KR101694502B1 - Gabion adjustable the angle of inclination and construction method - Google Patents

Abstract

The present invention relates to a vegetation gabion with a controllable inclination angle and a vegetation gabion construction method using the same and, more specifically, relates to a vegetation gabion with a controllable inclination angle and a vegetation gabion construction method using the same, capable of enabling a user to combine a side wall with a front wall while selectively controlling a degree of bending of the side wall. To achieve this purpose, the vegetation gabion with a controllable inclination angle, installed in a slope of a river after earthwork, comprises: a first body including a rear wall and a floor surface, divided by bending, and placed on the slope; a pair of side walls formed of a bendable material, but installed in both sides of the floor surface facing each other; and a second body including a cover and a front wall, divided by bending, and having the front wall combined with an opposite side of the rear wall in a state in which the first body and the side walls are combined, and having the cover combined with an upper part of the rear wall and the side walls. The second body is combined in a state in which a slope part is formed by bending a front side of the side walls.

Description

Technical Field [0001] The present invention relates to a vegetation glazing method and a vegetation glazing method using the same,

More particularly, the present invention relates to a method of constructing a vegetation gypsum temperature control system capable of adjusting the inclination angle of the vegetation, and more particularly, to a method of constructing a vegetation gypsum system using a flexible material capable of bending, The present invention relates to a method of constructing a vegetation gypsum and a method of constructing a vegetation gypsum using the same.

Generally, on the slope of a river, a dam or a bank is installed to prevent overflow of the river or to maintain the channel. Such dikes, especially artificially constructed dikes, are being built with a number of tiles, concrete blocks or openings for ruggedness and safety.

If the slope of the slope of the stream is steeper than a certain angle, a method of covering the slope by using a vegetation shore block, a vegetation mat, or a gabion is used. If the slope of the slope of the stream is steeper than a certain angle, A lamination method is used.

In recent years, considering the ecological aspect as well as the stability of the embankment, the construction of the garbons has been carried out by using a vegetation mat in the inside of the garbons so that vegetation of the garbons can be made on the surface of the garbons.

However, since vegetation generally has a property of growing upward, there is a disadvantage that vegetation is difficult in the upright part in front of the garbage laminates stacked in a stepwise manner.

As one of techniques for addressing this problem, Registration Practical Utility Model No. 20-0431090 is disclosed.

The conventional garbons consist of a bottom part, a trapezoid-shaped both sides in a trapezoid shape on the underside, a rear part, a lid part and a slope-treated front part made of a welded wire mesh, a rice straw net, a seeded vegetation cloth and a metallic wire mesh .

In other words, the conventional garbage is constructed so that the front part is inclined so that the vegetation of the plant can be easily made in the front part.

However, since the conventional glow-in-turn is formed in a shape that can not adjust the angle of the side wall inclined portion, that is, a shape having a constant angle, in order to be applied to slopes having various inclination angles, There is a problem that the cost and time required for the production of the garbons are increased.

KR 20-0431090 Y1 Nov. 07, 2006

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-described problems of the prior art, and a problem to be solved by the present invention is to provide a bending- The present invention also provides a method for constructing a vegetation open space using the same.

According to an aspect of the present invention, there is provided a vegetation glaze comprising: a first body having a bottom surface and a rear wall defined by bending and disposed on an inclined surface of a river in which earthworking is performed; A pair of side walls provided on opposite sides of the bottom surface; And a second body formed by bending and including a front wall and an upper lid, wherein the upper lid is coupled to an upper portion of a rear wall of the first body and an upper portion of the pair of side walls, Wherein the front wall is formed to be inclined in the direction of an inclined surface of the river, and the upper surface of the bottom surface of the vegetation cover is formed with an inclined surface, A rainwater shielding unit for preventing moisture from flowing out to a lower part of the vegetation cover, and the rainwater shielding unit comprises a shielding plate formed of a plate having a size corresponding to the bottom surface, and a rainwater shielding unit provided along left and right and rear edges of the shielding Wherein one end in the longitudinal direction is adjacent to the rear wall side, Is adjacent to the anterior wall of the side member further comprising a water discharge which is arranged inside the vegetation gaebion, the interior of the gaebion vegetation, the vegetation mat; And a moisture storage material provided closely to an inner surface of the vegetation mat, wherein the vegetation mat encloses an inner wall of the front wall, a front inner wall of the upper lid, and a front inner wall of the bottom surface And the like.

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In the meantime, the vegetation loam temperature construction method using the vegetation loam temperature which can adjust the inclination angle of the present invention includes a basic step of installing the foundation structure on the slope slope surface of the river where the vegetation loam temperature will be installed; A base assembly step of disposing a bottom surface of the first body on an upper part of the foundation structure and having side walls on opposing side surfaces of the first body and then joining them to form an enclosure; Forming an inclined portion by bending a front side of the assembled side wall to form an inclined portion; A front wall assembling step of assembling a front wall to an enclosure formed with the inclined portion; A vegetation-based rearrangement step of arranging a part of the vegetation-based material so as to be adjacent to the inside wall of the enclosure; A filling step of filling the inside of the housing with soil and performing a compaction step; And a finishing step of bending the vegetation-based material to cover the upper portion of the gravel and then bending the second body to cover the upper part of the vegetation-based material covered with the upper part of the gravel-like material with the cover, And a control unit.

Meanwhile, after the front wall assembling step, the step of arranging the rainwater shielding part having the rainwater shielding part inside the housing is performed.

The filling step may include: a first filling step of filling the inside of the housing with a predetermined volume of gravel and performing a compaction step; A water discharging member providing step of disposing a water discharging member on an upper portion of the gravel subjected to the compaction step; And a second filling step of filling the inside of the housing provided with the water discharging member with the soil and then performing the compaction process.

Meanwhile, after the plurality of vegetation openings are stacked, the upper part of the vegetation open space disposed on the uppermost side is covered with the gravel, the vegetation-based material is installed, and the seed spraying process is performed.

According to the present invention, since the inclination angle of the front wall can be adjusted, the angle can be selectively adjusted in the field according to the inclination angle of the slope to be installed. Thus, It has the advantages of less time and less cost to produce.

According to the present invention, since the water discharge member is provided in the inside of the vegetation cover and the introduced water is discharged to the front side through the water discharge member, the increase of the earth pressure by moisture is suppressed, There is an effect of preventing problems such as breakage.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a vegetation gypsum temperature capable of adjusting the inclination angle according to the present invention; Fig.
FIG. 2 is an exploded perspective view of a vegetation glazing temperature capable of adjusting the inclination angle according to the present invention. FIG.
FIGS. 3A to 3D are views showing a process of assembling a vegetation glazing temperature capable of adjusting the inclination angle according to the present invention. FIG.
4 is a cross-sectional view showing an embodiment of the installation of a vegetation glaze temperature capable of adjusting the inclination angle according to the present invention.
5 is a flow chart of a method for constructing a vegetation glaze in accordance with the present invention.
FIG. 6 is a flow chart illustrating a filling step applied to the vegetation loosening method according to the present invention; FIG.

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

The present invention relates to a vegetation glazing temperature control method capable of controlling the inclination angle and more particularly to a vegetation glaze construction method using the same. More particularly, The present invention relates to a method for controlling the inclination angle of the vegetation and a method for constructing the vegetation using the same.

FIG. 1 is a perspective view of a vegetation glazing temperature capable of adjusting the inclination angle according to the present invention, FIG. 2 is an exploded perspective view of a vegetation glazing temperature capable of adjusting the inclination angle according to the present invention, FIG. 4 is a cross-sectional view illustrating an embodiment of a vegetation glazing temperature control system according to the present invention, in which the inclination angle can be adjusted.

The present invention relates to a vegetation glaze 1 provided on a sloping slope of a river where earthworks are performed and includes a first body 100, a side wall 200, and a second body 300).

At this time, the first body 100, the side wall 200, and the second body 300 are formed in the form of a wire mesh or the like having a lattice shape or a hexagonal mesh shape.

The first body 100 includes a bottom surface 110 and a rear wall 120 defined by bending, and is disposed on the slope. That is, the first body 100 is divided into a bottom surface 110 and a rear wall 120 as the structure or the mesh net extending in one direction is bent.

At this time, the first body 100 is bent so that the rear wall 120 and the bottom surface 110 are orthogonal to each other.

The side wall 200 is made of a bendable material and is provided on both opposite sides of the first body 100.

The side wall 200 is formed of a ductile material or a fibrous material that can be bent more easily and is coupled to the bottom surface 110 and the rear wall 120 at the same time so as to be engaged with the housing 2 ).

At this time, for example, a wire having a diameter of 2 to 3 mm is used as the wire constituting the side wall 200, so that the worker can easily bend the side wall 200.

The side wall 200 is coupled to the first body 100 and then bent at a front portion thereof to form an inclined portion 210 on the front side of the side wall 200.

The inclined portion 210 is adjustable in the field according to the inclination angle of the slope on which the vegetation opening ratio 1 is installed and the front side of the side wall 200 is bent toward the inside of the housing 2, It is preferable to insert it inward.

The second body 300 includes a front wall 310 and an upper lid 320 which are divided by bending and the first body 100 and the side wall 200 are coupled to each other, And the upper lid 320 is provided on the upper portion of the side wall 200 and the rear wall 120 coupled to each other.

In addition, the second body 300 is configured such that the hexagonal mesh-like or lattice-shaped wire net extending in one direction is divided into the front wall 310 and the upper lid 320 by bending, So that the upper side of the housing 2 is covered with the upper lid 320 after the front wall 310 is coupled to the front side.

On the other hand, since a considerable pressure is applied to the front portion of the vegetation grate 1 by the gravel, it is preferable that the longitudinal members constituting the bottom surface 110 and the front wall 310 and the edge positioned at the forefront are more firmly coupled Do.

The first longitudinal member 20a constituting the bottom surface 110 is coupled in a bent state so as to surround the first supporting frame 10a which is the front edge of the bottom surface 110, And the second longitudinal member 20b constituting the front wall 310 is coupled in a bent state so as to enclose the second supporting frame 10b which is the rim of the lower side of the front wall 310. [

That is, a first latch 30a is provided at the front end of the first longitudinal member 10a and is coupled to the first supporting frame 10a. At the front end of the second longitudinal member 10b, (30b), and is engaged with the second supporting frame (10b).

Accordingly, even if a strong earth pressure is applied to the bottom surface 110 and the front wall 310, the first support frame 10a is supported by the first support frame 30a, 2 is prevented from being detached from the combined position while the state constrained by the two latches 30b is maintained, thereby preventing the drainage of the gravel filled in the vegetation gravel temperature 1. [

On the other hand, a reinforcing net (not shown) is further provided on the front wall 310 side to reinforce the strength on the front wall 310 side.

A considerable earth pressure is applied to the front wall 310 and an impact from the outside is applied to the front wall 310. The front wall 310 has a different structure from that of the first body 100, And the upper cover 320, as shown in Fig.

In addition, the vegetation base material 600 is provided on the front wall 310 side so that vegetation can be vegetated, and it is preferable that the vegetation base material 600 grows in a state in which the roots of the plant are firmly supported.

The reinforcing net (not shown) may be formed of a relatively dense mesh network that corresponds to the size of the front wall 310 but is less than the mesh net constituting the front wall 310, And the plant is allowed to grow in a stable state.

The upper lid 320 is formed to correspond to the size of the bottom surface 110. The inclined portion 210 is formed so that a part of the end of the upper lid 320 is connected to the rear wall 120, And is provided on the upper portion of the housing 2 in a protruded state.

Accordingly, the protruding end of the upper cover 320 can be bent, and the bent portion is engaged with the rear wall 120.

As the first body 100, the side walls 200 and the second body 300 are constrained by using the helical wire 400, the adjacent edge portions are assembled with each other, .

According to the above configuration, the user can selectively adjust the inclination angle of the front wall 310 according to the inclination angle of a slope to be installed.

Since the slopes of the streams are all different, in order to form the slope of the front side in the case of the conventional garbons, it is necessary to design and manufacture the products according to various inclination angles, so that it takes much time for production and installation, There was a problem.

However, according to the present invention, the angle of inclination of the front wall 310 can be adjusted so that the angle can be selectively adjusted in the field according to the inclination angle of the slope to be installed. And the cost of production is also small.

The vegetation gravel temperature 1 according to the present invention is installed on a slope of a river and further includes a vegetation based material 600 positioned adjacent to the front wall 310 inside the vegetation gravel temperature 1 .

The vegetation-based material 600 is for preventing soil from leaking forward and inducing plant growth. The vegetation-based material 600 includes a vegetation mat 610 having seed and fertilizer attached thereto, and a moisture storage material 610 made of coir fiber (620).

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The vegetation mat (610) is placed in the vicinity of the front wall (310) as well as the front wall (310) in the front part and the upper part of the vegetation garniture (1) And is configured to surround the inner wall of the front portion of the lid 300 and the inner wall of the front portion of the bottom surface 110, which are inner walls.

The vegetation mat 610 is divided into the first vegetation part 611, the second vegetation part 612 and the third vegetation part 613 by bending, and the partitioned vegetation part sequentially The entire front wall 310 and the inner wall of the lid 300, as shown in FIG.

In other words, the vegetation mat 610 is formed in the form of a plate extending in one direction, and is formed of a flexible material that can be bent. 310, and then the soil mat is filled. Then, the vegetation mat 610 is folded to cover the top of the gravel to be brought into close contact with the lid 300.

When the surface of the vegetation mat 610 is dried because the rain does not almost reach the surface of the vegetation mat 610, the moisture storage material 620 absorbs moisture stored in the moisture storage reservoir 1, To supply the moisture to the plant 620 side, thereby helping plant growth.

Accordingly, the moisture storage material 620 is made of a fabric material that can easily absorb moisture, and the moisture storage material 620 is formed by rolling and wrapping the fabric.

At this time, the moisture storage material 620 may be made of coir fiber which is an eco-friendly material.

That is, the water storage material 620 is a tube having a spiral shape in cross section, and is disposed on the inner wall of the second vegetation part 612 so as to extend to the lateral direction of the front wall 110.

Accordingly, when moisture content of the gravel filled in the vegetation gravel temperature 1 is evaporated and the water content is lower than that of the water storage material 620, moisture is discharged from the water storage material 620 to the gravel side, .

At this time, the water storage material 620 is installed in a size and a number according to the conditions such as the average precipitation amount and the flow rate of the installed river area.

On the other hand, the vegetation gravel temperature (1) is located in front of the ground. When the amount of rainfall is large due to the rainy season, the soil soil constituting the ground absorbs a considerable amount of rainwater,

As a result, a considerable earth pressure is applied to the vegetation gravel temperature 1 located in front of the ground, resulting in a problem that the vegetation gravel temperature 1 is damaged.

Therefore, the rainwater infiltrating into the ground on the rear side of the vegetation grate 1 must be discharged to the outside, and a plurality of water discharging members 700 are provided inside the vegetation grate 1.

The water discharging member 700 is configured to absorb the moisture that has flowed into the rear side of the vegetation opening ratio 1, and the absorbed moisture flows to the front wall 310 side and is discharged.

That is, the moisture discharging member 700 is made of a fabric material capable of absorbing moisture, and the fabric is rolled to form a tube having a spiral cross-section.

At this time, the water discharging member 700 may also be made of coir fiber, which is an eco-friendly material.

The water discharging member 700 is disposed inside the vegetation opening ratio 1 so that one end in the longitudinal direction is adjacent to the rear wall 220 and the other end in the longitudinal direction is adjacent to the front wall 310 side.

Accordingly, the rainwater flowing into the rear side of the vegetation grate 1 is absorbed into one end of the water discharging member 700, and the absorbed water flows to the other end side of the water discharging member 700, To the outside.

In other words, since the gravel filled in the vegetation gravel temperature (1) is filled in a state having a considerable density and pressure by the compaction process, moisture absorbed in the water exhaust member (700) flows into the vegetation gravel temperature And is discharged to the front wall 310 side where the other end of the water discharging member 700 having a relatively low density is disposed.

That is, since the moisture discharging member 700 discharges the water absorbed in the back side ground of the vegetation wastewater 1 to the outside, there is a risk that the vegetation wastewater temperature 1 will fall and be damaged due to being pushed forward There is an advantage of shrinking.

At this time, the water discharging member 700 is inclined so that the other end is relatively lower than one end, so that the absorbed moisture can be more easily discharged forward.

In order to further smooth the flow of the absorbed moisture, the water discharging member 700 may have a vent portion 720 therein. The vent portion 720 may be filled with sand, gravel, or the like .

At this time, the other end of the water discharging member 700 is disposed adjacent to the inner surface of the vegetation based material 600, and a nutrient 710 for supporting the growth of the plant is placed inside the other end side of the water discharging member 700 So that the nutrients dissolve in the process of discharging the water to the front wall 110 and the water is absorbed by the vegetation based material 600 so that the plants can be more easily grown.

In the meantime, the vegetation opening ratio (1) according to the present invention is installed while being stacked in the vertical direction. The rainwater blocking portion (800) is provided inside the vegetation opening ratio (1), and the vegetation opening ratio Flows into the front wall (310) side without being introduced into the first chamber (1), and is discharged to the outside.

The rainwater shielding part 800 includes a shielding film 810 formed in the shape of a plate corresponding to the bottom surface 210 and a blocking wall 820 provided along left and right and rear edges of the shielding film 810 .

That is, the rainwater blocking portion 800 is formed in such a manner that the upper portion and the front portion are opened, whereby the rainwater introduced into the inside is discharged only by the rainwater blocking portion 800 forward, Moisture is prevented from flowing into the vegetation opening temperature (1) located below the blocking portion (800).

Meanwhile, the rainwater blocking part 800 may be sloped inside the vegetation opening ratio 1 so that the height of the rainwater blocking part 800 decreases from the rear to the front side, so that the rainwater on the upper part of the curtain wall 810 can be quickly discharged to the outside.

Or the upper portion of the curtain film 810 may be inclined so as to be lowered from the rear to the front side so that the rainwater on the upper portion of the curtain film 810 may be quickly discharged to the outside.

FIG. 5 is a flow chart of a method of constructing a vegetation garbage temperature according to the present invention, and FIG. 6 is a flowchart illustrating a filling step applied to a vegetation garbage construction method according to the present invention.

Hereinafter, a vegetation open-top construction method using the vegetation open-air temperature (1) constructed as described above will be described.

1. Basic step (S10)

The basic step S10 is a process of installing the foundation structure B by laying the ground of the slope slope of the stream to be installed with the vegetation grate temperature 1 to install the vegetation grate temperature 1. [

The foundation structure B is located at the lowermost side of the slope slope and is composed of a garbage having a solid filler such as stone in order to sufficiently withstand the load of the vegetation gravels 1 to be stacked thereon , And concrete structures.

2. Basic assembly step (S20)

In the basic assembly step S20, the bottom surface 110 of the first body 100 is disposed on the upper part of the base structure B, and the side walls 200 are formed on opposite sides of the first body 100 Respectively, so as to form the housing 2.

At this time, a helical wire (400) is provided on a rim portion of the first body (100) and the side wall (200).

3. Inclined part forming step (S30)

The inclined portion forming step S30 is a process of forming the inclined portion 210 on the front side of the assembled housing 2 so that the front side of the side wall 200 is folded to have a predetermined inclination angle, Is inserted into the housing (2) to form the inclined portion (210).

The inclined portion 210 may be selectively adjusted by an operator in the field according to the inclination angle of the slope provided with the vegetation opening ratio 1.

4. Front wall assembly step (S40)

The front wall assembling step S40 is a process of assembling the housing 2 and the front wall 310 on which the inclined portion is formed and is configured to join the first supporting frame 10a and the second supporting frame 10b.

The second body 300 is provided on the housing 2 such that the first and second supporting frames 10a and 10b are in contact with each other and the first and second supporting frames 10a, 10b are wound with a helical wire 400 so that the housing 2 and the second body 300 are coupled together.

As described above, the front wall 310 and the upper lid 320 are formed as a single connected structure, and the upper lid 320 is held in a state of being protruded upward from the housing 2 do.

5. Arranging the rainwater blocking part (S50)

The rainwater shielding part disposing step S50 is a process of providing the rainwater shielding part 800 inside the enclosure 2 in which the front wall 310 is assembled.

At this time, the rainwater blocking portion 800 is disposed to cover the entire bottom surface 110, and the moisture introduced into the rainwater blocking portion 800 is separated by the blocking wall 820 from the left and right sides So that the rainwater is discharged only toward the front side.

Meanwhile, the rainwater blocking part 800 may be disposed in a tilted state so that the rainwater on the upper part of the curtain wall 810 can be rapidly discharged to the outside.

The rainwater shielding part 800 is disposed in a state of being filled with soil at a height of 5 to 10 cm at a position adjacent to the rear wall 120 side of the housing 2, So that the front side is inclined with respect to the rear side relative to the rear side.

As a result, the introduced rainwater is discharged to the outside more quickly.

6. Vegetation-Based Relocation Step (S60)

The vegetation-based rearrangement step S60 is a step of installing the vegetation-based material 600 so as to be adjacent to the inner surface of the front wall 310 inside the enclosure 2 in which the rainwater blocking part 800 is disposed.

The vegetation mat 610 is sequentially brought into close contact with the bottom surface 110 and the inner wall of the front wall 310 while the first vegetation mat 610 is folded at one end of the vegetation mat 610. That is, 110 so that the second vegetation part 612 is brought into close contact with the front wall 310.

At this time, as shown in the figure, the third vegetation part 613, which is the other end of the vegetation mat 610, is maintained to protrude outward, and then bent inward during the finishing step to be described later, 2).

The water storage material 620 may be provided inside the enclosure 2 in a state that the water storage material 620 is provided in the vegetation mat 610 or the first vegetation part 611 and the second vegetation part 612, And then to be coupled to the inner surface side of the second vegetation part 612.

After the front wall 310 is assembled or after the vegetation base material 600 is disposed, a reinforcing net (not shown) is provided on the front wall 310 side to increase the strength of the front wall 310 While supporting the growth of plants.

7. Filling step (S70)

The filling step S70 is a step of filling the inside of the housing 2 with the soil and performing a compaction process. In the case of filling only the soil inside the housing 2 during the filling step S70, (1), the amount of water introduced into the backside ground of the vegetation gravel temperature (1) is not discharged to the outside, and the weight of the ground is increased so that the vegetation gravel temperature located in front of the ground (1) There arises a problem that the earth pressure applied to the structure is increased.

Therefore, it is preferable that the water discharging member 700 is provided so as to reduce the earth pressure of the back side ground of the vegetation-growing after-discharge heat 1.

That is, the filling step S70 includes a first filling step S71, a water discharging member providing step S72, and a second filling step S73.

7-1. In the first filling step S71,

The first filling step S71 is a process of filling up the gravels corresponding to 1/3 to 1/2 of the internal volume of the housing 2 and performing a compaction process. The compaction process is usually performed during compaction of the gravel- In this case, the compaction process is performed such that the height of the soil is gradually increased from the front wall 310 side to the rear wall 120 side.

7-1. The water discharge member providing step (S72)

In the water discharging member providing step S72, the water discharging member 700 is disposed on the top of the soil subjected to the compaction process such that one end of the water discharging member 700 faces the front wall 310 side and the other end faces the rear wall 120 side Process.

Accordingly, the water absorbed in the ground on the back side of the vegetation garniture 1 is absorbed into one end of the water discharging member 700, and the absorbed water flows to the other end side and is discharged to the front wall 310 side.

7-3. In the second filling step S73,

In the second filling step S73, the interior of the housing 2 provided with the water discharging member 700 is filled with the gravel and then the compaction process is performed so that the top of the gravel is flattened.

8. Finishing step (S80)

In the finishing step S80, after the compaction process is completed, the vegetation mat 610 and the second body 300 protruding outward of the housing 2 are bent and the third vegetation part 613 and the upper cover 320 are sequentially arranged and then assembled to complete the installation of the vegetation opening temperature 1. [

A portion of the upper end of the upper lid 320 protruding outwardly of the rear wall 120 is bent and fixed to the rear wall 120 to be fixed to the upper lid 320, The helical wire 400 is wound around the helical wire 400 so that the helical wire 400 is fixedly coupled with each other.

The above-mentioned process is repeatedly carried out so that a plurality of vegetation glaze temperatures 1 are stacked. At the upper part of the vegetation glaze temperature 1 located on the uppermost side, And a seed spray process is carried out to form a vegetation base.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Opening of vegetation 2: Enclosure
10: support rim 20: longitudinal member
30: Clasp
100: first body 110: bottom surface
120: rear wall
200: side wall 210:
300: second body 310: front wall
320: Cover
400: Spiral wire
600: Vegetation-based material
610: Vegetation mat 611: 1st vegetation part
612: the second vegetation part 613: the third vegetation part
620: water storage material
700: water discharge member
800: Rainwater shielding part 810: Shielding film
820:

Claims (8)

A first body (100) including a bottom surface (110) and a rear wall (120) defined by bending and disposed on an inclined surface of a river where the earthworking operation is performed; A pair of side walls 200 provided on opposite sides of the bottom surface 110; And a second body 300 including a front wall 310 and an upper lid 320 defined by bending the upper lid 320 and the second lid 320. The upper lid 320 is attached to the rear wall 120 of the first body 100, In the vegetation opening ratio (1) coupled to the upper part and the upper side of the pair of side walls (200)
The vegetation cover 1 is formed by bending the front side of the pair of side walls 200 inwardly to form the inclined portion 210 so that the second body 300 is engaged and the front wall 310 is inclined Direction,
On the upper surface of the bottom surface 110 of the vegetation cover 1,
A rainwater shielding part 800 for preventing moisture from flowing out to the vegetation glaze 10 installed below is provided and the rainwater shielding part 800 is formed of a plate having a size corresponding to the bottom surface 110 A shielding film 810 and barrier walls 820 provided along left and right and rear edges of the shielding film 810,
On the upper side of the curtain film 810,
Further comprising a water discharging member (700) disposed inside the vegetation opening ratio (1) such that one end in the longitudinal direction is adjacent to the rear wall (120) side and the other end in the longitudinal direction is adjacent to the front wall (310)
Inside the vegetation opening temperature (1)
Vegetation mat (610); And
A water storage material 620 closely attached to the inner surface of the vegetation mat 610;
And a vegetation-based material (600)
The vegetation mat (610) is installed to surround the inner wall of the front wall (310), the inner wall of the front portion of the upper cover (320) and the inner wall of the front portion of the bottom surface (110) Gavion.
delete delete delete A vegetation glaze construction method using a vegetation glazing temperature capable of adjusting the inclination angle of claim 1,
A basic step S10 of installing the foundation structure B by laying the ground of the incision slope of the stream to be installed with the vegetation grate temperature 1;
The bottom surface 110 of the first body 100 is disposed on the base structure B and the side walls 200 are provided on both opposite sides of the first body 100, A foundation assembling step (S20) of forming a housing (2);
An inclined portion forming step (S30) in which the front side of the assembled side wall (200) is bent to form an inclined portion (210);
A front wall assembling step (S40) of assembling the front wall (310) to the housing (2) formed with the inclined portion (210);
A vegetation-based rearrangement step (S60) of arranging a part of the vegetation base material (600) so as to be adjacent to the inside of the front wall (310) of the enclosure (2);
A filling step (S70) of filling the inside of the housing (2) with soil and performing a compaction step;
After the filling step S70, the vegetation-based material 600 is folded to cover the upper part of the gravel, and then the second body 300 is folded to cover the upper part of the vegetation base material 600 covered with the upper part of the gravel- A finishing step (S80) of covering the upper cover (320) with the housing (2);
The method comprising the steps of:
The method of claim 5,
After the front wall assembly step S40,
(S50) of arranging a rainwater shielding part having a rainwater shielding part (800) inside the enclosure (2).
The method of claim 5,
The filling step (S70)
A first filling step (S71) of filling the inside of the housing (2) with a predetermined volume of gravel and performing a compaction step;
A water discharging member providing step S72 for disposing the water discharging member 700 on the top of the gravel subjected to the compaction process;
A second filling step (S73) in which the interior of the housing (2) provided with the water discharging member (700) is filled with the gravel and then the compaction step is performed;
The method comprising the steps of:
The method of claim 5,
The method of the above-
After the plurality of vegetation glaze 1 has been laminated, the upper part of the vegetation glaze 1 disposed on the uppermost side is covered with the gypsum, and then the vegetation base material 600 is installed and the seed spraying process is performed. The method of construction of vegetation.

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