KR20200122037A - The construction method using a exterio wall of undergound structure - Google Patents

Abstract

The present invention relates to a method for constructing an underground structure which does not remove the outer wall of a conventional underground structure to use the same as a retaining wall in a construction to construct an underground structure by means of an underground top-down construction method. To this end, the method for constructing a new underground structure comprises: a step of installing a new foundation which is produced after reinforcing the foundation of a conventional underground structure and a support unit; a step of constructing a cantilever type outer wall at the upper portion of the new foundation; a step of installing a steel frame column constituting a new column; a step of removing a first level floor slab of the conventional underground structure; a step of forming a first level floor slab of the new underground structure; a step of removing the support unit installed at the first basement level of the conventional underground structure and the first basement level floor slab of the conventional underground structure; a step of forming the first basement level floor slab of the new underground structure; a step of removing the support unit installed at the second basement level of the conventional underground structure and the second basement level floor slab of the conventional underground structure; a step of repeating the previous steps to form a floor slab until that of the lowermost level of the new underground structure; and a step of placing concrete on vertical members such as the outer wall and the steel frame column of the new underground structure to complete the vertical members such as the outer wall and the new column of the new underground structure. Therefore, according to the present invention, the outer wall of the conventional underground structure is used as a retaining wall to shorten the construction period and reduce construction costs, while preventing risks of a retaining wall collapsing accident in advance. Furthermore, when the lowermost level of the new underground structure is constructed, solid, quick and economic construction can be performed even without an additional support means such as a raker and an earth anchor by means of the cantilever type outer wall construction.

Description

The construction method using a exterio wall of undergound structure}

The present invention relates to a method of constructing an underground structure, and more particularly, to a method of constructing an underground structure by using the outer wall of the existing underground structure as it is without removing the outer wall of the existing underground structure in the construction of an underground structure.

In general, the method of constructing the underground part of a building can be largely divided into a forward punching method and a reverse punching method depending on the construction direction.In the pure punching method, a horizontal brace, a raker, and an earth anchor, which are temporary supports after the construction of a dirt barrier, is performed. Anchor) is a method of constructing structures sequentially by digging up to the lowest level of the basement while supporting the wall with an anchor, etc., and then going up from the lowest level to the upper level of the basement, and the reverse drilling method is also called the Top-Down method. At the same time as the basement floor and the main structure construction, the constructed basement structure serves as a brace against the transverse soil pressure during earthwork, while the basement structure is moved from top to bottom, that is, in the opposite direction from the above-described conventional pure punching method. It is a construction method that is constructed and descended.

In general, the reverse drilling method applied to the construction of underground structures, as in Korean Patent Publication No. 0938918, can shorten the construction period through parallel excavation and ground work, secure structural stability, and reduce noise and vibration. It is advantageously applied to the construction, but in order to construct it by the reverse punching method, first, before constructing the outer wall of the new underground structure called the retaining wall, a dirt barrier must be installed on the outer side of the outer wall to prevent transverse earth pressure from moving to the excavated underground space. do. In some cases, the barrier walls installed in this way remain underground and in some cases they are removed. Although the retaining wall is an unnecessary structure after the construction of the underground structure, it is essential to prevent the earth pressure of the outer wall in the construction of the underground structure.There was a problem that a certain construction period was required for the installation of such a retaining wall, and the construction period was delayed and construction cost increased. .

Republic of Korea Patent Publication No. 10-0938918

Accordingly, it has been made in consideration of all the problems of the prior art as described above, and an object of the present invention is to shorten the construction period by using the outer wall of an existing underground structure as a retaining wall without installing a separate retaining wall in the construction of an underground structure. It is not only to provide construction cost reduction.

In addition, since the outer wall of an existing underground structure is used as a dirt wall, there is no noise and vibration, and no dirt wall is installed. Therefore, it is intended to prevent a risk such as a collapse of the dirt wall in advance.

In addition, as a cantilever-type outer wall is formed on the bottom of the new underground structure, it is not necessary to install a support made of a raker or earth anchor, which is a separate support means, in constructing the bottom of the new underground structure, providing quick and economical construction. have.

The method for constructing an underground structure using the outer wall of the existing underground structure of the present inventor as a barrier wall. a) the step of installing a support part consisting of a new foundation reinforcing the foundation of an existing underground structure and a raker or earth anchor; b) Cantilever-type outer wall construction step on the upper part of the new foundation; c) the step of installing steel pillars forming a new pillar; d) Demolition of the first floor slab of the existing underground structure; e) forming a floor slab on the first floor of a new underground structure; f) Demolition of the support installed on the first basement level of the existing underground structure and the first basement floor slab of the existing underground structure; g) forming a floor slab on the first basement level of the new underground structure; h) Demolition of the support installed on the second basement level of the existing underground structure and the second basement floor slab of the existing underground structure; i) forming a floor slab before the lowest layer of a new underground structure by repeatedly performing the same method as the method of f) to h); j) pouring concrete into vertical materials such as outer walls and steel pillars of the new underground structure to complete vertical materials such as outer walls and new pillars of the new underground structure; It characterized in that it consists of.

In addition, the present invention has the effect of shortening the construction period as well as reducing the construction cost by using the outer wall of the existing underground structure as a retaining wall.

In addition, according to the present invention, there is no noise and vibration as the outer wall of an existing underground structure is used as a retaining wall, and there is an effect of preventing a risk such as a collapse of the retaining wall in advance.

In addition, according to the present invention, in constructing the lowermost layer of a new underground structure, as a cantilever-type outer wall is installed, there is an effect of quick and economical construction without installing a support made of a raker or an earth anchor.

1 and 11 are views showing the steps of installing a new foundation reinforcing the foundation of an existing underground structure and a raker or earth anchor as a support.
2 is a view showing that a cantilever-type outer wall having a certain height is installed above a new foundation reinforcing the foundation of an existing underground structure.
Figure 3 is a view showing the installation of steel pillars that form a new pillar of a new underground structure.
4 is a view showing the removal of the first floor slab of an existing underground structure.
5 is a view showing the formation of a floor slab on the first floor of a new underground structure.
6 is a view showing the removal of the support installed on the first basement level of the existing underground structure, the first basement floor slab, and the inner wall.
7 is a view showing the formation of a floor slab on the first basement level of a new underground structure.
8 is a view showing the removal of the supporting part installed on the second basement level of the existing underground structure, the floor slab and the inner wall of the second basement level.
9 is a view showing the formation of a floor slab of the entire lowermost layer of a new underground structure by repeatedly constructing in the same manner as in FIGS. 6 to 8.
10 is a view showing the completion of vertical materials such as the outer wall of the new underground structure and new columns by pouring concrete on the outer wall of a new underground structure and a new steel frame column.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 1 and 11 are views showing the steps of installing a new foundation 110 reinforcing the foundation of an existing underground structure and a support 120 made of a raker or an earth anchor. As shown in FIGS. 1 and 11, since the mounting method of the raker or the earth anchor, which is the support 120, is the same, in the following drawings, only the raker is shown, and only the support 120, which is the earth anchor, is shown in FIG. 11, and the drawings will be omitted.

In order to construct a new underground structure, the foundation of the existing underground structure should be reinforced in order to cope with the load borne by the new above-ground upper structure and underground substructure. In general, the foundation of an underground structure consists of a double hollow slab foundation formed of an upper foundation slab and a lower foundation slab, and in the case of such a double hollow slab foundation, in forming a new foundation 110 by reinforcing the foundation of a new underground structure. The lower foundation slab remains as it is, the upper foundation slab is removed, and unrooted concrete is poured on the upper surface of the lower foundation slab, and the upper foundation slab corresponding to the load of the new structure is constructed.

In other words, in order to take the load of the new underground structure and the load of the new superstructure, it is necessary to reinforce the foundation of the existing underground structure. First, unreinforced concrete is poured on the upper surface of the existing lower foundation slab, and then the upper foundation slab is formed with reinforced concrete secondly. In addition, although not specifically shown in the drawings, after reinforcing the foundation of the existing underground structure, in order to withstand the transverse soil pressure resulting from the removal of the slab of the existing underground structure, a support part 120 made of a raker or an earth anchor is installed on the outer wall. Depending on the situation, the degree of transverse soil pressure in the basement, and the degree of carrying in construction equipment, the support unit 120 can be installed in units of two or more, but it is preferable to install in units of two floors. In addition, the existing internal retaining walls, such as stair chambers and cores, which may become obstacles in the installation of the support part 120 such as a raker, are removed. In removing such an existing internal retaining wall, a copper bar for removing the internal retaining wall is installed. In addition, for the movement and work of construction vehicles or heavy equipment, copper bars are also installed under the first floor slab 11 and each basement floor of the existing underground structure.

2 shows a cantilever-type outer wall 130 having a certain height on the upper part of the new foundation 110 reinforcing the foundation of an existing underground structure, and the height of the cantilever-type outer wall 130 is the lowest layer of the existing underground structure for convenience of construction. It is easy to construct in the formation of the cantilever-type outer wall 130 by making it a little lower than the floor height, but the cantilever-type outer wall 130 and the new foundation 110 are integrally formed, so that the support 120 made of a raker or an earth anchor is not installed. Even if not, the cantilever-type outer wall 130 is made to withstand the transverse earth pressure under the ground. In addition, even if the floor slab located on the lowermost layer of the existing underground structure is removed, since there is no need to install a separate support unit 120, construction can be performed more quickly. And since the cantilever-type outer wall 130 is solidly and integrally cured with the reinforced new foundation 110, concrete is jointly placed on the top of the cantilever-type outer wall 130 in the final step of the present invention to complete the outer wall 180 of the new underground structure. There is an effect of making the outer wall 180 of the new underground structure more robust while performing the construction more quickly.

3 is a view showing the installation of a steel frame pillar 140 forming a new pillar 170 of a new underground structure. The new pillar 170 may be formed according to the site conditions such as steel frame or steel concrete, or steel frame reinforced concrete. It is shown in the present invention is a steel-concrete structure, first, in order to install the steel-frame pillar 140 forming the new pillar 170 corresponding to the vertical material, the hole through which the steel-frame pillar 140 can pass through the floor slab of the existing underground structure. The steel pillar 140 is perforated and the steel pillar 140 is installed through the perforated hole. The steel pillar 140 is a permanent pillar, which is a new pillar 170, and is firmly fixed to the new foundation 110 described above to be integrated.

4 is a view showing the removal of the first floor slab 11 of the existing underground structure as the steel pillar 140 is installed. As described above, in order to remove the first floor slab 11 of the existing underground structure after the steel pillar 140 is installed, the first floor slab 11 of the existing underground structure is not shown in detail, but the first floor slab 11 is supported. To do this, the previously installed copper bars are dismantled, and the first floor slab (11) of the existing underground structure is removed. In the removal of the first floor slab 11 of the existing underground structure, the inner wall 10 ′, etc. remaining on the first basement level of the existing underground structure is also removed. Even if the first floor slab 11 of the existing underground structure is demolished, since the outer wall 10 of the existing underground structure is supported by the support 120 made of a raker or an earth anchor, there is no abnormality in the supporting force capable of resisting transverse earth pressure. none.

5 is a view showing the formation of the first floor slab 150 of a new underground structure. When the first floor slab (11) of the existing underground structure is demolished, the outer wall (10) of the existing underground structure supported by the support part (120) is in charge of transverse soil pressure, so the steel frame beams are installed and newly constructed in the steel frame column (140) described above. Construct the floor slab on the first floor. For the construction of the floor slab 150 on the first floor of the new underground structure, reinforcement is placed and concrete is poured and cured to form a floor slab, so that even if the support part 120 described below is removed, the first floor floor slab is in charge of transverse earth pressure under the ground. do.

6 shows the inner wall of the existing underground structure after removing the support part 120 installed on the first basement level of the existing basement structure and removing the first basement floor slab 12 of the existing underground structure, and using the same method described above. It is a figure which shows that (10') and copper bars, etc. which are not shown in the drawing are removed.

7 is a view showing the formation of the first basement floor slab 160 of a new underground structure following FIG. 6. As in the same method as in FIG. 5, when the first basement floor slab 12 of the existing underground structure is demolished, the underground transverse earth pressure is in charge of the outer wall 10 of the existing underground structure supported by the support part 120, so that the new column 170 ) In the steel frame pillar 140 forming the new underground structure, and install the first basement level steel beam, and construct the first basement floor slab 160 of the new underground structure. For the construction of the first basement floor slab 160 of the new underground structure, reinforcement is placed and concrete is poured and cured to form a floor slab, so even if the support part 120 described below is removed, the first basement floor slab of the new underground structure ( 160) will be responsible for the underground transverse soil pressure.

8 is the same method as in FIG. 6, removing the support 120 installed on the second basement level of the existing underground structure, removing the second basement floor slab of the existing underground structure, and removing the third basement level of the existing underground structure by the same method described above. It is a diagram showing the pouring of concrete into vertical materials such as the steel pillars 140 on the first basement level of a new underground structure for top down after removing the inner wall 10' or copper bars left on the wall. The first basement level of a new underground structure to pour concrete into vertical materials such as steel pillars (140) on the first basement level of the new underground structure to facilitate concrete placement in the rest of the vertical materials such as the steel frame pillars (140) of the new underground structure in the future. Concrete is poured into the vertical material only up to a certain height of the first basement floor slab from the top, and the height is later established in order for workers to easily pour concrete into the vertical formwork at the basement floor slab 160 of the newly constructed basement structure. About 0.5 to 1m from the first basement floor slab 160 of the underground structure is an empty space, and the concrete pouring process for the vertical material must be performed only after the formation step of the first basement floor slab 160 of the new underground structure. There is no need.

9 is a view showing the formation of a floor slab before the lowest layer of a new underground structure by repeatedly constructing it by the method described in FIGS. 6 to 8.

FIG. 10 is a view showing the completion of vertical materials such as the outer wall 180 and the new pillar 170 of the new underground structure by pouring concrete on the outer wall 180 and the steel pillar 140 of the new underground structure.

Hereinafter, a method of constructing an underground structure using the outer wall 10 of the existing underground structure described above as a dirt barrier will be described step by step.

a) installing a new foundation 110 reinforcing the foundation of an existing underground structure and a support 120 made of a raker or an earth anchor;

In order to cope with the load of the newly constructed upper structure and substructure under the ground, a new foundation 110 reinforced with the foundation of the existing underground structure is formed, and a support part is installed to remove the floor slab of the existing underground structure in the future. The support unit 120 supporting the outer wall may be installed downward in units of one floor sequentially for each floor depending on the site construction conditions, or may be installed in units of two floors or more, but for construction safety it is recommended to install downwards in units of two floors. desirable. In addition, if necessary, to remove the existing retaining walls such as stairwells and cores, which may interfere with the installation of the support 120 such as a raker, a retaining wall is installed, and a construction vehicle on the top of the first floor slab 11 of the existing underground structure For the movement and work of heavy equipment, etc., or work in the basement of an existing underground structure, not only the floor slab 11 and beams on the first floor of the existing basement structure, but also the basement floor are installed.

b) the construction step of the cantilever-type outer wall 130 on the upper part of the new foundation 110;

A cantilever-type outer wall 130 having a certain height that forms part of the outer wall 180 of the new underground structure is constructed on the upper part of the new foundation 110, and the floor slab located on the lowermost layer of the existing underground structure is removed at a later stage. (130) is to withstand transverse soil pressure under the ground. In addition, even if the support part 120 is not installed, the cantilever-type outer wall 130 has the function of supporting the soil barrier to prevent transverse soil pressure, and even when connecting with concrete for the completion of the outer wall, which is the last step of the new underground structure. Since the new foundation 110 and the cantilever-type outer wall are integrally cured, there is an effect that the outer wall 180 of the newly built underground structure is more solid while the outer wall is formed quickly.

c) steel frame pillar 140 installation step;

The new column 170 of the new underground structure may be formed of steel frame, steel frame concrete, or steel frame reinforced concrete. In order to install the steel pillars 140 forming the new pillars 170, a hole through which the steel pillars 140 can pass is drilled through the floor slab of the existing underground structure, and the steel pillars 140 are formed as the floor slab of the existing underground structure. It is fixed to the new foundation 110 by passing through.

d) removing the first floor slab of the existing underground structure;

In order to remove the floor slab 11 on the first floor of the existing underground structure, the floor slab 11 on the first floor of the existing underground structure, such as a copper bar not specifically shown in the drawing or the inner wall 10 ′ remaining on the first basement floor of the existing underground structure. ) Remove facilities that are obstacles to demolition.

e) forming the first floor slab 150 of the new underground structure;

In order to support and integrate the first floor slab 150 of the new underground structure, steel beams are installed on the steel pillars 140, and then reinforcement and concrete are poured to form the first floor slab 150 of the new underground structure.

f) the step of removing the support 120 installed on the first basement level of the existing underground structure and the first basement floor slab 12 of the existing underground structure;

In the same manner as in d) above, facilities that are obstructive to the demolition of the first basement floor slab 12 of the existing basement structure such as the inner wall 10' or dongbari remaining on the second basement level of the existing underground structure are removed.

g) forming a first basement floor slab 160 of a new underground structure;

In order to support and integrate the first basement floor slab 160 of the new underground structure as described above e), steel beams are installed on the steel frame pillars 140, and then rebar reinforcement and concrete are poured into the first basement floor slab of the new underground structure. Form 160.

h) the step of removing the support part 120 installed on the second basement level of the existing underground structure and the second basement floor slab of the existing underground structure;

In the same way as f) above, remove the facilities that are obstructive to the demolition of the floor slab on the 2nd basement level of the existing basement structure, such as the inner wall (10') remaining on the 3rd basement level of the existing basement structure or the Dongbari not shown in the drawing. In addition, after removing the inner wall (10') or copper bars, etc. remaining on the 3rd basement level, it is applied to vertical materials such as the steel pillars 140 on the 1st basement level of the new basement structure. Concrete is poured to a certain height, but concrete pouring into such vertical material may be carried out after step g).

i) forming a floor slab before the lowest layer of a new underground structure by repeatedly performing the same method as the method of f) to h);

The floor slab of the new underground structure is formed up to the floor slab in front of the lowest floor by going down one level by the method described above. In order to form a floor slab in each basement level of a newly established underground structure, the installation or removal of the support part 120 in stages, and the removal of facilities that interfere with the removal of the floor slab are the same as described above.

j) pouring concrete on the outer wall 180 and the steel pillar 140 of the new underground structure to complete the outer wall 180 and the new pillar 170 of the new underground structure;

In order to complete the outer wall 180 of the new underground structure, concrete is connected from the floor slab 150 on the first floor of the new underground structure to the upper end of the cantilever type outer wall 130, and the concrete to be poured on the outer wall and the previously formed cantilever type outer wall 130 ), the outer wall 180 of the new underground structure is completed, and concrete is poured in the direction directly under the vertical material such as the steel pillar 140 on the first basement level of the new underground structure described above to create a new column 170 of the new underground structure. ) To complete vertical materials.

As described above, although the present invention has been described by a limited embodiment and drawings, terms and words used in the present specification and claims are limited to a conventional or dictionary meaning and should not be interpreted. It must be interpreted as a corresponding meaning and concept. Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only one embodiment of the present invention, and do not represent all the technical spirit of the present invention, and thus various It should be understood that there may be equivalents and variations.

110: new foundation 120: support
130: cantilever-type outer wall 140: steel column
150: Floor slab on the first floor of a new underground structure
160: Floor slab on the first basement level of a new underground structure
170: new pillar

Claims (7)

How to build an underground structure using the outer wall of the existing underground structure as a barrier wall.
a) step of installing a new foundation and support part reinforcing the foundation of an existing underground structure;
b) Cantilever-type outer wall construction step on the upper part of the new foundation;
c) the step of installing steel pillars forming a new pillar;
d) removing the first floor slab of the existing underground structure;
e) forming the first floor slab of the new underground structure;
f) Demolition of the support installed on the first basement level of the existing underground structure and the first basement floor slab of the existing underground structure;
g) forming a floor slab on the first basement level of the new underground structure;
h) Demolition of the supporting part installed on the 2nd basement level of the existing underground structure and the 2nd basement floor slab of the existing underground structure;
i) forming a floor slab before the lowest layer of a new underground structure by repeatedly performing the same method as the method of f) to h);
j) pouring concrete into vertical materials such as outer walls and steel pillars of a new underground structure to complete vertical materials such as outer walls and new pillars of a new underground structure;
A method of constructing an underground structure using the outer wall of an existing underground structure, characterized in that consisting of, as a dirt barrier.
The method according to claim 1,
The installation of the support part is a method for constructing an underground structure using an outer wall of an existing underground structure as a barrier wall, characterized in that it is installed in units of two floors.
The method according to claim 1,
The cantilever-type outer wall is formed in a structure capable of withstanding the transverse earth pressure applied to the lowermost layer of the existing underground structure, even if the support is not supported on the outer wall of the lowermost layer of the existing underground structure. How to build a structure.
The method according to claim 1,
The new pillar is a method for constructing an underground structure using an outer wall of an existing underground structure as a barrier wall, characterized in that formed of steel concrete or steel frame reinforced concrete.
The method according to claim 1,
A method of constructing an underground structure using the outer wall of an existing underground structure as a barrier wall, characterized in that the outer wall of a new underground structure is formed integrally by pouring concrete by connecting it to the upper cantilever-type outer wall.
The method according to claim 1,
After the step g) or h), the outer wall of the existing underground structure, characterized in that the concrete is poured from the top to a certain height of the first basement floor slab on vertical materials such as steel pillars on the first basement level of the new underground structure as a dirt barrier. How to build an underground structure using.
The method according to claim 1,
The support part is a method for constructing an underground structure using an outer wall of an existing underground structure as a barrier wall, characterized in that made of either a raker or an earth anchor.

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