KR102176950B1 - construction method of vegetation block - Google Patents

Abstract

What is claimed is: 1. A method of constructing a vegetation block installed to prevent collapse of an incision or a slope, comprising: preparing a vegetation block filled with soil for vegetation in a block bag made of synthetic fiber yarns to form a hexahedral shape; Primarily stacking the vegetation blocks; Installing a perforated drainage plate on the top of the vegetation block; Fixing the rear of the perforated drainage plate with a fixed pile; Installing a collecting bundle drain pipe so that the collecting bundle drain pipe is connected to the rear in a drain portion formed under the perforated binding drain plate; And, the step of secondaryly stacking the vegetation block on the upper portion of the perforated binding drainage plate; characterized in that it comprises a.
Accordingly, by improving the shape and material of the vegetation block, the collapse of the vegetation block can be prevented, and the vegetation block can be constructed so that the binding force of the binding plate is strengthened to enhance durability and the stability of the construction surface. Can provide a way.

Description

Construction method of vegetation block

The present invention relates to a method of constructing a vegetation block, and more particularly, it is possible to stably protect the slope by greening the slopes such as cutting, filling, and slopes of a mountain trail, as well as the use of a boundary block for creating a green space in the city. It relates to the construction method of vegetation blocks useful for urban environment maintenance.

In general, in order to construct a collective building such as railroad and road works or apartments, when the ground consisting of natural soil layers and rocks is cut, or when the construction is performed on the foundation ground, a certain part of the hillside or hill is cut to flatten the opening surface. In addition, even if the slope of the hill or the slope is partially damaged by natural disasters such as torrential rain or flood, a certain part of the damaged slope is cut off, and that part Will create a slope in

Since the slopes of the embankment or cut areas that are created as new topography become soft ground, if the soft slope is left as it is, the vegetation soil on the slope easily flows down during the sea ice season or heavy rain due to seasonal changes, resulting in the formation of water bones. There is a high risk of becoming vulnerable or being lost, and in severe cases, the slope surface collapses, resulting in an accident that causes damage to people and property.

In order to prevent the loss of the slope, a separate protective structure is installed on the surface of the slope and the vegetation is vegetated to prevent the loss of soil and sand on the slope. However, if the slope is a soft ground, the collapse of the vegetation surface will occur. The possibility still remains.

After cutting the ground made of rocks inevitably in order to shape the road surface in the road earthwork process for road construction, use structures such as green soil, core net, soil railing, rockfall prevention net, etc. to prevent loss or vegetation. The slope is protected using blocks.

An example of a method of constructing a vegetation block according to the prior art is disclosed in Korean Patent Registration No. 10-0561696 (registered on March 9, 2006, hereinafter referred to as'Patent Document 1').

However, according to the construction method of the vegetation block according to the prior art, the shape of the vegetation block is provided in an irregular shape that can be easily collapsed, and the material is also made of a natural material that is easily corroded, so it can be easily collapsed, and the binding strength of the binding plate. Because of this drop, there is a problem that durability becomes weak and stability of the construction surface may become weak.

In addition, according to the construction method of the vegetation block according to the prior art, since there is no separate structure to facilitate drainage, there is a problem that when it rains, the soil inside the corroded block is simply swept away and collapse of the construction surface can easily occur. have.

Korean Patent Registration No. 10-0561696 (registered on March 9, 2006)

It is an object of the present invention to provide a method of constructing a vegetation block that can prevent the collapse of the vegetation block, and that the binding force of the binding plate is strengthened to enhance durability and the stability of the construction surface.

In addition, it is to provide a method of constructing a vegetation block that can prevent collapse of the construction surface by making drainage smoothly even when it rains a lot.

According to the present invention to achieve the above object, in the construction method of a vegetation block installed to prevent collapse of an incision or slope, a vegetation block filled with soil for vegetation inside a block bag made of synthetic fiber yarn to form a hexahedral shape Preparing for it; Primarily stacking the vegetation blocks; Installing a perforated drainage plate on the top of the vegetation block; Fixing the rear of the perforated drainage plate with a fixed pile; Installing a collecting bundle drain pipe so that the collecting bundle drain pipe is connected to the rear in a drain portion formed under the perforated binding drain plate; And, the step of secondaryly stacking the vegetation block on the upper portion of the perforated binding drainage plate; characterized in that it comprises a.

Here, the method of constructing a vegetation block according to the present invention includes at least one of between the step of preparing the vegetation block and the step of stacking the primary vegetation block, and between the step of installing the collecting bundle drainage pipe and the step of stacking the secondary vegetation block. It is preferable to further include the step of receiving the vegetation block into the interior of Gebion to be protected.

In addition, the method of constructing a vegetation block according to the present invention includes a geogrid on the upper portion of the perforated binding drainage plate so as to be hooked onto the binding protrusion of the perforated binding drainage plate between the step of installing the collecting bundle drain pipe and the step of stacking the secondary vegetation block. It is preferable to further include the step of installing.

According to the present invention, the vegetation block can be prevented from collapsing by improving the shape and material of the vegetation block, and the vegetation block that can strengthen the durability and the stability of the construction surface by strengthening the binding force of the binding plate. The construction method of can be provided.

In addition, it is possible to provide a method of constructing a vegetation block that can prevent the outflow of soil and sand inside the vegetation block and prevent the collapse of the construction surface by making drainage smoothly even when it rains a lot.

1 is a construction flow diagram showing a construction method of a vegetation block according to the present invention,
2 is a view showing an example in which vegetation blocks are constructed on a cut surface or an inclined surface by the construction method of a vegetation block according to the present invention,
3 is a perspective view of a vegetation block and gebion used in the construction method according to the present invention,
Figure 4 is a perspective view of the perforated binding drainage plate and the geogrid used in the construction method according to the present invention,
Figure 5 is a plan view of the perforated binding drainage plate used in the construction method according to the present invention,
6 is a side view and a front view of the perforated binding drainage plate used in the construction method according to the present invention,
7 is a front cross-sectional view of a collecting bundle drain pipe used in the construction method according to the present invention,
FIG. 8 is an enlarged view of area “A” of FIG. 6 showing an example in which the collecting bundle drain pipe is connected to the perforated binding drain plate used in the construction method according to the present invention;
9 is a front view of a water hole binding drain plate used in a construction method according to another embodiment of the present invention.

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

The construction method of the vegetation block according to the present invention, as shown in Figs. 1 and 2, relates to a construction method for installing the vegetation block 100 so as to prevent the collapse of the cut surface or the slope, and the shape of the hexahedron is Preparing a vegetation block 100 filled with soil for vegetation inside a block bag made of synthetic fiber yarn to achieve (S10), a step of primarily stacking the vegetation block 100 (S20), and the vegetation block 100 ) Installing the perforated binding drainage plate 200 on the upper part (S30), fixing the rear of the perforated binding drainage plate 200 with a fixed pile 400 (S40), and the perforated binding drainage plate 200 Installing the collecting bundle drain pipe 500 so that the collecting bundle drain pipe 500 is connected to the rear in the drain section 230 formed at the bottom of the vegetation block 100 on the upper part of the perforated binding drain plate 200 ) And a secondly stacking step (S70).

Accordingly, by improving the shape and material of the vegetation block 100, the collapse of the vegetation block 100 can be prevented, and the binding force of the binding plate is reinforced to enhance durability and the stability of the construction surface. It can provide a method of constructing vegetation blocks that can be used.

As an embodiment of the present invention, the vegetation block 100 is described as being constructed over the primary and secondary, but as another embodiment of the present invention, the vegetation block 100 is a drainage plate that binds perforations between the upper and lower layers. Of course, if (200) is interposed, it can be constructed to form several layers in three or more times.

On the other hand, as shown in Figure 3, the vegetation block 100 prepared in the vegetation block preparation step (S10) is provided with soil for vegetation inside a block bag made of synthetic fiber yarns to form a hexahedral shape.

Construction method of the vegetation block according to the present invention, as shown in Figure 3, between the vegetation block preparation step (S10) and the primary vegetation block stacking step (S20), and the collecting bundle drain pipe installation step (S50) ) And the second vegetation block stacking step (S70), it is preferable to further include the step of receiving the vegetation block 100 into the interior of the Gebion 110 to be protected.

Accordingly, it is possible to prevent the vegetation block 100 from being deformed or damaged even after construction by receiving and protecting the vegetation block 100 into the inside of the gebion 110 before the vegetation block 100 is stacked.

That is, it is preferable that the vegetation block 100 is accommodated in the gebion 110 provided to form a hexahedral appearance with a wire mesh and constructed by the perforated drainage plate 200 according to the present invention.

As an embodiment of the present invention, one vegetation block 100 is preferably accommodated in a 1:1 correspondence within one gebion 110, but as another embodiment of the present invention, one gebion ( A plurality of vegetation blocks 100 may be accommodated in the interior of 110) to be constructed by the drainage plate 200 bound to the perforated hole.

The perforated binding drain plate 200 in the perforated binding drain plate installation step (S30) is provided in a rectangular plate-like body, as shown in Figs. 4 to 8, and a fixed pile 400 is fitted at either end of each A plurality of fitting holes 210 are perforated so as to be formed, a plurality of binding protrusions 220 are protruded on the upper and lower surfaces, and a drain unit 230 is formed concave in the longitudinal direction along the central side of the short side, and drainage The drain cover 300 is detachably coupled to the perforated binding drain plate 200 so that the upper surface of the perforated binding drain plate 200 is flattened by covering the upper portion of the unit 230, and the perforated perforated drainage pipe installation step (S50) A collecting bundle drain pipe 500 is connected to the rear of the binding drain plate 200 so as to be seated and installed in the drain portion 230.

Accordingly, as shown in FIG. 2, the vegetation block 100 or the gebion 110 in which the vegetation block 100 is accommodated inside the binding protrusions 220 formed on the upper and lower surfaces of the perforated binding drainage plate 200 is caught. By being fixed, the binding force of the binding plate is reinforced, so that the durability of the construction is reinforced and the stability of the construction slope can be reinforced.

Meanwhile, as shown in FIGS. 4 and 5, a plurality of drain holes 310 are perforated side by side at regular intervals in the plate surface of the drain cover 300.

Figure 6 (a) is a side view of the perforated binding drain plate 200 according to the present invention, Figure 6 (b) is a front view of the perforated binding drain plate 200 according to the present invention.

As shown in (b) of Figure 6, the drainage part 230 is formed concave in the longitudinal direction along the center of the short side side of the perforated drainage plate 200, thereby draining the construction slope on which the vegetation block 100 is constructed. Can also be done smoothly.

As shown in FIG. 5, the fitting holes 210 of the perforated binding drainage plate 200 are symmetrically symmetrically formed in at least one of both ends of the perforated binding drainage plate 200. Perforation is formed.

The binding protrusion 220 is formed to have an arrowhead shape, respectively, as shown in FIG. 6A, and engaging wedges 221 are formed at the lower sides of each side so that the wire mesh of the Gebion 110 is caught.

Accordingly, by providing the shape of the binding protrusion 220 to have an arrowhead shape, the perforated binding drainage plate 200 is disposed between the vegetation blocks 100 stacked up and down, and the construction state of the vegetation blocks 100 Place the perforated binding drainage plate 200 on the top of the vegetation block 100 so that the vegetation block 100 is bound, and another vegetation block 100 is installed thereon, so that the block bag of the vegetation block 100 is once stuck in the binding protrusion 220 The block bag of the block 100 can not easily come out from the binding protrusion 220, so that the vegetation blocks 100 can be bonded so that the vertically constructed state is firmly maintained, and a locking wedge at the bottom of the binding protrusion 220 By forming the wire mesh of the Gebion 110 by 221 being formed, the gebion 110 and the vegetation block 100 accommodated therein are prevented from being displaced or separated from the perforated binding drainage plate 200, and thus the vegetation block (100) can be made to keep the constructed state more solid.

On the other hand, as shown in (b) of Figure 6, in a state in which the perforated binding drainage plate 200 is constructed to bind the vegetation blocks 100, the drain unit 230 is in the center of the perforated binding drainage plate 200 It is formed integrally to be recessed in a semicircular shape so that water leaking from the vegetation block 100 is easily discharged to the outside of the construction slope.

The drainage part 230 according to the present invention may be provided to be detachably coupled to the drainage plate 200 that is not integral with the perforated drainage plate 200.

Drainage cover 300, as shown in Figures 4 to 6, covering the upper portion of the drainage portion 230, so as to be flat to coincide with the upper surface of the drainage plate 200 It is provided as a plate-shaped body having a rectangular shape corresponding to the shape.

The collecting bundle drain pipe 500 in the collecting bundle drain pipe installation step (S50) is provided to have an approximately'S' cross-sectional shape in a positive cross section as shown in FIG. The water in the soil forming the vegetation block 100 or the incision or inclined surface is smoothly discharged to the outside through the drain unit 230 without clogging of.

Accordingly, even if it rains a lot, drainage is smoothly performed by the collecting bundle drainage pipe 500 and the drain 230, so that the outflow of soil inside the vegetation block 100 is prevented, and the collapse of the construction slope is more reliably prevented. can do.

On the other hand, as shown in FIG. 7, a capillary part 510 which promotes water penetration into the inside of the collecting bundle drain pipe 500 is formed to protrude symmetrically, and the collecting bundle drain pipe 500 is formed outside When connected to the drain portion 230, the support protrusions 520 that are in close contact with the perforated drainage plate 200 so as to minimize displacement are formed to protrude symmetrically from each other in the vertical direction.

In addition, the collecting bundle drain pipe 500 according to the present invention may have one connected to the drain unit 230, but a plurality of collecting bundle drain pipes 500 may be connected to the drain unit 230 in the form of a bundle. have.

On the other hand, as shown in Figures 1 and 4, the construction method of the vegetation block according to the present invention is a perforated drainage plate between the collecting bundle drain pipe installation step (S50) and the secondary vegetation block stacking step (S70) ( It is preferable to further include a step (S60) of installing the geogrid 600 on the upper portion of the perforated binding drainage plate 200 so that the binding protrusion 220 of 200) is caught and fitted.

In the geogrid installation step (S60), the geogrid 600 is caught and fitted to the binding protrusion 220 at at least one of the upper and lower portions of the perforated binding drain plate 200, so that the perforated binding drain plate 200 and the vegetation block ( 100) or the geogrid 600 is installed between the gebion 110.

Accordingly, the vegetation block 100 or the gebion 110 is held by the geogrid 600, so that even if there are some torn parts in the vegetation block 100, the soil inside the vegetation block 100 is leaked out and is eliminated. Can be prevented.

The geogrid 600 shown in FIG. 4 shows only a partial area, and instead of the geogrid 600, the binding protrusion 220 at at least one of the upper and lower portions of the perforated binding drainage plate 200 has a reinforcing bag A reinforcing member for civil works, such as, may be installed.

On the other hand, as shown in Figure 8, the collecting bundle drain pipe installation step (S50) connects the collecting bundle drain pipe 500 to the drain pipe connector 700, and connects the drain pipe connector 700 to the drain unit 230 to collect The step of allowing the collecting bundle drain pipe 500 to be easily connected to the drain portion 230 of the perforated binding drain plate 200 by a drain pipe connector 700 provided between the bundle drain pipe 500 and the drain unit 230 It is preferable to further include.

Accordingly, by allowing the collecting bundle drain pipe 500 to be easily and simply connected to the drain unit 230 by the drain pipe connector 700, the construction of the vegetation block 100 is made quickly and easily. Workability can be further improved.

On the other hand, as another embodiment of the present invention, as shown in Figure 9, the perforated binding drainage plate installation step (S30) is a strong between the vegetation block 100 on the upper and lower surfaces of the perforated binding drainage plate 200 It may include the step of providing the van der Waals bonding portion 240 including a plurality of bristles subjected to carbon nano-processing so that the van der Waals adhesive force acts.

Accordingly, the van der Waals adhesion is strongly applied between the perforated drainage plate 200 and the vegetation blocks 100 according to the present invention interposed between the vegetation blocks 100, so that the vegetation blocks 100 are constructed. It can be made to remain solid without deformation.

Although the technical aspects have been described above and in the accompanying drawings, the technical idea of the present invention is for the purpose of explanation, and is not limited thereto, and those having ordinary technical knowledge in the technical field of the present invention It will be appreciated that the present invention can be variously modified and changed without departing from the technical scope of the claims to be described later.

100: vegetation block 110: Gebion
200: perforated binding drain plate 220: binding protrusion
230: drain 400: fixed pile
500: collecting bundle drain pipe 600: geogrid

Claims (3)

In the construction method of the vegetation block installed to prevent the collapse of the incision or slope,
Preparing a vegetation block filled with soil for vegetation in a block bag made of synthetic fiber yarns to form a hexahedral shape;
Primarily stacking the vegetation blocks;
Installing a perforated drainage plate on the top of the vegetation block;
Fixing the rear of the perforated drainage plate with a fixed pile;
Installing a collecting bundle drain pipe so that the collecting bundle drain pipe is connected to the rear in a drain portion formed under the perforated binding drain plate; And
Secondly stacking a vegetation block on the top of the perforated drainage plate;
Including,
It further comprises installing a geogrid on the upper portion of the perforated binding drain plate so as to be caught and fitted to the binding protrusion of the perforated binding drain plate between the step of installing the collecting bundle drain pipe and the step of stacking the secondary vegetation block,
In the step of installing the collecting bundle drainage pipe, the collecting bundle drainage pipe is provided to have a cross-sectional shape of an'S' shape in the normal cross section, and water in the soil forming a vegetation block, incision or inclined surface is passed through the drain without clogging the catchment hole by the blind drainage method. To be discharged to the outside,
The inner side of the bundle bundle drain pipe is formed to protrude symmetrically with each other to facilitate the penetration of water into the inside, and the outer side is in close contact with the perforated drainage plate when the bundle bundle drain pipe is connected to the drain portion to minimize displacement. Support protrusions are formed to protrude symmetrically to each other in the vertical, left and right,
In the step of installing the collecting bundle drain pipe, the collecting bundle drain pipe is connected to the drain pipe connector and the drain pipe connector is connected to the drain, and the collecting bundle drain pipe is provided between the collecting bundle drain pipe and the drain pipe. Construction method of a vegetation block, characterized in that it further comprises the step of connecting to the drainage portion of the drainage plate for binding pores.

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