KR20200009619A - construction method of vegetation block - Google Patents

Abstract

A method for constructing a vegetation block, which is provided to prevent the collapse of a cut surface or an inclined surface, comprises the steps of: preparing the vegetation block in which vegetation soil is filled in a block bag made of synthetic fiber yarn to form a hexahedral shape; primarily stacking the vegetation block; providing a perforated binding drain plate on an upper portion of the vegetation block; fixing the rear of the perforated binding drain plate with a fixing pile; providing a clustered water pipe such that the clustered water pipe is connected to the rear of a drain portion formed at a lower portion of the perforated binding drain plate; secondly stacking the vegetation block on an upper portion of the perforated binding drain plate. Accordingly, the shape and material of the vegetation block is improved, thereby preventing the collapse of the vegetation block. The binding force of the binding plate is strengthened so that the durability can be strengthened and the stability of a construction surface can also be reinforced.

Description

Construction method of vegetation block {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 on slopes such as cutting, fill, slopes, etc. The present invention relates to a method of constructing a vegetation block useful for urban environment maintenance.

In general, in order to construct aggregates such as railroads, road works, or apartments, when cutting the ground made of natural soil and rock, or making a fill on the foundation ground, the open surface is cut by cutting a certain part of the hillside or hill part. The remaining part is sloped such as cut slope or fill slope, and even if some slope of mountain slope or hill is damaged by natural disaster such as torrential rain or flood, it cuts a part of damaged slope. The slope is to be built.

Since the slopes of the fill area and cut area formed by the new terrain become soft surface, when the soft slope is left as it is, the vegetation soil of the sea ice season or heavy rain slope easily flows due to seasonal changes, and water valleys are formed. There is a high risk of becoming vulnerable or lost, and in extreme cases, the surface of the slope may collapse, resulting in accidents that can cause life and property damage.

In order to prevent the loss of the slope, a separate protection structure is installed on the surface of the slope and vegetation is planted to prevent vegetation of the slope. However, when the slope is a soft ground, the vegetation vegetation surface collapses. There is still a possibility that it will happen.

In this way, after cutting the ground made of rock to form road surface in the process of earthwork for road construction, use structures such as green soil, core, soil railing, rockfall protection net, etc. to prevent loss. Blocks are used to protect slopes.

An example of a method for constructing a vegetation block according to the prior art is disclosed in Korean Patent Registration No. 10-0561696 (registered on March 09, 2006, hereinafter referred to as 'Patent Document 1').

However, according to the construction method of the vegetation block according to the prior art, since the shape of the vegetation block is provided in an indeterminate shape that can be easily collapsed and the material is also provided with a natural material that is easily corroded, it can be easily collapsed, the binding force of the binding plate Due to this fall, there is a problem that the durability is weak and the stability of the construction surface may also be weak.

In addition, according to the construction method of the vegetation block according to the prior art, because there is no separate structure to make the drainage smoothly, there is a problem that it is easy to cause the collapse of the construction surface by simply sweeping down the soil in the corroded block when it rains. have.

Republic of Korea Patent Registration No. 10-0561696 (registered March 09, 2006)

It is an object of the present invention to provide a method for constructing a vegetation block which can be prevented from collapse of the vegetation block, and can strengthen the binding force of the binding plate to enhance durability and stability of the construction surface.

In addition, even if a lot of rain is to provide a construction method of the vegetation block that can be prevented from collapse of the construction surface to make the drainage smoothly.

In accordance with the present invention, in order to achieve the above object, in the construction method of the vegetation block is installed to prevent the collapse of the incision surface or inclined surface, vegetation block filled with vegetation soil inside the block bag provided with synthetic fiber yarn to form the shape of a cube Preparing a; Primary stacking of the vegetation block; Installing a hole binding drainage plate on an upper portion of the vegetation block; Fixing the rear of the hole binding drainage plate with a fixing stake; Installing a bundled bundle drainage pipe such that a bundled bundle drainage pipe is connected rearward to a drainage portion formed at a lower portion of the hole binding drainage plate; And secondly stacking the vegetation block on top of the hole binding drainage plate.

Here, the construction method of the vegetation block according to the present invention, at least any one between the vegetation block preparation step and the primary vegetation block stacking step, and between the focused bundle drainage pipe installation step and the secondary vegetation block stacking step. It is preferable to further include the step of receiving the vegetation block into the inside of the gebion to be protected.

In addition, the construction method of the vegetation block according to the present invention has a geogrid on the upper portion of the hole binding drainage plate so as to be hooked to the binding projection of the hole binding drainage plate between the focusing bundle drainage pipe installation step and the secondary vegetation block stacking step. It is preferable to further include the step of installing.

According to the present invention, by improving the shape and the material of the vegetation block, it is possible to prevent the collapse of the vegetation block, the binding force of the binding plate is strengthened to increase the durability and stability of the construction surface to strengthen the construction surface Can provide construction method.

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

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

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

The construction method of the vegetation block according to the present invention, as shown in Figure 1 and 2, relates to the construction method for installing the vegetation block 100 to prevent the collapse of the incision surface or inclined surface, the shape of the cube Preparing a vegetation block 100 is filled with vegetation soil inside the block bag provided with synthetic fiber yarn (S10), and the step of stacking the vegetation block 100 primarily (S20), and the vegetation block 100 Installing the hole binding drainage plate 200 in the upper part of the step (S30), and fixing the rear of the hole binding drainage plate 200 with a fixing pile 400 (S40), and the hole binding drainage plate 200 Installing the bundled bundle drainage pipe 500 so that the focused bundle drainage pipe 500 is connected to the rear portion formed in the lower portion 230 (S50), and the vegetation block 100 in the upper portion of the hole binding drainage plate 200 ) Secondary to the step (S70).

Accordingly, by improving the shape and material of the vegetation block 100, it is possible to prevent the collapse of the vegetation block 100, and to strengthen the binding force of the binding plate to enhance the durability and stability of the construction surface It is possible to provide a method of constructing a vegetation block.

As an embodiment of the present invention, the vegetation block 100 is described as being constructed over the first and second, but as another embodiment of the present invention, the vegetation block 100 is a hole binding drainage plate between the upper and lower layers. If the 200 is to be interposed can be constructed to form a plurality of layers three times or more times, of course.

On the other hand, as shown in Figure 3, the vegetation block 100 is prepared in the vegetation block preparation step (S10) is provided with the vegetation soil is filled in the interior of the block bag provided with synthetic fiber yarn to form the shape of the cube.

As shown in Figure 3, the construction method of the vegetation block according to the present invention, between the vegetation block preparation step (S10) and the primary vegetation block stacking step (S20), and the installation of the bundle bundle drainage step (S50) ) And at least one of the second vegetation block stacking step (S70) may be further included to accommodate the vegetation block 100 by protecting the inside of the gabion 110.

Accordingly, before the vegetation block 100 is stacked, the vegetation block 100 is accommodated inside the gebione 110 to be protected, thereby preventing the vegetation block 100 from being deformed or damaged even after construction.

That is, the vegetation block 100 is preferably accommodated in the interior of the gebieon 110 provided to form the appearance of the cube with a wire mesh is constructed by the hole binding 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 inside one gebion 110, but as another embodiment of the present invention, one gebion ( The plurality of vegetation blocks 100 may be accommodated inside the 110 to be constructed by the hole binding drainage plate 200.

In the hole binding drainage plate installation step (S30), the hole binding drainage plate 200 is provided with a rectangular plate-like body, as shown in FIGS. 4 to 8, and the fixing pile 400 is inserted at either end at either end. A plurality of fitting holes 210 are formed to be perforated to form a plurality of binding protrusions 220 protruding from the upper and lower surfaces, the drain portion 230 is formed concave in the longitudinal direction along the short side side central portion, A drain cover 300 is detachably coupled to the hole binding drainage plate 200 so that the upper surface of the hole binding drainage plate 200 is covered to cover the upper portion of the portion 230, and the hole bundle in the focused bundle drainage pipe installation step (S50). The bundled bundle drain pipe 500 is connected to the rear of the binding drainage plate 200 so as to be seated on the drain 230.

Accordingly, as shown in FIG. 2, the vegetation block 100 or the vegetation block 100 is housed in the binding protrusion 220 formed on the upper and lower surfaces of the hole binding drainage plate 200. By being fixed, the binding force of the binding plate is strengthened so that the durability of the construction can be strengthened and the stability of the construction slope can also be reinforced.

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

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

As shown in (b) of FIG. 6, the drainage portion 230 is formed concave in the longitudinal direction along the central portion of the short side of the hole binding drainage plate 200, thereby draining the construction slope on which the vegetation block 100 is constructed. It can also be done smoothly.

As shown in FIG. 5, the fitting holes 210 of the hole binding drainage plate 200 are plurally symmetrically symmetrical with respect to the drainage part 230 at at least one of both ends of the hole binding drainage plate 200. Perforation is formed.

As shown in (a) of FIG. 6, the binding protrusion 220 is formed to have an arrowhead shape, respectively, and locking wedges 221 are formed at both lower sides of the binding protrusion 220 to catch the wire mesh of the gebione 110.

Accordingly, the shape of the binding protrusion 220 is provided to have an arrowhead shape, such that the hole binding drainage plate 200 is disposed between the vegetation blocks 100 stacked up and down to construct the construction state of the vegetation blocks 100. When the hole binding drainage plate 200 is placed on the top of the vegetation block 100 so as to bind, the vegetation block 100 of the vegetation block 100 is once stuck in the binding protrusion 220 by constructing another vegetation block 100 thereon. The block bag of the block 100 can not be easily escaped from the binding protrusion 220 can bind to the vegetation block 100 is installed up and down to maintain a solid state, the lower portion of the binding protrusion 220 221 is formed so that the wire mesh of the gebion 110 is caught, the position of the gebion 110 and the vegetation block 100 accommodated therein is prevented from being displaced or separated from the hole binding drainage plate 200 A raw block 100 is constructed so that the state can be more firmly maintained.

On the other hand, as shown in FIG. 6 (b), in the state in which the hole binding drainage plate 200 is constructed to bind the vegetation blocks 100, the drainage portion 230 has a cross-section in the center of the hole binding drainage plate 200. It is formed in an integral shape 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.

Drainage 230 according to the present invention may be provided to be detachably coupled to the hole binding drainage plate 200, not integral.

4 to 6, the drain cover 300 covers the upper portion of the drainage portion 230 and is flush with the top surface of the hole binding drainage plate 200 so as to be flat on the drainage portion 230. Corresponding to the shape is provided with a plate-like body having a rectangular shape.

In the focused bundle drainage pipe installation step (S50), the bundled bundle drainage pipe 500 is formed to have a cross-sectional shape of approximately 'S' on a regular cross-section as shown in FIG. Without clogging the vegetation block 100 or the water in the soil forming the incision or inclined surface to be discharged to the outside smoothly through the drain 230.

Accordingly, even if it rains a lot by making the drainage smoothly by the bundled bundle drain pipe 500 and the drain 230, to prevent the outflow of soil inside the vegetation block 100 and to prevent the collapse of the construction slope more surely. can do.

On the other hand, as shown in Figure 7, the inner side of the bundled bundle drainage pipe 500, the capillary portion 510 for promoting the penetration of water into the interior protruding symmetrically formed, the outside of the bundled bundle drainage pipe 500 When connected to the drain 230, the support protrusion 520 to be in close contact with the hole binding drainage plate 200 to minimize the displacement is protruded symmetrically in the top, bottom, left and right.

In addition, although the bundled bundle drain pipe 500 according to the present invention may be connected to one of the drain 230, a plurality of bundled bundle drain pipe 500 may be connected to the drain portion 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, the hole bundle drainage plate (S50) and the secondary vegetation block stacking step (S70) of the bundle bundle drainage pipe installation step (S70) It is preferable to further include the step (S60) of installing the geogrid 600 on top of the hole binding drainage plate 200 to be hooked to the binding projection 220 of the 200.

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

Accordingly, the vegetation block 100 or the gabion 110 is held by the geogrid 600 so that even if there are some torn portions in the vegetation block 100, the soil inside the vegetation block 100 is leaked to the outside and dropped out. Can be prevented.

The geogrid 600 shown in FIG. 4 shows only a partial region, and a reinforcement bag is provided in the binding protrusion 220 of at least one of the upper and lower portions of the hole binding drainage plate 200 in place of the geogrid 600. Civil reinforcement members such as may be provided.

On the other hand, as shown in Figure 8, the focused bundle drainage pipe installation step (S50) is to connect the bundled bundle drainage pipe 500 to the drain pipe connector 700 and to connect the drain pipe connector 700 to the drain 230 to focus A step for allowing the bundled bundle drain pipe 500 to be easily connected to the drain 230 of the hole binding drainage plate 200 by a drain pipe connector 700 provided between the bundle drain pipe 500 and the drain 230. It is preferable to further include.

Accordingly, the bundled bundle drainage pipe 500 is easily and simply connected to the drainage portion 230 by the drainage pipe connector 700, so that the construction of the vegetation block 100 is made quickly and easily so that The workability can be further improved.

On the other hand, as another embodiment of the present invention, as shown in Figure 9, the hole binding drainage plate installation step (S30) is strong between the vegetation block 100 on the upper and lower surfaces of the hole binding drainage plate 200. The method may include preparing a van der Waals adhesive part 240 including a plurality of bristles treated with carbon nano processes to act as van der Waals adhesive strength.

Accordingly, the van der Waals adhesive force is strongly applied between the hole binding drainage plate 200 and the vegetation block 100 according to the present invention interposed between the vegetation blocks 100 so that the vegetation blocks 100 are constructed. It can be kept firm without deformation.

Although the technical aspects have been described in the accompanying drawings and described above, the technical idea of the present invention is for the purpose of description, and not by way of limitation, the person skilled in the art of the present invention It will be understood that various modifications and changes can be made in the present invention without departing from the technical scope of the appended claims.

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

Claims (3)

In the construction method of the vegetation block is installed to prevent the collapse of the incision surface or slope,
Preparing a vegetation block filled with vegetation soil in a block bag made of synthetic fiber yarn to form a hexahedron;
Primary stacking of the vegetation block;
Installing a hole binding drainage plate on an upper portion of the vegetation block;
Fixing the rear of the hole binding drainage plate with a fixing stake;
Installing a bundled bundle drainage pipe such that a bundled bundle drainage pipe is connected rearward to a drainage portion formed at a lower portion of the hole binding drainage plate; And
Secondly stacking vegetation blocks on top of the hole binding drainage plate;
Construction method of the vegetation block comprising a. The method of claim 1,
Between the vegetation block preparation step and the primary vegetation block stacking step, and at least one of the focusing bundle drainage pipe installation step and the secondary vegetation block stacking step to accommodate the vegetation block to the inside of the gabion to be protected. Construction method of the vegetation block, characterized in that it further comprises a step. The method of claim 1,
And installing a geogrid on the upper portion of the hole binding drainage plate so as to be hooked to the binding protrusion of the hole binding drainage plate between the focusing bundle drainage pipe installation step and the secondary vegetation block stacking step. Block construction method.

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