KR102396786B1 - Underground expansion and top-down method of new building using reinforcement of existing underground outer wall - Google Patents

Abstract

The present invention uses the existing underground outer wall as a temporary retaining wall during the underground extension of a new building through reinforcement of the existing underground outer wall in a state where the thickness and site of the existing underground outer wall are narrow and the retaining wall construction is impossible due to the adjacent building. After completion, the underground extension and reverse drilling method of the new building will be provided so that it can be used as a permanent form to form the outer wall of the underground storey (new construction) structure.
The underground extension and reverse drilling method of a new building through reinforcement of an existing underground outer wall according to the present invention is a method of extending a new building when there is an underground outer wall of an existing building in the basement. and the first step of confirming the thickness as essential conditions; After preparing the primary reinforcing plate to respond to the earth pressure of the construction stage based on the conditions confirmed in step 1, attach the primary reinforcing plate to the underground outer wall in the vertical direction to reinforce the underground outer wall with the primary reinforcing plate over the entire basement floor After that, the second step of performing the construction of an underground frame on the entire basement level having an underground outer wall; When the construction of the underground frame is completed, the third step of reinforcing reinforcing bars on the side of the underground outer wall where the primary reinforcing plate is installed; A fourth step of installing a fixed anchor for the construction of the secondary reinforcement plate on the side of the underground outer wall where the primary reinforcement plate is installed; a fifth step of installing a secondary reinforcing plate serving as reinforcement and formwork to fit the underground outer wall using the fixed anchor; and a sixth step of filling concrete between the first reinforcing plate and the second reinforcing plate to form an expansive composite wall synthesized in an existing underground outer wall.

Description

{Underground expansion and top-down method of new building using reinforcement of existing underground outer wall}

The present invention relates to an underground extension and reverse construction method of a new building. In particular, the thickness and site of the existing underground external wall are narrow, and the construction of a retaining wall is impossible due to an adjacent building. It is about the underground extension and reverse construction method of a new building that can be extended.

In order to demolish or build a new basement N-story building, a new retaining wall must be built outside the existing retaining wall outside the existing underground outer wall. However, there are cases where it is impossible to construct a retaining wall due to the existing underground outer wall thickness, the narrow site, and adjacent buildings.

For example, if the existing building at the review site is a building with 5 stories below ground and 5 stories above the ground, and the new construction plan is a building with 3 stories below the ground and 17 stories above the ground, the feature of this review site is that the width of the short side of the site is about 20.1 m, The inner width of the existing underground outer wall is 17m, and the underground structure occupies almost the area of the site. For the new building, a mechanical parking lot was designed to secure a parking lot due to the officetel.

When an existing building is located at a site requiring new construction, it is impossible to construct a retaining wall if the inner width of the new underground outer wall is smaller than the inner width of the existing underground outer wall but does not differ significantly within 1M. In addition, existing underground structures can be demolished using the raker method, but problems such as increase in construction period and construction cost occur due to the construction of temporary retaining walls, which is almost impossible to construct, and the process of backfilling and excavating during demolition. For example, it is realistically difficult to demolish the 5th basement floor using the raker method.

Therefore, when an underground extension of an existing building is required, a new construction method is required that is not affected by adjacent buildings, has economical efficiency because it does not use a separate CIP method, and is advantageous in securing a large space by forming a new underground outer wall with a composite wall.

As the background technology of the present invention, as Korean Patent Registration No. 10-1612521, 'deformation suppression and construction method of a junction wall type underground structure' is proposed. This is to construct the underground structure safely and economically while safely supporting the excavated adjacent ground by prior construction of the underground retaining structure on the upper side and the top-down method on the lower side. However, the above background technology requires a ground excavation process, and is difficult to apply to a method of constructing an underground extension of an existing building due to the installation of nail nailing to the lower part of an adjacent building for ground reinforcement.

As another technology that is the background of the present invention, as Korean Patent Registration No. 10-1296856, 'a wall reinforcement structure of an underground structure and a method of constructing an underground structure using the same' are proposed. Even if the wall of the underground structure is reduced, the earth pressure support structure can be strengthened, the slab load can be endured, and the space utilization of the underground structure is improved. However, when this background technology is applied to an existing underground structure, a new retaining wall must be built, which causes a narrow width of the underground space and lowers economic efficiency.

Korean Patent Registration No. 10-1612521 Korean Patent Registration No. 10-1296856

The present invention uses the existing underground outer wall as a temporary retaining wall during the underground extension of a new building through reinforcement of the existing underground outer wall in a state where the thickness and site of the existing underground outer wall are narrow and the retaining wall construction is impossible due to the adjacent building. After completion, the purpose of this is to provide an underground extension and reverse drilling method for a new building that can be used as a permanent form to form the outer wall of an underground storey (new construction) structure.

The underground extension and reverse drilling method of a new building through reinforcement of an existing underground outer wall according to the present invention is a method of extending a new building when there is an underground outer wall of an existing building in the basement. and the first step of confirming the thickness as essential conditions; After preparing the first reinforcing plate to respond to the earth pressure of the construction stage based on the conditions confirmed in step 1, it passes through the opening partially formed in the slab of each basement level in the thickness direction and attaches the first reinforcing plate to the basement wall in the vertical direction a second step of continuously attaching the basement wall with a primary reinforcing plate over the entire basement level, and then performing the construction of an underground frame on the entire basement floor having the basement exterior wall; When the construction of the underground frame is completed, the third step of reinforcing reinforcing bars on the side of the underground outer wall where the primary reinforcing plate is installed; A fourth step of installing a fixed anchor for the construction of the secondary reinforcement plate on the side of the underground outer wall where the primary reinforcement plate is installed; a fifth step of installing a secondary reinforcing plate serving as reinforcement and formwork to fit the underground outer wall using the fixed anchor; and a sixth step of filling concrete between the first reinforcing plate and the second reinforcing plate to form an expansive composite wall synthesized in an existing underground outer wall.

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In addition, the primary reinforcing plate is characterized in that it is arranged and installed with intervals that are regularly spaced apart.

Here, the construction of the underground frame includes the steps of installing a jack support for supporting the PRD equipment in consideration of the load of the PRD equipment for the construction of a percussion rotary drill (PRD) on each basement floor; For PRD construction, the steps of selecting a location where the columns of the new structure will be constructed, forming an opening in the slabs and existing foundations of the first and basement floors above the ground, and installing new piles by PRD construction; Demolition of beams and columns including the first-floor slab of the existing structure, and constructing a new first-floor slab; and repeating the sequential top-down demolition of beams and columns, including the slabs of each basement floor, and the construction of new slabs on the corresponding demolished floor.

According to the underground extension and reverse drilling method of a new building through reinforcement of the existing underground exterior wall of the present invention, the existing basement exterior wall is reinforced by the formation of a new composite wall, so the existing basement exterior wall thickness and site narrow, and the retaining wall construction due to the adjacent building Application in this impossible state is advantageous.

In addition, the construction and demolition of the temporary retaining wall, backfilling and excavation processes are eliminated to shorten the construction period, and the secondary reinforcing plate serves as a formwork together with reinforcement, making economical construction possible.

In addition, it is possible to extend the basement of a new building by reinforcing the existing underground wall, so it is useful when the thickness of the existing underground wall and the site are narrow and it is impossible to construct a retaining wall due to an adjacent building.

In addition, a reinforcing plate is installed on the existing outer wall (retaining wall) to perform the role of not only reinforcement but also a temporary retaining wall (CIP), and the excavation depth can be deepened, thereby improving workability.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 to 5 are a reinforcement flow chart of an existing underground outer wall for an underground extension of a new building according to the present invention,
1 (A), (B) is a perspective view and one side view of reinforcing the basement outer wall with a primary reinforcing plate,
2 (A), (B) is a perspective view and a side view of reinforcing reinforcing bars on the front surface of the primary reinforcing plate,
3 (A), (B) is a perspective view and a side view in which a fixed anchor is installed on the front surface of the primary reinforcing plate,
4 (A) and (B) are a perspective view and an enlarged view of one side in which the secondary reinforcing plate is installed through a fixed anchor,
5 is a side view illustrating a new construction wall formed by pouring concrete between a primary reinforcing plate and a secondary reinforcing plate.
6 to 23 are flowcharts of a reverse punching method for underground extension of a new building according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

The present invention is applied to a construction method of extending a new building when there is an underground outer wall 12 of the existing building 10 underground.

First, as a first step, the current status of the existing underground outer wall 12 shown in FIGS. 1 and 6 is identified, and concrete strength and thickness are confirmed as essential conditions. If there is no design document, the strength and thickness of concrete can be checked through a core test. Here, the required section is changed according to the structural analysis and the condition of the existing reinforcement due to the change of the basement floor height.

Next, in the second step, as shown in FIG. 1 , the primary reinforcing plate 21 to be reinforced is prepared in consideration of the concrete strength and thickness of the underground outer wall 12 . The primary reinforcing plate 21 has a constant thickness and width w. Since most earth pressure acts in the vertical direction, the reinforcement of the primary reinforcing plate 21 is installed in the vertical direction and then the underground horizontal frame is constructed. As shown in FIG. 2, when interference occurs in the existing underground slab 13, the primary reinforcement plate 21 can be continuously reinforced by forming an opening 13a partially open to the slab at regular intervals as an outer wall. can

Next, as shown in FIGS. 1 and 7 , the primary reinforcing plate 21 is vertically attached to the underground outer wall 12 to reinforce the underground outer wall 12 with the primary reinforcing plate 21 . In this embodiment, the primary reinforcing plate 21 is installed on the underground outer wall 12 through the anchor bolts 25 of the double row.

At this time, the primary reinforcing plate 21 may be continuously installed through the opening 13a partially formed in the thickness direction in the slab 13 of each basement floor (B1F to B5F) to prevent discontinuity of the reinforcement region from occurring. . In addition, it is preferable that the primary reinforcing plate 21 is arranged and installed with intervals G at regular intervals in consideration of economic efficiency and ease of construction.

Then, as shown in FIGS. 8 to 19 , it has a step of performing the construction of an underground frame on the entire basement floor (B1F to B5F) having an underground outer wall 12 . The construction for the underground frame will be described separately later.

Next, when the construction of the underground frame is completed, as shown in FIG. 2 , there is a step of reinforcing the reinforcing bar 30 on the side of the underground outer wall 12 where the primary reinforcing plate 21 is installed. In this embodiment, the reinforcing bar 30 includes a vertical reinforcing bar 31 for sharing the compressive force and a band reinforcing bar 32 for fixing the position of the vertical reinforcing bar 31 and preventing buckling. The band reinforcement 32 is disposed at a right angle to the vertical reinforcement 31 .

Next, as shown in FIG. 3 , there is a step of installing a fixed anchor 40 for the construction of the secondary reinforcement plate 22 on the side of the underground outer wall 12 where the primary reinforcement plate 21 is installed. The fixed anchor 40 may be fixedly installed on the primary reinforcing plate 21 side as in this embodiment, but may be further installed on the underground outer wall 12 side. The fixed anchor 40 may be an anchor bolt, a set anchor bolt, a chemical anchor, and the like.

Next, as shown in FIG. 4, a secondary reinforcing plate 22 serving as reinforcement and formwork is installed using the fixed anchor 40. Therefore, a filling space of concrete to be poured together with the reinforced reinforcing bar 30 is formed between the primary reinforcing plate 21 and the secondary reinforcing plate 22 .

Then, as shown in FIG. 5, pouring and filling concrete between the primary reinforcing plate 21 and the secondary reinforcing plate 22 to form an expansion and contraction wall 14 synthesized in the existing underground outer wall 12 has a step . The process of forming the expansion and contraction wall 14 is shown in FIGS. 20 to 22 . 20 is a state in which the new construction wall 14 is installed on the newly built 3rd basement floor, FIG. 21 is a state in which the new construction wall 14 is additionally constructed up to the newly established 2nd basement floor, and FIG. The expansion and contraction wall 14 is additionally constructed.

Here, the steel plate for the outer wall, that is, the primary reinforcing plate 21 and the secondary reinforcing plate 22 are used for the permanent outer wall of the new structure. In particular, since the secondary reinforcing plate 22 is used for a formwork in the construction stage, a general formwork is unnecessary, so workability and economic efficiency are advantageous.

When the basement frame construction is completed in this way, the upper floor frame construction is proceeded as shown in FIG.

As described above, in the underground extension and reverse drilling method of a new building through reinforcement of the existing underground exterior wall according to the present invention, the existing underground exterior wall 12 is reinforced by the formation of the new construction wall 14, so the thickness of the existing underground exterior wall and the narrow site, It is useful to apply in a state where retaining wall construction is not possible due to an adjacent building.

Of course, existing underground structures can be demolished using the raker method, but problems such as increase in construction cost and increase in construction cost are eliminated due to the construction of a temporary retaining wall that is almost impossible to construct, backfilling while dismantling, and excavating again. have an advantage

On the other hand, the construction method of the underground frame made in the above process will be described.

First, in the construction of the underground frame, the jack support 110 for supporting the PRD equipment is installed in consideration of the load of the PRD equipment for the construction of a percussion rotary drill (PRD) in each basement level (B1F ~ B5F) as shown in FIG. 8 .

Next, for PRD construction, as shown in FIG. 9, select the location where the columns of the new structure will be constructed, After forming (13a), a new pile 120 is installed through the known PRD (Percussion Rotary Drill) method as shown in FIG. 10 .

Next, as shown in FIG. 11 , the beams and columns including the first-floor slab 13 of the existing structure 10 are removed, and then, as shown in FIG. 12 , a new slab 130 on the first-floor is constructed.

Then, in the order shown in FIGS. 13 to 18, the sequential top-down demolition of beams and columns including the slab 13 of each basement floor (B1F ~ B5F) and the construction of a new slab 130 on the corresponding demolished floor. proceeds repeatedly. Here, after the slab and foundation of the existing basement floor are removed, a new foundation is constructed as shown in FIG. 19 .

Of course, when the underground structure is completed, the new pile 120 is covered with reinforced concrete as shown in FIGS. 20 and 21 to complete the column 150 as a steel-framed reinforced concrete structure.

As described above, according to this construction method, a reinforcing plate is installed on the existing outer wall (retaining wall) to perform the role of not only reinforcement but also a temporary retaining wall (CIP), and the excavation depth can be deepened, thereby improving workability.

In addition, the new underground outer wall is constructed with a synthetic retaining wall, and since the thickness becomes thinner, it is advantageous to secure a space for a new underground building, and has the economic advantage of not requiring CIP construction.

In addition, the secondary reinforcing plate serves as a formwork together with reinforcement, making economical construction possible.

So far, the present invention has been described in detail with reference to the presented embodiment, but those skilled in the art can make various modifications and variations of the invention without departing from the technical spirit of the present invention with reference to the presented embodiment. will be. The present invention is not limited by such variations and modifications, but only by the claims appended hereto.

12: basement outer wall
14: expansion and contraction wall
21: primary reinforcement plate
22: secondary reinforcement plate
30: rebar
40: fixed anchor

Claims (4)

In the construction method of extending a new building when there is an underground outer wall 12 of an existing building in the basement,
Step 1 of identifying the current status of the existing underground outer wall 12 and confirming the concrete strength and thickness as essential conditions;
After preparing the first reinforcing plate 21 to respond to the earth pressure of the construction stage based on the conditions confirmed in step 1, it passes through the openings 13a partially formed in the thickness direction in the slabs 13 of each basement level and passes through the basement. After the primary reinforcing plate 21 is continuously attached to the outer wall 12 in the vertical direction to reinforce the underground outer wall 12 with the primary reinforcing plate 21 over the entire basement level, the basement having the underground outer wall 12 The second stage of performing the construction of an underground frame on the entire floor;
When the construction of the underground frame is completed, the third step of reinforcing the reinforcing bar 30 on the side of the underground outer wall 12 where the primary reinforcing plate 21 is installed;
A fourth step of installing a fixed anchor 40 for the construction of the secondary reinforcement plate 22 on the side of the underground outer wall 12 where the primary reinforcement plate 21 is installed;
a fifth step of installing a secondary reinforcing plate 22 having a reinforcing and formwork function to fit the underground outer wall 12 using the fixed anchor 40;
A sixth step of filling concrete between the first reinforcing plate 21 and the second reinforcing plate 22 to form an expansion-contracted composite wall 14 synthesized in the existing underground outer wall 12; characterized in that it comprises a The underground extension and reverse drilling method of a new building through reinforcement of the existing underground outer wall. delete The method of claim 1,
The first reinforcing plate 21 is an underground extension and reverse drilling method of a new building through reinforcement of an existing underground outer wall, characterized in that it is arranged and installed with intervals G at regular intervals. The method of claim 1,
Underground structure construction
Installing a jack support 110 for PRD equipment support in consideration of the load of the PRD equipment for PRD (Percussion Rotary Drill) construction on each basement floor;
For PRD construction, select the location where the columns of the new structure will be constructed, form the openings 13a on the first floor (1F) above the ground, the slabs 13 on each basement level, and the existing foundation 11, and then build new piles for PRD construction installing (120);
Demolition of beams and columns including the first-floor slab 13 of the existing structure 10, and constructing a new first-floor slab 130 above the ground;
Reinforcement of an existing underground outer wall, comprising a; sequential top-down demolition of beams and columns including the slab 13 of each basement floor, and repeating the construction of a new slab 130 in the corresponding demolished floor. Underground extension and reverse construction method of new buildings through

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