the concrete placed in the composite beam 500. In addition, the composite beam-joining bracket 400 may also serve as an upper mold for the column 600. FIG.

A column 600 is formed on the lower side of the composite beam-joining bracket 400, and a reinforced concrete (RC) column may be used.

The composite beams 500 are coupled to both sides of the composite beam-combining bracket 400. As for the shape of the composite beam 500, composite beams of various shapes that are currently developed can be used. Since the composite beam 500 has a greater strength than the conventional steel beam with respect to the sectional size, the existing three steel beams can be changed into one composite beam 500.

As shown in FIG. 6, the composite beam 500 is disposed parallel to the slab 720 in one direction, not in the lattice shape, on the upper end of the composite beam 500. The deck plate 710 and the slab 720 .

That is, as shown in FIG. 6, all the adjacent beams are arranged in parallel in the y-axis direction and can be omitted in the x-axis direction. It is possible to reduce the number of members by arranging the composite beams 500 only in one direction, not in a lattice shape, on the basis of the slab 720, thereby improving the economical efficiency. A deep deck plate 710 is disposed between the composite beams 500.

Next, a method of constructing an underground structure using a composite beam according to an embodiment of the present invention includes steps S110 to S190 as shown in FIG.

Step S110 is a step of penetrating a plurality of support files 100 in a plurality of locations underground.

In step S120, the temporary brackets 200 are coupled to both sides of the support file 100, respectively. As described above, when the support pile 100 and the temporary bracket 200 are provided as H-shaped steel to facilitate disassembly, they are coupled to each other by the bolts B and the nuts N.

In step S130, a pair of temporary shelves 300 are placed horizontally on the upper side of the temporary brackets 200 of the adjacent support files 100, .

Then, in step S140, the brace joint bracket 400 is disposed on the upper side of the temporary shelves 300. [

In step S150, the composite beam 500 is coupled to both sides of the composite beam-combining bracket 400. FIG.

In step S160, a column 600 is formed below the composite beam-combining bracket 400. The column 600 may be an RC column.

In step S170, the deck plate 710 is disposed on the upper end of the composite beam 500, and in step S180, the reinforcing bars 500 and the deck plate 710 are reinforced.

Step S190 is a step of forming a slab 720 by placing concrete on the composite beam 500 and the deck plate 710.

On the other hand, when the slab 720 is formed as described above, S120 through S190 are repeated in the same order as the lower layer, thereby forming the lower layer slab.

When the concrete curing of the composite beam 500, the column 600 and the slab 720 is completed, the temporary fixing bracket 200 and the temporary fixing table 300 are sequentially removed. Finally, when completing the slab curing of the lowermost layer, (100) are removed.

As described above, according to the present invention, since the pair of support files serve as a support, the size of the cross section of the support file can be reduced, and the economical efficiency and workability can be improved.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100 ... support file 200 ... construction bracket
300 ... temporary holder 400 ... composite bracket coupling bracket
500 ... composite beams 600 ... columns

Claims (9)

A pair of support files which are inserted into a plurality of places for installation of an underground structure and are spaced apart from each other;
A hypothetical bracket coupled to both sides of the support pile;
A pair of temporary shelves which are respectively mounted on the upper side of the temporary brackets of the adjacent support files in the horizontal direction;
A brace joint bracket disposed above the temporary shelves;
A synthetic bone joined to both sides of the composite beam-combining bracket; And
And a reinforcing concrete column provided below the composite beam-joining bracket,
The composite beam-combining bracket includes:
And a box-like shape to serve as an upper mold of the column,
And a connecting member disposed so as to be able to engage with the composite beam in a direction perpendicular to the temporary stand,
A reinforcing rib plate in a lattice shape on the inner side,
In one side of the composite beam-joining bracket,
And a stud bolt for increasing an adhesive force and a shear bonding strength to concrete placed in the composite beam. delete delete delete The method according to claim 1,
Further comprising a deck plate and a slab disposed at an upper end of the composite beam,
The composite view,
Wherein the slabs are arranged parallel to one another only in a non-lattice manner on a slab basis. The method according to claim 1,
Wherein the support pawls and the temporary brackets
H-shaped steel, but connected to each other by bolts and nuts. Penetrating a pair of support files into a plurality of underground locations;
Coupling respective temporary brackets to both sides of the support pile;
Disposing a pair of temporary shelves so as to be horizontally mounted on the upper side of the temporary brackets of the adjacent support files and having an upper end positioned at a height of a lower surface of the lower shelf of the underground layer;
Disposing a composite brace coupling bracket on the temporary shelves;
Coupling synthetic bow to both sides of the composite beam-combining bracket; And
And forming a reinforced concrete column on the lower side of the composite beam-combining bracket,
The composite beam-combining bracket includes:
And a box-like shape to serve as an upper mold of the column,
And a connecting member disposed so as to be able to engage with the composite beam in a direction perpendicular to the temporary stand,
A reinforcing rib plate in a lattice shape on the inner side,
In one side of the composite beam-joining bracket,
And a stud bolt for increasing an adhesive force and a shear bonding strength to concrete inserted in the composite beam. delete The method of claim 7,
After the step of forming the column,
Disposing a deck plate on an upper end of the composite beam;
Placing reinforcing bars on the composite beams and the deck plate; And
Further comprising the step of forming a slab by pouring concrete into the composite beam and the deck plate.

Images