KR101431623B1 - Mehod for constructing underground wall in extension of undergound parking lot - Google Patents

Abstract

The present invention relates to a construction method for the construction of walls by extending a basement of a building and, more specifically, to a method for constructing a underground wall for extending a underground parking lot, comprising: a first workspace drilling step of ensuring a primary work space; a steel pipe press fitting step of press-fitting an upper steel pipe and a lower steel pipe; an iron plate installing step of forming incision grooves respectively, pressing an iron plate on both sides, and welding the steel plate and the steel pipe; a second workspace drilling step of forming a secondary workspace; a steel pipe cutting step of cutting out the upper steel pipe and the lower steel pipe; an H beam installing step of using multiple H beams to support vertical connection; and a wall finishing step of running and finishing formation of the wall and the finishing mortar.

Description

[0001] The present invention relates to a method of constructing an underground parking lot,

The present invention relates to a construction method for constructing a wall by extending the underground structure of a building. More particularly, the present invention relates to a construction method for constructing a wall by extending an underground wall, The present invention relates to an underground wall construction method for enlarging an underground parking lot in order to enable quick and precise extension of a building in a stable state by making it possible to construct an underground parking lot.

In the case of high-rise buildings (apartments) that were built more than 20 years ago, the underground parking facilities were not fully equipped due to the necessity of parking at the time of construction and the conditions of building law.

On the other hand, in the case of the above-mentioned old buildings, the reconstruction is required in a state of considerable aging, but the reconstruction is delayed due to the inconvenience of the architectural difficulty and considerable cost. It is the situation that it is taking the risk of the backwardness and the risk of the living environment.

Accordingly, the remodeling work using the existing apartments for repair and reinforcement is being activated in the recent years, and as the living standard is improved during the remodeling work as described above, the number of vehicles is increased, In order to improve the living environment such as safety, an underground parking lot was desperately needed.

Therefore, various attempts have been made to increase the underground parking lots. As an example of such a method, a method using a concrete panel has been proposed as disclosed in Japanese Patent Application Laid-Open No. 10-2004-0092200.

However, the construction method using the concrete panel as described above has a problem in that it is inconvenient for the construction and the connection relation with the existing building is not made, which leads to a safety problem and an increase in the construction cost.

Korean Patent Publication No. 10-2004-0092200.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a method and a system for securing a stable working space according to the construction of a toll wall and a rigid support using H beams and a reinforcement construction using steel pipes and steel plates, The present invention has been made in view of the above problems, and it is an object of the present invention to provide an underground wall construction method for enlarging an underground parking lot to reduce the construction cost.

As a concrete means for accomplishing the above object, there is a wall construction method in which an underground wall is connected to a horizontal bottom surface of an existing building to enlarge an underground parking lot when remodeling a building,
The H beam is installed on the ground at four corners connecting the inside and outside of the outside wall of the existing building from the outside wall of the existing building to construct a working area. And a first workspace excavating step of securing a primary work space by supporting a turning wall of the opposing toe wall;
An H beam block supporting the bottom surface of the horizontal beam and the upper surface of the upper steel pipe is further installed in the space between the horizontal beam and the upper steel pipe at a position spaced from the bottom surface of the horizontal beam at the upper part of the primary work space A step of press-fitting a lower steel pipe corresponding to a bottom surface of the primary work space in a longitudinal direction of the outer wall at a lower portion of the primary work space;
After the inner soil of the press-fitted upper and lower steel pipes is removed, the bottom surface of the upper steel pipe and the upper surface of the lower steel pipe are biased toward the outside of the wall of the building, A steel plate mounting step of press-fitting the steel plate to both sides along the steel plate and welding the steel plate and the steel plate together;
A second work space excavating step of excavating from the inside of the building to the bottom surface of the lower steel pipe pressurized to form a secondary work space to be connected to the primary work space;
A steel pipe cutting step of cutting the upper steel pipe and the lower steel pipe so as to be perpendicular to the press-fitted steel plate in the secondary work space;
The upper end of the H-beam is supported on the horizontal bottom surface of the existing structure and the lower end is supported on the bottom of the primary working space and the secondary working space by using a plurality of H- Installation phase; And
And a wall finishing step of finishing the wall by forming walls and finishing mortar by assembling the bricks from the bottom surface of the first and second work spaces to the horizontal bottom surface of the building so that the H beams are embedded in the H beams, And can be achieved.

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As described above, the underground wall construction method for the extension of the underground parking lot according to the present invention can secure the work space according to the construction of the toll wall, secure the stable bearing capacity of the existing structure using the H beam, and reinforce the construction using the steel pipe and the steel plate, The construction can be performed in a state in which the stability of the enlarged building is ensured. In particular, the construction cost due to the enlargement can be reduced, thereby reducing the investment cost due to the remodeling of the building.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a process step of an underground wall construction method for enlarging an underground parking lot according to the present invention. FIG.
2 is a plan view showing a work space excavation step of an underground wall construction method for enlarging an underground parking lot of the present invention.
3 is a front sectional view showing a work space excavation step of an underground wall construction method for enlarging an underground parking lot according to the present invention.
4 is a front sectional view showing the step of pressurizing a steel pipe in the method of constructing an underground wall for the expansion of an underground parking lot according to the present invention.
5 is a side cross-sectional view showing a step of installing an iron plate in an underground wall construction method for enlarging an underground parking lot according to the present invention.
6 is a front sectional view showing a step of installing an iron plate in an underground wall construction method for enlarging an underground parking lot according to the present invention.
FIG. 7 is a side cross-sectional view showing a second work space excavation step of an underground wall construction method for enlarging an underground parking lot of the present invention. FIG.
8 is a side sectional view showing a step of cutting a steel pipe in an underground wall construction method for enlarging an underground parking lot of the present invention.
9 is a side sectional view showing an H beam installation step of an underground wall construction method for enlarging an underground parking lot of the present invention.
10 is a front sectional view showing an H beam installation step of an underground wall construction method for an underground parking lot extension.
11 is a side cross-sectional view showing a wall finishing step of an underground wall construction method for enlarging an underground parking lot of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

1 is a schematic view showing a process step of an underground wall construction method for enlarging an underground parking lot of the present invention.

As shown in FIG. 1, the method for constructing an underground wall for enlarging an underground parking lot according to the present invention includes a primary work space excavation step S100, a steel pipe press-in step S200, a steel plate installation step S300, The excavation step S400, the steel pipe cutting step S500, the H beam installing step S600, and the wall finishing step S700.

Here, the work space excavation step (SlOO)

FIG. 2 is a plan view showing a work space excavation step of an underground wall construction method for enlarging an underground parking lot according to the present invention, and FIG. 3 is a front sectional view showing a work space excavation step of an underground wall construction method for enlarging an underground parking lot according to the present invention.

As shown in FIG. 2, a first work space 100 is secured to one side of a longitudinal direction of an outer wall 20 of an existing building 10.

In this case, in order to secure the first work space 100, the work area 101 is set by vertically inserting the H beams 110 on the ground at four corners connecting the inside and the outside of the outside wall. Zone 101 is suitably set to have a zone of about 2 x 2 m.

3, excavation is performed to the lower part of the horizontal beam 30 of the existing building 10 by excavating the work area 101. Excavation is performed while the H beam is irradiated with the current plate 121, And the first working space 100 corresponding to a space of 2 x 2 m is secured between the toothed walls 120. [

In order to prevent the earth wall 120 from being collapsed due to the earth pressure, the turnbuckle bar 130, which connects and supports the opposing earth walls 120 on the inside and the outside of the building in the first work space 100, ) Can be further constructed.

At this time, the turnbuckle bar 130 can be formed in such a manner that the support bar can be deployed on both sides when the nut body is tightened like a normal turnbuckle. The turnbuckle bar 130 installed here is a bar- It is preferable to support the turntable 121 supporting the turntable 110 or the turntable 121 facing the turntable 121 within a range that does not interfere with the operation in the first work space 100.

Thereafter, the steel pipe press-fitting step (S200) is performed,

4 is a front sectional view showing a step of pressurizing a steel pipe in an underground wall construction method for enlarging an underground parking lot according to the present invention.

4, in the first work space 100, the bottom surface of the horizontal beam 30 of the existing building 10 and the bottom surface of the first work space 100 are arranged in the longitudinal direction of the outer wall 20, (200) and the lower steel pipe (300).

As a method of pressing the upper and lower steel pipes 200 and 300, as shown in Patent Application No. 10-1070678 proposed by the applicant of the present invention, a leading pipe and a steel pipe are press-fitted using a hydraulic cylinder and a hydraulic jack For example, when the press-fitting state of the lower steel pipe 300 is examined,

First, a hydraulic cylinder 40 is installed in the toothed wall 120 on one side in the longitudinal direction of the outer wall 20 in the work space, and the leading pipe 41 is first press-fitted by the driving force of the hydraulic cylinder 40.

Thereafter, the lower steel pipe 300 is inserted into the rear end of the leading pipe 41, which is press-fitted while the hydraulic cylinder 40 is retracted, and is connected by the hydraulic jack 42.

Thereafter, the lower pipe 300 is pressed by the driving force of the hydraulic cylinder 40, so that the leading pipe 41 connected to the lower pipe 300 is also firstly press-fitted together. Then, the hydraulic jack 42 The guide pipe 41 is further press-fitted into the second pipe.

Thereafter, another lower steel pipe 300 is continuously welded and connected to the rear of the lower steel pipe 300. When each of the lower steel pipes 300 is connected, the first and second press- The press-fitting can be continuously performed.

In order to construct the upper and lower steel pipes 200 and 300 as described above, it is preferable to remove the toe wall 120 on the side where the upper and lower steel pipes 200 and 300 are inserted.

In the steel pipe press-in step S200, the press-fitted upper steel pipe 200 is preferably press-fitted into a position spaced apart from the bottom surface of the horizontal beam 30 of the existing building 10, The H beam block 250 supporting the bottom surface of the horizontal beam 30 and the upper surface of the upper steel pipe 200 is installed in the spacing space to prevent the horizontal beam 30 from being damaged during the press- (30).

Thereafter, the steel plate installation step S300 is performed,

FIG. 5 is a side sectional view showing a step of installing an iron plate in an underground wall construction method for enlarging an underground parking lot according to the present invention, and FIG. 6 is a front sectional view showing a step of installing an iron plate in an underground wall construction method for enlarging an underground parking lot according to the present invention.

In the steel plate installing step S300, the press-fitted upper steel pipe 200 and the lower steel pipe 300 are connected to each other by using the steel plate 350. At this time, as a method of installing the steel plate 350, It is possible to apply a steel plate indentation method using a hydraulic jack as in the proposed patent application No. 10-1069705.

5, the inner soil of the upper and lower steel pipes 200 and 300 is removed and then the upper and lower steel pipes 200 and 300 are cut to form the cutout grooves 210 and 310 Respectively.

At the time of forming the cutouts 210 and 310, the upper and lower steel pipes 200 and 300 are preferably formed so as to be offset toward the outside of the existing building 10 with respect to the center of the upper and lower steel pipes 200 and 300, The incision grooves 210 and 310 may be formed on one side of the upper surface of the lower steel pipe 300 and the incision grooves 310 may be formed on the upper surface of the lower steel pipe 300, They form a form against each other.

6, an iron plate 350 for connecting the upper and lower steel pipes 200 and 300 is formed in the corresponding cut-off groove 210 and 310 according to the embodiment of the one-side iron plate 350, The steel plate 350 is pressed by using the hydraulic jack 52 in a state in which the steel plate 350 is inserted into the cutout grooves 210 and 310. After the steel plate 350 is propelled, The press-fitted steel plate 350 may be welded to the upper and lower steel pipes 200 and 300 from the outside thereof.

Thereafter, a second workspace excavation step (S400) is performed,

7 is a side cross-sectional view illustrating a second work space excavation step of an underground wall construction method for enlarging an underground parking lot of the present invention.

As shown in FIG. 7, the second work space 400 is excavated from the inside of the existing building 10 to form the second work space 400. The second work space 400, which is excavated as described above, It is preferable to connect the first work space 100 formed in the excavation step S100 and the toe wall 120 of the connection part is preferably removed.

Thereafter, the steel pipe cutting step S500 is performed,

8 is a side cross-sectional view showing a step of cutting a steel pipe in an underground wall construction method for enlarging an underground parking lot of the present invention.

Cutting of the upper steel pipe 200 and the lower steel pipe 300 is performed in the secondary work space 400 as shown in FIG. 8, so that the cutting range of each of the upper and lower steel pipes 200 and 300 The portion corresponding to the inner side of the existing building 10 is cut off and removed from the upper and lower ends of the steel plate 350 with the steel plate 350 vertically and leaving a portion corresponding to the outside of the existing building 10 .

It is preferable that the H beam block 250 installed between the horizontal beam 30 and the upper steel pipe 200 is removed in the process of cutting and removing the upper and lower steel pipes 200 and 300.

In the steel pipe cutting step S500, the ground reinforcement work S500a may be further performed on the bottom surfaces of the first work space 100 and the second work space 400. Here, S500a) is used to reinforce the ground and to secure the supporting force of the existing building 10. The reinforcement method includes reinforcing pile 70 of H beam or concrete material or reinforcement using concrete pile or reinforcement using cement grouting 80 Method can be applied.

Thereafter, an H beam installation step (S600) is performed,

FIG. 9 is a side sectional view showing an H beam installation step of an underground wall construction method for enlarging an underground parking lot of the present invention, and FIG. 10 is a front sectional view showing an H beam installation step of an underground wall construction method for enlarging an underground parking lot.

9 and 10, the H beam 600 can be firmly supported from the load of the existing building 10. The H beam 600 used at this time is provided with a length adjusting jockey The H beams 600 are installed at regular intervals on the bottom surface of the horizontal beam 30 in the primary work space 100 and the secondary work space 400 .

That is, when the H beam 600 is installed, the upper end of the H beam 600 is supported on the bottom surface of the horizontal beam 30, and the lower end of the H beam 600 is supported on the bottom surface of the first work space 100 and the second work space 400 .

Thereafter, the wall completion step S700 is performed,

11 is a side cross-sectional view showing a wall finishing step of an underground wall construction method for enlarging an underground parking lot according to the present invention.

11, the wall 700 is completed. In order to complete the wall 700, a masonry system is applied by using the masonry bricks 710.

That is, the brick 710 is used to form the wall 700. When the brick 710 is formed by joining the brick 710 to the bottom surface of the horizontal beam 30 of the existing building 10 from the bottom surface of the first and second work spaces The H beam 600 installed in the H beam installation step S600 may be buried in the brick 710 without being removed. This is because, even if a brick masonry method is applied instead of a reinforced concrete method, The beam 600 can secure a sufficient building supporting force.

In addition, it is preferable that one side of the brick 710 to be assembled when performing the assembly is closely attached to the steel plate 350, and the steel plate 350 can perform a waterproof function.

Thereafter, a finished mortar 720 made of cement is formed on the exposed surface of the wall 700 formed as described above, thereby completing the wall.

A new horizontal beam 730 may be further formed at the lower end of the wall 700 in the process of constructing the wall 700. When the horizontal beam 730 is formed, It is preferable that the wall 700 is formed to have a thickness greater than that of the wall 700.

As described above, the wall extension method of the present invention described above is based on one side of a plurality of wall surfaces constituting a building, and the same method can be applied to the other side when constructing the other side.

When a plurality of basement layers are formed during the extension of the wall, the above-mentioned processes may be continuously performed. In this case, the ground reinforcement work may be performed in the first and second work spaces 100, (400).

After completing the construction of the underground wall through the series of construction steps as described above, the portion corresponding to the outside of the first work space 100 formed in the work space excavation step (S100) is backfilled, while the completed wall 700) is excavated to form an underground space.

As described above, the underground wall construction method for enlarging the underground parking lot according to the present invention can secure the space according to the construction of the toothed wall, securing the supporting force of the building using the H beam, and reinforcing and waterproofing construction using steel pipes and steel plates, It is possible to construct a state in which stability is ensured.

10: existing building 20: outer wall
30: Horizontal beam
100: Workspace 101: Workspace
110: H beam 120:
121: turntable 130: turnbuckle bar
200, 300: upper and lower steel pipes 210, 310:
250: H beam block 350: Steel plate
600: H beam 700: Wall
710: Brick 720: Finishing mortar

Claims (5)

In the wall construction method in which an underground wall is connected to a horizontal bottom surface of an existing building in order to enlarge an underground parking lot at the remodeling work of a building,
The H beam is installed on the ground at four corners connecting the inside and outside of the outside wall of the existing building from the outside wall of the existing building to construct a working area. And a first workspace excavation step (S100) for securing a primary work space by supporting a turning wall of the opposing toe wall,
An H beam block supporting the bottom surface of the horizontal beam and the upper surface of the upper steel pipe is further installed in the space between the horizontal beam and the upper steel pipe at a position spaced from the bottom surface of the horizontal beam at the upper part of the primary work space A step S200 of pressurizing the lower steel pipe corresponding to the bottom surface of the primary work space in the longitudinal direction of the outer wall at the lower part of the primary work space;
After the inner soil of the press-fitted upper and lower steel pipes is removed, the bottom surface of the upper steel pipe and the upper surface of the lower steel pipe are biased toward the outside of the wall of the building, (S300) for press-fitting the steel plate to both sides along the steel plate and welding the steel plate and the steel plate together;
A second work space excavation step (S400) of performing excavation from the inside of the building to the bottom surface of the lower steel pipe pressurized to form a secondary work space to be connected to the primary work space;
A steel pipe cutting step (S500) of cutting the upper steel pipe and the lower steel pipe perpendicularly to the press-fitted steel plate in the secondary work space;
The upper end of the H-beam is supported on the horizontal bottom surface of the existing structure and the lower end is supported on the bottom of the primary working space and the secondary working space by using a plurality of H- Installation step S600; And
A wall finishing step (S700) for finishing a wall by forming bricks and finishing mortar by joining the bricks to the horizontal bottom surface of the building from the bottom surface of the first and second work spaces so that the H beams are embedded in the H beams, ); ≪ / RTI > a method of constructing an underground wall structure for the extension of an underground parking lot.
delete delete The method according to claim 1,
In the steel pipe cutting step S500,
And a ground reinforcement operation (S500a) is further performed on the bottom surfaces of the first work space and the second work space.
The method according to claim 1,
In the wall completion step S700,
And a horizontal beam is further formed at the lower end of the wall.

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