KR101566528B1 - Basement extension construction method using underground structure - Google Patents

Abstract

The present invention relates to a method of constructing a core of an existing building by extending a core portion of the existing building to a basement and enlarging a vertical copper line space connected to the underground parking lot, It is another object of the present invention to provide a method of constructing an underground layer using an underground structure that improves structural stability and workability of a partial vertical copper wire space.
In order to achieve the above-mentioned object, the present invention provides an underground structure extending from a basement and a new foundation slab by using an underground structure of an existing building, securing the structural stability of the underground structure by supporting the ground wall,
It is possible to easily remove the existing foundation slab and the inner foundation pile of the core portion since the foundation structure of the existing building is not used, and to install the fixing cap on the inner foundation foundation file before the underground structure, It is a technical characteristic to transmit and support evenly.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a basement extension construction method using an underground structure,

The present invention relates to a method of constructing an underground floor extension space for securing a space for a vertical subway line. In order to secure a space for a subway vertical line connecting a remodeled underground parking lot, an underground structure and a ground wall are used, The present invention relates to a method of constructing an underground layer expansion that improves safety.

Conventional existing architectural structures are equipped with ground parking spaces only. Therefore, it is necessary to expand the parking spaces due to the increase in the number of vehicles. Also, it is necessary to dismantle the existing building structure and to secure the parking space in the basement, ,

Since it is not easy to secure a new parking space on the ground in an existing building structure, a remodeling work that newly builds an underground parking lot utilizing existing building structures is put into practical use.

FIG. 1 (a) is a cross-sectional view showing a core portion of an existing building, and FIG. 1 (b) is a cross-sectional view showing that a core portion of an existing building is extended to a basement.

In the conventional technique for expanding an underground parking lot, microfiles and a hypothetical frame are installed in a core portion of a ground structure and a core portion, which is a vertical copper line portion, is extended to a basement floor to secure an underground space, Are as follows.

3A to 3F are sectional views showing a construction process of the remodeled underground layer core portion of the prior art. In FIG. 3A, the elevator house wall portion 1 and the one-story stairway are demolished.

Next, in order to expand the underground floor of the building core portion in FIG. 3B, the microfilter 2 is installed in a predetermined area of the one-story slab 8 of the core portion including the one-story elevator room and the one- Install in the ground at intervals.

A yoke 10 is installed on the top of the micro pile 2 and a brace 11 is provided between the yoke 10 and a fixing plate 14 fixed to the one-layer ceiling by bolts 19. [ And the steel pipe support 9 is provided on the one-storey outer-side ground wall 12,

Supporting the core part 1-layer ground wall 12 by the brace 11 and the steel pipe support 9 when the slab 8 of the building core part and the existing foundation slab 7 are demolished, A predetermined area 4 of the slab 8 and the existing foundation slab 7 is cut,

The ground foundation pile (5) of the core part supports the ground floor wall (12) on the first floor and the inner foundation pile (12) 6) to the bottom of the soil.

3E, an underground extension wall 17 supporting the one-storey outer-side ground wall 12 is installed, an underground extension wall 16 supporting the one-inner-side ground wall 12 is installed, And a new foundation slab 18 for supporting the external extension walls 16 and 17 is provided so that the upper load of the building transferred to the one-story ground wall 12 is connected to the inside and outside extension walls 16 and 17 The new foundation slab 18 is supported.

In Fig. 3F, the hypothetical frame such as the brace 11, the yoke 10, and the steel pipe support 9, and the microfilm 2 are removed, and the core portion of the building basement layer, which is a vertical copper space connected to the underground parking lot, is completed.

In the conventional technique, a microfile is installed in an existing underground structure, a hypothetical frame is installed to support a ground wall, and an underground space is enlarged. Since the microfiles are small-diameter files, the supporting force is not reliable due to a long buckling length. It is unstable, it is necessary to install a reinforcement structure to prevent buckling, and a construction frame must be installed separately, which is complicated and not economical.

Therefore, it is necessary to develop a method of constructing a basement extension for securing the space of the basement vertical copper line, which improves the structural stability and construction without using any existing building structure while using the existing building structure.

The present invention relates to a method of constructing a core of an existing building by extending a core portion of the existing building to a basement and enlarging a vertical copper line space connected to the underground parking lot, It is another object of the present invention to provide a method of constructing an underground layer using an underground structure that improves structural stability and workability of a partial vertical copper wire space.

In order to achieve the above-mentioned object, the present invention provides an under-floor extension wall and a new foundation slab by using foundation files of an existing building structure, thereby supporting a ground wall that transmits the upper load of the building, However,

The principle of solving the problem is to improve the workability of the underground layer expansion work by removing the existing foundation slab and the inner foundation pile of the building core portion without using the built-in structure.

A method of constructing a sub-layer expansion using an underground structure, which is a specific embodiment of the present invention, includes a step of demolishing a first floor elevator room wall part 1 and a first floor step of a building core part; Cutting a predetermined area (4) of the core part one-layer slab (8) for underground expansion;

Destructing the bottom portion of the core portion to a predetermined depth through a predetermined area (4) of the cut single-layer slab (8); Installing a fixing cap (100) around the lower part of the inner base pile (6) of the inner and outer base piles (5, 6) exposed in the ground debris of the core part;

Installing an outer extension wall (16, 17) in the basement underground just below the ground wall (12) to support the ground wall (12) of the core portion; Installing a new foundation slab (18) to support the inside and outside extension walls (16, 17) and to fill the fusing cap (100);

And a step of removing the existing foundation slab 7 and the inner foundation pile 6 which are located in the underground inside extension wall 16, .

Since the present invention can extend the basement layer by using the foundation file of an existing building without using a built-in structure in order to secure the vertical copper line space of the building core portion, the structural stability of the underground structure There is an increasing effect.

In addition, since the present invention does not use a temporary structure when the basement layer of the building core portion is expanded, it is easy to remove the existing foundation slab and the inner foundation pile of the core portion, thereby improving workability and providing a fixing cap at the bottom of the inner foundation pile, So that the load on the ground is evenly distributed and supported on the ground.

The present invention has the effect of eliminating the restriction of building area and building regulations in a building having a wall structure and freely expanding an underground space practically regardless of an underground condition by using an underground structure of an existing building.

1 (a) is a cross-sectional view showing a core portion of an existing building
1 (b) is a cross-sectional view showing that the core portion of the existing building is extended to the basement
FIG. 2 is a cross-sectional view showing the connection of the remodeled underground parking lot of the present invention to the underground layer core portion.
Figs. 3A to 3F are cross-sectional views showing a construction process of a remodeled underground core portion of the prior art
4A to 4F are cross-sectional views illustrating a construction process of a remodeled underground core portion according to an embodiment of the present invention
5A is a front view of a fixing cap, which is an embodiment used in the present invention.
FIG. 5B is a plan view of FIG.
6A is a front view of a fixing cap, which is another embodiment used in the present invention.
Fig. 6B is a plan view of Fig.

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

In the present invention, the inner and outer underground extension walls and the new foundation slab are installed by using the foundation file of the existing building, the structure of the underground structure is secured by supporting the ground wall,

The foundation cap is installed on the inner foundation file of the underground structure to distribute and support the upper load of the foundation structure evenly to the ground and does not install the foundation structure so that the existing foundation slab and the inner foundation file can be easily demolished It is a technical feature.

The present invention is applied to an underground structure extending from a core portion including a first floor elevator room and a stairway to a basement, which is a vertical copper line space in remodeling of a building, and is useful for remodeling a wall-structure residential building built with a reinforced concrete structure.

FIG. 2 is a cross-sectional view illustrating a remodeled underground parking lot of the present invention connected to a core portion of a basement layer. FIGS. 4A to 4F are cross-sectional views illustrating a construction process of a remodeled basement layer core according to an embodiment of the present invention. In FIG. 4A, the elevator room wall part 1 and the one-story stairway of the building core part 1 are demolished.

In Fig. 4b, a predetermined area 4 of the building core part one-story slab 8 including the above-mentioned one-story elevator room and one-story staircase is cut out for underground expansion.

4c and 4d, the inner and outer foundation piles 5 and 6 of the basement layer are exposed by performing a soil erosion work on the predetermined area 4 of the cut single-layer slab 8 of the building core portion to the basement floor, The fixing cap 100 is installed around the lower part of the inner foundation pile 6 among the inner and outer foundation piles 5 and 6 exposed to the floor to uniformly transmit the upper load of the ground structure to the ground, do.

The inner and outer foundation piles 5 and 6 include structures for reinforcing the foundations or reinforcing the proof strength of the ground in order to safely support the foundations such as pile foundation and pier foundation, 6 are installed at a predetermined interval in the building core portion.

In Fig. 4E, in order to support the ground wall 12 of the building core portion, an underground extension wall 16, 17 in the basement just below the ground wall 12 is installed, and the under extension wall 16, 17, and the inner and outer extension walls increase the thickness of the underground wall of the existing building, thereby increasing the structural stability of the underground structure.

A new foundation slab 18 is installed so that the fixing cap 100 is embedded therein and the new foundation slab 18 is a new foundation slab constructed after remodeling so that an inner foundation file of an existing building is removed, (18).

4F, the existing foundation slab 7 and the inner foundation pile 6, which are located therein, are removed so that only the underground extension wall 16 is installed at the boundary between the underground extension wall 17 of the underground expansion space, The upper load is supported by the outer extension wall 16, 17 and the new foundation slab 18 in the basement through the ground wall 12. A breaker or a diamond cutter is used for cutting the existing foundation slab 7 and the inner foundation file 6.

FIG. 5A is a front view of the fixing cap, which is a temporary example used in the present invention. FIG. 5B is a plan view of FIG. 5A. A fixing cap 100 installed at a lower portion of the inner base pile 6 has a rectangular And a wing plate 103 welded to the base plate 101 at a predetermined height around the opening of the base plate.

The wing plate 103 is equally disposed around the cylindrical plate and welded to the base plate 101 and the cylindrical plate 102 in a triangular shape. And the epoxy 104 is tightly injected between the inner base pile 6 and the fixing cap 100 to increase the adhesion between the inner base pile and the fixing cap.

6a is a plan view of the fixing cap according to another embodiment of the present invention. Fig. 6b is a plan view of Fig. 6a. The inner base pile 6 and the fixing cap 100 are fixed to the outer surface of the cylindrical plate 102 A plurality of anchor bolts 105 are installed along the circumference at predetermined intervals to integrate the inner base pile 6 and the fixing cap 100.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

1: 1 floor elevator room wall part 2: micro file
3: Basic file 4:
5: outer base file 6: inner base file
7: existing foundation slab 8: one-story slab
9: steel pipe support 10: yoke
11: Brace 12: Ground wall
13: two-layer slab 14: fixed plate
15: connection member 16: underground extension wall
17: underground outside extension wall 18: new foundation slab
19: bolt 20: base plate
100: Fixing cap 101: Base plate
102: Cylindrical plate 103: Wing plate
104: Epoxy 105: Anchor bolt

Claims (3)

Demolishing a first floor elevator room wall part (1) and a first floor step in a building core part;
Cutting a predetermined area (4) of the core part one-layer slab (8) for underground expansion;
Disposing a predetermined area (4) of the cut single-layer slab (8) of the core part to the bottom of the underground floor;
Installing a fixing cap (100) around the lower portion of the inner base pile (6) of the inner and outer base piles (5, 6) exposed to the basement floor of the core portion;
Installing an outer extension wall (16, 17) in the basement underground just below the ground wall (12) to support the ground wall (12) of the core portion;
Installing a new foundation slab (18) to support the inside and outside extension walls (16, 17) and to fill the fusing cap (100);
And removing the existing foundation slab 7 and the inner foundation pile 6 which are located inside the underground extension wall 16 in such a manner that only the underground extension wall 16 is installed at the underground extension wall 17 of the basement extension space A method of constructing a basement extension using an underground structure. The method according to claim 1,
The core portion is a vertical copper line space including a one-story elevator and a one-story step,
An epoxy 104 is tightly injected between the inner base pile 6 and the fixing cap 100. The fixing cap 100 has a rectangular base plate 101 having a circular opening at its center, A plurality of triangular wing plates 103 equally disposed around the cylindrical plate and welded to the base plate 101 and the cylindrical plate 102, a cylindrical plate 102 welded at a predetermined height around the opening, The method according to any one of claims 1 to 3, The method according to claim 1,
The core portion is a vertical copper line space including a one-story elevator and a one-story step,
The inner base pile 6 and the fixing cap 100 are integrally fixed by providing a plurality of anchor bolts 105 at predetermined intervals along the circumference on the outer surface of the cylindrical plate 102 of the fixing cap,
The fixing cap 100 includes a rectangular base plate 101 having a circular opening at its center, a cylindrical plate 102 welded at a predetermined height around the opening of the base plate, and a cylindrical plate 102 uniformly disposed around the cylindrical plate, And a plurality of triangular wing plates (103) welded to the base plate (101) and the cylindrical plate (102).

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