KR102293493B1 - Method For Afforestation - Google Patents

Abstract

The present invention relates to a slope greening method capable of preventing the growth of weeds without having to employ special means for stabilizing the ground by utilizing the existing ground. A film installation step of covering the biodegradable film or nonwoven fabric on the prepared soil to prevent weeds; a mesh network installation step of installing a mesh network on the film or nonwoven fabric; a green soil installation step of installing green soil on the mesh network; Vegetation mat installation step of installing soil or vegetation mat on the green soil; and a planting step of planting plants for landscaping on the soil or vegetation mat.

Description

Slope Greening Method {Method For Afforestation}

The present invention relates to a slope greening method, and more specifically, to a slope greening method capable of preventing the growth of existing weeds without employing special means for stabilizing the ground by utilizing the existing ground will be.

In general, slope reforestation refers to the establishment of a vegetation base by installing structures such as vegetation mats or vegetation blocks in order to prevent the collapse of slopes such as embankments of rivers or waterways and slopes of cut and fill slopes and loss in rain.

In recent years, green areas have been created to preserve the natural ecosystem and harmonize with the surrounding environment, which is being constructed in an environmentally friendly manner.

1 is a configuration diagram illustrating a slope 120 around a river 100 to which the present invention can be applied. Recently, according to the maintenance of the river 100, a walking path 110 or a bicycle path has been widely established around it, and such a space is often a space loved widely by living residents. And in such an environment, there is a slope 120 between the general road and the walking path 110, and the slope 120 is usually overgrown with weeds with strong vitality. So, by using the concrete block 121, the ground was also strengthened and an effort was made to obtain the effect of suppressing the growth of weeds. However, the vitality or fertility of weeds is excellent, so these efforts are easy to be in vain.

In order to prevent the growth of weeds and to form suitable plants for gardening, it is preferable to remove the soil 122 on this slope and excrete it as new soil, but this is not recommended because of the high cost and the risk of collapse of general roads.

Looking at the slope greening method proposed in the prior art, in Patent Publication No. 10-2004-92523, it is formed of a concrete material, the outer wall is composed of a vertical wall, and the inner wall is an inclined rectangular outer frame and the space inside the outer frame is divided into 4 equal parts. It is composed of a partition frame with a truncated conical section, and the inner partition frame is lower than the outer frame, and a cutout is formed at the edge of the outer frame. At the same time, it is designed to be used in various types of revetment such as soil filling in the square frame space, revetment of vegetation when planting, and eco-friendly when filling with stone.

However, in the prior art, the greening method using a rectangular frame environment block is very inconvenient in construction due to the characteristics of the individual blocks, but the cohesion between each other is weak, so soil loss due to the inflow of rainwater in rainy weather occurs frequently, and each block is partially As a result, the durability was weak, and there was a problem that maintenance was very difficult.

In addition, it was not good in appearance due to the nature of the planted plants being irregularly planted, and there was a problem in that it was not easy to replace the plants according to the season or the surrounding environment.

For this problem, Korean Patent Publication No. 10-2017-0124388 has been proposed. This technology can be applied semi-permanently while bringing durability improvement, such as preventing the collapse of the slope due to the loss of soil in advance, by having a stable bond with the soil and soil of the slope while bringing convenience in construction. It relates to a slope greening method using an integrated mesh with an inclined holder to enable planting of plants, but to be applied in a very eco-friendly manner, such as enabling replacement of various plants according to seasons and environments. However, this technology includes a concrete finishing process of pouring concrete from the mesh to the top surface of the inclined holder to finish the surface, and includes the concrete pouring process. Although this can contribute to the improvement of stability, there is a problem that plants cannot be planted in the concrete part.

Korean Patent Publication No. 10-2004-0092523 Korean Patent Publication No. 10-2017-0124388

The present invention is to solve the above problems, and by using the existing ground as it is, it is possible to secure a stable ground without a separate compaction construction, and by suppressing the growth of weeds, it helps the growth of newly planted landscape plants. The purpose of this is to provide a slope greening method that can reduce construction costs and reduce construction costs.

The above purpose, the cleaning step of removing vegetation and weeds from the existing soil and leveling;

A film installation step of covering the biodegradable film or nonwoven fabric on the prepared soil to prevent weeds; a mesh network installation step of installing a mesh network on the film or nonwoven fabric; a green soil installation step of installing green soil on the mesh network; A vegetation mat installation step of installing soil or a vegetation mat on the green soil and a planting step of planting a plant for landscaping on the soil or vegetation mat; It is achieved by a slope greening method comprising a.

According to a feature of the present invention, the film installation step may further include a perforating step of pre-perforating a hole in the film.

According to another feature of the present invention, the mesh network may be to use biodegradability.

According to another feature of the present invention, the film can be fixed to the existing soil by a fixing pin.

According to the above configuration, since the existing ground is used as it is by using it as it is in a state in which only vegetation and weeds are removed, a stable slope greening method is provided. In addition, by installing a film and a mesh network, it is possible to prevent the growth of seeds or roots of weeds in the existing ground. According to the present invention, since there is no need for a separate facility for strengthening the ground, it is possible to reduce the time and cost required for construction.

1 is a configuration diagram of an environment to which the present invention can be applied.
2 is a perspective view of the resultant construction method to which the present invention is applied.
3 is a layer configuration diagram of the resultant construction method to which the present invention is applied.
4 is a flowchart of a process of implementing the slope greening method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. An embodiment of the present invention will be described with reference to FIGS. 1 to 4 showing the construction method step by step.

According to the construction method of the present invention, the cleaning step (S10) of removing weeds and vegetation from the existing soil 122 and leveling is preceded. After weeds, etc. are removed, the surface will be uneven. Then, the leveling operation is carried out manually or using a machine.

Since weeds and vegetation have been removed, seeds or growing roots such as weeds may remain in the cleaned soil 122, and if left unattended, weeds and vegetation will grow again. Therefore, when plants for landscaping are planted in this state, it is difficult to manage because weeds are too thick.

For this problem, the present invention proposes a film installation step (S20) covering the biodegradable film 10 on the cleaned soil 122. The film 10 is widely used to prevent weeds when cultivating crops such as pepper, eggplant, and tomato in the field. The film 10 is generally made of a black thin synthetic resin.

The film 10 is perforated vertically and horizontally in the film 10 by using a predetermined punching mechanism (not shown) before installation. According to the perforation, as shown in the enlarged view of FIG. 3 , a hole 11 is formed, and a round-shaped cut portion 12 is provided at each portion where the hole 11 is formed.

The cut portion 12 is embedded in the soil 122 when the film 10 is installed. Even if the seed germinates, it may be caught in the cut portion 12 and prevent sprouts from sprouting out of the hole 11 . That is, even if seeds such as existing weeds germinate in the existing soil 122 and sprouts grow, they collide with the bottom surface of the film 10 and are no longer able to grow and die.

Even if sprouts such as weeds grow toward the hole 11 by hanging, they grow along the direction shown by the arrow A1. That is, growth is induced to rather face downward of the soil 122 by the cut portion 12 formed in a round shape in the process of making the hole 11 . Furthermore, even if the growth is made through this hole 11, the speed is slowed down, so that it falls out of competition with the newly planted plant, so that it cannot grow any more.

As a result, even if the hole 11 is drilled in the film vertically and horizontally, the seeds of weeds germinate and grow normally in the existing soil 122, so that it cannot compete with the newly planted ornamental plants.

On the other hand, when the seeds of new plants, such as grass and flowers, are sprayed on the film 10 , the roots of the new plants can grow along the arrow A2 through the hole 11 . Since moisture can pass through the hole 11 up and down, the film 10 has water permeability and can receive moisture necessary for growth from the soil below. The diameter of this hole 11 may be 0.1 to 2 mm. The spacing of the holes 11 may be 10 to 100 mm horizontally and vertically. Of course, these figures are merely examples, and the scope of the present invention is not limited thereto.

At the time of installation of the film 10, attention should be paid to the directionality so that the cut portion 12 faces the existing ground. For example, printing may be applied to the surface of the film 110 to indicate the upper surface by changing the color.

Since the surface of the film 10 is smooth, it can slide on an inclined surface. According to an embodiment of the present invention, after the film 10 is installed, the fixing pins 13 for fixing the film 10 may be inserted here and there. The fixing pin 13 may be made of a material that decays and disappears over time. The fixing pin 13 may have a shape similar to a general nail having a head and a body. A thin nonwoven fabric may be used instead of the film 10 .

Thereafter, a mesh network installation step (S30) of installing the mesh network 20 in the form of a mat on the film 10 is followed. The mesh network 20 is that the size of the eye (eye) is 0.1 ~ 2mm, may or may not be biodegradable used. The mesh network 20 prevents the growth of weeds and is used for immobilization of newly installed soil. The mesh network 20 may be a vegetable material woven vertically and horizontally as in the enlarged view of FIG. 6 .

Thereafter, a green green soil installation step (S40) of installing and curing a new green soil 30 on the mesh network 20 is followed. Green soil 30 is regenerated by river dredging and provides a more beneficial effect on environmental protection. Since green soil has a viscosity and has good fixability on the slope, it helps the settlement of the soil or vegetation mat 40 to be installed thereafter.

The thickness (T) of the green soil 30 is preferably as thick as possible, but it should be about 5 ~ 200mm.

Then, the soil or vegetation mat 40 is covered on the green soil. After planting the plants in the soil or vegetation mat, the landscape plant (F) will be grown based on the soil or vegetation mat (40).

What has been described above is only a few examples based on the technical idea of the present invention. Those skilled in the art will be able to make various modifications using the illustrated bar without going beyond the scope of the technical spirit of the present invention expressed through the claims. For example, all embodiments described above can be freely combined and implemented by those skilled in the art, and any combination should be construed as being included in the scope of the present invention.

10: film 11: hole
12: cutting part 20: mesh network
30: green soil 40: vegetation mat
F : Landscape plants

Claims (4)

A cleanup step of removing vegetation and weeds from the existing soil and leveling it;
A film installation step of covering the biodegradable film or nonwoven fabric on the prepared soil to prevent weeds;
a mesh network installation step of installing a mesh network on the film or nonwoven fabric;
a green soil installation step of installing green soil on the mesh network;
Vegetation mat installation step of installing soil or vegetation mat on the green soil; and
A planting step of planting plants for landscaping on the soil or vegetation mat;
In the film installation step, a hole is drilled in the film to further include a punching step of providing a round-shaped cut part in each part where the hole is made, the hole is pre-drilled before installing the film, and the cut part is the film to be embedded in the soil when installing
The mesh network is a slope greening method, characterized in that using a biodegradable mat.
delete delete The slope greening method according to claim 1, wherein the film is fixed to the existing soil by a fixing pin (13).

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