KR101568230B1 - Vegetation guide mat Assembly, Vegetation guide core Assembly and Composing method of the foundation using the same - Google Patents

Abstract

The present invention relates to a vegetation induction mat assembly, a vegetation induction core assembly, and a method of forming a ground using the vegetation induction mat assembly, wherein the vegetation induction mat assembly comprises: a horizontal vegetation induction mat installed at a bottom of a tree or a ground around the tree; And a plate-like edge vegetation-inducing mat which is provided around the roots of the tree and curved with respect to the center. Accordingly, the horizontal vegetation-inducing mat and the edge vegetation-inducing mat can promote the rooting of the tree, while inducing the rooting direction, thereby preventing damage to the perimeter, the guide block, the roadway, and the like.

Description

[0001] The present invention relates to vegetation guide mat assemblies, vegetation guide mat assemblies, vegetation guide mat assemblies, vegetation guide mat assemblies,

The present invention relates to a vegetation induction mat assembly, a vegetation induction core assembly and a soil composition method using the same. More specifically, the present invention relates to a vegetation induction mat assembly, a vegetation induction core assembly, and a vegetation induction core assembly, which promote the rooting of trees to induce rapid settlement of roots, And a method of forming a ground using the same.

In general, the reason for planting trees is to create a comfortable living environment with abundant greenery composition. In order to create a pleasant living environment, it is important that the ground composition that trees can grow well is important. The soil composition conditions of such important functioning trees should be such that they provide adequate nutrients, ventilation, drainage and water conservancy to help promote tree growth.

Conventionally, when planting a tree, the soil of the place where the tree is to be planted is pierced with a predetermined depth and width to make a hole, the root of the tree is buried in the hole, have. In this way, the planted tree should be given regular water and fertilized until its roots grow to some extent. This is because the tree can be rooted normally and the stem can grow.

As described above, when a tree is roots and the stem grows, the plant leaves the tree so that it can grow wild. When the planted tree is neglected, it grows normally in places where the soil is good However, in places where the soil quality is not good, there is a case of failure.

For example, when a tree is planted in a barnacle, a seaside landfill, or a landfill, there may be a case where the tree does not grow due to the gas generated by soil pollution.

As a conventional technique for solving such a problem, Korean Patent Registration No. 10-0433668 entitled " Method for forming a ground for promoting tree growth and core for ground composition thereof ".

The core for ground composition is formed by kneading at least one blowing agent selected from the group consisting of calcium carbonate, carbon powder and sodium carbonate in 100 parts by weight of glass powder having a particle size of 150 mu m or less, 0.5 to 2 parts by weight of a coloring agent, and 0.2 to 2 parts by weight of at least one coloring agent selected from the group consisting of iron oxide, nickel oxide, chromium oxide, and cobalt oxide is mixed to form a solid state artificial soil.

As shown in FIG. 1, it is installed around a tree to ensure ventilation, drainage, water retention, and the like, thereby promoting the growth of trees.

However, as shown in FIG. 1, when the core 20 is installed in the hole 12, the core for ground composition composing can be folded while being in a cylindrical shape, It is necessary for the operator to fix the core 20 so that the core 20 does not flow by using other working tools or equipments, which increases the number of work processes on the construction work and inconveniences. Accordingly, there is a problem that the construction cost increases.

Also, as shown in FIG. 2, even when installed in a ground supported by a ground excavated in installation, a separate work or equipment is required for installation at a work site.

In addition, in the case of the core for ground composition, for the purpose of discharging ventilation, drainage and conservative gas, it is possible to promote the growth of the tree roots by controlling the growth direction of the tree roots, there is a problem.

Accordingly, there is a problem that it is impossible to prevent the pedestrian from falling down or damaging the guide block by raising the guide block, the curbstone, and the roadside guard, which are installed at the upper part of the ground,

In addition, there is a problem in that noxious gas flowing toward a tree can not be blocked in the case of a ground formation core installed in an environment such as a barge, a coastal landfill, or a landfill.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems of the conventional art, and it is an object of the present invention to provide a method for preventing root damage, A vegetation induction mat assembly, a vegetation induction core assembly, and a soil composition method using the same.

It is another object of the present invention to provide a vegetation induction mat assembly that functions as a vent for discharging noxious gas directly affecting trees planted in areas such as a barge, a marine landfill, and a landfill, Assembly and a method of forming a ground using the same.

Another object of the present invention is to provide a vegetation-inducing mat assembly, a vegetation-inducing core assembly, and a soil composition method using the vegetation-inducing mat assembly capable of continuously supplying moisture and nutrients to trees.

According to the present invention, the above object can be achieved by a horizontal vegetation induction mat installed on a tree or below the ground around the tree; Wherein the horizontal vegetation-inducing mat and the edge vegetation-inducing mat promote the rooting of the tree, while the root vegetation-inducing mat promotes rooting of the tree, Direction of the vegetation guide mat.

In addition, the edge vegetation-inducing mat may be disposed in contact with at least one area of the horizontal vegetation-inducing mat.

Further, it may further include a supply ventilation part installed at one side of the edge vegetation induction mat.

Here, the supply ventilation portion may include: a tube; And a cap screwed with the tube, the height of which is adjusted by rotation.

The intermediate vegetation induction mat may further include a middle vegetation induction mat radially installed from an outer circumferential surface of the edge vegetation induction mat, wherein the intermediate vegetation induction mat induces a rooting direction while promoting rooting of the tree.

Preferably, the intermediate vegetation-inducing mat is vertically installed between the trees.

Each of the horizontal vegetation-inducing mat, the edge vegetation-inducing mat, and the middle vegetation-inducing mat may include: An artificial lightweight aggregate filled in the mesh; And a vegetation derivative, wherein the vegetation derivative contains a moisture polymer and a slow-release fertilizer.

According to the present invention, the above object can be attained by providing a vegetation induction core installed at a lower part of the ground of a tree or around the tree to induce a rooting direction while promoting rooting of the tree, And a ventilation part, wherein the supply ventilation part comprises: a tube; And a cap screwed with the tube, the height of which is adjusted according to the rotation.

The vegetation induction mat may further include an intermediate vegetation induction mat radially installed from the outer circumferential surface of the vegetation induction core, wherein the intermediate vegetation induction mat induces a rooting direction while promoting rooting of the tree.

Here, the vegetation induction core may include a net formed of a mesh; An artificial lightweight aggregate filled in the mesh; And a vegetation derivative, wherein the vegetation derivative contains a moisture polymer and a slow-release fertilizer.

According to another aspect of the present invention, there is provided a method of manufacturing a plant, comprising: forming a vegetation hole for planting trees on a ground; Installing a vegetation-inducing mat assembly; And a step of planting the trees and filling the soil into the vegetation holes, wherein the vegetation induction mat assembly is provided on the lower part of the ground of the tree or around the tree A horizontal vegetation induction mat installed on the root of the tree, a plate-like edge vegetation induction mat formed to be curved with respect to the center, an intermediate vegetation induction mat radially installed from the outer periphery of the edge vegetation induction mat, And a supply ventilation part provided on one side of the edge vegetation induction mat.

Further, the above object can be accomplished by a method of manufacturing a plant, comprising: forming a vegetation hole for planting trees on a ground; Installing a vegetation induction core assembly; And a step of planting the trees and filling soil in the vegetation holes, wherein the vegetation induction core assembly comprises a vegetation induction core and a pair of vegetation induction cores Wherein the supply ventilation part comprises: a tube; And a cap screwed with the tube, the height of which is adjusted according to the rotation.

The vegetation induction mat assembly or the vegetation induction core assembly according to a preferred embodiment of the present invention having the above-described structure promotes the roots of the trees to induce quick settlement of the roots, , The roadway and the like can be prevented from being damaged.

More specifically, it is installed at the lower part of the ground around the trees to induce rapid settlement of the roots during the planting of the roadside trees. When the roots close to the ground are thickened, the pedestrians are hung up on the upper part of the guide block, It is possible to prevent falling or damaging the delivery block.

In addition, the roots extending in the direction of the surface of the ground can be guided in a predetermined direction, and roots can be settled stably, so that the guide block, the boundary stone, and the streetgate protector of the roadside planting portion protrude, hindering the beauty of the city, And the breakage of the boundary stones can be minimized.

In addition, it is possible to prevent toxic gas discharge and oxygen ventilation, which directly affect trees planted in areas with poor vegetation environment, such as barge, forest landfill, and landfill .

Also, it is possible to continuously supply moisture and nutrients to planted trees.

The soil composition method using the vegetation induction mat assembly or the vegetation induction core assembly according to the preferred embodiment of the present invention having the above-described structure promotes rooting of trees to induce rapid root settlement, Since the vegetation induction mat is used in the installation to induce, it is effective in terms of cost as well as easy installation and installation work.

In addition, regardless of the conditions of the ground, the horizontal vegetation induction mat, the edge vegetation induction mat and the middle vegetation induction mat can be selectively installed to adjust the growing conditions of the tree, , The delivery block, the roadway, and the like can be prevented from being damaged.

FIG. 1 and FIG. 2 are schematic cross-sectional views showing the state of the ground composition for promoting the growth of a conventional tree,
3 and 4 are views showing a vegetation induction mat assembly according to a preferred embodiment of the present invention,
FIG. 5 is a view showing a vegetation-inducing mat of a vegetation-inducing mat assembly according to a preferred embodiment of the present invention,
6 is a view illustrating a process of installing a horizontal vegetation induction mat of a vegetation induction mat assembly according to a preferred embodiment of the present invention,
7 is a view showing a vegetation induction mat assembly according to a preferred embodiment of the present invention installed between trees,
8 is a view showing a supply ventilation part of the vegetation induction mat assembly according to a preferred embodiment of the present invention installed between trees,
9 is a view showing a vegetation induction core assembly according to a preferred embodiment of the present invention,
10 is a view showing a vegetation induction core of a vegetation induction core assembly according to a preferred embodiment of the present invention,
11 is a view showing a method of forming a ground using a vegetation induction mat assembly according to a preferred embodiment of the present invention,
12 is a view showing a method of forming a ground using a vegetation induction core assembly according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to clarify the solution to the technical problem of the present invention. In the following description of the present invention, however, the description of related arts will be omitted if the gist of the present invention becomes obscure. In addition, the terms described below are defined in consideration of the functions of the present invention, and may be changed depending on the intention or custom of the designer, the manufacturer, and the like. Therefore, the definition should be based on the contents throughout this specification. In addition, parts denoted by the same reference numerals throughout the specification represent the same elements.

Hereinafter, a vegetation induction mat assembly according to a preferred embodiment of the present invention will be described.

3 and 4, the vegetation induction mat assembly 1 according to the preferred embodiment of the present invention promotes the rooting of the tree 3 planted on the ground 2, ) But induces rooting direction.

As shown in FIG. 5, the vegetation induction mat 100 includes a mesh 110, a synthetic lightweight aggregate 120, and the like. The vegetation induction mat assembly 1 is formed using a vegetation induction mat 100, And vegetation derivatives 130. Here, the net 110 may be formed of a soft polyethylene (PE) material.

The artificial lightweight aggregate (120) is obtained by crushing high temperature and high pressure curing lightweight concrete (ALC) by a predetermined standard size and coating with a predetermined covering material, and may contain a fertilizer component of silicate and calcium.

The artificial lightweight aggregate 120 may be formed by mixing a lightweight aggregate, a gypsum, a siliceous clay mineral, a binder, and an additive.

In particular, the lightweight aggregate may be formed by using any one of pearlite, vermiculite, pumice, volcanic ash, and pumice, or by mixing two or more kinds of aggregates.

For reference, pearlite is a light white particle made by expanding the mineral at a high temperature of 1200 ° C to 10 times that of the ore, and it is characterized by its weight being one tenth of that of sand. Therefore, when pearlite is used, it contains proper air and moisture to soften the soil and improve the hair growth. In addition, since moisture is maintained for a long time, there is an advantage that it is easy to carry out the action.

The vermiculite is an aluminum silicate based gemstone containing magnesium and iron, which is heat treated at 1,000 ℃ to increase the volume by 10 to 15 times. The weight is 1/5 of the sand and the water absorption capacity is three times that of the sand. The artificial lightweight aggregate 120 containing vermiculite has an advantage of having excellent water holding capacity and low thermal conduction.

The lightweight aggregate serves as a nucleus in the manufacture of the artificial lightweight aggregate 120, and silicate clay minerals are adhered to the surface of the lightweight aggregate 120 by binder to form soil particles.

The siliceous clay mineral adheres to the surface of the lightweight aggregate to increase the viscosity.

The siliceous clay minerals may be used singly or in combination of two or more of diatomaceous earth, zeolite, bentonite and kaolin. These siliceous clay minerals have an excellent cation exchange capacity (CEC: Cation Exchange Capacity) and have a favorable effect on plant growth since they adsorb nutrients and slowly discharge them. In addition, it is excellent in water retention and serves to provide a smooth water supply to the dryer.

The binder serves to adhere lightweight aggregate and siliceous clay minerals. As described above, clay minerals can be attached to the surface of lightweight aggregate. Here, the binder may be plaster, cement, or the like.

The additive can improve the properties of the artificial lightweight aggregate 120.

The additive may be alumina powder, calcium sulfoaluminate compound, carboxymethylcellulose, lime and the like.

The alumina powder makes it possible to retain moisture and nutrients by producing various types of voids foamed in the artificial lightweight aggregate 120. The alumina serves as an open cavity capable of storing and moving moisture in the artificial lightweight aggregate 120 if the artificial lightweight aggregate 120 is made lightweight as a closed space and serves as a center point of the particles.

Calcium sulfoaluminate compounds improve the strength and abrasion resistance of artificial soil. In addition, it prevents cracks of soil particles generated through drying and shrinking during the molding process due to the reaction of cement and gypsum, and agglomerates and constrains the particles of the artificial lightweight aggregate 120 to prevent the artificial lightweight aggregate 120 from being broken The giver plays a role.

Carboxymethylcellulose serves to increase the viscosity of the slurry, agglomerates the slurry and improves the adhesion to improve soil particle formation.

The lime adjusts the ratio of silica to calcium as an alkali substance, and controls the particle strength in the artificial lightweight aggregate (120) in the course of curing after mixing with water. In addition, the artificial lightweight aggregate 120 is supplemented with a base to prevent acidification of the artificial lightweight aggregate 120 and surrounding soil, so that a pH suitable for plant growth is formed.

In addition, the vegetation-inducing mat 100 may further include a vegetation derivative 130 in addition to the artificial lightweight aggregate 120 for rapid soil settlement of the tree 3.

The vegetation derivative 130 contains a moisture polymer and a slow-release fertilizer to promote the rooting of the tree 3. Then, the roots 4 grow in a direction in which the vegetation derivatives 130 are located. That is, as the roots 4 grow, rooting is induced in the direction in which the vegetation derivatives 130 are located.

Examples of the moisture polymer include hydrophilic polymers such as propenamide polymers, propenamide-propenoate copolymers, polyacrylic acid, polyacrylamide, and the like. Absorbent polymers or starch may be used. K-36 may also be used.

Here, K-36 is a soil improving agent comprising 100 parts by weight of an absorbent polymer resin; 30 to 70 parts by weight of chitosan; 20 to 40 parts by weight of a fermentation culture in which the culture medium is inoculated with at least one strain selected from the group consisting of Bacillus subtilis, lactic acid bacteria, yeast bacteria and filamentous fungi; 20 to 40 parts by weight of mica; And 20 to 40 parts by weight of calcium oxide powder.

In addition, the moisture polymer may contain up to 200 times more moisture than the original volume, and gradually releases water when it is in a dry state, so that it is suitable for use when moisture supply to the tree is not smooth.

Therefore, in case of the expectation of drought damage or drought damage, the use of the moisture polymer can prevent the tree 3 from being damaged. That is, since the root 4 of the tree 3 is continuously supplied with moisture from the moisture polymer, the growth of the tree 3, early stagnation, and the like can be easily achieved.

The slow-release fertilizer refers to a fertilizer designed to be eluted into the soil around the root (4) during the period when the tree (3) is settled on the soil. For example, the slow-release fertilizer is a fertilizer formed by a semi-permeable membrane, which is a polymer membrane, so that an external material such as moisture passes through the semi-permeable membrane to dissolve the fertilizer inside the membrane, can do.

The speed of the fertilizer coming out to the outside can be controlled by the thickness of the film, the material of the film, the temperature of the soil, the pH, and the like.

The vegetation-inducing mat assembly 1 may include a horizontal vegetation induction mat 200, a border vegetation induction mat 300, an intermediate vegetation induction mat 400, and a feed ventilation unit 500.

Each of the horizontal vegetation induction mat 200, the edge vegetation induction mat 300, and the middle vegetation induction mat 400 may be formed using the vegetation induction mat 100. For example, as shown in FIG. 3, the horizontal vegetation-inducing mat 200 may be formed by arranging two vegetation-inducing mats 100 side by side.

Of course, in the embodiment shown in FIG. 3, the horizontal vegetation-inducing mat 200 is formed by using the two vegetation-inducing mat 100, but the present invention is not limited thereto. But may be formed using a plurality of vegetation-inducing mat (100).

6 (a), the horizontal vegetation induction mat 200 is formed by dugging the selected ground 2 to plant the tree 3 with a predetermined depth and width to form a vegetation hole 5 And is provided on the bottom surface of the vegetation hole 5. At this time, the size of the vegetation hole (5) should be larger than the depth and width of the root (4) area in vegetation of the tree (3).

After the horizontal vegetation induction mat 200 is installed, as shown in FIG. 6 (b), the area 6 where the root of the tree 3 can be seated is secured, and the soil 6 is loaded. The soil 6 is soil pelletized to form the vegetation hole 5. If the soil is insufficient, the soil 6 can be replenished with other soil.

As shown in FIG. 6 (b), the horizontal vegetation-inducing mat 200 including the vegetation derivatives 130 promotes rooting of the tree 3. Then, the roots 4 are grown in a direction in which the horizontal vegetation-inducing mat 200 is located. That is, rooting is induced in the direction in which the horizontal vegetation-inducing mat 200 is located, so that the protrusion of the roots 4, the protrusion of the guide block, the circumferential stones, and the like can be prevented.

In addition, since the horizontal vegetation-inducing mat 200 is formed by filling the artificial lightweight aggregate material 120 and the vegetation material 130 with the net 110 formed of a soft PE material, voids are formed inside, So that the water flowing into the horizontal vegetation induction mat 200 flows out to the ground located below the horizontal vegetation induction mat 200. [

The edge vegetation induction mat 300 may be formed around the root 4 of the tree 3 as shown in FIGS. 3 and 4, and may be formed into a plate shape curved with respect to the center.

That is, since the artificial lightweight aggregate material 120 and the vegetation material 130 are filled in the net 110 formed of a soft PE material, the vegetation induction mat 100 is formed by pressing one side of the vegetation- Thereby forming a curved edge vegetation induction mat 300 with respect to the center.

Since the edge vegetation induction mat 300 of the vegetation induction mat assembly 1 is installed around the root 4 when planting the tree 3, the infiltrated soil 6 flows out to the ground 2 ≪ / RTI >

In addition, the edge vegetation induction mat 300 promotes rooting of the tree 3 like the horizontal vegetation induction mat 200. Thus, the roots 4 grow in the direction in which the rim vegetation induction mat 300 is located. That is, since the root is induced in the direction in which the edge vegetation induction mat 300 is positioned and the root 4 is prevented from passing through the edge vegetation induction mat 300, Block, circumferential stones, etc. can be prevented from rising.

The edge vegetation induction mat (300) is installed so that at least one area is in contact with the horizontal vegetation induction mat (200). The water or the like flowing through the edge vegetation induction mat 300 is quickly transferred to the horizontal vegetation induction mat 200 rather than the water or the like introduced through the ground 2 or the soil 6.

3, 4 and 7, the intermediate vegetation induction mat 400 may be installed radially from the outer circumferential surface of the edge vegetation induction mat 300.

4 and 7, it is preferable that the intermediate vegetation-inducing mat 400 is vertically installed between the trees 3. Of course, the intermediate vegetation induction mat 400 may be installed horizontally to induce rooting between the trees 3.

At this time, as shown in FIG. 8, the edge vegetation induction mat 300 may be installed apart from the horizontal vegetation induction mat 200. In such a case, the horizontal vegetation induction mat 200 and the edge vegetation induction mat 300 may be installed so as to be in contact with the middle vegetation induction mat 400.

The intermediate vegetation-inducing mat 400 promotes the rooting of the tree 3, such as the horizontal vegetation-inducing mat 200. Thus, the roots 4 grow in the direction in which the intermediate vegetation induction mat 400 is located.

That is, since rooting is induced in the direction in which the intermediate vegetation induction mat 400 is located, the root 4 grows along the intermediate vegetation induction mat 400 as shown in FIG. Accordingly, even when an external force such as a collision of a vehicle, a typhoon or the like acts on the tree 3, the external force can be easily handled unlike the case where only the horizontal vegetation induction mat 200 and the edge vegetation induction mat 300 are installed.

Since the intermediate vegetation induction mat 400 is vertically installed between the trees 3, the roots 4 grow along the intermediate vegetation induction mat 400 so that only the guide blocks between the trees 3 are raised do. Accordingly, it is possible to minimize an accident that a pedestrian walking along the guide block is caught by the guide block raised.

3, an intermediate vegetation-inducing mat 400 is formed by using a single vegetation-inducing mat 100, but the present invention is not limited to this example. For example, in the embodiment shown in FIG. 3, It is needless to say that the plurality of vegetation induction mats 100 may be formed in accordance with the distance or the root restricting distance of the vegetation inducing mat.

The vegetation induction mat assembly 1 may further include a supply ventilation part 500.

The supply ventilation part 500 may be installed at a predetermined depth to one side of the edge vegetation induction mat 300 so as to supply liquid or water. Accordingly, the liquid or water or the like introduced through the supply ventilation unit 500 is moved as shown by the arrows in FIG. 8 (a), so that the root of the tree 3 is promoted.

Since the liquid or water is directly introduced into the horizontal vegetation induction mat 200, the edge vegetation induction mat 300 and the middle vegetation induction mat 400 through the supply ventilation part 500, the supply ventilation part 500 ) Allows an optimized amount of liquid or water to be supplied to the trees.

8 (b), the supply ventilation part 500 serves as a ventilating part for the gas discharged from the ground 2 when the liquid or water is not supplied.

Particularly, in the case of the ground of the landfill, harmful gas which destroys the tree 3 is generated. Therefore, a passage for inducing the harmful gas is required so as not to directly affect the tree 3. At this time, the horizontal vegetation induction mat 200, the edge vegetation induction mat 300, the middle vegetation induction mat 400, and the supply ventilation unit 500 serve as passages through which the harmful gas is discharged, Thereby preventing the tree (3) from being damaged.

Here, the supply ventilation part 500 may include a tube 510 formed to communicate with the cap 510 inserted into the tube 510.

The tube 510 and the stopper 520 can be coupled by a screw coupling method as shown in FIG. 3, and the height of the stopper 520 is adjusted according to the rotation of the stopper 520.

That is, since the inner circumferential surface of the tube 510 and the outer circumferential surface of the stopper 520 are threaded to each other, the stopper 520 can be rotated to adjust the installation height of the stopper 520.

Accordingly, the height of the plug 520 can be adjusted by adjusting the height of the plug 520 irrespective of the amount of the clay to be filled in the tree 3 so that the plug 520 is positioned above the ground.

4, the stopper 520 may include a plurality of ventilation holes 521 formed to communicate with each other. Accordingly, the vent hole 521 can serve as a passage for the noxious gas and the liquid or water, as described above.

On the other hand, the supply ventilation part 500 may further include a cover (not shown). The cover serves to cover the air hole 521 on the ground side of the stopper 520. In addition, the cover may cover the opening of the tube 510 when the cap 520 is not installed.

Meanwhile, the supply ventilation part 500 is provided on the edge vegetation induction mat 300, but it is not limited thereto and may be provided on the intermediate vegetation induction mat 400.

Hereinafter, a vegetation induction core assembly 1a according to a preferred embodiment of the present invention will be described with reference to FIG. In the following description of the vegetation induction core assembly 1a, the same components as those of the vegetation induction mat assembly 1 according to the preferred embodiment of the present invention will be omitted.

The vegetation induction core assembly 1a may include an intermediate vegetation induction mat 400, a supply vent portion 500, and a vegetation induction core 600.

The vegetation induction core 600 promotes the rooting of the tree 3 planted on the ground 2 like the vegetation induction mat 100 and induces the rooting direction while inducing rapid settlement of the root 4.

10, the vegetation induction core 600 may include a net 610 formed of a mesh, artificial lightweight aggregate 620, and a vegetation derivative 630. Here, the net 610 may be formed of a soft polyethylene (PE) material. Since the net 610, the artificial lightweight aggregate 620 and the vegetation derivative 630 are the same as the mesh 110, the artificial lightweight aggregate 120 and the vegetation derivative 130, a description thereof will be omitted. .

The supply ventilation part 500 is installed at one end of the vegetation induction core 600. Here, the supply ventilation part 500 may include a tube 510, a cap 520 inserted to be inserted into the inside of the tube 510, as described above.

The intermediate vegetation induction mat (400) may be installed radially from the outer circumferential surface of the vegetation induction core (600).

Hereinafter, with reference to FIG. 11, a description will be given of a method of forming a ground using the vegetation induction mat assembly.

A soil composition method (S1) using a vegetation-inducing mat assembly includes the steps of forming a vegetation hole (S10), installing the vegetation-inducing mat assembly (S20), and planting a tree ).

The step S10 of forming a vegetation hole divides the selected ground 2 for planting the tree 3 into a predetermined depth and width to form the vegetation hole 5. [

The step (S20) of installing the vegetation-inducing mat assembly installs the vegetation-inducing mat assembly (1) in the vegetation hole (5).

The step of planting the trees and filling the soil (S30) secures the area where the roots (4) can grow and infiltrates the soil (6) into the vegetation holes (5).

Accordingly, the vegetation-inducing mat assembly installation method (S1) uses the vegetation-inducing mat assembly (1).

The horizontal vegetation induction mat 200, the edge vegetation induction mat 300 and the middle vegetation induction mat 400 of the vegetation induction mat assembly 1 may be selectively installed so that the installation according to the growing conditions of the tree 3 It is possible.

Hereinafter, with reference to FIG. 12, a method of forming a ground using the vegetation induction core assembly will be described.

The soil composition method (S1a) using the vegetation induction core assembly includes a step (S10) of forming a vegetation hole, a step (S40) of installing the vegetation induction core assembly, and a step (S30 ).

The step S10 of forming a vegetation hole divides the selected ground 2 for planting the tree 3 into a predetermined depth and width to form the vegetation hole 5. [

The step (S20) of installing the vegetation-inducing mat assembly includes installing the vegetation-inducing core assembly (1a) in the vegetation hole (5).

The step of planting the trees and filling the soil (S30) secures the area where the roots (4) can grow and infiltrates the soil (6) into the vegetation holes (5).

Accordingly, since the method (S1a) for installing the vegetation induction core assembly uses the vegetation induction core assembly (1a), it is effective from the viewpoint of cost because of a small number of work operations and easy installation.

In addition, the vegetation induction core assembly (1a) may selectively provide an intermediate vegetation induction mat (400) and a vegetation induction core (600) to allow installation according to growing conditions of the tree (3).

It should be understood that the various embodiments according to the present invention can solve various technical problems other than those mentioned in the specification in the related technical field as well as the related art.

The present invention has been described with reference to the embodiments. It will be apparent, however, to one skilled in the art that the present invention may be embodied in various other forms without departing from the spirit or essential characteristics thereof. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. That is, the true technical scope of the present invention is indicated in the appended claims, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1: vegetation induction mat assembly 2: ground
3: tree 4: root
100: vegetation induction mat 200: horizontal vegetation induction mat
300: border vegetation induction mat 400: middle vegetation induction mat
500: Supply ventilation part 600: Vegetation induction core

Claims (12)

A horizontal vegetation induction mat installed at a lower portion of the ground of the tree or around the tree;
An edge vegetation induction mat provided around the roots of the tree, the edge vegetation induction mat being curved with respect to the center; / RTI >
In order to prevent the roots of the trees from growing through the horizontal vegetation induction mat and the border vegetation induction mat, each of the horizontal vegetation induction mat and the edge vegetation induction mat comprises a mesh formed of mesh; Artificial lightweight aggregate filled into the interior of the net; And a vegetation derivative containing a moisture polymer and a slow-release fertilizer; Wherein the vegetable-derived mat assembly comprises: The method according to claim 1,
Wherein the edge vegetation induction mat is installed so that at least one area is in contact with the horizontal vegetation induction mat. 3. The method of claim 2,
And a supply ventilation unit installed at one side of the edge vegetation induction mat. The method of claim 3,
The supply ventilating portion,
tube; And
And a cap screwed with the tube and having a height adjusted by rotation. 5. The method according to any one of claims 1 to 4,
Further comprising an intermediate vegetation-inducing mat radially installed from an outer circumferential surface of the edge vegetation-inducing mat,
Wherein the intermediate vegetation-inducing mat induces a rooting direction while promoting rooting of the tree. 6. The method of claim 5,
Wherein the intermediate vegetation-inducing mat is vertically installed between the trees. 6. The method of claim 5,
Each of the intermediate vegetation induction mats comprises:
A network formed by a network; An artificial lightweight aggregate filled in the mesh; And a vegetable derivative,
Wherein the vegetation derivative comprises a moisture polymer and a slow release fertilizer. delete delete delete delete delete

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