KR20210064786A - the improved hybrid underground wall structure of temporary retaining wall and underground wall structure - Google Patents

Abstract

In accordance with the present invention, provided is an improved hybrid underground wall structure having a retaining wall and an underground wall combined with each other. In regard to underground retaining construction for a building, the improved hybrid underground wall structure includes: a plurality of square tubes (100) installed vertically in a plurality of drilling holes (H) spaced apart from each other after excavation; a plurality of retaining plates (200) installed between the plurality of square tubes (100) with both ends hung thereon to be erected to form a retaining wall; fillers (300) filling the inside of the drilling holes (H) and the square tubes (100); and an underground wall (400) built by using the retaining plates (200) as an outer wall mold. Therefore, the present invention is capable of reducing the thickness of an underground wall.

Description

{The improved hybrid underground wall structure of temporary retaining wall and underground wall structure}

The present invention improves the existing underground structure construction method, in which the retaining wall and the underground wall were constructed by independent work types and processes, and structurally synthesizes the rigidity of the retaining wall and the rigidity of the underground wall to convert the existing load-bearing shape to one-way or two-way By reducing the thickness of the underground wall by transmitting it in a load-bearing shape to reduce the thickness of the underground wall, it relates to an improved hybrid underground wall structure that combines a retaining wall and an underground wall that can reduce the underground excavation line toward the nearby site and secure a wide space inside the underground structure will be.

1 and 2 show the technology of the conventional registration number 10-1955515.

The applicant of the present invention is the patent holder of the prior registration number 10-1955515 patent.

The prior patent provides very excellent structural rigidity and construction effect compared to the existing retaining wall such as CIP.

Figure 3 shows the problems of the prior art registration number 10-1955515.

However, as shown in Figure 3,

For retaining walls such as Patent No. 10-1955515 and the existing CIP, it is necessary to secure the retaining wall thickness (D1) in advance and secure the wall thickness (D2) of the underground structure after construction.

Therefore, in order to secure a wide space (S) in the basement, both D1 and D2 are retreated to the neighboring site, and the underground excavation ship toward the neighboring site is in close contact with the neighboring site. Therefore, various civil complaints such as excavation, vibration, noise, and cracking during earthworks work Possession causes friction with neighboring buildings,

In order to avoid civil complaints, there was no choice but to sacrifice the space (S) inside the basement.

The present invention is an improvement of the prior art registration number 10-1955515.

The present inventors secure the overlapping portions of D1 and D2 in a range where there is no structural problem,

We have developed an improved hybrid underground wall structure that combines the retaining wall and the underground wall of the present invention, which secures a wide underground space (S) and prevents friction with neighboring buildings in advance.

[Document 1] Republic of Korea Registered Utility Model No. 20-0370135 ‘Formwork Structure for Edge Beam Construction of Retaining Wall’, December 02, 2004 [Document 2] Republic of Korea Patent Registration No. 10-0927344 'Connecting structure for connection of retaining wall and floor structure and construction method of floor structure of underground structure using this', November 11, 2009

The present invention is proposed in order to solve the various problems of the prior art as described above. The purpose is to improve the existing underground structure construction method, which used to construct retaining walls and underground walls by independent construction types and processes, and structurally synthesize the rigidity of retaining wall and underground wall to convert the existing load-bearing shape into one-way or two-way By reducing the thickness of the underground wall by transmitting it in a load-bearing shape to reduce the thickness of the underground wall, it provides an improved hybrid underground wall structure that combines the retaining wall and the underground wall to reduce the underground excavation line toward the nearby site and secure a wide space inside the underground structure. want to

In order to solve the above technical problem, the present invention in the basement retaining construction of a building,

A plurality of square tube tubes 100 installed vertically in a plurality of perforated holes (H) formed to be spaced apart from each other after excavation;

A plurality of retaining plates 200 installed with both ends hung between the plurality of square tube tubes 100 to form a retaining wall by standing upright;

a filler 300 filled in the perforated hole (H) and the square tube 100;

an underground wall 400 constructed by using the retaining plate 200 as an external formwork;

It provides an improved hybrid underground wall structure in which a retaining wall and an underground wall are fused, characterized in that it comprises a.

According to the present invention, by improving the existing underground structure construction method, which used to construct the retaining wall and the underground wall by independent work types and processes, structurally synthesizing the rigidity of the retaining wall and the rigidity of the underground wall, the existing load-bearing shape can be changed in one direction or By reducing the thickness of the underground wall by transmitting it in a two-way load-bearing shape, an improved hybrid underground wall structure that combines a retaining wall and an underground wall that can reduce the underground excavation line toward the nearby site and secure a wide space inside the underground structure to provide.

1 and 2 show the technology of the conventional registration number 10-1955515.
Figure 3 shows the problems of the prior art registration number 10-1955515.
Figure 4 shows the square tube tube used in the hybrid underground wall structure of the present invention is a fusion of the retaining wall and the underground wall.
5 is a plan view just before the construction of the underground wall in the improved hybrid underground wall structure in which the retaining wall and the underground wall of the present invention are fused.
FIG. 6 conceptually illustrates a scene in which FIG. 5 is constructed.
7 is a view after the basement wall is constructed in the improved hybrid underground wall structure in which the retaining wall and the underground wall are fused according to the present invention.
FIG. 8 shows the advantages of the present invention compared to FIG. 3 .

Hereinafter, the present invention will be described in more detail through embodiments in which the concept of the present invention as described above is preferably implemented in conjunction with the accompanying drawings.

As described above, the present invention is an improvement of the prior art registration number 10-1955515.

Therefore, the contents not described in this patent specification are considered to be replaced by the technical contents of registration number 10-1955515.

The improved hybrid underground wall structure in which the retaining wall and the basement wall of the present invention are fused,

In the underground retaining construction of a building,

A plurality of square tube tubes 100 installed vertically in a plurality of perforated holes (H) formed to be spaced apart from each other after excavation;

A plurality of retaining plates 200 installed with both ends hung between the plurality of square tube tubes 100 to form a retaining wall by standing upright;

a filler 300 filled in the perforated hole (H) and the square tube 100;

an underground wall 400 constructed by using the retaining plate 200 as an external formwork;

It is characterized in that it comprises a.

And the retaining plate 200,

It is characterized in that one end is hooked on the protrusion 150 of the square tube 100 and installed.

In addition, the square tube 100,

an outer tube 110 formed by bending an outer plate;

The inner tube 130 is formed by bending the plate material on the inner side;

consists of,

The coupling portion of the outer tube 110 and the inner tube 130 is characterized in that the clasp 150.

Hereinafter, it will be described in detail with reference to the drawings.

Figure 4 shows the square tube tube used in the hybrid underground wall structure of the present invention is a fusion of the retaining wall and the underground wall.

In the present invention, the square tube 100 includes an outer tube 110 formed by bending an outer plate; and an inner tube 130 formed by bending a plate material on the inner side;

is comprised of

The square tube 100 is to replace the H-file of the conventional CIP retaining wall.

A reinforcing reinforcement hole 132 into which a wall horizontal reinforcement (not shown) constituting the underground wall 400 is inserted may be formed in a side surface of the inner tube 130 .

The wall horizontal reinforcement may be reinforced through the reinforcement holes 132 formed on both sides of the inner tube 130 .

The reinforcement hole 132 is preferably sealed with a retaining means such as a stopper or tape before the construction of the underground wall 400.

In the reinforcement hole 132 in which the wall horizontal reinforcement is not inserted, the wall concrete constituting the underground wall 400 is sucked, and it is possible to secure the integrity with the wall concrete.

And stud bolts ST may be joined to the side of the inner tube 130 in order to secure integrity with the wall concrete constituting the underground wall 400 .

In addition, stud bolts ST may be joined to the outer surface of the inner tube 130 in order to secure integrity with the wall concrete constituting the underground wall 400 .

In order to use the inner tube 130 as a conventional spacer,

The thickness of the inner tube 130 formed by the side surface of the inner tube 130 is manufactured by the covering thickness of the underground wall 400, and the wall horizontal reinforcing bar is closely attached to the outer surface of the inner tube 130. may be

That is, reinforcing bars to be reinforced in the underground wall must maintain a constant covering thickness, but the covering thickness can be maintained due to the depth thickness (SD) of the bent groove of the square tube tube 130, so it naturally reduces the thickness of the underground wall. do.

5 is a plan view just before the construction of an underground wall in the improved hybrid underground wall structure in which the retaining wall and the underground wall of the present invention are fused;

FIG. 6 conceptually illustrates a scene in which FIG. 5 is constructed.

As shown in Figures 5 to 6,

In the present invention, the retaining plate 200 functions as a conventional retaining earth plate when constructing the retaining wall, and in addition, when constructing the underground wall 400, it functions as an external formwork for the wall.

7 is a view after the basement wall is constructed in the improved hybrid underground wall structure in which the retaining wall and the underground wall are fused according to the present invention.

Figure 3 shows the problem of the prior art registration number 10-1955515,

FIG. 8 shows the advantages of the present invention compared to FIG. 3 .

As described above, as shown in Figure 3,

For retaining walls such as Patent No. 10-1955515 and the existing CIP, it is necessary to secure the retaining wall thickness (D1) in advance and secure the wall thickness (D2) of the underground structure after construction, so the space (S) inside the basement is It was a structure that had no choice but to decrease.

In contrast, the present invention, as shown in FIG.

Since the mutually overlapping part SD of the D1 and D2 is secured in a range where there is no structural problem, as a result, the space S in the basement increases.

In addition, if the space (S) inside the basement is maintained the same as the existing method,

Since both D1 and D2 advance from the neighboring site to the construction site of the present invention, the underground excavation ship toward the neighboring site moves away from the neighboring site, so that various civil complaints such as excavation, vibration, noise, and cracking during earthworks are greatly reduced. It works.

Although the present invention has been described in relation to the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the gist of the present invention, and can be used in various fields.

Accordingly, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

H: perforated hole
ST: stud bolt
100: square tube
110: outer tube
130: inner tube
132: Reinforcement Hall
150: crest
200: earth plate
300: filler
400: basement wall

Claims (3)

In the underground retaining construction of a building,
A plurality of square tube tubes 100 installed vertically in a plurality of perforated holes (H) formed to be spaced apart from each other after excavation;
A plurality of retaining plates 200 installed with both ends hung between the plurality of square tube tubes 100 to form a retaining wall by standing upright;
a filler 300 filled in the perforated hole (H) and the square tube 100;
an underground wall 400 constructed by using the retaining plate 200 as an external formwork;
An improved hybrid underground wall structure in which a retaining wall and an underground wall are fused, characterized in that it comprises a.
In claim 1,
The retaining plate 200,
An improved hybrid underground wall structure in which a retaining wall and an underground wall are fused, characterized in that one end is caught and installed on the protrusion 150 of the square tube 100.
In claim 2,
The square tube 100,
an outer tube 110 formed by bending an outer plate;
The inner tube 130 is formed by bending the plate material on the inner side;
consists of,
An improved hybrid underground wall structure in which a retaining wall and an underground wall are fused, characterized in that the coupling portion of the outer tube 110 and the inner tube 130 becomes the cross-section 150.

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