KR101283514B1 - Restoration method based on reinforecment and organic vegetation material - Google Patents

Abstract

PURPOSE: An ecological system restoration method is provided to restore the ecological system using a reinforcing material and an organic vegetation base material based on a natural type organic vegetation base material which contains certain amount of moisture in the vegetation base material. CONSTITUTION: An organic vegetation base material (20) is prepared in a predetermined content ratio. A reinforcing material (30) is installed corresponding to a status of a slope face (10). The organic vegetation base material is sprayed using a spray machine (40). The organic vegetation base material comprises 25-15 weight% of earthworm cast, 20-15 weight% of peat, 10-5 weight% of pulp fiber, 10-5 weight% of zeolite, 10-5 weight% of coco peat, 15-10 weight% of autoclaved lightweight concrete (ALC), 15-10 weight% of grinded wood chip, 5-3 weight% of finely cut rice straw, and 3-1 weight% of hydrogel. A feeder is equipped with a first supplier (41) which sends out the organic vegetation base material, a second supplier (42) which sends out the air with high pressure, and a third supplier (43) which sends out water.

Description

Restoration method based on reinforecment and organic vegetation material}

The present invention relates to an ecological restoration method, and more particularly to an ecological restoration method using a reinforcing material and an organic vegetation base material for artificially recording slopes.

In general, the vegetation spraying method of vegetation-based materials is applied to the seed germination and growth of plants used in the process, so that the surface surface is covered by preventing the surface erosion by covering the topsoil layer of the target site, thereby stabilizing the slope of the target site and continuous development of plant growth. Through the plant composition is also possible.

However, in the conventional method, it is a so-called dry vegetation base mounting method in which the vegetation base material is sprayed through a high pressure compressor in the case of steep slopes (soft rock, ordinary rock, hard rock) according to the slope of the target site. The low germination rate due to the high soil hardness of the vegetation base material due to drying, resulting in poor germination rate, and at the same time, the seed germinated only in the part where cracks occurred due to the formation of cracks or cracks on the construction surface. Rainwater invades and flows out to the back, causing a problem that occurs.

In the case of the low slope, the vegetation base material mixed with water, commonly referred to as wet spraying, is attached, but the air in the soil is removed by densifying the voids in the vegetation base material during the stirring process with the water in the mixing base and the mixing base. As a result, the vegetation base material from which the air in the soil is completely removed is mixed with water and sprayed at high pressure by attaching it. Therefore, there is a problem of dropping out or flowing down. After the first wet installation material is solidified, the re-installed, or first-installed, dry base material and the later-installed wet base material are eliminated in the form of a thin film on top of the wet vegetation base material, which is applied on the top due to the difference in physical properties.

In addition, in the case of the earth and sand surface, the construction site is only hydro-seeding, bulking, and coir-net method, which is collectively referred to as seed-spray method due to the absence of a special method. Due to the nature of the method used, the seed is not covered with soil, and if it is dried or blown by the wind and the defect is lost, no remedial action is required. In very few cases, it is mixed with water and wet-installed, but due to the difference in moisture content and the pressure applied by the wet vegetation base material, it is cracked like a paddy field dried up in drought due to inadequate contact with the soil. Defects occur.

In order to solve the problems of this method, the natural fiber network is laid on the site, and the greening is attempted as a temporary solution.In the case of other weathered soil, weathered rock, common rock, soft rock, and hard rock slope, it was developed uniformly in the late 1980s. Following the method that has been used in the rust soil method, the wire mesh (# 10.58 * 58) is fixed to the site with fixing pins, and the process of attaching a certain thickness by using a high-pressure air compressor is carried out in a number of ways. Defect occurs.

In addition, in case of water conversion damaged by various development projects, it is necessary to use artificial structures (various concrete blocks, crushed stone piles, crushed stone piles, gabions, etc.) to protect streams without considering ecological aspects. Acceleration of the flow rate due to the strengthening of the streams results in the loss of sediment of the riverside rather than the protection of the riverside and the loss of the waterside ecological environment, from the riverside to the changes in the microbial ecological environment, the extinction of plant communities, and the destruction of aquatic living space It leads.

As a prior patent in this field, Korean Laid-Open Patent Publication No. 2005-0079706 relates to a technique for simultaneously performing a reinforcing method for securing stability on a slope and a method for protecting aesthetics and slopes, and Korean Laid-Open Patent Publication No. 2009 -0078315 relates to a technique for preventing cracks by improving the durability of greening retaining wall by distributing PVC coated wire mesh and steel fiber mesh evenly in greening retaining wall.

However, even with the above-mentioned prior patents, it is difficult to fundamentally solve the above-described problems related to slope recording.

1. Korean Laid-Open Patent Publication No. 2005-0079706 "Slope protection structure and reinforcement method by pressing and spraying soil and soil cement" (published date: August 11, 2005) 2. Korean Laid-Open Patent Publication No. 2009-0078315 "Method for constructing green mandibles for preventing ecological restoration of cut slopes and retaining walls for greened soils" (published date: July 17, 2009)

An object of the present invention for improving the conventional problems as described above, based on a natural organic vegetation base material that can contain a certain amount of moisture in the vegetation base material to improve the problems resulting from drying and shrinkage of artificial soil To provide ecological restoration method using reinforcement and organic vegetation foundation.

Another object of the present invention is a non-scientific method in which the vegetation base material spraying method or the water and artificial soil are mixed in a mixing tank to remove air and voids in the artificial vegetation base material during the uniform air compression performed in the conventional method. It is to escape from the installation method.

In order to achieve the above object, the present invention provides a method for restoring the ecology of the slope of the greening target: a first step of preparing an organic vegetation base material at a set content ratio; A second step of installing a reinforcing material corresponding to the state of the inclined surface; And a third step of spraying the organic vegetation base material using a mounting device, wherein the organic vegetation base material is 25 to 15 wt% fecal soil, 20 to 15 wt% peat fiber 10 to 5 wt%, zeolite 10 to 5 wt% %, Cocopit 10 ~ 5wt%, ALC (Autoclaved Lightweight Concrete) 15 ~ 10wt%, shredded wood chip 15 ~ 10wt%, sedan straw 5 ~ 3wt%, characterized in that it comprises a hydrogel 3 ~ 1wt%.

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In addition, according to the present invention, the reinforcing material in the second step is characterized by using at least one of a mat having a natural decomposition and a wire mesh having a corrosion resistance.

According to a variant of the invention the mat is characterized in that it further comprises a net having an irregular mesh.

According to another variant of the present invention, the wire mesh is characterized in that it further comprises a wrinkle to enable the change of the mesh.

In addition, according to the present invention, the attaching device of the third step is characterized in that it comprises a first feeder for sending organic vegetation base material, a second feeder for sending high-pressure air, a third feeder for sending water.

In addition, according to the present invention is characterized in that the third supply of the mounting device is connected to the injection hose via a valve to facilitate the intermittent discharge of water.

In addition, according to the present invention, in the third step, when the slope is soil, hard soil, or weathered soil, the organic vegetation base material is wetly installed, and when the slope is ripped rock and weathered rock, the organic vegetation base is wet and dry. , If the slope is common rock, soft rock, hard rock, it is characterized in that the organic vegetation base is mounted dry.

As described above, according to the present invention, the invention of the method of mixing and attaching to the target site and the use of a mulching agent [biodegradable ecological restoration mat] suitable for each target site, such as cracking due to the dropping or drying of the vegetation base material Creates a natural environment in which plants can grow vigorously without damaging the target site or vegetation base, or seeds caused by erosion or surface weathering due to the problems caused by the physical characteristics of the artificial artificial soil found in the process. can do.

In addition, it uses natural decomposable ecological restoration mats instead of expensive support meshes in weathered rock and ripping rock areas, and perfect vegetation layer by using expanded mesh support wire mesh in steep slopes of soft rock, ordinary rock and hard rock. By eliminating the causes of defects at the source, it is possible to restore sustainable natural environment.

In addition, it is very useful as a natural environment restoration method to apply the slope recording method, which was only available on land, in water conversion mirrors, and to restore the natural environment such as greening of riverbanks, restoration of water conversion mirrors, and creation of natural rivers.

1 is a schematic diagram schematically showing a method according to an embodiment of the present invention
2 and 3 are schematic diagrams schematically showing a method according to another embodiment of the present invention, respectively.
Figure 4 is a schematic diagram showing a modification of the mat used in the method according to the present invention
5 is a schematic view showing a modification of the wire mesh used in the method according to the present invention
Figure 6 is a photograph showing the slope change ecological by the method according to the invention

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

The present invention relates to a method for restoring the ecology of the slopes 10, which is a greening target, and the continuous growth environment restoration and plant colonization of the damaged plant communities of soils and rock cut slopes 10 inevitably generated in various land construction works. To secure plant diversity and to establish plant vegetation bases for plant ecological restoration in riversides and watersides caused by the development of microbial zones and the development of microbial zones per unit area. By restoring the damaged environment to its original form of damage, it also provides a greening method for sustainable landscape development and natural recovery.

The first step (S10) according to the present invention goes through the process of preparing the organic vegetation base material 20 in a set content ratio. In the case of the artificial soil used in the conventional greening method, sewage sludge generated in the sewage treatment plant and purified water sludge generated in the purified water treatment plant are used as the base material of the moisture moisturizer and the artificial soil. As a result, many complaints are caused by the occurrence of odor in the production process and even after construction, and after construction, very fine clay sludge is dried, and the soil hardness of the vegetation base material is deteriorated to the extent that it is not suitable for the germination of plants. On the other hand, the artificial vegetation base material of the present invention for solving such a disadvantage is an organic vegetation base material 20 (HS Organic Soil), and prepares the main components described later in the content ratio set according to the condition of the slope 10 or vegetation plan. .

At this time, the organic vegetation base material 20 in the first step (S10) preferably comprises a shredded wood chip for maintaining the soil hardness, sedan straw for the growth of soil microorganisms, hardgel for maintaining the soil moisture Do.

Chip-shaped shredded wood not only buffers and relieves soil hardness, but also performs adhesion. If the length of the shredded wood chip is maintained at 3 ~ 5cm replaces the sewage sludge cake, which is a waste of the sewage treatment plant used to increase the adhesiveness by performing a net role in the organic vegetation base material 20. It is in close contact with the organic vegetation base material 20 and the mesh type to increase the tensile strength, and when the seeds of the plant germinate with the plant root system (mass system) to secure a stable support base. Accordingly, even if no other chemical adhesive is used, the adhesive force is high, so it is expected to lower the dependency on the reinforcing material 30 to be described later or to serve as a complete vegetation base material.

The finely-cut rice straw is used to slowly express and activate soil microorganisms even if the soil microorganisms, which are most scarce in artificial vegetation materials, are added or housed. The activity characteristic of the sesame rice straw is to act as a medium to promote the production and reproduction of a microorganism called Bacillus subtilis. Bacillus subtilis decomposes organic matter in soil and converts it into mineral form that plant roots can use to improve the availability of nitrogen, phosphoric acid and potassium, which are essential for plant growth. Promotes granulation of Bacillus subtilis by releasing viscous substances to improve soil breathability, conservatism and fertility, increase fertility, buffer ability to control acidity of soil and increase soil drying The acidity is adjusted to keep the plant in a range suitable for germination and growth.

Hydro-Gel is a water absorbing polymer composed of sweet potato or potato starch as the main raw material. It absorbs more than 1,000 times its own weight and does not discharge the absorbed water to the outside easily even when pressure is applied. . Moisture lost by drying the soil increases the moisture of the soil, and has the function of absorbing and storing again when the soil moisture is increased due to rainfall. The most important problem of the moisturizing power of the soil in the greening method can be solved most effectively.

According to the detailed configuration of the present invention, the organic vegetation base material 20 is fecal soil 25 ~ 15wt%, peat 20 ~ 15wt%, pulp fiber 10 ~ 5wt%, zeolite 10 ~ 5wt%, cocoite 10 ~ 5wt%, ALC (Autoclaved Lightweight Concrete) 15 ~ 10wt%, 15 ~ 10wt% shredded wood chips, 5 ~ 3wt% sedan straw, 3 ~ 1wt% hydrogel.

Fecal soil is a high quality organic substance produced in the process of earthworm absorbing and discharging organic matter in soil. It contains 12 ~ 20% of organic matter and soil physics such as breathability and water retention in soil based on large pores. It also plays a role in improving sex. In addition, it is a source of microorganisms in the soil because it contains a large amount of bacteria, actinomycetes, and antibiotics, Bacillus sp, which are discharged from earthworms. Nitrogen in fecal soil is mainly in nitrate state, so plants can be used immediately without any other decomposition process, and it also plays a role of supplying microelements such as silicic acid, calcium, magnesium, manganese, iron and zinc.

ALC (Autoclaved Lightweight Concrete) and zeolite are mixed in an appropriate range to reduce the weight of the organic vegetation base material 20 so that the organic vegetation base material 20 is solid after installation. Even if it does, it maintains a constant void in the soil to prevent cracking like rice paddy. Zeolite is a substance containing trace elements such as aluminum and iron magnesium, and has a C.E.C (Cation Exchange Capacity) that absorbs moisture and other minerals into the pores in the three-dimensional mesh structure to replace the trace elements in the soil. It has excellent cation exchange ability and shows a high effect on the procurement of minerals and trace elements in soil and enriches soil.

When the shredded wood chips were contained in an appropriate range, the hardness of the organic vegetation base 20 was alleviated due to the increase in hardness, and the soil hardness (mountain hardness hardness) of 23 mm or less was maintained for plants to grow. On the other hand, the soil hardness exceeded 28mm and the plant growth was found to be more than 30mm in some cases.

The soil acidity was maintained at pH 5.6-6.8 when the organic vegetation base 20 contained sesame straw in an appropriate range, but when it was out of an appropriate range, it was determined that the soil acidity was slightly out of the limit suitable for plant growth.

In addition, the second step (S20) according to the present invention goes through the process of installing the reinforcing material 30 corresponding to the state of the inclined surface (10). Insufficient protection for the surface layer in forming the vegetation base layer on the slope 10 causes scour and drying due to rainfall or weathering, or death. If germination is not achieved after germination, the vegetation layer is eliminated even in small rainfall, and scour occurs at the bottom of the vegetation layer, resulting in the death of vegetation on the surface. In order to solve this problem, the soil is divided into soil, hard soil, and weathered soil, and reinforcement 30 is added to the surface layer to promote sustainable landscape recovery because the root system of the plant is not eroded or dropped even in the rainy weather.

According to a detailed configuration of the present invention, the reinforcing material 30 in the second step (S20) uses at least one of the mat 31 having a naturally degradable and the wire mesh 34 having a corrosion resistance. Mat 31 based on a biodegradable material is formed to a thickness of 5 ~ 30mm, may be composed of a plurality of layers of multiple thicknesses. In the case of the soil area, in the case of hard soil, the thickness of the mat 31 is applied differently depending on the case of soft weathered soil. The wire mesh 34 may be a stainless steel mesh, but it is economical to use a vinyl chloride coated mesh. It is better to use 75mm * 75mm mesh with a 67% increase in surface area than 58mm * 58mm mesh (# 10) used in the conventional method. If the mesh is narrow, it will not pass when the organic vegetation foundation 20 is attached, causing poor adhesion, resulting in defects that are eliminated. The slope of the slope 10 of the target site has been proved to be effective in the construction of rock incision around 1: 1.0 ~ 1: 0.5, but is not necessarily limited thereto. The mat 31 and the wire mesh 34 of the reinforcing material 30 is tightly fixed to the inclined surface 10 using the fixing pin 38.

As a variant of the invention, the mat 31 is characterized in that it further comprises a net 32 having an irregular mesh. In FIG. 4, the net 32 is distorted from the grid-like wire mesh 34, and has a looser structure than the mat 31, but expands in three dimensions to assist the adhesion between the ground surface and the organic vegetation base 20. The atypical mesh of the net 32 is easy to implement by shaping with biodegradable resins but may also comprise metal wires in part. The overall thickness ratio of the mat 31 and the net 32 is used according to the type of soil (soil) and vegetation of the target site.

As another variation of the present invention, the wire mesh 34 is characterized in that it further comprises a wrinkle (35) to be able to change the mesh. In FIG. 5, when a plurality of corrugations 35 are formed in the horizontal and vertical directions on the grid-shaped wire mesh 34, the size of the mesh may be changed by lengthening and contracting using a tool. It is easy to change the mesh size of the wire mesh 34 in part according to the soil (soil) and vegetation type of the target site.

In addition, the third step (S30) according to the present invention goes through the process of spraying the organic vegetation base material 20 using the mounting device (40). Attacher 40 is a dry / wet integral sprayer (Dual Action Sprayer Nozzle Set), which reinforces 30 of slope surface 10 without mixing process of organic vegetation base material 20 mixed by user in separate mixing tank. During the filling process, water is immediately supplied as necessary to maintain the voids in the soil so that the seed of the plant can grow smoothly.

At this time, the attaching device 40 of the third step (S30) is the first feeder 41 for sending the organic vegetation base material 20, the second feeder 42 for sending high-pressure air, the water to send A third feeder 43 is provided. The first feeder 41 includes a tank for temporarily storing the organic vegetation base 20 and a pump for feeding the spray hose 45. The second supplier 42 has a structure for connecting the pneumatic compressor to the injection hose 45, the third supplier 43 has a structure for connecting the water tank to the injection hose 45 to discharge the water.

On the other hand, the third supply unit 43 of the mounting device 40 is preferably connected to the injection hose 45 via the valve 46 to facilitate the intermittent discharge of water. Based on the dry / wet integral type attaching machine 40, the user can immediately open and close the valve 46 according to the operation content of the slope 10 to control the water discharge.

According to the detailed configuration of the present invention, the third step (S30) is when the slope 10 is earth, hard soil, weathered soil wetted organic vegetation base material 20, the slope 10 is a ripping arm, In the case of weathered rock, the organic vegetation base material 20 is installed by wet and dry, and when the slope 10 is ordinary rock, soft rock, and hard rock, the organic vegetation base material 20 is mounted by dry. The three designs are described as <Experimental Example 1> to <Experimental Example 3>, respectively. 1 to 3, the construction site is set between the drainage path 12 and the road 15 of the slope 10.

<Experimental Example 1>

Referring to FIG. 1, when the slope 10 is earth, hard soil, or weathered soil, the mat 31 having a thickness of 9 mm is evenly spread on the target site, and the fixing pins 38 made of stainless steel are fixed at intervals of 1 m to 2 m, and mounting. The valve 46 of the machine 40 was opened, and the organic vegetation base 20 was wet-mounted to a thickness of 1 cm for soil, 2 cm for hard soil, and 3 cm for weathered soil.

As a result, since the mat 31 is filled evenly without separation or lifting of the material, defects such as a phenomenon in which a thin film on the surface of the overlaid surface, which occurs in the conventional method, occurs even after drying This did not happen. Since the seed is germinated, the plant roots are evenly rooted and grown between the mats 31 so as to form a firm surface layer, thereby forming a complete bond. In addition to preventing erosion of the surface layer of the site in advance, a great effect has also been demonstrated on the fixation of germinated plants.

<Experimental Example 2>

Referring to FIG. 2, when the slope 10 is a ripping arm or a weathered rock, the mat 31 having a thickness of 14 mm is evenly spread on the target site, and the mat 31 is disposed on the target site using the fixing pins 38 at intervals of 1 m to 2 m. Fixed, and the green vegetation base 20 was alternately wet and dry with 5 cm for ripping arm and 7 cm for weathered rock.

More specifically, in the ripping arm section, the valve 46 is opened and wet-installed, and in the weathered rock section, dry and wet are alternately mounted, and as a result, the germination time of the mixed seeds and the plant roots after the germination are closely adhered to the target site. In addition, the observation of growing growth was proven to be superior to the conventional dry attaching method.

<Experimental Example 3>

Referring to FIG. 3, when the slope 10 is plain rock, soft rock, or hard rock, the wire mesh 34 (# 10.75 * 75) is fixed to the object with a fixing pin 38, and the mat 31 is used as needed. You may. In the case of applying the thickness of the organic vegetation base material 20 to 10 cm in the target site consisting of ordinary cancer, the valve 46 is closed and 7 cm, which is about 70% of the total thickness, is dried and then 30% thick. 3 cm thick, the valve 46 was opened and wet-mounted.

Accordingly, it was confirmed that the germination period of the seed used was much faster and the plants grew vigorously compared with the conventional dry installation method. As a result of measuring using soil moisture meter (EM System Soil Tester, demetera 式), the surface of the construction site is covered, so that the moisture content in the soil is maintained even when it is dried. Did not appear.

As a result of measuring the moisture content change in the soil after construction, the results as shown in [Table 1] were obtained. As a result of measuring the moisture content after a certain period of time after construction according to the thickness of the organic vegetation base material 20, the effect of the method of the present invention was proved.

Period after construction deflation Dry / wet Invention After 10 days Thickness: 5cm 14 27.5 38.5 Thickness: 10 cm 6.9 24.9 39.4 Thickness: 15 cm 6.7 25.7 37.5 After 15 days Thickness: 5cm 8.5 17.5 32.5 Thickness: 10 cm 6.4 22.5 31.5 Thickness: 15 cm 6.5 23.5 35.2 After 30 days Thickness: 5cm 8.3 14.5 25.3 Thickness: 10 cm 6.2 18.5 26.5 Thickness: 15 cm 6.3 19.2 27.1 After 45 days Thickness: 5cm 8.3 9.5 25.1 Thickness: 10 cm 6.2 10.3 25.5 Thickness: 15 cm 6.1 10.8 26.1

In addition, construction experiments were carried out for the purpose of constructing the hydrological plant environment by applying it to the hydrological landscape, namely riverbank greening, waterside ecological environment, natural river restoration and waterside ecosystem restoration work. In order to restore the riverside caused by the aggregate collection of the river, the mat 31 is fixed to the damaged slope of the riverside according to the slope and soil classification of the target site with the fixing pin 38, and then using the attaching machine 40. After spraying the organic vegetation base material (20) and the mixed seeds to a thickness of 5cm with high-pressure water was about 45 days.

As a result of the investigation of the target site, all seeds used during installation were completely germinated and growing. The mat 31 and the root of the plant were entangled at the point of contact with the river water, so that the surface was eroded and the mat 31 was dropped. This did not occur, and it was observed that the mixed vegetation seeds were normally grown after germination.

Table 2 and Figure 6 shows the results of applying the method according to the present invention. For plant types, refer to the River Restoration Guidelines (Ministry of Environment, Korea Institute of Construction Technology, 2001b). The number of seeds used in the experimental zone was based on 300 grains for each plant.

Botanical name Germination Germination rate (%) Giraffe 284 94 Irises 252 84 Stone maple 261 87 Hummingbird 255 85 Hairy flowers 273 91 Conical 258 86 Iris 264 88 Sukrung 257 85 Silver grass 268 89 Country 255 85 Nasturtium 276 92 Insect 274 91 Dianthus 285 95

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: slope 12: drainage
20: organic vegetation base material 30: reinforcement material
31: Matt 32: Net
34: wire mesh 35: crimp
38: fixing pin 40: mounting
41, 42, 43: feeder 45: spray hose
46: valve

Claims (9)

In the method of restoring the ecology of the slope to be recorded 10:
First step (S10) for preparing the organic vegetation base material 20 in a set content ratio;
A second step (S20) of installing the reinforcing material 30 in response to the state of the inclined surface 10; And
It comprises a third step (S30) for spraying the organic vegetation base material 20 using the mounting device 40,
The organic vegetation base 20 is fecal 25 ~ 15wt%, peat 20 ~ 15wt%, pulp fiber 10 ~ 5wt%, zeolite 10 ~ 5wt%, cocoite 10 ~ 5wt%, ALC (Autoclaved Lightweight Concrete) 15 ~ 10wt %, Shredded wood chips 15 ~ 10wt%, sedan straw 5 ~ 3wt%, hydrogel 3 ~ 1wt% characterized in that the ecological restoration method using an organic vegetation base material. delete delete The method according to claim 1,
In the second step (S20), the reinforcing material 30 is an ecological restoration method using a reinforcing material and organic vegetation-based material, characterized in that using at least one of a mat 31 having a naturally degradable and a wire mesh 34 having corrosion resistance. . The method of claim 4,
The mat 31 is an ecological restoration method using a reinforcement and organic vegetation base material, characterized in that it further comprises a net having an atypical mesh (32). The method of claim 4,
The wire mesh 34 is an ecological restoration method using a reinforcement and organic vegetation-based material, characterized in that it further comprises a pleat (35) to enable the change of the mesh. The method according to claim 1,
The mounting device 40 of the third step (S30) is a first supplier 41 for sending the organic vegetation base material 20, a second supplier 42 for sending high-pressure air, a third for sending water Ecological restoration method using a reinforcement and organic vegetation base material, characterized in that it comprises a feeder (43). The method of claim 7,
The third supply 43 of the mounting device 40 is connected to the injection hose 45 via the valve 46 to facilitate the intermittent discharge of water ecological restoration using the reinforcement and organic vegetation base material Way. The method according to claim 1,
The third step (S30) is when the slope 10 is soil, hard soil, weathered soil wetted organic vegetation base material 20, and the slope 10 is wet and dry if it is weathered rock and organic Mounting the vegetation base material 20, ecological restoration method using the reinforcement and organic vegetation base material, characterized in that the organic vegetation base material 20 is installed dry if the slope 10 is ordinary rock, soft rock, hard rock .

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