KR101079737B1 - Retaing wall for planting having water tank and construction method thereof - Google Patents

Abstract

The present invention is a plurality of compaction layer 100 formed by a plurality of compaction of the rear soil sand; A wall 200 formed in front of the plurality of compaction layers 100; A storage tank 300 installed in an area between the plurality of compaction layers 100 to store moisture in the rear soil sand; By presenting a vegetation retaining wall including a vegetation retaining portion 400 formed on the wall 200 to receive moisture from the reservoir 300, while providing a stable moisture to the vegetation of the outer wall, the load due to the water pressure of the rear soil soil To reduce the structural stability.

Retaining wall, vegetation, reservoir

Description

Vegetation retaining wall with a reservoir of hinterland soil and its construction method {RETAING WALL FOR PLANTING HAVING WATER TANK AND CONSTRUCTION METHOD THEREOF}

The present invention relates to the field of construction, and in particular, to the structure and construction method of the vegetation retaining wall.

The vegetation retaining wall refers to a structure for creating an environment-friendly landscape by allowing plants to grow in front of the retaining wall structure for maintaining stability by resisting earth pressure of the earth and sand.

In general, 'vegetation' refers to planting trees, and 'green' refers to planting grass such as grass. Hereinafter, the term 'vegetation' is used to include 'green'.

In general, the retaining wall is installed to form land on the slope when constructing the structure, or to prevent soil leakage, which is the main cause of the collapse in waterways or rivers, and especially in building apartment complexes and securing slopes. It is widely applied in construction, waterway and embankment construction.

In recent years, studies have been conducted to form environmentally friendly structures by vegetation on the outer wall, in addition to the basic function of the retaining wall.

By the way, in order for the vegetation to be formed on the outer wall of the retaining wall, water must be supplied stably, but studies on this have been insufficient.

The present invention was derived to solve the above problems, while providing a stable water supply to the vegetation portion of the outer wall, the vegetation retaining wall and its construction to increase the structural stability by reducing the load due to the hydraulic pressure of the rear soil soil Its purpose is to present a method.

The present invention, in order to achieve the object described above, a plurality of compaction layer 100 formed by a plurality of compaction of the rear soil soil; A wall 200 formed in front of the plurality of compaction layers 100; A reservoir 300 installed in an area between the plurality of compaction layers 100 to store moisture in the rear soil sand; The vegetation retaining wall is provided with a reservoir of the rear soil soil, including; vegetation portion 400 formed on the wall 200 to receive water from the reservoir 300.

The reservoir 300 is formed by the impervious sheet 310, it is preferable to take the configuration in which the edge portion is folded up.

The reservoir 300 is preferably the upper surface or the lower surface is reinforced by the mesh 320.

It is preferable that the coarse material 330 is filled in the reservoir 300.

The reservoir 300 is provided in a plurality in the vertical direction, the plurality of reservoir 300 is preferably arranged so as to cross each other in the vertical direction.

It is preferable to further include a water supply pipe 340 for connecting the reservoir 300 and the vegetation portion 400.

The inlet of the water supply pipe 340 is preferably equipped with a filter 341 for filtering the soil.

The wall 200 is an integral structure 200a, and the vegetation part 400 preferably includes a vegetation port 410 installed in front of the wall 200.

The wall 200 is a masonry structure (200b), the vegetation portion 400 preferably includes a hollow portion 420 formed in a plurality of blocks 201 forming the wall (200).

The plurality of blocks 201 are supported rearward by the grid reinforcement 202a, and the reservoir 300 is installed on the upper surface 202a of the grid reinforcement.

The present invention provides a method for constructing the vegetation retaining wall, the wall forming step of forming an integral wall (200a) in the front; A primary fill and compaction step of forming the primary compaction layer 110 by primary fill and compaction to the rear of the integrated wall 200a; An impermeable sheet installation step of installing the impermeable sheet 310 on the upper surface of the first compacting layer 110; A water tank forming step of folding the edge of the water-impermeable sheet 310 upward and supporting the soil by sand; Vegetation retaining wall characterized in that it comprises ;; secondary fill and compacting step of forming the secondary compaction layer 120 by the secondary fill and compaction on the upper surface of the first compaction layer 110 and the reservoir 300 Suggest construction method

The present invention provides a method for constructing the vegetation retaining wall, comprising: forming a primary block layer 210 by building the block 201; A primary fill and compaction step of forming the primary compaction layer 110 by primary fill and compaction with respect to the rear of the primary block layer 210; Reinforcing material installation step of installing the reinforcing material 202 rearward from the block 201 of the primary block layer 210; An impermeable sheet installation step of installing the impermeable sheet 310 on the upper surface of the first compacting layer 110; A water tank forming step of folding the edge of the water-impermeable sheet 310 upward and supporting the soil by sand; Forming a secondary block layer 220 on the upper surface of the primary block layer 210 by forming the block 201; Vegetation retaining wall characterized in that it comprises ;; secondary fill and compacting step of forming the secondary compaction layer 120 by the secondary fill and compaction on the upper surface of the first compaction layer 110 and the reservoir 300 Together with the construction method.

The present invention provides a vegetation retaining wall and its construction method to increase the structural stability by reducing the load due to the hydraulic pressure of the rear soil soil while stably supplying moisture to the vegetation portion of the outer wall.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the vegetation retaining wall according to the present invention, basically, a plurality of compaction layer (100) formed by a plurality of compaction of the rear soil soil; A wall 200 formed in front of the plurality of compaction layers 100; A storage tank 300 installed in an area between the plurality of compaction layers 100 to store moisture in the rear soil sand; It is configured to include; vegetation portion 400 formed on the wall 200 to receive water from the reservoir (300).

The retaining walls of the retaining wall generally form a plurality of compacted layers 100 by several filling and compacting operations. The reservoir 300 is installed in an area between the compacted layers, from which the vegetation of the wall 200 is obtained. It is to supply water to the unit 400.

This has the following effects.

First, since the water contained in the rearing soil can be continuously supplied to the vegetation, it enables a stable and continuous water supply without providing a separate water supply structure.

Secondly, since the moisture in the rearing soil is stored by the reservoir, the rear of the retaining wall wall is kept at a low water pressure, contributing to structural stability.

Third, when the filling and compacting work behind the retaining wall for a plurality of times it is necessary to perform the installation work of the water tank in parallel, the construction is easy.

In the vegetation retaining wall according to the present invention, the reservoir 300 should be configured to satisfy the following requirements.

First, since the storage of moisture must be possible, it must be formed by an impervious material.

Second, after the installation of the reservoir, another filling and compacting work must be performed on the upper surface, so as not to disturb the above work, and should not be damaged by the compacting work.

In order to satisfy this requirement, it is most preferable that the reservoir 300 is formed by the impermeable sheet 310 and has a configuration in which the edge portion is folded upward.

The construction method of this structure is as follows.

An integral wall 200a is formed in front of the concrete by casting or the like (FIG. 2), and the primary compaction layer 110 is formed by primary fill and compaction to the rear of the integrated wall 200a (FIG. 2). 3).

An impermeable sheet 310 is provided on the upper surface of the primary compacting layer 110, and the edge of the impermeable sheet 310 is folded upward and supported by soil (FIG. 4).

The secondary compaction layer 120 is formed by secondary fill and compaction on the upper surfaces of the primary compaction layer 110 and the reservoir 300 (FIG. 5).

By multiple iterations of the above operation it is possible to form the vegetation retaining wall as shown in FIG.

The above embodiment is a case in which the wall 200 takes an integrated structure 200a, in which case the vegetation part 400 may be implemented by a structure such as a vegetation port 410 installed in front of the wall 200. .

FIG. 6 illustrates an embodiment in which the wall 200 takes the masonry structure 200b by the construction of the block 201, in which case the vegetation part 400 includes a plurality of blocks 201 forming the wall 200. It may be implemented by a structure such as a hollow portion 420 formed in the).

The masonry retaining wall 200b generally has a structure in which the block 201 is supported rearward by the reinforcing material 202. As the reinforcing material 202, a rigid reinforcing material (bar) or a flexible reinforcing material (grid) is used. .

The construction method of this embodiment is as follows.

The primary block layer 210 is formed by the construction of the block 201, and the primary compaction layer 110 is formed by primary fill and compaction to the rear of the primary block layer 210 (FIG. 7). ).

A reinforcing material 202 is installed rearward from the block 201 of the primary block layer 210, and an impermeable sheet 310 is installed on the upper surface of the primary compaction layer 110. The edge of the impermeable sheet 310 is provided. The part is folded upward and supported by earth and sand (FIG. 8).

The secondary block layer 220 is formed on the upper surface of the primary block layer 210 by the construction of the block 201, and the secondary fill and compaction on the upper surface of the primary compaction layer 110 and the reservoir 300 are performed. The secondary compaction layer 120 is formed by this (FIG. 9).

By multiple iterations of the above operation it is possible to form the vegetation retaining wall as shown in FIG.

As the reinforcing material 202, a rigid reinforcing material such as reinforcing bar may be used, or a flexible reinforcing material having a network structure such as the grid 202a may be used. In the latter case, it is necessary to take the following configuration.

When the impermeable sheet 310 is directly installed on the upper surface of the grid 202a, there may be a problem that sliding of the grid 202a occurs due to frictional members therebetween, thereby inhibiting the stability of the retaining wall.

Therefore, in the case of using the grid 202a as the reinforcing material 202, the friction layer 110a is formed on the upper surface of the grid 202a by slight filling and compaction, and impervious to the upper surface of the friction layer 110a. By installing the sheet 310, it is preferable to prevent the sliding as described above so that the earth and sand exist on the grid 202a.

When the upper or lower surface of the reservoir 300 takes the structure reinforced by the mesh 320 (FIG. 10), it is possible to prevent damage to the reservoir 300 due to the stored water load, the construction load, and the like. Due to the increase in the soil and friction of the added advantage that can prevent the sliding of the reservoir (300).

In order to actively collect and store moisture inside the reservoir 300, it is preferable to take a structure filled with coarse material 330 such as gravel.

A plurality of reservoirs 300 are installed in the up and down direction, and the plurality of reservoirs 300 are preferably disposed to cross each other in the up and down direction for efficient water collection (FIG. 11).

In order to supply water to the vegetation part 400 from the reservoir 300, a water supply pipe 340 connecting them is preferably installed, and a filter 341 for filtering soil is installed at the inlet of the water supply pipe 340. More preferably (FIG. 12).

The water supply pipe 340 is connected to the vegetation portion 400 through the through hole 203 formed in the wall 200 to supply water.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

Figure 1 below shows an embodiment of the present invention,

1 is a cross-sectional view of a first embodiment of a vegetation retaining wall.

2 to 5 is a configuration diagram of a first embodiment of the construction method.

6 is a sectional view of a second embodiment of a vegetation retaining wall;

7 to 9 are configuration diagrams of a second embodiment of the construction method.

10 is a cross-sectional view of the reservoir.

11 is a cross-sectional view of an installation state of a plurality of reservoirs.

12 is a cross-sectional view of the connection portion of the reservoir and the water supply pipe.

DESCRIPTION OF REFERENCE NUMERALS

100, 110, 120, 130, 140, 150: compaction layer 200: wall

200a: integral wall 200b: masonry wall

201: block 202: reinforcement

202a: grid reinforcement 300: reservoir

310: impervious sheet 320: mesh

330: granulated material 340: water supply pipe

341 filter 400 vegetation part

Claims (13)

delete A plurality of compaction layers 100 formed by a plurality of compactions of the back ground sand; A wall 200 formed in front of the plurality of compaction layers 100; A reservoir 300 installed in an area between the plurality of compaction layers 100 to store moisture in the rear soil sand; And a vegetation part 400 formed on the wall 200 to receive water from the reservoir 300. The reservoir 300 is formed by an impervious sheet 310, the vegetation retaining wall provided with a reservoir of the rear soil soil, characterized in that the edge portion is folded up. 3. The method of claim 2, The reservoir 300 is a vegetation retaining wall having a reservoir of the rear soil soil, characterized in that the upper or lower surface is reinforced by a net 320. 3. The method of claim 2, Vegetation retaining wall provided with a reservoir tank of the rear soil soil, characterized in that the interior of the reservoir 300 is filled with a coarse material 330. 3. The method of claim 2, The reservoir 300 is provided with a plurality in the vertical direction, the plurality of reservoir 300 is a vegetation retaining wall having a reservoir of the rear soil soil, characterized in that arranged to cross each other in the vertical direction. 3. The method of claim 2, Vegetation retaining wall with a reservoir of the rear soil soil, characterized in that it further comprises a water supply pipe 340 for connecting the reservoir 300 and the vegetation portion 400. The method of claim 6, A vegetation retaining wall having a reservoir of sediment of the rear soil soil, characterized in that the inlet of the water supply pipe 340 is equipped with a filter (341) for filtering the soil. The method according to any one of claims 2 to 7, The wall 200 is an integral structure 200a, and the vegetation part 400 includes a vegetation port 410 installed in front of the wall 200. Retaining wall. The method according to any one of claims 2 to 7, The wall 200 is a masonry structure (200b), the vegetation portion 400 is characterized in that it comprises a hollow portion 420 formed in a plurality of blocks 201 forming the wall (200) Vegetation retaining wall with a reservoir of earth and sand. 10. The method of claim 9, The plurality of blocks 201 are supported rearward by the grid reinforcement 202a, The reservoir 300 is a vegetation retaining wall having a reservoir of the rear soil soil, characterized in that installed on the upper surface (202a) of the grid reinforcement. As a construction method of the vegetation retaining wall of claim 8, A wall forming step of forming an integral wall 200a in front; A primary fill and compaction step of forming the primary compaction layer 110 by primary fill and compaction to the rear of the integrated wall 200a; An impermeable sheet installation step of installing the impermeable sheet 310 on the upper surface of the first compacting layer 110; A water tank forming step of folding the edge of the water-impermeable sheet 310 upward and supporting the soil by sand; A secondary fill and compaction step of forming a secondary compaction layer 120 by secondary fill and compaction on the upper surfaces of the primary compaction layer 110 and the reservoir 300; Construction method of the vegetation retaining wall comprising a. As a construction method of the vegetation retaining wall of claim 9, Forming a primary block layer 210 by forming the block 201; A primary fill and compaction step of forming the primary compaction layer 110 by primary fill and compaction with respect to the rear of the primary block layer 210; Reinforcing material installation step of installing the reinforcing material 202 rearward from the block 201 of the primary block layer 210; An impermeable sheet installation step of installing the impermeable sheet 310 on the upper surface of the first compacting layer 110; A water tank forming step of folding the edge of the water-impermeable sheet 310 upward and supporting the soil by sand; Forming a secondary block layer 220 on the upper surface of the primary block layer 210 by forming the block 201; A secondary fill and compaction step of forming a secondary compaction layer 120 by secondary fill and compaction on the upper surfaces of the first compaction layer 110 and the storage tank 300; Construction method of the vegetation retaining wall comprising a. As a construction method of the vegetation retaining wall of claim 9, Forming a primary block layer 210 by forming the block 201; A primary fill and compaction step of forming the primary compaction layer 110 by primary fill and compaction with respect to the rear of the primary block layer 210; A grid installation step of installing a grid 202a rearward from the block 201 of the primary block layer 210; A friction layer forming step of forming a friction layer (110a) by slight filling and compaction on the upper surface of the grid (202a); An impermeable sheet installation step of installing the impermeable sheet 310 on the upper surface of the friction layer (110a); A water tank forming step of folding the edge of the water-impermeable sheet 310 upward and supporting the soil by sand; Forming a secondary block layer 220 on the upper surface of the primary block layer 210 by forming the block 201; A secondary fill and compaction step of forming a secondary compaction layer 120 by secondary fill and compaction on the upper surfaces of the first compaction layer 110 and the storage tank 300; Construction method of the vegetation retaining wall comprising a.

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