KR20140138466A - Concrete retaining wall and method for manufacturing the same - Google Patents

Abstract

The present invention relates to a concrete retaining wall structure and a construction method thereof. The method for constructing the concrete retaining wall structure includes: a step for manufacturing a concrete retaining wall plate having multiple first connection steel materials on a side surface thereof; a step for placing a concrete foundation having multiple second connection steel materials protruding from an upper surface of thereof on foundation ground; a step for connecting the first connection steel materials of the concrete retaining wall plate with the second connection steel materials of the concrete foundation, respectively; a step for installing a mold to cast concrete between a lower surface of the concrete retaining wall plate and an upper surface of the concrete foundation; a step for connecting the concrete retaining wall plate with the concrete foundation by casting and curing concrete in the mold; and a step for performing back fill on one side of the concrete retaining wall plate with soil. According to the present invention, the concrete retaining wall structure and the construction method thereof can reduce construction period, can be easily constructed, and increase structural strength.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a concrete retaining wall structure,

The present invention relates to a concrete retaining wall structure and a construction method thereof.

Concrete retaining walls are constructed to stabilize slopes in embankments and cut-offs of roads and railways, river embankments, slopes in coastal roads and residential areas.

Generally, the retaining wall is constructed by a field installation method. Field installation methods include ground excavation, foundation concrete installation, reinforcing structure assembly and formwork installation corresponding to the retaining wall structure, concrete pouring in the formwork, and backfill construction. In this method, the reinforcing structure of the concrete is placed on the ground based on the preliminary design. Also, it takes much time to cure the concrete that has been placed in the form of self-supporting and back-filling. The construction period will be longer.

Therefore, it takes a lot of construction cost, and in a river or incision slope, a worker is exposed to a lot of danger when installing a formwork, and a long-term vehicle restriction is required, so that there is a great inconvenience to a citizen and a risk of a safety accident.

As a method for solving such a problem, Korean Patent Publication No. 2012-0125805 (published on November 19, 2012) (hereinafter referred to as Prior Art 1), Korean Patent Publication No. 2008-0050110 (2008. 06. (Hereinafter referred to as " Prior Art 2 ") discloses a method of assembling a retaining wall in the field.

In the prior arts 1 and 2, a precast concrete retaining wall (L-shaped, inverted T-shaped, etc.) partitioned by a plurality of retaining walls is manufactured in the factory and then transported to the site to assemble the unit precast retaining walls in the field Method is disclosed. The prefabricated concrete retaining wall has a fast construction speed and it is possible to perform backfill construction and repair of the surrounding wrapping immediately after installing the retaining wall, so it is possible to solve problems such as civil inconvenience and safety accident caused during the construction, which is very effective for complicated urban areas or urgent construction.

However, in the method disclosed in the prior arts 1 and 2, since the unit precast reinforcement wall manufactured in the factory is transported to the site, it is impossible to provide a vehicle presentation layer in the form of a basic structure, The size and shape of the precast retaining wall can not be freely manufactured.

An object of the present invention is to provide a concrete retaining wall structure and a construction method thereof that not only shortens a construction period but also facilitates construction.

Another object of the present invention is to provide a large concrete retaining wall structure and a construction method thereof so that the structural strength is the same as that in the field.

In order to accomplish the object of the present invention as described above, there is provided a method of manufacturing a concrete retaining wall plate, the method comprising: preparing a concrete retaining wall plate having a plurality of first connecting steel plates on a side surface thereof; Providing a foundation of concrete on the foundation so that a plurality of second connecting steels protrude from the upper surface; Connecting the first connecting steels of the concrete retaining wall plate and the second connecting steels of the concrete foundation respectively; Installing a concrete mold so as to place concrete between a lower surface of the concrete retaining wall plate and an upper surface of the concrete foundation; Placing concrete in the mold and curing the concrete to connect the concrete retaining wall plate and the concrete foundation; And backing one side of the concrete retaining wall plate with soil. The present invention also provides a method of constructing a concrete retaining wall structure.

A plurality of unit concrete retaining wall plates having a plurality of first connecting steel members on a side surface thereof; Connecting the first connecting steels of unit concrete retaining wall plates adjacent to each other so that the unit concrete retaining wall plates are connected in a horizontal direction; Installing a concrete mold so as to place concrete between side and side surfaces of the unit concrete retaining wall plates adjacent to each other; And pouring and curing the concrete in the mold to connect adjacent unit concrete retaining wall plates to each other.

The concrete connection wall connecting the concrete retaining wall plate and the concrete foundation is thicker than the thickness of the concrete retaining wall plate, the outer side is flush with the outer side surface of the concrete retaining wall plate, and the inner upper surface is higher than the lower surface of the concrete retaining wall plate desirable.

The first connecting steels of the concrete retaining wall plate are arranged in a row, and the second connecting steels of the concrete foundation are also arranged in a line.

The first connecting steels of the concrete retaining wall plate are arranged in two rows, and the second connecting steels of the concrete foundation are also arranged in two rows.

It is preferable that the concrete retaining wall plate is provided with a support material attaching portion, the support material is inserted into the backed up soil, and one of the support materials is fixedly coupled to the support material attaching portion of the concrete retaining wall plate.

In order to accomplish the object of the present invention, there is provided a method of manufacturing a steel plate, comprising: preparing first and second concrete retaining wall plates having a plurality of first connecting steels at a side; Providing a foundation of concrete on the foundation so that a plurality of second connecting steels protrude from the upper surface; Connecting the first connecting steels of the first concrete retaining wall plate and the second connecting steels of the concrete foundation respectively; Installing a first mold so as to place concrete between the lower surface of the first concrete retaining wall plate and the upper surface of the concrete foundation; Placing and curing concrete in the first die to connect the first concrete retaining wall plate and the concrete foundation; Firstly backing one side of the first concrete retaining wall plate with soil; Connecting the first connecting steels of the first concrete retaining wall plate and the first connecting steels of the second concrete retaining wall plate so that the second concrete retaining wall plate is located above the first concrete retaining wall plate; Installing a second mold so as to place concrete between an upper surface of the first concrete retaining wall plate and a lower surface of the second concrete retaining wall plate; Placing the concrete in the second mold and curing the concrete to connect the first and second concrete retaining wall plates; And second backfilling the soil on the primary backfill with the soil so as to be positioned on one side of the second concrete retaining wall plate.

The first and second concrete retaining wall plates are each provided with a support material attaching portion. The first and second support materials are inserted into the first and second backfill materials, and one of the first and second retainer wall plates And one of the second support members is fixedly coupled to the support member mounting portion of the second concrete retaining wall plate.

A first blocking protrusion is provided on an upper surface of the first concrete retaining wall plate, a second blocking protrusion is provided on an outer side of a lower surface of the second concrete retaining wall plate, an upper surface of the first blocking protrusion of the first concrete retaining wall plate, And a second blocking protrusion of the second concrete retaining wall plate is in contact with the upper surface of the first concrete retaining wall plate and the side surface of the first blocking protrusion and the side surface of the second concrete retaining wall plate and the side surface of the second blocking protrusion. Is filled with concrete.

Also, concrete foundations in foundation foundations; A concrete connection wall extending perpendicularly to said concrete foundation; A concrete retaining wall plate extending from the upper portion of the concrete connection wall; And a plurality of connecting steels passing through the inside of the concrete connection wall and having both ends positioned inside the concrete foundation upper part and in the lower part of the concrete retaining wall plate.

The present invention relates to a method for constructing a concrete retaining wall structure by dividing a concrete retaining wall structure into a concrete foundation and a concrete retaining wall plate, installing a concrete foundation on a foundation ground on which the retaining wall is installed, assembling the concrete retaining wall plate Concrete retaining wall structure will be installed. Accordingly, since the concrete foundation and the concrete retaining wall plate are manufactured simultaneously or separately, the time required for pouring and curing the concrete foundation and the concrete retaining wall plate into concrete is shortened, and the construction work is simplified, and the period for constructing the retaining wall is shortened.

In addition, since the connecting steels are provided on the concrete foundation and the connecting steel is provided on the concrete retaining wall plate, the connecting steels of the concrete foundation and the concrete retaining wall plate are connected to each other, To form an effective cross-section, thereby enhancing structural safety and minimizing the risk of collapse.

In addition, when the concrete retaining wall plate is manufactured by precast casting in a factory and then transported to a place where the retaining wall is installed, the concrete retaining wall plate is formed in a plate shape so that it can be easily loaded on the transportation means, Thereby preventing the occurrence of a transportation accident.

In addition, since the concrete retaining wall plate can be connected in a horizontal or vertical direction, the size of the concrete retaining wall can be adjusted according to the size of the retaining wall, and the design and construction can be freely adjusted according to the size and installation position of the retaining wall.

1 is a flowchart showing a first embodiment of a concrete retaining wall construction method according to the present invention,
FIG. 2 is a process diagram showing a first embodiment of a concrete retaining wall construction method according to the present invention,
3 is a perspective view showing a concrete retaining wall plate constituting a concrete retaining wall construction method according to a first embodiment of the present invention,
4 is a perspective view showing another embodiment of the concrete retaining wall plate constituting the concrete retaining wall structure according to the first embodiment of the present invention,
FIG. 5 is a perspective view showing a concrete foundation constituting a first embodiment of a concrete retaining wall construction method according to the present invention, FIG.
FIG. 6 is a cross-sectional view illustrating a connecting wall constituting a first embodiment of a concrete retaining wall construction method according to the present invention,
7 is a cross-sectional view illustrating another embodiment of a connecting steel material constituting a concrete retaining wall structure according to the present invention.
8 is a cross-sectional view illustrating another embodiment of a connecting steel material constituting a concrete retaining wall structure according to the present invention.
9 is a flowchart showing a second embodiment of a concrete retaining wall construction method according to the present invention,
FIG. 10 is a process diagram showing a second embodiment of a concrete retaining wall construction method according to the present invention,
FIG. 11 is a perspective view showing the first and second concrete retaining wall plates constituting the second embodiment of the concrete retaining wall construction method according to the present invention,
12 is a cross-sectional view showing a second connecting wall constituting a second embodiment of a concrete retaining wall construction method according to the present invention,
FIG. 13 is a front view showing a retaining wall to which a concrete retaining wall construction method according to the present invention is applied; FIG.
FIG. 14 is a front view showing a retaining wall of a single-stage connecting structure to which a method of constructing a concrete retaining wall structure according to the present invention is applied;
15 is a front view showing a two-stage connecting-type retaining wall to which a concrete retaining wall construction method according to the present invention is applied.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a concrete retaining wall structure and a construction method thereof according to the present invention will be described with reference to the accompanying drawings.

1 is a flowchart showing a first embodiment of a concrete retaining wall construction method according to the present invention. 2 is a process diagram showing a first embodiment of a concrete retaining wall construction method according to the present invention in a stepwise manner.

As shown in FIGS. 1 and 2, a method of constructing a concrete retaining wall structure according to an embodiment of the present invention includes first preparing a concrete retaining wall plate 100 having a plurality of first connecting steels 110 on a side thereof And a concrete foundation 200 on the upper surface of which a plurality of second connecting steels 210 protrude is provided on the foundation foundation.

As shown in FIGS. 2 and 3, the concrete retaining wall plate 100 includes a rectangular concrete plate 120 having a uniform thickness, reinforcing bars 130 laid on the concrete plate 120, And a plurality of first connecting steels 110 protruding from a side surface of the first connecting member 120. It is preferable that a plurality of first connecting steels 110 are provided on one side of the concrete plate 120. Also, the first connecting steels 110 may be provided on two mutually parallel sides of the concrete plate 120. It is preferable that reinforcing bars 130 are disposed so as to protrude from side surfaces provided with the first connecting steel plates 110. The first connecting steel member 110 may be an eye-shaped steel member having an eye-shaped cross section, a diagonal-shaped steel member having a cross-sectional shape, and may be a cylindrical pipe having a circular section. That is, the first connection steel member 110 may be implemented in various forms. It is preferable that the first connecting steels 110 provided on the side surface of the concrete plate 120 are arranged in a line. On the other hand, the first connecting steels 110 provided on the side surface of the concrete plate 120 may be arranged in a row. The strength is enhanced when the first connecting steels 110 are arranged in a row.

Meanwhile, as shown in FIG. 4, the concrete retaining wall plate 100 can be manufactured by connecting a plurality of unit concrete retaining wall plates 10 to each other. A method of manufacturing a concrete retaining wall plate 100 by connecting a plurality of unit concrete retaining wall plates 10 to each other is as follows.

First, a plurality of unit concrete retaining wall plates 100A having a plurality of first connecting steels 110 on their side surfaces are manufactured. The unit concrete retaining wall plate 100A includes a rectangular concrete plate 120A having a uniform thickness and first connecting steels 110 and reinforcing bars 130 provided on the sides of the concrete plate 120A. The first connecting steels 110 of the unit concrete retaining wall plate 100A adjacent to each other are connected to each other so that the unit concrete retaining wall plates 100A are connected in the horizontal direction. The first connecting steels 110 are connected by connecting means, and the connecting means may be welding, bolts, nuts, and the like. After connecting the first connecting steels 110 to each other, the reinforcing bars 130 provided on the adjacent unit concrete retaining wall plates 100A are connected to each other by using wires. The two first connecting steels 110 connected to each other are connected so as to maintain the verticality and the horizontality. The formwork is installed so that concrete can be placed between the side surfaces and the side surfaces of the unit concrete retaining wall plates 100A adjacent to each other. Concrete is poured and cured in a form to form a concrete connection part 140 to connect adjacent unit concrete retaining wall plates 100A. It is preferable that the first connecting steels 110 and the reinforcing bars 130 do not protrude from the outer surface of the unit concrete retaining wall plate 100A located at both ends. Meanwhile, the unit concrete retaining wall plates 100A may be first connected to the concrete foundation 200, and then the unit concrete retaining wall plates 100A may be inserted into the concrete to connect the unit concrete retaining wall plates 100A with each other.

The concrete retaining wall plate 100 can be manufactured by precast casting in a factory and then transported to a place where the retaining wall is installed, or can be manufactured by precast at a place where the retaining wall is installed. When the concrete retaining wall plate 100 is difficult to carry and is large, the unit concrete retaining wall plates 100A may be manufactured and then transported to the place where the retaining walls are installed, and then the unit concrete retaining wall plates 100A may be connected to each other in the horizontal direction.

As shown in Figs. 2 and 5, the concrete foundation 200 is provided on the foundations of the foundations in the ground where the retaining wall is installed. The concrete foundation 200 includes a concrete body 220 having a predetermined length, width and thickness, reinforcing bars 230 embedded in the concrete body 220, and a plurality of reinforcing bars 230 projecting from the upper surface of the concrete body 220. [ Two connecting steels 210. Reinforcing bars 230 protrude from the upper surface of the concrete body 220. The second connection steel member 210 is preferably formed in the same shape as the first connection steel member 110. The second connecting steels 210 provided on the upper surface of the concrete body 220 are arranged corresponding to the first connecting steels. That is, when the first connecting steels 110 of the concrete retaining wall plate 100 are arranged in a row, the second connecting steels 210 of the concrete foundation 200 are arranged in a line, corresponding to the concrete retaining wall plates The second connecting steels 210 of the concrete foundation 200 are also arranged in a row when the first connecting steels 110 of the first concrete 100 are arranged in a row. The second connecting steels 210 are arranged in the longitudinal direction of the concrete body 220 on the upper surface of the concrete body 220.

It is preferable that the concrete foundation (200) is formed by placing the concrete on the foundation ground, placing the concrete on the concrete, and curing it. On the other hand, the concrete foundation 200 can be manufactured in the factory by precast, and then transported to the foundation foundation.

The concrete foundation 200 and the concrete retaining wall plate 100 can be manufactured at the same time.

And the first connecting steel members 110 of the concrete retaining wall plate 100 and the second connecting steel members 210 of the concrete foundation 200 are connected to each other. That is, the concrete retaining wall plate 100 is set up in a vertical direction, and then the first connecting steels 110 of the concrete retaining wall plate 100 and the second connecting steels 210 of the concrete foundation 200 are connected to each other. The first connecting steel material 110 and the second connecting steel material 210 are connected by a connecting means, and the connecting means may be welding, bolts, nuts, and the like. The first connecting steels 110 of the concrete retaining wall plate 100 and the second connecting steels 210 of the concrete foundation 200 are connected to each other and then the reinforcing bars 130 of the concrete retaining wall plate 100 and the concrete foundation The reinforcing bars 230 of the reinforcing bar 200 are connected to each other by using a wire or the like.

Then, the step of installing the concrete so as to place the concrete between the lower surface of the concrete retaining wall plate 100 and the upper surface of the concrete foundation 200 is progressed, and the concrete is poured and cured in the concrete form, and the concrete retaining wall plate 100 and the concrete The step of connecting the bases 200 proceeds.

6, the cured concrete connection wall 300 connecting the concrete retaining wall plate 100 and the concrete foundation 200 is thicker than the thickness of the concrete retaining wall plate 100, and one side of the concrete retaining wall plate 300 is thicker than the thickness of the concrete retaining wall plate 100, And the other upper surface 310 is higher than the lower surface of the concrete retaining wall plate 100. Due to such a structure, when the concrete is laid and cured in the form, the concrete is reduced due to the shrinkage of the concrete, thereby preventing the gap between the concrete retaining wall plate 100 and the concrete foundation 200 from being generated. On the other hand, the concrete connection wall 300 is thicker than the concrete retaining wall plate 100 and has both side surfaces protruded outward from both side surfaces of the concrete retaining wall plate 100, The upper surfaces of the wall 300 may be formed higher than the lower surface of the concrete retaining wall plate 100, respectively.

Then, a step of backfilling one side of the concrete retaining wall plate 100 with soil proceeds.

It is preferable that the concrete retaining wall plate 100 and the support material 400 are installed on the backfilled soil in order to enhance the stability of the retaining wall when the concrete retaining wall plate 100 is installed high. When the support material 400 is installed, the concrete retaining wall plate 100 is provided with the support material attaching part 150, the support material 400 is inserted into the backed up soil, and one of the support materials 400 is inserted into the concrete retaining wall plate 100, It is preferable that the support member 150 is fixedly coupled to the support member mounting portion 150.

The plate PL is coupled to the end face of the first connecting steel member 110 of the concrete retaining wall plate 100 and the end face of the concrete base 200 respectively and the first connecting steel member 110, The plate PL of the second connecting steel member 210 and the plate PL of the second connecting steel member 210 can be coupled by the connecting means.

The technique in which the support material 400 is installed is a well-known technology, and a detailed description thereof will be omitted.

The concrete retaining wall structure according to the present invention installed by the first embodiment of the concrete retaining wall construction method according to the present invention comprises a concrete foundation 200 provided on a foundation foundation; A concrete connection wall 300 extending perpendicularly to the concrete foundation 200; A concrete retaining wall plate 100 formed on the upper portion of the concrete connecting wall 300; And a plurality of connecting steels T passing through the inside of the concrete connection wall 300 and having both ends respectively positioned inside the concrete foundation upper part and in the lower part of the concrete retaining wall plate 100.

The connection steel T is connected to the first connection steel member 110 and the second connection steel member 210.

The concrete connection wall 300 connecting the concrete retaining wall plate 100 and the concrete foundation 200 is thicker than the thickness of the concrete retaining wall plate 100 and one side, And the upper surface of the other side (back surface side) is higher than the lower surface of the concrete retaining wall plate 100.

When the support member 400 reinforcing the strength is installed, one of the support members 400 is coupled to the support member mounting portion 150 of the concrete retaining wall plate 100.

7, the concrete foundation 200 is provided with a plurality of anchor bolts BT in place of the second connecting steel material, and a plurality of anchor bolts BT are provided on the lower surface of the concrete retaining wall plate 100 The plate PL having the through holes is coupled to the end surface of the protruded first connecting steel member 110 and the anchor bolts BT of the concrete foundation 200 are inserted into the through holes of the plate PL, The bolts (BT) are each fastened with a nut.

8, a plurality of anchor bolts BT are provided on the upper surface of the concrete foundation 200 instead of the second connecting steel material, A connecting member HS which is an etched steel having upper and lower through holes is provided on the lower surface of the concrete retaining wall plate 1000 and a plurality of anchor bolts BT protruded on the lower surface of the plate 100 instead of the first connecting steel, The anchor bolts BT of the concrete retaining wall plate 100 and the anchor bolts BT of the concrete foundation 200 are inserted into the through holes of the upper and lower portions of the connecting member HS, And the nut is fastened to the anchor bolts BT.

9 is a flowchart showing a second embodiment of a concrete retaining wall construction method according to the present invention. 10 is a process diagram showing a second embodiment of a concrete retaining wall construction method according to the present invention in a stepwise manner.

The second embodiment of the concrete retaining wall construction method according to the present invention is that the concrete retaining wall plate is further connected to the upper part of the concrete retaining wall plate 100 after the method of constructing the concrete retaining wall structure of the first embodiment is further advanced and backfilled with the soil.

More specifically, it is as follows.

First, the first and second concrete retaining wall plates having a plurality of first connecting steels 110 are formed on the side surface, and a concrete foundation having a plurality of second connecting steels protruding from the upper surface thereof is provided on the foundation ground The step proceeds. The first connecting steels of the first concrete retaining wall plate and the second connecting steels of the concrete foundation are connected to each other. A step of installing a first mold so as to place concrete between the lower surface of the first concrete retaining wall plate and the upper surface of the concrete foundation is performed. Concrete is poured and cured in the first die to connect the first concrete retaining wall plate to the concrete foundation. A step of backfilling one side of the first concrete retaining wall plate with the soil proceeds first.

The above steps are performed in the same manner as the first embodiment of the concrete retaining wall construction method according to the present invention. 11, the first concrete retaining wall plate 100B is formed in the same shape as the concrete retaining wall plate 100 of the first embodiment, and the first connecting steel plates 110 are protruded in both the upper and lower directions And the reinforcing bars 130 are protruded. The second concrete retaining wall plate 100C is formed in the same shape as the concrete retaining wall plate 100 of the first embodiment. The primary backfilling step is the same as the backfilling step of the first embodiment. A detailed description of the above steps is omitted.

The first connecting steel members 110 of the first concrete retaining wall plate 100B and the first connecting steel members 110 of the second concrete retaining wall plate 100C are disposed such that the second concrete retaining wall plate 100C is positioned above the first concrete retaining wall plate 100B. 1 connected steel members 110 are connected to each other. The first connecting steels 110 of the first concrete retaining wall plate 100B and the first connecting steels 110 of the second concrete retaining wall plate 100C are connected to each other by connecting means. The connecting means may be welding, bolts and nuts, and the like. The reinforcing bars 130 of the first concrete retaining wall plate 100B and the reinforcing bars 130 of the second concrete retaining wall plate 100C are connected to each other by using wires.

The step of installing a second mold so as to place the concrete between the upper surface of the first concrete retaining wall plate 100B and the lower surface of the second concrete retaining wall plate 100C is progressed and the concrete is poured and cured in the second formwork The step of connecting the first and second concrete retaining wall plates 100B and 100C is performed.

12, when the concrete is poured between the upper surface of the first concrete retaining wall plate 100B and the lower surface of the second concrete retaining wall plate 100C, the upper surface of the first concrete retaining wall plate 100B and the upper surface of the second concrete retaining wall plate 100C, A first blocking protrusion 10 is provided on the outer side of the upper surface of the first concrete retaining wall plate 100B so as to open only to the inner side in the space between the lower surface of the retaining wall plate 100C, The upper surface of the first blocking protrusion 10 and the lower surface of the second blocking protrusion 20 are in contact with each other. A space inwardly opened by the upper surface of the first concrete retaining wall plate 100B and the side surface of the first blocking projection 10, the lower surface of the second concrete retaining wall plate 100C and the side surface of the second blocking projection 20 is formed Concrete is poured into the space and cured.

The second backfill with the soil is performed on the primary backfill so as to be positioned on one side of the second concrete retaining wall plate 100C.

The first and second concrete retaining wall plates 100B and 100C are each provided with a support material attaching portion 150 and the first support material 410 is inserted into the first backfill material, 1 concrete retaining wall plate 100B. The second support material 420 is inserted into the second backfill and one side of the second support material 420 is fixedly coupled to the support material attaching portion 150 of the second concrete retaining wall plate 100C. The installation of the support material is a general technique, so a detailed description is omitted.

The concrete retaining wall structure according to the second embodiment of the method for constructing a concrete retaining wall structure according to the present invention comprises a concrete foundation 100 provided on a foundation ground; A first connecting wall (300) extending perpendicularly to the concrete foundation (100); A first concrete retaining wall plate 100B formed on the upper portion of the first connecting wall 300; A plurality of connecting steels passing through the inside of the first connecting wall 300 and having both ends located inside the upper portion of the concrete foundation 100 and in the lower portion of the first concrete retaining wall plate 100B; A second connecting wall 500 formed on the upper portion of the first concrete retaining wall plate 100B; A second concrete retaining wall plate 100C formed on the upper portion of the second connecting wall 500; And a plurality of connecting steels passing through the inside of the second connecting wall portion 500 and having both ends located inside the upper portion of the first concrete retaining wall plate 100B and the lower portion of the second concrete retaining wall plate 100C.

The concrete retaining wall structure and the construction method thereof according to the present invention can be applied to a U-type retaining wall as shown in FIG. 13, and as shown in FIGS. 14 and 15, And the like can be applied.

Hereinafter, effects of the concrete retaining wall structure and the construction method according to the present invention will be described.

The concrete retaining wall structure and its construction method according to the present invention are applied to slopes of roads and railways, river embankments, slopes of coastal roads or residential areas to stabilize slopes.

The concrete retaining wall structure is divided into a concrete foundation 200 and a concrete retaining wall plate 100. A concrete foundation 200 is installed on a foundation foundation where a retaining wall is installed and the concrete retaining wall plate The concrete retaining wall plate 100 is connected to the concrete foundation 200 to install the concrete retaining wall structure. Therefore, since the concrete foundation 200 and the concrete retaining wall plate 100 are manufactured simultaneously or separately, the time required for pouring and curing the concrete foundation 200 and the concrete retaining wall plate 100 with concrete is shortened and the construction work is simple And the period for constructing the retaining wall is shortened. As the conventional construction method, if the entire concrete retaining wall structure is reinforced with reinforcing bars and the concrete is laid and cured, the entire concrete retaining wall structure must be cured. Therefore, the concrete curing time is long and the construction is complicated and the construction time is long. As described above, the present invention minimizes problems such as civil inconveniences and safety accidents caused during construction due to short construction time and simple operation.

The concrete foundation 200 is provided with connecting steels and the concrete retaining wall plate 100 is provided with a connecting steel to connect the second connecting steels 210 of the concrete foundation 200 to the first connection Since the steel members 110 are connected to each other, the structural strength of the foundation joint portion where the concrete foundation 200 and the concrete retaining wall plate 100 are connected is strengthened, thereby preventing the risk of collapse.

The concrete retaining wall plate 100 may be formed in a plate shape when the concrete retaining wall plate 100 (including a concrete base in some cases) is manufactured and transported to a place where the retaining wall is installed after being precasted at a factory. Thereby facilitating loading on the transportation means as well as enabling stable loading on the transportation means, thereby preventing transportation accidents from occurring.

In addition, since the concrete retaining wall plate 100 can be connected in a horizontal or vertical direction, the size of the concrete retaining wall plate 100 can be adjusted according to the size of the retaining wall, so that the design and construction can be freely adapted to the size and installation position of the retaining wall.

100: concrete retaining wall plate 110; The first connecting steel
200: concrete foundation 210; Second connection steel
300,500: connecting walls 400, 410, 420; Support

Claims (11)

The method comprising: fabricating a concrete retaining wall plate having a plurality of first connecting steel members on a side surface thereof;
Providing a foundation of concrete on the foundation so that a plurality of second connecting steels protrude from the upper surface;
Connecting the first connecting steels of the concrete retaining wall plate and the second connecting steels of the concrete foundation respectively;
Installing a concrete mold so as to place concrete between a lower surface of the concrete retaining wall plate and an upper surface of the concrete foundation;
Placing concrete in the mold and curing the concrete to connect the concrete retaining wall plate and the concrete foundation; And
And backing one side of the concrete retaining wall plate with soil. 2. The apparatus according to claim 1, wherein the concrete retaining wall plate
A plurality of unit concrete retaining wall plates having a plurality of first connecting steel members on a side surface thereof;
Connecting the first connecting steels of unit concrete retaining wall plates adjacent to each other so that the unit concrete retaining wall plates are connected in a horizontal direction;
Installing a concrete mold so as to place concrete between side and side surfaces of the unit concrete retaining wall plates adjacent to each other; And
And pouring and curing the concrete in the mold to connect adjacent unit concrete retaining wall plates to each other. 2. The method according to claim 1, wherein the concrete connecting wall connecting the concrete retaining wall plate and the concrete foundation is thicker than the thickness of the concrete retaining wall plate, one side is flush with the outer side surface of the concrete retaining wall plate, Wherein the lower surface of the retaining wall plate is higher than the lower surface of the retaining wall plate. The method of claim 1, wherein the first connecting steels of the concrete retaining wall plate are arranged in a line, and the second connecting steels of the concrete foundation are also arranged in a line. 2. The method of claim 1, wherein the first connecting steels of the concrete retaining wall plate are arranged in two rows, and the second connecting steels of the concrete foundation are also arranged in two rows. The concrete retaining wall plate according to claim 1, wherein the concrete retaining wall plate is provided with a support material attaching portion, a backing material is inserted into the backed up soil, and one of the backing material is fixedly coupled to the support material attaching portion of the concrete retaining wall plate. Construction method of structure. The first and second concrete retaining wall plates having a plurality of first connecting steel members on a side surface thereof;
Providing a foundation of concrete on the foundation so that a plurality of second connecting steels protrude from the upper surface;
Connecting the first connecting steels of the first concrete retaining wall plate and the second connecting steels of the concrete foundation respectively;
Installing a first mold so as to place concrete between the lower surface of the first concrete retaining wall plate and the upper surface of the concrete foundation;
Placing and curing concrete in the first die to connect the first concrete retaining wall plate and the concrete foundation;
Firstly backing one side of the first concrete retaining wall plate with soil;
Connecting the first connecting steels of the first concrete retaining wall plate and the first connecting steels of the second concrete retaining wall plate so that the second concrete retaining wall plate is located above the first concrete retaining wall plate;
Installing a second mold so as to place concrete between an upper surface of the first concrete retaining wall plate and a lower surface of the second concrete retaining wall plate;
Placing the concrete in the second mold and curing the concrete to connect the first and second concrete retaining wall plates; And
And second backfilling the soil on the primary backfill so as to be positioned on one side of the second concrete retaining wall plate. [8] The method of claim 7, wherein the first and second concrete retaining wall plates are each provided with a support material attaching portion, the first and second support materials are inserted into the first and second backfill materials, Wherein the second retaining wall plate is fixedly coupled to the support member mounting portion of the concrete retaining wall plate and one of the second support members is fixedly coupled to the support member mounting portion of the second concrete retaining wall plate. [8] The method of claim 7, wherein the first concrete retaining wall plate is provided with a first blocking protrusion on the outer side of the upper surface thereof, the second blocking wall protrusion is provided on the outer side of the lower surface of the second concrete retaining wall plate, 1 blocking protrusions and the second blocking protrusions of the second concrete retaining wall plate are brought into contact with each other so that the upper surface of the first concrete retaining wall plate and the side surfaces of the first blocking protrusions and the lower surface of the second concrete retaining wall plate and the second blocking protrusions Wherein the concrete is filled in the space defined by the side surface. Concrete foundations in foundations;
A concrete connection wall extending perpendicularly to said concrete foundation;
A concrete retaining wall plate extending from the upper portion of the concrete connection wall; And
And a plurality of connecting steels passing through the inside of the concrete connection wall, both ends of which are located inside the concrete foundation upper part and in the lower part of the concrete retaining wall plate, respectively. 11. The method of claim 10, wherein the concrete connection wall connecting the concrete retaining wall plate and the concrete foundation is thicker than the thickness of the concrete retaining wall plate, one side is flush with the outer side surface of the concrete retaining wall plate, Wherein the lower surface of the retaining wall plate is higher than the lower surface of the retaining wall plate.

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