KR101374688B1 - Method of making a green sloping ground construction using multi-layer mesh - Google Patents

Abstract

Provided is a method for planting a slope using a multi-layer mesh. The method for planting a slope using a multi-layer mesh according to the present invention minimizes the loss of soil by bearing the soil pressure of a slope; stabilizes the slope by bearing and distributing the upper soil pressure using the elastic force of a mesh; and keeps the root of the planting healthy by forming a passage for supplying nutrients and air and reinforces the slope through smooth rootage.

Description

Method of making a green sloping ground construction using multi-layer mesh}

The present invention belongs to the field recording construction technology, using a grid network formed in a multi-layer structure in order to prevent the loss of soil by strengthening the surface during construction of the greening process.

An incision is formed at the edge of a road while constructing a road in a part of a mountain or a part of a river or a river in order to construct a road that increases due to the development of transportation.

      These incisions are caused by unexpected heavy rains such as El Niño, La Niña, etc. due to the abnormal temperature of the earth. do.

       When water is soaked into the ground like this, the slope corresponding to the incline slope collapses or is damaged. The collapse of the slope causes an accident that the vehicle running on the road is buried or overturned, and the traffic of the vehicle is blocked. Of course

There is a great loss of property.

      The soil of these incisions is composed of rock or soil, and the soil that forms most of the soil is produced through physicochemical 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.

Such incisions are planted and planted with tubular plants, such as grass and shrubs, so as not to be damaged by heavy rains, heavy rains, etc. during the rainy season, so that the incisions surface is not collapsed or damaged.

        The greening method of the incision method is to cover the incision area, sow seeds of grass and shrub plants, and then cover the insulation materials such as rice straw and fiber nets to maintain humidity, so that the germinated seeds grow and grow on the incision area. To be done.

       However, the greening of the incision surface is sowing the seeds and the seeds grow, but if heavy rain or heavy rain falls on the legal parts that have not been rooted or geological weaknesses, the incision surface is scoured and collapsed. There is an impairment that is undermined.

       In addition, the incision site is divided into ripping arm (weathered rock), soft rock, and hard rock according to the soil quality.In the case of ripping arm and hard rock, after the construction of the incision site, wire mesh or fiber net is installed on the incision site and then sewage sludge, food sludge, industrial Covered with cultured soil consisting of waste, sludge, sludge, etc., wire mesh or fiber mesh was installed, and seeds were sown and planted on it. After the civil works, such as cutting down a part of the mountain, it is required to green the corresponding part, and the greening of the cut-out part has much meaning in terms of preventing floods or landslides. There have been many proposals for such a greening structure, but the most remarkable problem is that the greening structure is not firmly supported on the slope after the civil works.

        That is, the whole or part of the greening part caused by the heavy rains often flows down by the water, and thus, the greening business itself does not have much reliability.

In addition, it has been pointed out that in the conventional method for greening greening surface, it is not beautiful in appearance by additionally installing a net or the like on the top of the herbaceous plant.

In view of the problems described above, the present invention is intended to develop a unique fixture for stabilizing a stable position of the grid, to make a lattice network for strengthening the soil soil in two or more layers, alternately covered with soil layer, In this way, the top of the earth pressure by the elastic force of the grid network and at the same time effectively dispersed, as well as the roots of the plant entangled in the grid network to propose a construction method to strengthen the surface more firmly by smoothing the rooting.

In addition, since the grid network is not exposed to the outside at all after the greening process of the surface, it is intended to propose a construction method that can exhibit a very natural and beautiful appearance.

In the greening construction method of the surface,

Forming a first soil layer 200 on the upper surface of the front surface and compacting the soil (P100);

Installing a grid network 100 to cover the first soil layer (P200);

While passing between the eyes of the grid 100, the fastener 300 to the first soil layer in the vertical and horizontal intervals at a predetermined interval vertically inserted, fixed, but the grid mesh departure prevention hook 310 of one side of the fixture Inserting it to a position directly below (P300);

Covering the new second soil layer 210 over the grid, and compacted, the second soil layer to form a second soil layer 210 from the bottom of the fastener body to a position just below the second grid departure prevention hook 320 Step P400;

Installing a grid network 110 to cover the first soil layer while forcing a grid mesh separation preventing hook 320 on the upper side of the fixture 300 to the grid mesh eye (P500);

Forming a new soil layer on the grid of the P500 step and characterized in that it comprises a step of compacting,

The hook shape for preventing grid departure of the fixture,

Characterized in that the grid is inclined downward toward the edge so that the grid does not deviate upward again after being fitted into the shape of an umbrella,

A method of recording green surface using a multilayer grid network is presented.

Other detailed functions and structures of the invention are described in the detailed description for carrying out the invention.

In the present invention, the lattice network for strengthening the soil soil is made of two or more layers, covering the soil layer alternately, and proposed a unique fixture for the stable displacement of the grid network, thereby by the elastic force of the grid network Surface stabilization can be achieved by supporting and dispersing the upper earth pressure.

In addition, the roots of the plant are entangled in the grid, thereby forming a nutrient and air supply passage, so that the roots are healthy and the roots are smoothed, thereby strengthening the law firmly.

In addition, according to the present invention, even after the green screening construction, the grid is not exposed to the outside at all, there is an advantage that it can be a natural greening composition paper that can be very natural and eco-friendly, as well as beautiful appearance.

The present invention can be generally applied to various slopes and law surfaces such as river banks and road slopes.

1 is a laminated structural view immediately before seed spraying is performed on a surface.
2 is a side cross-sectional view of FIG. 1.
3 is a state diagram immediately before laying the first lattice network on the first soil layer and inserting the fixture.
4 corresponds to step P500, in which a second grid is fitted to the hook of the fixture.
5 is a view for explaining the function of the grid network.
6 and 7 are views for explaining the structure of the fixture.
8 is a cross-sectional view of the soil layers and grids and fixtures.
9 is a construction flowchart of the present invention.

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

However, the scope of the present invention is not limited to the following examples, and any invention that is grasped equally to the invention described in the claims at the level of those skilled in the art all belong to the scope of the present invention.

1 is a laminated structural view immediately before a seed spraying operation on the front surface, Figure 2 is a side cross-sectional view of Figure 1, Figure 3 is a state diagram just before the first lattice network is laid on top of the first soil layer, and the fixture is inserted. 4 corresponds to step P500, the second grid is fitted to the hook of the fixture, Figure 5 is a view for explaining the function of the grid, Figure 6 and 7 are views for explaining the structure of the fixture 8 is a cross-sectional view of the soil layers, the grids and the fixture, Figure 9 is a construction flowchart of the present invention.

As described above, after the construction of the surface, in order to strengthen the soil layer and prevent the loss of soil, vegetation is planted on the top soil layer of FIG. 2 by the vegetation, and in the present invention, the grids 100, 110 are interposed between the soil layers 200, 210, and 220. By providing it, the earth and sand layer and the grid are alternately formed, It is characterized by the above-mentioned.

The construction procedure of the surface is explained as follows.

Bottom layer first soil layer forming step ( P100 )

The bottom of the first soil layer 200 is formed on the river bank or other inclined surface 10 to be the greening construction. In this step, the soil layer should be formed to a wide enough depth to form a uniform soil layer using the conventional soil, drainage and rooting of herbaceous plants.

First grid  Installation Steps ( P200 )

After the compaction work for the soil layer, this step corresponds to the step of spreading the grid installed on the first soil layer.

The grating network of the present invention is preferably formed of a resin material exhibiting elastic force as the grating eyes are densely formed. The size and shape of the eyes can be varied in addition to the rectangle.

The grid is beneficial for withstanding soil pressure and disperses soil pressure. In the process of rooting, the plant becomes tightly bound with the grid snow, which effectively prevents the soil from being lost. This grid is secured on top of the soil layer, and the following fasteners can be used to prevent the position from changing.

Fixture  Insertion step ( P300 )

In this step, between the installed grating eyes 350 (FIG. 3), it passes through the body of the fixture 300 to insert the fixed into the first soil layer 200.

At this time, the fastener 300 is inserted into the lowermost soil layer 200 at a predetermined interval in the vertical and horizontal direction to the normal surface to be fixed. The intervals W1 and W2 between the fixtures of FIG. 3 may be appropriately selected in consideration of the area of each normal surface, the soil condition, the slope, the size of the grid, and the like.

3 is a view immediately before inserting the fixture into the soil layer.

3 and 4, the upper end of the fixture body is a head, the grid mesh detachment prevention hook 320 is formed in the form of a mushroom at the head edge, and the grid mesh detachment prevention hook 310 is also formed on the side of the body. .

When the fastener 300 is inserted into the first soil layer 200, the entire fastener body is not inserted, and the grid eye is fixed while inserting the grid eye to the portion just below the hook mesh separation preventing hook 310 as shown in FIG. The hook 310 of the cover.

6 and 7 show stereoscopic views of the fixture.

Second soil layer forming step ( P400 )

The bottom of the soil layer 200, the bottom of the grid installation 100, the upper layer is finished the insertion of the new second soil layer 210 is formed and the soil compaction work, such a soil layer formation corresponds to this step. The soil layer in this step also uses the soil layer material used in the greening construction, but the height is formed so as to be located just below the upper hook 320 of the fixture, as shown in FIG.

If the hook is formed where the height is different from the three or more different from the drawing, the formation height of the second soil layer may be changed accordingly.

2nd grid  Installation Steps ( P500 )

A second grid is installed on the second soil layer. The hook 320 on the upper side of the fastener is coupled to the grid by the fastener 300 in such a manner as to forcibly fit the second grid net 110 in the head portion of the fastener, as shown in FIG. 4 (P500).

 This, the grid departure prevention hook 320 takes the shape of an umbrella or mushroom head inclined downward toward the edge so that the grid eye does not escape upward after the grid mesh is inserted into the hook 310. . This borrows from the principle of fishing hooks.

That is, the second grid is pushed so that the grid mesh eye catches the grid mesh detachment prevention hook 320 formed near the head of the fixture 300.

4 is a scene in which the head part is forcibly drawn into the grid eye.

The size (S, 3) of one side of the grid eye must be smaller than the diameter (H, 8) of the head to be able to force fit, as shown on the left side of FIG. The grid does not deviate upwards at.

By doing so, as shown in the bottom figure of FIG. 3, the grid 110 of the upper layer is fixed while being caught by the hook 320 for preventing the grid departure.

That is, the upper part of the hooks 310 and 320 of the fastener is rounded and the upper part is shaped like an umbrella, so that the upper end of the hook part can be easily inserted into the grid eye.

An important role of the fixture 300 is to prevent the lattice networks 100 and 110 stacked in multiple layers from being entangled with each other or causing displacement, so that the stacked state as shown in FIG. 3 is not maintained.

Third soil layer forming step ( P600 ) And herbal ingredients (P700)

The work in this step is to form a new third soil layer 220 on the uppermost part while covering the fixture, and then to compact the soil.

On top of the soil layer 200 of the uppermost layer is formed a herbaceous plant mat (not shown) or by forming a seed spray (seed spray), such as by spraying the seeds on the non-woven fabric (seed spray) using a suitable fastening means to use the planting mat or non-woven fabric It is possible to fix it, and the installation of such herbs can be applied in the same manner as the conventional method, so that detailed description thereof will be omitted.

5 exemplarily illustrates a scene in which air, moisture, and nutrients are formed around the grid to help plant root growth.

That is, water, nutrients, and air passages are formed in the surroundings of the grid, so that plant growth can be further promoted, and there is repulsion by the grid even if the pressure on the upper plants is high, which can help maintain the shape of the soil. In addition, since planted plants or germinated seeds are grown, the roots are firmly wound around the grid of the present invention, and thus, there is an advantage that a very stable soil layer can be formed.

In the present invention, the lattice network for strengthening the soil soil is made of two or more layers, covering the soil layer alternately, and proposed a unique fixture for the stable displacement of the grid network, thereby by the elastic force of the grid network At the same time to support the upper soil pressure and smooth the rooting of the plant has the advantage of strengthening the law more firmly.

The effects of the present invention are summarized as follows.

That is, in the present invention, the grid for strengthening the soil soil is made of two or more layers, and cover the soil layer alternately, and proposed a unique fixture for the stable displacement of the grid network, thereby providing an elastic force of the grid network By supporting and dispersing the upper earth pressure can achieve stabilization of the surface.

In addition, the roots of the plant are entangled in the grid, thereby forming a nutrient and air supply passage, so that the roots are healthy and the roots are smoothed, thereby strengthening the law firmly.

In addition, according to the present invention, even after the green screening construction, the grid is not exposed to the outside at all, there is an advantage that it can be a natural greening composition paper that can be very natural and eco-friendly, as well as beautiful appearance.

The present invention can be generally applied to various slopes and law surfaces such as river banks and road slopes.

H: Head diameter
S: Grid Eye Size
W1, W2: Fixture placement interval
10; legal
100: first grid
110; second grid network
200: first soil layer
210: second soil layer
220: third soil layer
300: fixed ball
310,320: hook
350: unit grid
351: expanded unit grid

Claims (1)

Forming a bottom of the first soil layer (P100);
First grid network installation step (P200);
Fixture insertion step (P300);
Forming a second soil layer (P400);
A second grid network installation step (P500);
Including the third soil layer forming step (P600) and herbal planting (P700),
The first grid network installation step (P200),
After the compaction work for the first soil layer, and spreading the grid network on the first soil layer,
The fixture insertion step (P300),
Between the first grid eyes, the fixing fixture 300 passes through the body and is inserted into and fixed into the first soil layer 200, and the fixture 300 is vertically perpendicular to the law surface horizontally and laterally at a predetermined interval to the lowest soil layer 200. Inserted and fixed in one direction, while inserting up to just below the grid departure prevention hook 310 on one side of the fixture, the grid mesh eye, so that the hook 310 of the fixture covers,
The second soil layer forming step (P400),
Forming the second soil layer 210 in the upper layer is finished inserting the fastener, the height is formed, to form a height just below the upper hook 320 of the fastener,

The second grid network installation step (P500),
The second grid is installed on the grid 320 to prevent the mesh grid from falling off the hook 320 by inserting the second grid 110 at the head of the fixture.
The size of one side of the grid eye is smaller than the head diameter of the fixture so that the grid does not deviate above the hook of the fixture, and the shape of the grid break prevention hooks 310 and 320 is rounded at the top and inclined toward the edge. Characterized by taking
Method for recording green surface using multilayer grid network.

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