KR100623005B1 - Underground outer wall construction method using temporary retaining wall - Google Patents

Abstract

The present invention is a mud wall formed by putting a pile of H pile and earth plate, a mud wall formed by putting a pile of H pile and soil cement wall, a mud wall formed by installing a site-pouring concrete pile reinforced with H pile, reinforcing bars It provides an underground retaining wall construction method using a temporary wall structure having a wall of mud walls formed by installing a temporary wall pile or a sheet pile of a pile pile formed by installing a cast-in-place concrete pile. This construction method is to excavate the inside of the retaining wall and install the supporting pillar vertically on the H-pile, reinforcing reinforcement or seat pile to reinforce the strength through the integration with the concrete retaining wall to be formed later. Construct the concrete retaining wall to be integrated with the support column. At this time, the brace is attached to the H pile, reinforcing bars or sheet piles and the brace column vertically extending in the thickness direction of the concrete retaining wall and the brace column horizontally attached to the end of the brace column horizontally so as to have a length in the longitudinal direction of the concrete retaining wall. Equipped.

Description

Underground retaining wall construction method using temporary earthquake structure {UNDERGROUND OUTER WALL CONSTRUCTION METHOD USING TEMPORARY RETAINING WALL}

1 is a flow chart for explaining the construction method of the present invention;

2 and 3 are views for explaining the most basic configuration of the present invention;

4 and 5 are views for explaining a method of forming a concrete retaining wall using a deck plate;

6 is a flowchart for explaining a case in which the H file is applied only to the building foundation file in the construction method of the present invention;

7 and 8 are views for explaining a method for installing a shear key in the H file in the case of applying the H-file as a building foundation file in the construction method of the present invention;

9 is a view for explaining a method for constructing the support column to be buried in concrete;

FIG. 10 is a view for explaining a method of installing a deck plate when the support pillar is buried in concrete as shown in FIG. 9; FIG.

11 is a view for explaining a shear key for reinforced concrete reinforcement;

FIG. 12 is a view for explaining an example in which the shear key for reinforcing concrete reinforcement of FIG. 11 is applied to the construction of an underground retaining wall; FIG.

13 and 14 are views for explaining the construction method of the basement retaining wall according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: H pile 20: Brace column

22: support column vertical 24: support column horizontal

26: auxiliary vertical stand 30: deck plate

40: shear key 50: concrete retaining wall

70: shear key for reinforcing concrete 72: first flat steel

74: position fixing plate 76: second flat steel

78: bar 80: retaining wall reinforcement

90: reinforcing bar reinforcement

The present invention relates to a method for constructing an underground retaining wall using a temporary retaining structure, and more specifically, a hypothesis for utilizing a retaining plate, which is a temporary facility constructed for the purpose of supporting external forces such as earth pressure, for the excavation as a retaining wall and a pile foundation of a building. The present invention relates to a method for constructing an underground retaining wall using an earth block structure.

When the soil is cut, cut, excavated, etc., slopes are usually provided to maintain the stability of the ground. However, slopes are used when excavating to secure more effective use of land or to construct the foundations and basements of structures in cities. Normally, vertical excavation is performed. Therefore, in order to prevent the collapse of the ground caused by this, various kinds of earthquake structures are installed at this vertical surface location.

Meanwhile, Republic of Korea Patent Registration No. 0313720 "Method for constructing underground structures of buildings using temporary steel wall braces as part of permanent structures" is to use temporary supports, which are temporarily installed for digs for underground structures, as part of permanent facilities. It is proposed to shorten construction period, save resources, and reduce construction cost by reducing installation and dismantling work of temporary braces.

In this context, an object of the present invention is to provide a method for constructing a base retaining wall using a new type of temporary earthquake structure that can be used as a permanent facility by using the temporary earthquake structure more effectively. In particular, the present invention is to provide a method for constructing a base retaining wall using a new type of temporary retaining structure that can facilitate the construction of a concrete retaining wall.

In addition, the present invention is to provide a construction method for underground retaining wall using a new type of temporary earthquake structure that can be applied to the temporary earthquake structure according to the ground conditions and the structure of the building.

According to a feature of the present invention for achieving the above object, the present invention is a mud wall formed by putting a pile of H pile and earth plate, a mud wall formed by installing a soil cement wall and a pile of H pile, reinforced with H pile Underground retaining wall using a temporary earthquake wall structure with an earthwork wall formed by installing a site-cast concrete pile, a soil wall formed by installing a site-cast concrete pile, or a temporary pile file made of a sheet pile A construction method comprising the steps of: carrying out a trench at an inner side of the earthen wall; A step of vertically attaching the support pillar to the H-pile, reinforcing bar or sheet pile to reinforce the strength through integration with the concrete retaining wall to be formed; Pouring concrete to construct a concrete retaining wall to be integrated with the support column; The bracing column is attached to the H-pile, reinforcing bars or sheet piles, and a plinth vertical stand extending in the thickness direction of the concrete retaining wall; And a support column horizontally attached to an end of the support column horizontally so as to have a predetermined length in the longitudinal direction of the concrete retaining wall.

In the construction of the concrete retaining wall as described above, the deck plate may be installed to be supported by the support column horizontally to form an inner wall of the concrete retaining wall.

In the present invention, the step of constructing the concrete retaining wall may be such that the support column vertical bar and the horizontal bar is recessed in concrete so that the support column horizontal bar is not exposed to the outside. At this time, the step of installing the support column further comprises the step of installing an auxiliary vertical stand that is vertically attached to the horizontal support column, the step of constructing the concrete retaining wall is a deck plate to be supported by the auxiliary vertical stand It can be installed to form the inner wall of the concrete retaining wall.

The step of installing the support column in the underground retaining wall construction method using the temporary earthquake structure according to any one of claims 1 to 4 of the present invention is the upper portion between the H pile, reinforcing bars or sheet pile After the removal to a predetermined depth, and further comprising the step of installing a shear key for reinforced concrete reinforcement between the H-pile, reinforcing bars or sheet piles, and the step of constructing the concrete retaining wall is the shear key and the support column for the reinforced concrete reinforcement and It can be constructed to integrate the concrete retaining wall. At this time, the reinforced concrete reinforcement shear key is a pair of the first flat steel spaced apart by a predetermined distance and arranged horizontally by a fixed position plate; A pair of second flat steels spaced at a predetermined distance from the first flat steel and fixedly spaced by a positioning plate to correspond to the first flat steel; Each end is fixed to the upper and lower flat steel corresponding to each of the first flat steel and the second flat steel may be provided with a bar.

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1 is a flow chart for explaining the construction method of the present invention, Figures 2 and 3 are views for explaining the most basic configuration of the present invention, Figures 4 and 5 to form a concrete retaining wall using a deck plate Figures for explaining how to do.

Referring to Figure 1, the base retaining wall construction method using the temporary earthquake structure according to the present invention (S100) to construct the earth wall using the H pile, reinforcement or sheet pile along the circumference of the building construction area, the basement of the building In order to construct the structure by excavating the inner region of the earthen wall is a trench (S110). Then, when the trench is completed or the trench stage is stepped into H-pile, reinforcing bars or sheet piles, as shown in FIGS. 2 and 3, the support column vertical pole 22 and the horizontal pole 24 are shown. Coupling column 20 made by coupling such as welding (S120). And the concrete is poured into the concrete retaining wall 50 to be integrated with the support pillar (20) (S150).

Here, the construction of the earth wall (S100) may be made by a variety of general methods applied or known in the art. For example, the construction method according to the present invention is a soil wall, which is formed by putting a pile of H pile and a soil plate, a soil wall, which is formed by installing a soil cement wall, and installing a soil cement wall (Hoil cement wall), reinforced by site pile concrete Any wall that is installed to install underground structures, such as a wall of mud walls formed by installing piles, a wall of mud walls formed by installing concrete piles, and a wall of mud walls formed by installing pile sheets. It can also be applied to the wall of the shape of the earth. Hereinafter, the file of each retaining wall is demonstrated by H pile 10. As shown in FIG. And the trench (S110) is generally made through a plurality of excavation, but the support pillar 20 may proceed by combining to the H pile 10 separately for each excavation step, or after completing the excavation collectively H pile ( 10) can be attached to the installation.

In addition, as shown in Figures 2 and 3, the brace 20 is composed of the brace vertical pole 22 and the horizontal pole 24 is attached to the H pile 10 of the earth wall vertically. At this time, the support column 22 is a part directly attached to the H pile 10 by welding or the like and extends in the thickness direction of the concrete retaining wall 50, and the support column 24 is the support column vertical stand. Attached to the end of the (22) has a constant length in the longitudinal direction of the concrete retaining wall (50). Meanwhile, in the preferred embodiment of the present invention, the support column 20 is shown to have a 'ㅓ' type (shape seen in the state shown in Figure 2), which is intended to show the shape of the support column of the present invention, the actual support vertical The base 22 may be applied to a plate member, a mold member and a bar member having a deformed cross section such as 'c'.

Meanwhile, as shown in FIGS. 4 and 5, the construction method of the present invention installs the deck plate 30 to be supported by the support column horizontal bar 24 to form the inner wall of the concrete retaining wall 50. Deck plate (30, deck plate) applied to the present invention is applied to the composite deck plate to be integrated with the concrete to form a building structure. As such, the basement retaining wall to which the support column 20 and the deck plate 30 are applied stably supports the horizontal load and the earth pressure load. In addition, the shear key 70 for reinforcing concrete reinforcement as shown in FIG. 11 may be installed as shown in FIG. 12 to integrate the temporary retaining wall and the concrete retaining wall 50. The shear key 70 for reinforcing concrete reinforces the pile (temporary wall structure) and the concrete retaining wall 50 between the H pile 10 so that the load applied to the underground retaining wall is distributed.
Meanwhile, the shear key 70 for reinforced concrete is slightly different from the shear key 40 of the preferred embodiment of the present invention described later. That is, the shear key 70 for reinforcing concrete reinforcement is installed to be positioned across the H pile 10 and the concrete retaining wall 50, as shown in FIG. 12, so that the construction of the temporary retaining structure and the concrete retaining wall 50 when the underground retaining wall is installed. While the integration is effectively achieved, the shear key 40 is horizontally connected between the H pile 10 as shown in Figure 8 is installed in the concrete retaining wall 50, the achi pile 10 is a concrete retaining wall 50 ) To support vertical loads. Therefore, the shear key 40 and the shear key 70 for reinforcing concrete reinforcement may be used separately as in the preferred embodiment of the present invention to be described later, and may be used simultaneously at mutually staggered positions.

FIG. 6 is a flowchart illustrating a case in which the H file is applied only to the building foundation file in the construction method of the present invention, and FIGS. 7 and 8 illustrate a case in which the H file is applied only to the building foundation file in the construction method of the present invention. Figures for explaining how to install the shear key on the file.

6 to 8, as described above, the technical feature of the present invention is to install the support column 20 and the deck plate 30 to the horizontal load and earth pressure load acting on the construction of the temporary retaining wall and concrete retaining wall In the method of construction to support integrally, another technical feature of the present invention is to apply vertical load together with the concrete retaining wall by applying the pile 10 of the temporary retaining wall only as the pile foundation of the building at the same time or separately. To support it. For this purpose, the shear file 40 is coupled to the H pile 10 as shown in FIGS. 7 and 8. The shear key 40 is horizontally coupled to the H pile 10 by welding or the like to connect the H pile 10. And the shear key 40 is installed in a number suitable for the design of the building, and the concrete is installed to be integrated with the concrete retaining wall (50).

6 to 8, the present invention may apply the deck plate 30 as described above in applying the H pile 10 of the temporary soil plate as a permanent structure, and the H pile 10 may be applied to the H pile 10. It can also be applied only as a pile foundation for permanent structures (buildings). Therefore, the underground retaining wall construction method using the temporary retaining structure according to the present invention using the H pile, reinforcing bars or sheet piles, such as constructing the earth wall (S100) and proceeding the trench (S110), the deck plate (30, In the case of applying (S200) (S120) to install the support column (S120) and at the same time to use as a pile foundation (S210) to install the shear key 70 for reinforced concrete reinforcement (S130) and the deck plate 30 Installation (S140) is to construct the concrete retaining wall 50. And if you want to use the H-pile 10 as the foundation of the building without installing the deck plate 30 (S210) Install the shear key 40 (S220 ') and construct the concrete retaining wall 50 {selectively reinforced The concrete reinforcement shear key 70 is installed (S130 ')}, and if only the deck plate 30 is installed, the support column 20 is installed and the deck plate 30 is installed (S140') and the concrete retaining wall ( 50) will be installed.

As described above with reference to FIGS. 1 to 8, the underground retaining wall construction method using the temporary retaining structure of the present invention combines a support column having a vertical stand and a horizontal stand with an H-pile of a retaining wall, and casts concrete to retain the concrete retaining wall. By integrating with the building, the underground retaining wall of the building can be more firmly constructed and relatively simple to construct. In addition, the underground retaining wall construction method using the temporary soil structure of the present invention by applying a deck plate supported by the support column to form the inner wall of the concrete retaining wall to replace the conventional conventional formwork method to shorten the air and the construction work Simplify And by using shear key, it is possible to construct underground retaining wall that works effectively on the vertical load of the building even when the soil condition is not good when the pile of H.

According to the method of constructing the underground retaining wall using the temporary earthquake structure according to the present invention, the number of piles during construction and the retaining wall thickness and the reinforcement amount are reduced, thereby reducing the construction cost and ensuring the convenience of construction. Complaints can be minimized because no pile work is required at the site boundary.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 9 to 14, and like reference numerals denote like elements for performing the same functions in FIGS. 1 to 14. Meanwhile, the drawings and detailed descriptions of the constructions which can be easily understood by the conventional construction method in which the general construction and construction structures related to general civil engineering and construction construction as permanent structures in each drawing are briefly or omitted, and center the parts related to the present invention. As shown. In particular, there are parts in which the size ratio between the elements is somewhat different or the sizes between the components coupled to each other are different. However, the differences in representation of the drawings are easily understood by those skilled in the art. A separate description is omitted.

FIG. 9 is a view for explaining a method of constructing a support column to be buried in concrete, and FIG. 10 is a view for explaining a method for installing a deck plate when the support pillar is buried in concrete as shown in FIG. 9.

As shown in FIG. 9, the construction method of the basement retaining wall according to the present invention, as described above, allows the support pillar 20 ′ to be recessed in concrete so that the support pillar horizontal legs 24 (see FIG. 2) are not exposed to the outside. Can be. In such a case, as shown in FIG. 10, the auxiliary vertical stand 26 is vertically attached to the support column horizontal stand 24 by welding or the like, and the deck plate 30 is installed between the auxiliary vertical stand 26. The deck plate 30 is supported by the auxiliary riser 26 to form the inner wall of the concrete retaining wall 50. In this way, the support pillar 20 'does not protrude to the inside of the basement retaining wall to prevent the support pillar 20' of the steel structure from being corroded and to prevent the beauty of the fall by exposing to the outside.

FIG. 11 is a view for explaining a shear key for reinforcing concrete reinforcement, and FIG. 12 is a view for explaining an example in which the shear key for reinforcing concrete reinforcement of FIG. 11 is applied to the construction of an underground retaining wall.

As described above, the shear key 70 for reinforcing concrete reinforcement may be installed to effectively integrate the temporary structure and the concrete retaining wall 50 during the construction of the base retaining wall according to the present invention. The reinforced concrete reinforcement shear key 70 is removed between the H piles 10 to a predetermined depth and is installed therebetween so as to be integrated with the concrete retaining wall when constructing the concrete retaining wall 50. Such shear key 70 for reinforced concrete reinforcement is applied by the inventor of the utility model registration application (20-2003-0035350) on November 12, 2003, the "bending / shear combined reinforcement for foundation structures". The reinforced concrete shear key 70 is composed of a pair of first and second flat steels 72 and 76 and a bar 78 connecting therebetween as shown in FIG. 11. The pair of first flat steels 72 are horizontally spaced apart at a constant distance and spaced apart by the positioning plate 74, and the pair of second flat steels 76 are fixed at a constant distance from the first flat steel 72. Spaced apart and spaced by the positioning plate 74 so as to correspond to the first flat steel 72, the bar 78 is in the upper and lower flat steel respectively corresponding to the first flat steel 72 and the second flat steel (76) Each end is fixedly coupled.

13 and 14 are views for explaining the construction method of the basement retaining wall according to a preferred embodiment of the present invention.

First, civil engineering and building design for constructing the underground retaining wall according to the present invention is to grasp the nature of the ground to calculate the size of the earth pressure, to predict the groundwater level to calculate the water pressure, the load on the retaining wall, such as the flooring load to be loaded on the ground All load components are calculated to calculate the magnitude of the load on the retaining wall. In addition, the load generated by the building structure, that is, the fixed load by the structure of the building, the loading load on the building, the wind load, the earthquake load, and the loads that the retaining wall must bear are calculated. For these loads, the stress that the composite structure of the temporary barrier wall and the base retaining wall must withstand is calculated to determine whether the base retaining wall is to be used as the deck plate 30 and whether the H pile 10 is to be used as the foundation of the building only. . FIG. 13 and FIG. 14 are views showing the construction installed in the basement retaining wall when the base retaining wall is constructed with the deck plate 30 and the H pile 10 is used as the pile foundation of the building.

13 and 14, the underground retaining wall construction method using a temporary earthquake structure according to a preferred embodiment of the present invention is a support pillar having a support column vertical pole 22 and a horizontal pole 24 in the H pile (10) 20 is installed, and the concrete retaining wall 50 is constructed by installing the shear key 70 and the deck plate 30 for reinforcing concrete reinforcement. The work order for the construction of such a concrete retaining wall 50 is as follows. First of all, when constructing a temporary structure for underground mudstone, check the site stop work and underground buried works on the boundary line where the building is to be installed, and drill the ground to form the mud wall after blocking work, and then install the H pile (10) in the hole. Put it in and inject the concrete. Next, after performing the first step gulting construction to remove the exposed concrete portion inside the H pile (10) by digging and then weld the reinforced concrete reinforcement shear key 70 and the support column (20) to the H pile (10). And after performing the two-stage gulting construction welds the support pillar 20 to the H pile 10 in the same way and installs the shear key 70 for reinforced concrete reinforcement as needed. In this order, the bottom end is continuously excavated, and the support pillar 20 is also welded to the H pile 10 as described above. After the gulting process is completed, the deck plate 30 is installed inside the bracing column 20 and the foundation concrete is laid to install the foundation. After the foundation construction is completed, the lowermost basement outer wall, the lowermost frame and the uppermost basement outer wall are constructed. . At this time, the support pillar 20 and the shear key 70 for reinforced concrete reinforcement can be installed in the H pile 10 after the excavation due to the excavation construction is completed, the retaining wall reinforcement 80 and the reinforcing column reinforcement (90) It can be used to construct a concrete retaining wall (50).

The base retaining wall constructed by the underground retaining wall construction method using the temporary earthquake structure according to the preferred embodiment of the present invention has the advantages of the present invention, in addition to the steel support and the base retaining wall 50 of the temporary reinforcement shear key 70 for reinforced concrete reinforcement. Since the vertical load transmitted to the basement retaining wall 50 through the building frame is integrally transferred to the steel brace of the temporary facility including the H pile (10) at the same time. And this load transfers the vertical force directly to the ground through the concrete bulbs formed during the construction of the steel braces of the temporary facility, or because the steel braces behave integrally with the building through the shear key 70 for steel concrete reinforcement, some vertical force is transferred to the foundation of the building. It has the effect of reducing the stress burden caused by the eccentricity of the lower part of the foundation outer wall by transferring the load to the ground, and by replacing the pile function installed separately by the vertical force sharing effect of the steel brace of the temporary facility, which acts as a pile. It has the effect of saving.

As described above, although the base retaining wall construction method using the temporary earthquake structure according to a preferred embodiment of the present invention has been shown in accordance with the above description and drawings, this is only an example, and the scope does not depart from the spirit of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made therein.

According to the method of constructing a basement retaining wall using a temporary retaining structure according to the present invention, since the concrete retaining wall constituting the building retaining wall is integrally constructed with the support pillar coupled to the H-pile and the welding of the retaining wall, the thickness of the retaining wall can be reduced. You can reduce the amount of rebar. In addition, since the inner surface of the concrete retaining wall is applied by applying a deck plate, the construction of the concrete retaining wall can be simplified and the air can be shortened as compared with the conventional formwork method. In addition, by applying a shear key coupled horizontally by connecting between the H-pile, etc., it is possible to reduce the number of pile foundations, improve the ease of construction and minimize complaints due to pile construction.

Claims (9)

Retaining wall made of H-pile and earth plate, Retaining wall formed of H-pile and soil cement wall, Reinforced site of H-pile Retaining wall made of concrete pile, Reinforcing bar In the underground retaining wall construction method using a temporary wall structure having a wall of mud wall formed by installing a concrete pile pile or a sheet pile of a pile pile, Carrying out a trench on the inside of the retaining wall; A step of vertically attaching the support pillar to the H-pile, reinforcing bar or sheet pile to reinforce the strength through integration with the concrete retaining wall to be formed; Pouring concrete to construct a concrete retaining wall to be integrated with the support column; The bracing column is attached to the H-pile, reinforcing bars or sheet piles, and a plinth vertical stand extending in the thickness direction of the concrete retaining wall; It is provided with a support column horizontally attached to the end of the support column vertical to have a predetermined length in the longitudinal direction of the concrete retaining wall, The construction of the concrete retaining wall is an underground retaining wall construction method using a temporary soil block structure, characterized in that to form an inner wall of the concrete retaining wall by installing a deck plate to be supported by the support column horizontal. The method of claim 1, The step of installing the support column further includes the step of installing a shear key for reinforcing concrete reinforcement between the H pile, reinforcing bars or sheet piles after removing the upper portion between the H pile, reinforcing bars or sheet piles to a predetermined depth; , The construction of the concrete retaining wall is a method for constructing a basement retaining wall using a temporary earthquake structure, characterized in that the reinforced key reinforcement shear key and the support pillar and the concrete retaining wall is constructed to be integrated. The method of claim 2, The reinforced concrete reinforcing shear key is a pair of first flat steel spaced at a predetermined distance and horizontally arranged and the interval is fixed by a position fixing plate; A pair of second flat steels spaced at a predetermined distance from the first flat steel and fixedly spaced by a positioning plate to correspond to the first flat steel; The base retaining wall construction method using a temporary earthquake structure, characterized in that it comprises a bar, each end is fixedly coupled to the upper and lower flat steel corresponding to each of the first flat steel and the second flat steel. delete delete delete delete delete delete

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