KR101456437B1 - Gabion structure - Google Patents

Abstract

The present invention relates to a gabion structure which includes a mesh net, including a body unit comprising the bottom surface, the front surface, the rear surface, and both sides and a cover unit comprising the upper surface covering the opened upper surface of the body unit; a first vegetation steel pipe fixed to one or more front corners of the body unit; a plurality of second vegetation steel pipes extended to be inclined from the bottom surface of the body unit toward a front wall and arranged in the width direction of the front wall; a third vegetation steel pipe which is formed on a wall surface, which comes into contact with one front corner facing the other front corner with the first vegetation steel pipe, and is extended to be inclined upwards from an inner bottom surface to a front wall; and a lowermost gabion directly installed on the ground.

Description

{GABION STRUCTURE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a garbage structure, and more particularly, to a garbage structure capable of preventing a deformation of a lowermost garbage temperature due to impact or load such as rockfall by providing a plurality of vegetation steel pipes at a garbage.

Generally, a cut-out is a cut-off surface formed by inclining at the edge of a road as a part of a mountain, a part of a river, a river or the like is cut by constructing a road, .

These cut-offs are caused by unusual storms due to extreme global temperature events, such as El Niño and La Niña, which causes 70 to 80 percent of the rainfall to fall on the slopes to the ground.

In this way, rainwater flows down and part of the rainwater is impregnated into the ground of the flat surface. The rainwater permeated into the surface of the incision surface becomes bulky in the portion where the soil is weak, causing the incision surface to collapse and cause landslides.

Such a collapse of the incision plane cuts off the road traffic, as well as accidents such as burial or overturning of the vehicle, resulting in economic loss as well as loss of life.

The soil of these cut-outs is made of excavated rocks or gypsum. The soil that forms most of the gypsum is formed by physical, chemical and biological weathering for many years.

In addition, the major components of the soil generated from the rock include minerals that are weathering products of rocks, organic matter formed from debris of animals and plants, water generated by decomposition process of organic matter, carbon dioxide gas, and oxygen.

Therefore, the incision sites of mountains, rivers, and the like are changed into the soil that can be grown by the biological weathering of the soil after about 5 to 10 years after the incision.

These cut-outs are provided with dikes, dams or retaining walls to prevent them from being damaged by heavy rains or heavy rains.

The greening method of the cutting surface of the incision surface covers the surface of the incision surface, seeds of the grass and the shrub plant are sown thereon, and the humidity is maintained by covering the insecticide such as rice straw and fiber net to grow the germinated seed, So that recording is performed.

These various dikes, dams, retaining walls, etc. have been constructed using a shore block or concrete structure which is traditionally easy to work with and relatively easy to maintain.

However, various types of construction methods adopted for reasons of ease of operation, etc. have not been environmentally friendly, and thus, side effects are occurring, or at least such side effects are expected.

Considering this phenomenon, the proposed method is gabion construction method which is well known as gabion.

In the garbage construction method, the garbons made of box-shaped wire mesh are filled with filler materials such as stone, soil, vegetation, etc., and then they are installed in the most suitable manner at each construction site.

However, in the above-mentioned Gavion construction method, the method of recording the soil having the size of the flowerpot is limited to the growth of the trees, and if the time passes, the trees may be depleted of nutrients, There was a problem that the structure was not robust.

Particularly, since the garbons have a multi-layer structure, the lowest garbons installed on the ground are deformed due to external impacts such as rockfall, earth pressure, and other garbons that are stacked on the top.

Korean Patent Publication No. 2005-0043552 (2005.05.11)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to prevent the deformation of the lowermost turnover temperature caused by an external impact such as a rockfall or a load of other high- To be able to.

It is another object of the present invention to provide a method for efficiently feeding nutrients so that a variety of plants can be photographed in Gavion and the trees are not restricted by growth.

According to an aspect of the present invention, there is provided a garbage structure including a bottom surface, a front wall, a rear wall, and a cover portion including a body portion configuring both side walls and an upper surface covering the open top portion of the body portion. Mesh network; A first vegetation steel pipe fixedly attached to at least one front edge of the body part; A plurality of second vegetation steel pipes extending obliquely upward from the bottom surface of the body part toward the front wall surface and arranged along the width of the front wall surface; And a third vegetated steel pipe extending obliquely upward from the inner bottom surface toward the front wall surface on one side wall surface contacting the other front edge opposite to the front edge provided with the first vegetated steel pipe, And the like.

And a plurality of upper-level decompression temperatures are sequentially stacked on the lowest-level decompression temperature, wherein a front edge of each of the upper-level decompression temperatures passes through a lid portion and a body portion of the corresponding lower- And a steel pipe is installed.

The upper end of the first vegetative steel pipe is formed toward the outside of the upper surface of the garniture so that the stem portion of the plant can be exposed and the corresponding lower end is formed toward the outside of the garniture bottom surface so that the root portion of the plant can be exposed. do.

The upper ends of the second vegetation steel pipe and the third vegetation steel pipe are formed toward the outside of the garbage front wall surface so that the stem portion of the plant can be exposed and the root portions of the plant are exposed at the corresponding lower end thereof. And is formed toward the outside.

The second vegetation steel pipe and the third vegetation steel pipe are shorter than the first vegetation steel pipe and are installed at the lower end of the front wall surface of the open space.

According to the garbion structure according to the present invention having the above-described structure, a plurality of vegetation steel pipes are installed on the front edge of the garbion which is the lowest layer among the garbons having a multi-layer structure, and on the front wall and side walls, The steel pipe is connected to the bottom surface by sequentially passing through the lid portion and the body portion of the garbons installed at the corresponding lower end of the steel pipe, It is possible to prevent deformation that might otherwise be caused by the load of other open spaces.

1 is a perspective view showing a unit configuration of a garbage structure according to the present invention.
FIG. 2 and FIG. 3 are views showing a state in which vine plants are planted in a vegetable steel pipe of a garbage structure according to the present invention.
4 is a cross-sectional view showing an installation state of a garbage structure according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 4. FIG.

FIG. 1 is a unit view of a garbage structure according to the present invention. In the present invention, 'garbion' refers to a hexahedral shape formed of a mesh type wire net and is applied to a retaining wall type garbage temperature (G) used as a stepped retaining wall. It is possible.

The open space G is a mesh type wire mesh in which a plurality of wire wires are twisted in a hexagonal shape (8 to 10 cm). The open space G is composed of a slope slope of a road made of slope, Respectively.

The mesh network 10 constitutes the entire surface of the gap G and includes a body 10a constituting a bottom surface, a front wall surface, a rear wall surface and both side walls, And a cover portion 10b made of an upper surface covering the opened upper portion.

At this time, four vertical members 11 made of wire are provided at each corner of the mesh net 10.

Four horizontal members 12 are provided at positions where the front and rear wall surfaces and both side wall surfaces meet with the bottom surface.

At this time, the iron wire is manufactured by high-strength galvanizing, and may be made of a semi-permanent metal material which has been subjected to corrosion treatment in order to enhance resistance to corrosion.

According to the embodiment of the present invention, the lowermost folding gap G installed on the ground surface of the narrow gap G is formed on at least one side of the vertical member 11 located at the front edge of each vertical member 11, (20) is installed.

The first vegetative steel pipe 20 has a hollow circular cross-sectional shape and has a diameter of approximately 75 to 100 mm and a length of longer than or substantially the same length as the wall surface of the gap G, .

Here, the first vegetative steel pipe 20 may have a polygonal cross-sectional shape such as a circle, a rectangle, and a pentagon.

It is preferable that the first vegetation-use steel pipe 20 is planted with vine plants of evergreen plants, pine trees, pine needles, and pine trees. When the vine plant grows in the state where the groom temperature (G) is applied as described above, the combined power of the groom temperature (G) with respect to the ground is further improved by planting.

The upper end of the first vegetative steel pipe 20 is formed toward the outside of the upper surface of the garbage temperature G so that the stem portion as the upper part of the plant can be exposed, Is formed toward the outside of the bottom surface (G).

This is because the roots can be planted directly on the ground to be applied and the plants can grow smoothly, and the roots of the roots can be grown while the roots grow longer.

When the first vegetation steel pipe 20 constructed as described above is installed on at least one side of the front corners so that the garbage (G) structures are installed along the width direction so as to correspond to the area of the bank, each first vegetation steel pipe 20 And the cooperation and relationship between the structures will be improved.

According to the embodiment of the present invention, a plurality of second vegetation steel pipes 30 are formed on the front wall surface of the garbage G and extend obliquely upward from the inner bottom surface toward the front wall surface, This heat is arranged in alignment.

The second vegetated steel pipe 30 has a smaller diameter and a smaller length than the first vegetated steel pipe 20 and has a diameter of about 45 to 50 mm and a length of 250 to 450 mm.

It is preferable that the second vegetation steel pipe 30 is planted with a vine plant inserted therein in the same manner as the first vegetation steel pipe 20 described above.

At this time, the upper end of the second vegetation steel pipe 30 is formed toward the outside of the front wall of the garbage (G) so that the stem portion as the upper part of the plant can be exposed, and the root portion, It is preferable to be formed toward the outside of the bottom surface of the garbage (G).

If the filling material is filled in the open space G, the space between the front wall of the open space G and the second vegetation steel pipe 30 may be filled with a small gravel, stone, soil or the like so that the filling material may be firmly, firmly, And the like.

In addition, according to the embodiment of the present invention, the one side wall facing the other front edge opposite to the front edge where the first vegetative steel pipe 20 is provided is provided with a third vegetation A steel pipe 40 is installed.

It is preferable that the third vegetation steel pipe (40) is planted with a vine plant inserted therein in the same manner as the first and second vegetation steel pipes (20, 30).

At this time, the upper end of the third vegetation steel pipe (40) is formed toward the outside of the front wall surface (G) so that the stem portion as the upper part of the plant can be exposed like the second vegetation steel pipe (30) It is preferable that the lower part is formed toward the outside of the bottom surface of the garbion (G) so that the root part, which is a lower part of the plant, can be exposed.

When the third vegetation steel pipe 40 is installed along the width direction so as to correspond to the area of the bank, the third vegetation steel pipe 40 cooperates with the first vegetation steel pipe 20, It is possible to improve the rigidity and supportability of the structures.

Therefore, the present invention supports not only the first vegetation steel pipe 20 but also the second vegetation steel pipe 30 and the third vegetation steel pipe 40 so as to firmly maintain the hexahedron shape, (G) at the lower end of the front wall surface of the lowermost folded gap (G) is prevented by external shock such as an external impact such as an external shock or the like or a load of another narrow gap G stacked on the upper portion.

Also, the first to third vegetation steel tubes 13, 14 and 15 prevent the sagging phenomenon of the bottom surface of the garbage (G) caused by the load caused by the filling material such as stone, soil, .

A fourth vegetation steel pipe (50) having the same function as the first vegetation steel pipe (20) is installed on the front edge of each of the upper-layer garbage (G) layers stacked in order on the lowest- do.

4, the fourth vegetated steel pipe 50 passes through the lid portion 10b and the body portion 10a, which are located at the lower end of the corresponding lower portion G, in order and reaches the bottom surface Respectively.

As described above, when the upper garbage temperature G and the lower garbage temperature G are connected to each other through the fourth vegetation steel pipe 50 and used as a stepped retaining wall or the like, the multi-layered garbage (G) The supportability can be improved.

Accordingly, the garbion structure according to the present invention is an excellent structure that does not require additional post-management after construction, and can be applied regardless of climate and environment compared to other structures. Therefore, the garbion structure is excellent in adaptability even under any construction conditions or environmental conditions, Even in terms of environment, it is possible to construct aesthetically and environmentally friendly construction by using cobblestone or pebble stone.

In addition, the vine plants cultivated in the garbion structure according to the present invention are not separated from the ground, their roots are planted directly on the ground, and the stem side grows outward to the garbage temperature (G), so that various vine plants can be recorded In addition to this, the trees can be supplied with nutrients smoothly without being limited by their growth.

Meanwhile, in the embodiment of the present invention, the plant to be planted at Gavion G is limited to the vine plant, but the present invention is not limited thereto, and various plants such as arboreal plants may be planted.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It should be understood that various modifications made by the person skilled in the art are also within the scope of protection of the present invention.

10: mesh net 10a:
10b: lid part 11: vertical member
12: horizontal member 20: first vegetable steel pipe
30: second vegetable steel pipe 40: third vegetable steel pipe
50: Fourth plant steel pipe

Claims (5)

A mesh network including a bottom surface, a front wall surface, a rear wall surface, and a body portion constituting both side walls, and a cover portion including an upper surface covering the open upper portion of the body portion;
A first vegetation steel pipe fixedly attached to at least one front edge of the body part;
A plurality of second vegetation steel pipes extending obliquely upward from the bottom surface of the body part toward the front wall surface and arranged along the width of the front wall surface;
And a third vegetated steel pipe extending obliquely upward from the inner bottom surface toward the front wall surface on one side wall surface contacting the other front edge opposite to the front edge provided with the first vegetated steel pipe, A garbage structure characterized by comprising garbons.
The method according to claim 1,
And a plurality of upper layer spacing layers are sequentially stacked on the lowest layer spacing,
Wherein a fourth vegetation steel pipe is provided at a front edge of each of the upper-level garbage by passing through a lid portion and a body portion of the garbons at the lower end in order and reaching the bottom surface.
The method according to claim 1,
The upper end of the first vegetative steel pipe is formed toward the outside of the upper surface of the garniture so that the stem portion of the plant can be exposed and the corresponding lower end is formed toward the outside of the garniture bottom surface so that the root portion of the plant can be exposed. The Gobion structure.
The method according to claim 1,
The upper ends of the second vegetation steel pipe and the third vegetation steel pipe are formed toward the outside of the garbage front wall surface so that the stem portion of the plant can be exposed and the root portions of the plant are exposed at the corresponding lower end thereof. And is formed toward the outside.
The method according to claim 1,
Wherein the second vegetation steel pipe and the third vegetation steel pipe are shorter than the first vegetation steel pipe and are installed at the lower end of the front wall surface of the open space.

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