KR101164651B1 - Artifical Algific Talus Slopes and Method of Making thereof - Google Patents

Abstract

The present invention relates to artificial wind paper and its composition method. According to the present invention, the artificial wind-blood digging is performed to have an inclined surface. A horizontal double wall pipe is disposed parallel to the ground surface in the central region of the artificial wind-blood, and the amber and chestnut gravel are mixed and stacked on the outer surface of the horizontal double wall pipe to form a central blood layer. A vertical double wall pipe and a side double wall pipe are disposed, and a amber stone and chestnut gravel are mixed and laminated on the outer surfaces of the vertical double wall pipe and the side double wall pipe to form a bottom blood connection layer. It communicates with the vertical double wall pipe and the side double wall pipe, respectively, and alternately stacks a flagstone layer and a first gravel layer mixed with amber, chestnut gravel and martha to form a blood-blooded connection middle layer. The second gravel layer is mixed with chestnut gravel, martha, and sandy loam, and crushed stone is stacked on the second gravel layer to form an upper blood layer. Then, the mixed yarn, sand loam and horticultural soil are laminated to form a planting sublayer. At this time, the horticultural soil may be composed of mixed peat moss, perlite, stones, and peat.

According to the present invention, by creating an artificial wind-blood applied natural or artificial atmospheric circulation method, by utilizing the low-temperature micro-climate effect induced on the surface of the artificial wind blood to secure a habitat space that can easily grow and grow high-altitude and high-latitude plants It becomes possible.

Alpine, high latitude, micro-climate, artifical algific talus slope

Description

Artifical Algific Talus Slopes and Method of Making

The present invention relates to a preservation technology of high-altitude and high-latitude plants, and more particularly, to artificially bleeding paper that can induce a low-temperature micro-climate effect on the ground surface to secure a habitat space for the growth and growth of high-altitude and high-latitude plants; It relates to the composition method thereof.

Today, there is an urgent need for sustainable preservation of alpine plants and high latitude distributed plant resources that are vulnerable to climate change due to global warming. However, the conventional method of preserving alpine plants and high latitude distributed plant resources is to maintain them. It's hard. Accordingly, in order to conserve alpine plants and high latitude distributed plant resources, artificially intending to artificially create an artificial wind-blood structure in which alpine plants and high-latitude plants can inhabit, but the conventional artificial wind-blood formation method is a stone, gravel in the basement layer It was formed by simply laminating a layer of sand, or it was not possible to sufficiently provide the low-temperature microclimate effect on the surface of the artificial ruins to the alpine plants and high latitude distributed plant resources to grow and grow smoothly.

Therefore, by improving the conventional artificial blood flow composition method, artificial blood flow composition method that can provide sufficient low-temperature microclimate effect on the surface of the artificial blood flow paper so that alpine and high latitude distributed plants can grow and grow smoothly in the low latitude lowland. Required.

The present invention has been made to solve the above-mentioned conventional problems, to provide an artificial wind-blood and a composition method for securing a habitat space for alpine and high latitude plants to grow and grow on the surface of low and low latitudes For the purpose.

In addition, another object of the present invention is to provide an artificial wind-blooded land and a method of composition thereof in which alpine and high latitude distributed plants can permanently inhabit the surface of low and low latitudes.

In order to achieve the above object, according to a preferred embodiment of the present invention, in the artificial wind-blood forming method for creating a habitat space of high altitude high-latitude plants, the artificial wind-blood digging is performed to have an inclined surface at an angle to the ground surface And stabilizing the inclined surface, arranging a horizontal double wall pipe having a first diameter in which a plurality of vents having a predetermined diameter is formed in the central region of the artificial wind-blood paper in parallel with the ground surface, and having a first diameter at the outer surface of the horizontal double wall pipe. Mixing and stacking amber stones and chestnut gravel having a first diameter at a predetermined ratio to form a blood-blooded central layer, and a vertical double-wall of a second diameter having a plurality of vents of a predetermined diameter perpendicular to the horizontal double-walled tube on the top of the blood-blooded central layer And a side diameter double wall pipe of a second diameter inclined to the horizontal double wall pipe and formed with a plurality of vent holes having a predetermined diameter. And mixing and stacking the amber stones of the second diameter and the chestnut gravel of the second diameter on the outer surfaces of the vertical double wall pipe and the side double wall pipe at a predetermined ratio to form a bottom blood connection layer. Alternately stacking a flagstone layer, a first gravel layer having a third diameter of amber stone, a third diameter of night gravel, and martha mixed in a proportion to form a wind-blooded connection middle layer in communication with the double wall pipe and the side double wall pipe; A second gravel layer in which a fourth diameter of night gravel, martha, and sandy loam are mixed at a predetermined ratio, and a fourth diameter crushed stone is stacked on the second gravel layer to form a top blood layer; And forming a planting layer by stacking the mixed yarns, sand loam, and horticultural soils mixed at a predetermined ratio on the upper layer of the blood-blooded connection, wherein the horticultural soil is pitmos mixed at a predetermined ratio, It made of a light, absent, and peat, and provides an artificial punghyeol if the composition method.

Preferably, the amber stone of the bleeding connection middle layer has a diameter of 2.5 to 12.5 cm, the night gravel has a diameter of 2 to 6 cm, the mass has a diameter of 1 to 6 mm, the amber stone 20 to 40 weight The first gravel layer may be mixed with 30 to 50 parts by weight of the night gravel and 20 to 40 parts by weight of the martha.

Preferably, the crushed stone of the upper blood layer has a diameter of 50 to 110 cm, 30 to 50 parts by weight of the night gravel, 40 to 60 parts by weight of the mass and sand loam 5 to 15 parts by weight of the second gravel layer by mixing It may be formed.

According to another preferred embodiment of the present invention, in the artificial wind blood cell composition method for creating a habitat space of alpine high latitude plants, performing artificial wind blood cell dig to have an inclined surface at an angle to the ground surface, and stabilizing the slope And a horizontal double wall tube of a first diameter having a plurality of vent holes of a predetermined diameter formed in a central region of the artificial wind-blooded paper in parallel with the ground surface, and a amber stone of a first diameter and a chestnut gravel of a first diameter placed on an outer surface of the horizontal double wall tube. Mixing and laminating at a predetermined ratio to form a blood-blooded central layer, and a second diameter vertical double-walled pipe having a plurality of vents of a predetermined diameter perpendicular to the horizontal double-walled pipe and formed on the horizontal double-walled pipe, Arranging a side double wall pipe of a second diameter inclined and having a plurality of vent holes of a predetermined diameter, and the vertical double wall pipe Mixing and stacking the second diameter amber stone and the second diameter chestnut gravel on the outer side of the side double wall pipe at a predetermined ratio to form a bottom blood-connected bottom layer; and the vertical double wall pipe and the side double wall pipe It is in communication with each other, and alternately stacking the gravel layer and the gravel layer of the third diameter amber stone, the third diameter chestnut gravel and martha in a constant ratio, and to form a predetermined air passage on the outer side of the flagstone layer and gravel layer, Forming an airborne connection upper layer, arranging a blower to communicate with the horizontal double wall pipe at one end of the horizontal double wall pipe of the central blood layer, and forming a planting layer on the upper part of the blood blood connection upper layer Provides a method of forming a blood stream.

Preferably, the planting layer is formed of a yarn, sand loam stacked at a certain height on the top of the yarn and crushed stone stacked on the sand loaf at a certain height, the crushed stone has a diameter of 1 to 3 cm Can be.

Preferably, the planting sublayer is formed by stacking the mixed yarns, sand loam and horticultural soils mixed at a predetermined ratio, the horticultural soil may be made of pitmos, perlite, stones, and peat mixed at a predetermined ratio.

Preferably, in the step of forming an upper blood layer, the pair of vertical stones and upper stones disposed on the vertical stones may be formed outside the flagstone layer and the gravel layer.

Preferably, the horizontal double wall tube of the first diameter of the central blood layer has a diameter of 25 to 40 cm, and the diameter of the vent of the horizontal double wall tube may be 5 to 25 mm.

Preferably, the amber stone of the blood-blooded central layer has a diameter of 15 to 35 cm, chestnut gravel has a diameter of 2.5 to 12.5 cm, and 50 to 70 parts by weight of the amber stone may be mixed 30 to 50 parts by weight.

Preferably, the vertical double wall pipe and the side double wall pipe of the second diameter of the bottom blood connection layer have a diameter of 20 to 30 cm, and the diameter of the vent holes of the vertical double wall pipe and the side double wall pipe may be 5 to 25 mm.

Preferably, the amber stone of the bottom blood connection layer has a diameter of 5 to 20 cm, night gravel has a diameter of 2 to 6 cm, and may be mixed 30 to 50 parts by weight of the night gravel to 50 to 70 parts by weight of the amber stone.

Preferably, the planting layer is formed by mixing 30 to 40 parts by weight of martha, 30 to 40 parts by weight of sandy loam, and 10 to 30 parts by weight of horticultural soil, wherein the horticultural soil is peat moss, perlite, stones, and peat 5: It can also be mixed in a 3: 2: 1 ratio.

According to still another preferred embodiment of the present invention, a horizontal double wall pipe having a first diameter having a plurality of vent holes of a predetermined diameter is disposed in parallel with the ground surface in a central region where an inclined surface having an angle with respect to the ground surface is formed. The first blood amber and the first diameter chestnut gravel mixed on the outer surface of the pulpit blood center layer is mixed and laminated on the outer surface, and is formed on the top of the bleed blood central layer, the vertical double wall pipe is formed of a plurality of vent holes of a predetermined diameter A vertical double wall tube of two diameters and a side diameter double wall tube of a second diameter inclined to the horizontal double wall tube and formed with a plurality of ventilation holes of a predetermined diameter are disposed, and a amber stone of a second diameter on the outer side surfaces of the vertical double wall tube and the side double wall tube. And a night blood gravel of a second diameter mixed and stacked at a predetermined ratio, and formed on the top floor of the blood flow connecting bottom layer, wherein the vertical double And the blood-blooded connection middle layer in communication with the wall and side double wall pipes respectively, and the flagstone layer, and the first gravel layer in which the third diameter amber stone, the third diameter night gravel, and the martha are mixed at a constant rate, A second gravel layer formed on an upper portion of the middle layer, and the fourth gravel gravel, martha, and sandy loam are mixed at a predetermined ratio; and a wind-blooded connection upper layer in which a fourth diameter crushed stone is stacked on the second gravel layer; Formed on top of the connection upper layer, and mixed with a certain ratio of mass, sandy loam and horticultural soil are stacked, the horticultural soil is artificial artificial blood including a planting sublayer consisting of pit moss, perlite, stones, and peat mixed at a predetermined ratio Provide support.

Preferably, the amber stone of the bleeding connection middle layer has a diameter of 2.5 to 12.5 cm, the night gravel has a diameter of 2 to 6 cm, the mass has a diameter of 1 to 6 mm, the amber stone 20 to 40 weight The first gravel layer may be mixed with 30 to 50 parts by weight of the night gravel and 20 to 40 parts by weight of the martha.

Preferably, the crushed stone of the upper blood layer has a diameter of 50 to 110 cm, 30 to 50 parts by weight of the night gravel, 40 to 60 parts by weight of the mass and sand loam 5 to 15 parts by weight of the second gravel layer by mixing It may be formed.

According to still another preferred embodiment of the present invention, a horizontal double wall pipe having a first diameter having a plurality of vent holes of a predetermined diameter is disposed in parallel with the ground surface in a central region where an inclined surface having an angle with respect to the ground surface is formed. The first blood amber and the first diameter chestnut gravel mixed on the outer surface of the pulpit blood center layer is mixed and laminated on the outer surface, and is formed on the top of the bleed blood central layer, the vertical double wall pipe is formed of a plurality of vent holes of a predetermined diameter A vertical double wall tube of two diameters and a side diameter double wall tube of a second diameter inclined to the horizontal double wall tube and formed with a plurality of ventilation holes of a predetermined diameter are disposed, and a amber stone of a second diameter on the outer side surfaces of the vertical double wall tube and the side double wall tube. And a blood flow connecting lower layer mixed and stacked at a predetermined ratio with a night gravel having a second diameter, and formed on an upper portion of the blood flow central layer, wherein the horizontal double wall A vertical double wall pipe of a second diameter perpendicular to the pipe and formed with a plurality of vents of a constant diameter; and a side diameter double wall pipe of a second diameter inclined to the horizontal double wall pipe and having a plurality of vents of a constant diameter; It is formed on the outer surface of the side double wall pipe and the upper part of the bleeding connection lower layer mixed with a predetermined ratio of amber stone and the second diameter night gravel of the second diameter, and formed in the upper portion of the bleeding connection lower layer, and communicate with the vertical double wall and side double wall, respectively And a flagstone layer, a gravel layer having a third diameter of amber stone, a third diameter of night gravel and a marsa are alternately stacked, and a predetermined air passage is formed outside the alternately stacked flagstone layer and gravel layer. A blood flow connecting upper layer, a blower disposed at one end of the horizontal double wall pipe of the central blood layer to communicate with the horizontal double wall pipe, and the wind blood connecting upper layer It provides an artificial wind blood, including a planting layer formed on the top.

Preferably, the planting layer is formed of a yarn, sand loam stacked at a certain height on the top of the yarn and crushed stone stacked on the sand loaf at a certain height, the crushed stone has a diameter of 1 to 3 cm Can be.

Preferably, the planting sublayer is formed by stacking the mixed yarns, sand loam and horticultural soils mixed at a predetermined ratio, the horticultural soil may be made of pitmos, perlite, stones, and peat mixed at a predetermined ratio.

Preferably, the air path may be formed by forming a pair of vertical stones and the upper stones on the vertical stones outside the flagstone layer and the gravel layer that are alternately stacked in the upper blood layer.

Preferably, the horizontal double wall tube of the first diameter of the central blood layer has a diameter of 25 to 40 cm, and the diameter of the vent of the horizontal double wall tube may be 5 to 25 mm.

Preferably, the amber stone of the blood-blooded central layer has a diameter of 15 to 35 cm, chestnut gravel has a diameter of 2.5 to 12.5 cm, and 50 to 70 parts by weight of the amber stone may be mixed 30 to 50 parts by weight.

Preferably, the vertical double wall pipe and the side double wall pipe of the second diameter of the bottom blood connection layer have a diameter of 20 to 30 cm, and the diameter of the vent holes of the vertical double wall pipe and the side double wall pipe may be 5 to 25 mm.

Preferably, the amber stone of the bottom blood connection layer has a diameter of 5 to 20 cm, night gravel has a diameter of 2 to 6 cm, and may be mixed 30 to 50 parts by weight of the night gravel to 50 to 70 parts by weight of the amber stone.

Preferably, the planting layer is formed by mixing 30 to 40 parts by weight of martha, 30 to 40 parts by weight of sandy loam, and 10 to 30 parts by weight of horticultural soil, wherein the horticultural soil is peat moss, perlite, stones, and peat 5: It may be mixed in a ratio of 3: 2: 1.

According to the present invention, by inducing the underground low temperature of 12 to 13 ℃ to the ground surface by natural or artificial atmospheric circulation method to provide a low-temperature microclimate effect on the surface of the artificial wind-blooded land, high altitude and high latitude plants on the low and low land surface smoothly There is an effect that can easily secure a habitat space for growth and growth.

In addition, it is possible to permanently preserve plant resources vulnerable to climate change due to global warming, and to easily create an alpine botanical garden at low latitude lowlands.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in describing the present embodiment, main terms will be defined as follows. Amber stones are round and large stones that are used to hold the ground firm. Night gravel is stones that are slightly thicker than gravel to be used for the foundation and roadwork of roads and masonry. Good water distribution and fast decomposition of fertilizer leads to soil suitable for planting crops. Planting leads to planting vegetation, and crushed stone breaks down stones.

1 is a schematic process flow chart of a method of artificial blood flow composition according to an embodiment of the present invention, Figure 2a is a schematic cross-sectional view of the artificial wind blood cell formed by the artificial wind blood cell composition method of Figure 1, Figure 2b Figure 1 is a schematic perspective view of a double wall pipe disposed in the artificial wind blood formation method of FIG. In addition, FIGS. 7A to 7U are actual process photographs of photographing a process of forming artificial ruins by the artificial ruins of FIG. 1 and FIG. 3.

1 to 2b, the artificial wind-blood forming method according to an embodiment of the present invention, the trench and slope stabilization step (S110), the step of forming a blood core layer (S120), the step of forming a blood-blood connection lower layer ( S130), the step of forming a blood-blooded connecting middle layer (S140), the step of forming a blood-rich connecting upper layer (S150) and the planting layer forming step (S160). In addition, the artificial blood flow paper formed by the artificial blood flow paper composition method of FIG. 1 is a blood-blooded central layer 120, a blood-blooded connection lower layer 130, a blood-blooded connection middle layer 140, a blood-blooded connection upper layer 150 and a planting sublayer ( 160).

As is well known, the method of forming an artificial algific talus slope leads to a method of forming a habitat of alpine and high latitude plants at low or low latitudes by low temperature micro-climate induced on the surface.

First, in the trench and slope stabilization step (S110), the artificial wind-blood stripping is carried out so as to have an inclined surface of a predetermined angle with respect to the ground surface to form artificial blood plasma (see Figs. 7a and 7b), the slope of the incision is performed Stabilize (110). Here, the trench is formed at an inclination angle of 10 to 55 ° with respect to the ground surface, and is 1 to 4 m deep in the flat, north slope, northeast slope, northwest slope, verbal surface, or epic slope region. In addition, the inclined surface 110 formed by the trench can be covered with the nonwoven fabric 111 to suppress and stabilize the collapse of the inclined surface of the artificial wind-blooded paper (see FIG. 7C).

Subsequently, in the step of forming a blood-blooded central layer (S120), a horizontal double wall tube 121 in which a plurality of vents 121-1 having a predetermined diameter is formed in a central region of the artificial wind-blood paper is disposed in parallel with the ground surface (see FIG. 7D), and horizontal The amber stones 122 and the night gravel 123 are mixed and laminated at a predetermined ratio on the outer surface of the double wall tube 121 to form a blood-blooded central layer 120 (see FIG. 7E). Here, the horizontal double wall tube 121 of the wind blood central layer 120 may have a diameter of 25 to 40 cm, and the diameter of the vent 121-1 of the horizontal double wall tube 121 may be 5 to 25 mm. That is, the horizontal double wall pipe 121 is a diameter of 25 to 40cm so that the low temperature underground, such as 12 to 13 ℃ temperature of the central layer of artificial wind blood can be delivered to the air flow connection lower layer 130 to be described later natural circulation It is preferable that the diameter of the vent 121-1 is 5-25 mm.

In addition, the amber stones 122 of the blood-blooded central layer 120 may have a diameter of 15 to 35 cm, and the night gravel 123 may have a diameter of 2.5 to 12.5 cm. Here, the amber stones 122 may have a diameter of 15 to 35 cm to form sufficient voids so that the above-described underground low temperature can be circulated to the natural atmosphere, and the night gravel 123 is formed by the voids formed by the amber stones 122. Soils are filled between the voids to prevent the collapse and loss of soil or to prevent the rapid outflow of rainwater that has permeated below the ground. On the other hand, in order to suppress the loss of soil and rainwater discharge described above, it is preferable to mix 30 to 50 parts by weight of chestnut gravel 123 to 50 to 70 parts by weight of amber stones (122).

Subsequently, in the step of forming a blood flow connecting lower layer (S130), the vertical double wall pipe 131 perpendicular to the horizontal double wall pipe 121 and a plurality of vent holes 131-1 having a predetermined diameter is formed on the top of the blood flow central layer 120, and The side double wall pipe 132 is inclined to the horizontal double wall pipe 121 and a plurality of vent holes 132-1 having a predetermined diameter are disposed (see FIGS. 7F, 7G, and 7H), and the vertical double wall pipe 131 and the side double wall pipe are formed. The amber 133 and the night gravel 134 are mixed and laminated at a predetermined ratio on the outer side of the 132 to form a bleeding connection lower layer 130 (see FIGS. 7i, 7j, and 7k). Here, the vertical double wall pipe 131 and the side double wall pipe 132 of the wind blood connection lower layer 130 have a diameter of 20 to 30 cm, respectively, and each vent hole of the vertical double wall pipe 131 and the side double wall pipe 132 ( 131-1,132-1) may have a diameter of 5 to 25 mm. That is, the vertical double wall pipe 131 and the side double wall pipe 132 is a low-temperature underground blood flow through the bottom layer of the blood flow connection lower layer 130 and is smoothly transmitted to the wind blood connection middle layer 140 to be described later. It is preferable to have a diameter of 20 to 30 cm so that the air can be circulated, and the diameter of each of the vents 131-1 and 132-1 is 5 to 25 mm.

In addition, the amber stone 133 of the lower blood connection lower layer 130 may have a diameter of 5 to 20 cm, night gravel 123 may have a diameter of 2 to 6 cm. Here, the amber stone 133 may have a diameter of 5 to 20 cm to form a sufficient void so that the above-described underground low temperature is natural atmospheric circulation, the night gravel 134 has a diameter of 2 to 6 cm amber stone 133 The gap formed by the cavities is filled between the voids formed by the amber stones 133 to suppress the soil from being collapsed and lost or to suppress the sudden outflow of rainwater that has permeated below the ground surface. On the other hand, in order to suppress the loss of soil and the discharge of rainwater, it is preferable to mix 30 to 50 parts by weight of chestnut gravel 134 to 50 to 70 parts by weight of amber stones 133.

Subsequently, in the step of forming a blood flow connecting middle layer (S140), the upper blood flow connecting lower layer 130 is in communication with the vertical double wall pipe 131 and the side double wall pipe 132, respectively, and the flagstone layer 141 and the amber stone (not shown). C), night gravel (not shown), and massa (not shown) alternately stack the first gravel layer 142 mixed at a predetermined ratio to form a wind-blooded connection middle layer 140 (see FIGS. 7L, 7M, and 7N). . That is, the first gravel layer 142 interposed between the flagstone layer 141 and the flagstone layer 141 of the bleeding blood connection middle layer 140, the underground low temperature of the bleeding blood central layer 120 is the bleeding blood connection lower layer 130. And through the wind-blood connection middle layer 140 is smoothly delivered to the wind-blood connection upper layer 150 to be described later to provide an air passage so as to circulate in the natural atmosphere. On the other hand, the amber stone of the first gravel layer 142 has a diameter of 2.5 to 12.5cm, night gravel has a diameter of 2 to 6cm, the martha may have a diameter of 1 to 6mm. That is, the amber stone has a diameter of 2.5 to 12.5 cm to form air gaps and passages of rain and rain, and night gravel and martha fill the voids formed by the amber to suppress the loss of soil and the rapid discharge of rain by the air gaps. . Meanwhile, the first gravel layer 142 may be formed by mixing 20 to 40 parts by weight of amber stones, 30 to 50 parts by weight of chestnut gravel, and 20 to 40 parts by weight of martha, so as to suppress the loss of soil and the sudden outflow of rainwater. have.

Subsequently, in the step of forming the upper blood layer connecting the upper blood layer (S150), the second gravel layer in which the night gravel (not shown), the martha (not shown), and the sandy loam (not shown) are mixed in a predetermined ratio on the upper part of the blood blood connecting middle layer 140 ( 151, and the crushed stone 152 is stacked on the second gravel layer 151 to form an upper blood layer connecting upper layer 150. Here, the crushed stone 152 of the bleeding connection upper layer 150 has a diameter of 50 to 110 cm, 30 to 50 parts by weight of night gravel, 40 to 60 parts by weight of sand, and 5 to 15 parts by weight of sandy loam by mixing a second gravel layer 151 may be formed. In addition, the second gravel layer 151 serves as a path of rainwater from the ground surface to the blood-blooded connection middle layer 140, the blood-blooded connection lower layer 130, and the blood-blooded central layer 120, and the underground low temperature of the blood-blooded central layer 120. It acts as a natural atmospheric circulation path to the bleeding blood connection lower layer 130, the bleeding blood connection middle layer 140, the bleeding blood connection upper layer 150 and the planting layer 160. In addition, the crushed stone 152 preferably has a diameter of 50 to 110 cm to prevent the loss of topsoil, that is, sandy loam.

Subsequently, in the planting layer forming step (S160), the planting layer 160 is formed by stacking the mixed sasa, sand loam, and horticultural soil in a predetermined ratio on the upper part of the wind-blooded connection upper layer 150 (FIGs. 7o, 7p, and 7q). Horticultural soils are composed of mixed peat moss, perlite, calculus, and peat in a proportion. Here, the planting layer 160 is formed by mixing 30 to 40 parts by weight of martha, 30 to 40 parts by weight of sandy loam, and 10 to 30 parts by weight of horticultural soil, and horticultural soils are peat moss, perlite, stones, and peat, respectively. It may be mixed in a ratio of 5: 3: 2: 1. On the other hand, the planting layer 160 substantially provides a land surface on which alpine and high latitude plants can grow and grow.

According to the artificial wind-blood formation method and the artificial wind-blood according to the above, the low temperature underground of the blood-blooded central layer can be smoothly transferred to the planting layer so that the natural atmosphere can be circulated. By providing effectively, it is possible to easily create a habitat for the altitude and high latitude plants to grow and grow in the low and low latitudes.

Figure 3 is a schematic process flow chart of the artificial wind blood cell composition method according to another embodiment of the present invention. 4 to 6 is a view showing the artificial blood plasma formed by the artificial blood plasma composition method of FIG. In addition, FIGS. 7A to 7U are actual process photographs photographing a process of forming an artificial ruins by the artificial ruins of FIG. 1 and FIG. 3.

Referring to Figure 3, the artificial wind-blood forming method according to another embodiment of the present invention, the trench and slope stabilization step (S210), the wind-blooded central layer forming step (S220), and the blood-blood connection lower layer forming step (S230) And, a blood-blooded upper layer forming step (S240), the blowing unit arrangement step (S250), and comprises a planting layer forming step (S260).

Particularly, the artificial wind-blood paper 200 formed by the artificial wind-blood formation method according to another embodiment of the present invention includes a blower 170, a blood-blooded central layer 120, a blood-blooded lower layer 130, and a blood-blooded upper layer 150. ) And the planting sublayer 160. In other words, except that the blower 170 is connected to one end of the horizontal double wall tube 121 has the same configuration of the artificial wind-blood (100 in Figure 2) according to an embodiment of the present invention.

First, in the trench and inclined surface stabilization step (S210), the artificial wind-blood digging is performed to have an inclined surface 110 of a predetermined angle with respect to the ground surface to form the artificial wind-blood 200 (see FIGS. 7A and 7B), Stabilization of the inclined surface 110 of the incision was performed in the trench. Here, the trench is formed at an inclination angle of 10 to 55 ° with respect to the ground surface, and is 1 to 4 m deep in the flat, north slope, northeast slope, northwest slope, verbal surface, or epic slope region. In addition, by covering the inclined surface 110 formed by the trench with a nonwoven fabric 111 can be stabilized by suppressing the collapse of the inclined surface 110 of the artificial wind-blood 200 (see Fig. 7c). In Fig. 4, A represents the trench range.

Subsequently, in the step of forming a central blood layer (S220), a horizontal double wall tube 121 in which a plurality of vent holes 121-1 of a predetermined diameter are formed in a central region of the artificial blood stream 200 is disposed parallel to the ground surface (FIG. 4). 7d), the amber 122 and the night gravel are mixed and laminated on the outer surface of the horizontal double wall tube 121 at a predetermined ratio to form a blood-blooded central layer 120 (see FIG. 7E). Here, the horizontal double wall tube 121 of the wind blood central layer 120 may have a diameter of 25 to 40 cm, and the diameter of the vent 121-1 of the horizontal double wall tube 121 may be 5 to 25 mm (FIG. 4). That is, the horizontal double wall tube 121 is smoothly transferred to the underground blood connection lower layer 130, which will be described later, at a low temperature, for example, 12 to 13 ° C., of the wind blood central layer 120, to the blowing air of the blower 170 to be described later. It is preferable that the diameter of the vent 121-1 of the horizontal double wall pipe 121 has a diameter of 25 to 40 cm so that the artificial atmosphere can be circulated by 5 to 25 mm.

In addition, the amber stone 122 of the blood-blooded central layer 120 may have a diameter of 15 to 35 cm, and night gravel may have a diameter of 2.5 to 12.5 cm. Here, the amber stones 122 may have a diameter of 15 to 35 cm to form sufficient voids so that the above-described underground low temperature can be artificially circulated, and night gravel is collapsed by the voids formed by the amber stones 122. They fill the gaps to prevent them from being lost or to abruptly spill rainwater that has soaked below the ground. On the other hand, in order to suppress the above-mentioned soil loss and rainwater outflow, it is preferable to mix 30 to 50 parts by weight of chestnut gravel to 50 to 70 parts by weight of the amber stones 122.

Subsequently, in the step of forming a blood flow connecting lower layer (S230), a vertical double wall pipe 131 perpendicular to the horizontal double wall pipe 121 and a plurality of vent holes 131-1 having a predetermined diameter is formed on the top of the blood flow central layer 120, and The side double wall pipe 132 is inclined to the horizontal double wall pipe 121 and a plurality of vent holes 132-1 having a predetermined diameter are disposed (see FIGS. 7F, 7G, and 7H), and the vertical double wall pipe 131 and the side double wall are placed. The amber stone and chestnut gravel 134 are mixed and laminated on the outer side of the tube 132 at a predetermined ratio to form a bleeding connection lower layer 130 (see FIGS. 7i, 7j and 7k). Here, the vertical double wall pipe 131 and the side double wall pipe 132 of the wind blood connection lower layer 130 have a diameter of 20 to 30 cm, and each vent 131 of the vertical double wall pipe 131 and the side double wall pipe 132. -1,132-1) may have a diameter of 5 to 25 mm. That is, in the vertical double wall pipe 131 and the side double wall pipe 132, the low temperature underground of the wind blood central layer 120 passes through the wind blood connection lower layer 130 by the blowing of the blower 170, and the wind blood connection upper layer (to be described later) ( It has a diameter of 20 to 30 cm so as to be smoothly delivered to the artificial air circulation 150, the diameter of each vent (131-1, 132-1) is preferably 5 to 25 mm.

In addition, the amber stone of the bottom blood connection layer 130 has a diameter of 5 to 20 cm, night gravel 134 may have a diameter of 2 to 6 cm. Here, the amber stone may have a diameter of 5 to 20 cm to form sufficient voids so that the above-described underground low temperature is artificially air circulated, and the night gravel 134 has a diameter of 2 to 6 cm to the void formed by the amber stone. By filling the gaps formed by the amber to prevent the soil from collapse and loss, or to suppress the rapid outflow of rainwater that has penetrated the ground surface. On the other hand, in order to effectively suppress the above-described soil loss and rainwater spillage, it is preferable to mix 30 to 50 parts by weight of chestnut gravel 134 to 50 to 70 parts by weight of amber stones.

Meanwhile, the vertical double wall pipe 131 and the side double wall pipe 132 of the wind blood connection lower layer 130 may be exposed to the top surface of the artificial wind paper 200 by 20 to 50 cm in length.

Subsequently, in the step of forming the upper blood layer connecting the upper blood layer (S240), the upper double layer pipe 131 and the side double wall tube 132 are respectively communicated with the upper layer of the lower blood connection, the flagstone layer 141, amber stone, chestnut gravel and Massa alternately stacks the mixed gravel layer 142 at a predetermined ratio, and a predetermined air passage is formed outside the flagstone layer 141 and the gravel layer 142 to form a blood-blooded upper connection layer 150 (FIG. 7L). , 7m, 7n). Here, in the gravel layer 141 of the upper blood layer connection layer 150 and the gravel layer 142 interposed between the flag layer 141, the low temperature of the underground blood central layer 120 is blown by the blower 170 Passing through the vertical double wall pipe 131 and the side double wall pipe 132 of the wind-blood connection lower layer 130 is delivered to the planting layer 160 to be described later to provide an air passage so that artificial air circulation. Accordingly, the amber stone of the gravel layer 142 may have a diameter of 2.5 to 12.5 cm, the night gravel may have a diameter of 2 to 6 cm, and the martha may have a diameter of 1 to 6 mm. In other words, the amber stone has a diameter of 2.5 to 12.5 cm to form voids, which are passages of air and rainwater, and night gravel and martha fill the voids formed by the amber stones so as to suppress the loss of soil and the sudden leakage of rain due to the voids. You will cry. Meanwhile, the gravel layer 142 may be formed by mixing 20 to 40 parts by weight of amber stones, 30 to 50 parts by weight of chestnut gravel, and 20 to 40 parts by weight of marsa so as to suppress the loss of the soil and the sudden outflow of rainwater.

On the other hand, outside the flagstone layer 141 and the gravel layer 142 of the blood-blooded upper layer 150, a pair of vertical stones and upper stones disposed above the vertical stones are formed, for example, by forming a dolmen-shaped passage (FIG. 7R). , 7s), and an air passage is formed so as to communicate with the vertical double wall pipe 131 and the side double wall pipe 132 of the bottom blood connection layer 130. Here, the dolmen-shaped air passage serves to smoothly provide the underground low temperature of the wind-blooded central layer 120 to the planting layer 160 to be described later.

Then, in the blower arrangement step (S250), the blower 170 is disposed to communicate with the horizontal double wall tube 121 at one end of the horizontal double wall tube 121 of the wind-blooded central layer 120. That is, the blower 170 supplies the underground low temperature to the vertical double wall pipe 131 and the side double wall pipe 132 of the bottom blood connection layer 130 through the horizontal double wall pipe 121 of the wind blood central layer 120. Play a role. In the present embodiment, the blower 170 uses a blower 170 that provides air flow of 30 to 60 kW / min and a constant pressure air flow of 25 to 40 mmAq and uses electric power of 1.5 to 5 Kw, but Not particularly limited, various standards capable of supplying the underground low temperature sufficiently to the vertical double wall pipe 131 and the side double wall pipe 132 of the bottom blood connection layer 130 through the horizontal double wall pipe 121 of the wind blood central layer 120. Of course, the blower 170 may be used.

Thereafter, in the planting layer forming step (S260), the planting layer 160 is formed on the upper part of the blood-rich connection upper layer 150. Here, as described below, the planting layer 160 may be formed differently by two different forming processes. On the other hand, the planting layer 160 substantially provides a land surface on which alpine and high latitude plants can grow and grow.

Specifically, the first, the planting layer 160, the top loam blood connection upper layer 150, the sand loam, the sand loam stacked at a certain height on the top of the mass and the crushed stone (152) stacked on the sand loaf at a predetermined height It is formed (see Fig. 7t, 7u), the crushed stone 152 may have a diameter of 1 to 3cm. Here, the sandy loam, which is the topsoil, is laminated and formed to occupy 50 to 80% of the surface area of the artificial ruins, and is laminated to a thickness of 1 to 4 cm. In addition, the crushed stone 152 is laminated so as to occupy 50 to 80% of the surface area artificial artificial blood plasma composition and laminated to a thickness of 1 to 3 cm, so as to effectively prevent the loss of sandy loam, which is the topsoil.

Second, the planting layer 160 is formed by stacking a mixture of mass, sandy loam and horticultural soil mixed at a predetermined ratio on the upper part of the wind blood connection layer 150 (see Fig. 7o, 7p, 7q), Consisting of peat moss, perlite, stones, and peat mixed in proportions. Here, the planting part layer 160 is formed by mixing 30 to 40 parts by weight of martha, 30 to 40 parts by weight of sandy loam, and 10 to 30 parts by weight of horticultural soil, wherein horticultural soils are peat moss, perlite, stones, and peat, respectively. It may be mixed in a ratio of 3: 3: 2: 1.

According to the artificial wind-blood formation method and the artificial wind-blood 200 according to the above, the low temperature underground of the blood-blooded central layer 120 is smoothly transmitted to the planting layer 160 by the blowing of the blower 170. It can be artificial atmospheric circulation, by providing a low-temperature micro-climate effect on the ground surface of the planting layer 160 or artificial blood stream 200, thereby facilitating a habitat space in which alpine and high latitude plants can grow and grow at low and low latitudes. I can establish it.

In the above description of the embodiments of the present invention with reference to the accompanying drawings, but has been described for the artificial wind-blood forming method having a specific shape and structure and the artificial wind-blood by this, the present invention can be variously modified and changed by those skilled in the art And, such variations and modifications should be construed as falling within the protection scope of the present invention.

1 is a schematic process flow chart of a method for artificial blood flow composition according to an embodiment of the present invention.

FIG. 2A is a schematic cross-sectional view of the artificial blood stream formed by the artificial blood stream composition of FIG. 1.

FIG. 2B is a schematic perspective view of the double wall pipe disposed in the artificial wind-blood forming method of FIG. 1.

Figure 3 is a schematic process flow chart of the artificial wind blood cell composition method according to another embodiment of the present invention.

4 to 6 is a view showing the artificial blood plasma formed by the artificial blood plasma composition method of FIG.

7A to 7U are actual process photographs photographing a process of forming artificial ruins by the artificial ruins of FIG. 1 and FIG. 3.

Claims (24)

In the artificial wind-blood (200) composition method for creating a habitat of alpine high latitude plants, Performing an artificial wind-blood 200 digging to have a slope 110 at an angle with respect to the ground surface, and stabilizing the slope 110; A horizontal double wall tube 121 having a plurality of vent holes 121-1 having a predetermined diameter formed in a central region of the artificial wind-blood 200 is disposed parallel to the ground surface, and an amber stone 122 is formed on an outer surface of the horizontal double wall tube 121. ) And the night gravel 123 are mixed and laminated at a predetermined ratio to form a blood-blooded central layer 120; It is inclined to the vertical double wall pipe 131, the vertical double wall pipe 131, the vertical double wall pipe 121 and a plurality of vent holes (131-1) of a predetermined diameter are formed on the top of the wind blood central layer 120, Arrange the side double wall pipe 132 is formed with a plurality of vent holes (132-1) of a predetermined diameter, and the amber stone 133 and chestnut gravel 134 on the outer surface of the vertical double wall pipe 131 and the side double wall pipe 132 Mixing and laminating at a predetermined ratio to form a bleeding connection lower layer 130; The first gravel layer which is in communication with the vertical double wall pipe 131 and the side double wall pipe 132, respectively, and the flagstone layer 141, the amber stone, chestnut gravel and martha are mixed in a predetermined ratio on the upper part of the wind blood connection lower layer 130. Alternately stacking (142) to form a blood-blooded connection middle layer (140), The second gravel layer 151 mixed with chestnut gravel, martha, and sandy loam at a predetermined ratio, and the crushed stone 152 is laminated on the second gravel layer 151 on the upper part of the wind blood connection middle layer 140. Forming an upper layer 150, On top of the wind-blooded connection upper layer 150, to form a planting layer 160 by laminating the mixed mass, sand loam and horticultural soil in a certain ratio, the horticultural soil is mixed peat moss, perlite, stones, and Artificial wind-blood paper 200 composition method consisting of peat. The method of claim 1, Amber stone of the bleeding connection middle layer 140 has a diameter of 2.5 to 12.5cm, the night gravel has a diameter of 2 to 6cm, the mass has a diameter of 1 to 6mm, 20 to 40 parts by weight of the amber stone, 30 to 50 parts by weight of the night gravel, and 20 to 40 parts by weight of the martha to form a first gravel layer (142), characterized in that to form a first gravel layer (142). The method of claim 1, The crushed stone 152 of the upper blood layer connecting upper layer 150 has a diameter of 50 to 110 cm, 30 to 50 parts by weight of the night gravel, 40 to 60 parts by weight of the mass, and 5 to 15 parts by weight of sandy loam to form the second gravel layer (151), characterized in that for forming an artificial wind-blood (200). In the artificial wind-blood (200) composition method for creating a habitat of alpine high latitude plants, Performing an artificial wind-blood 200 digging to have a slope 110 at an angle with respect to the ground surface, and stabilizing the slope 110; A horizontal double wall tube 121 having a plurality of vent holes 121-1 having a predetermined diameter formed in a central region of the artificial wind-blood 200 is disposed parallel to the ground surface, and an amber stone 122 is formed on an outer surface of the horizontal double wall tube 121. ) And the night gravel 123 are mixed and laminated at a predetermined ratio to form a blood-blooded central layer 120; It is inclined to the vertical double wall pipe 131, the vertical double wall pipe 131, the vertical double wall pipe 121 and a plurality of vent holes (131-1) of a predetermined diameter are formed on the top of the wind blood central layer 120, Arrange the side double wall pipe 132 is formed with a plurality of vent holes (132-1) of a predetermined diameter, and the amber stone 133 and chestnut gravel 134 on the outer surface of the vertical double wall pipe 131 and the side double wall pipe 132 Mixing and laminating at a predetermined ratio to form a bleeding connection lower layer 130; On top of the wind-blood connection lower layer 130, the vertical double wall tube 131 and the side double wall tube 132 are respectively communicated with, and the flagstone layer 141, the gravel layer mixed with amber, chestnut gravel and martha at a constant rate Stacking and forming an air passage having a predetermined shape outside the alternately stacked flagstone layer 141 and the gravel layer to form a blood-blooded connection upper layer 150; Arranging a blower unit 170 at one end of the horizontal double wall tube 121 of the wind blood central layer 120 to communicate with the horizontal double wall tube 121; Method for forming artificial wind-blood paper 200 comprising the step of forming a planting layer 160 on the top of the blood-blooded upper connection layer (150). The method of claim 4, wherein The planting layer 160 is formed of a yarn, sand loam stacked at a certain height on the top of the yarn and crushed stone 152 stacked on the sand loaf at a predetermined height, the crushed stone 152 is 1 to Artificial wind-blood paper 200 composition method characterized in that it has a diameter of 3cm. The method of claim 4, wherein The planting sublayer 160 is formed by stacking the mixed yarns, sand loam and horticultural soils mixed at a predetermined ratio, and the horticultural soils are made of pit moss, perlite, stones, and peat mixed at a predetermined ratio. How to create a wind blood (200). The method of claim 4, wherein In the step of forming the wind blood connection upper layer 150, Outside the flagstone layer (141) and the gravel layer, a pair of vertical stones and the topography disposed on the vertical stone, characterized in that the artificial wind-blood (200) composition method. The method according to claim 1 or 4, The horizontal double wall tube 121 of the wind blood central layer 120 has a diameter of 25 to 40 cm, and the diameter of the vent 121-1 of the horizontal double wall tube 121 is 5 to 25 mm. Artificial wind-blood (200) composition method. The method according to claim 1 or 4, Amber stone 122 of the blood-blooded central layer 120 has a diameter of 15 to 35 cm, night gravel 123 has a diameter of 2.5 to 12.5 cm, 50 to 70 parts by weight of the amber stone (122) artificial rubbing paper (200) composition method, characterized in that for mixing 30 to 50 parts by weight of the night gravel (123). The method according to claim 1 or 4, The vertical double wall pipe 131 and the side double wall pipe 132 of the wind blood connection lower layer 130 have a diameter of 20 to 30 cm, and the air vents 131-of the vertical double wall pipe 131 and the side double wall pipe 132. 1, 132-1) diameter is 5 to 25mm artificial wind paper (200) composition method characterized in that. The method according to claim 1 or 4, Amber stone 133 of the bleeding connection lower layer 130 has a diameter of 5 to 20 cm, night gravel 134 has a diameter of 2 to 6 cm, 50 to 70 parts by weight of the amber stone (133) artificial pelagic blood (200) composition method, characterized in that for mixing 30 to 50 parts by weight of the night gravel (134). 7. The method according to claim 1 or 6, The planting layer 160 is formed by mixing 30 to 40 parts by weight of martha, 30 to 40 parts by weight of sandy loam, and 10 to 30 parts by weight of horticultural soil, wherein the horticultural soil is peat moss, perlite, stones, and peat 5: Artificial wind-blood (200) composition method characterized in that the mixture is made of 3: 2: 1 ratio. In the center region where the inclined surface 110 is formed at an angle with respect to the ground surface, a horizontal double wall pipe 121 having a plurality of vent holes 121-1 having a predetermined diameter is disposed in parallel to the ground surface, and outside the horizontal double wall pipe 121. The amber blood 122 and the night gravel 123 on the side is mixed and stacked in a proportion of the blood-blooded central layer 120, The vertical double wall pipe 131 is formed above the central blood layer 120 and has a plurality of vent holes 131-1 having a predetermined diameter perpendicular to the horizontal double wall pipe 121, and the horizontal double wall pipe 121. Side double wall pipe 132 is inclined and formed with a plurality of vent holes (132-1) of a predetermined diameter is disposed, amber stone 133 and chestnut gravel (134) on the outer surface of the vertical double wall pipe 131 and the side double wall pipe 132 ) Is mixed and laminated in a certain proportion of the wind blood connection lower layer 130, It is formed on the top of the blood flow connecting lower layer 130, the vertical double wall tube 131 and the side double wall tube 132, respectively, the flagstone layer 141, amber, chestnut gravel and martha mixed in a certain ratio 1 gravel layer 142 alternately stacked in the blood-blooded connection middle layer 140, The second gravel layer 151 is formed on the wind-blood connection middle layer 140, the night gravel, martha, and sandy loam are mixed at a predetermined ratio, and the crushed stone 152 is stacked on the second gravel layer 151. Wind blood connection upper layer 150, Formed on top of the wind-blood connection upper layer 150, and mixed with a certain ratio of mass, sandy loam and horticultural soil are stacked, the horticultural soil is a planting sublayer consisting of peat moss, perlite, stones, and peat mixed at a predetermined ratio ( Artificial wind-blood paper 200, including. The method of claim 13, Amber stone of the bleeding connection middle layer 140 has a diameter of 2.5 to 12.5cm, the night gravel has a diameter of 2 to 6cm, the mass has a diameter of 1 to 6mm, 20 to 40 parts by weight of the amber stone, 30 to 50 parts by weight of the night gravel, and 20 to 40 parts by weight of the martha is artificial wind paper 200, characterized in that to form a first gravel layer (142). The method of claim 13, The crushed stone 152 of the bleeding connection upper layer 150 has a diameter of 50 to 110 cm, 30 to 50 parts by weight of the night gravel, 40 to 60 parts by weight of the yarn and sand loam 5 to 15 parts by weight of the mixed Artificial gravel 200, characterized in that to form a gravel layer (151). In the center region where the inclined surface 110 is formed at an angle with respect to the ground surface, a horizontal double wall pipe 121 having a plurality of vent holes 121-1 having a predetermined diameter is disposed in parallel to the ground surface, and outside the horizontal double wall pipe 121. The amber blood 122 and the night gravel 123 on the side is mixed and stacked in a proportion of the blood-blooded central layer 120, The vertical double wall pipe 131 is formed above the central blood layer 120 and has a plurality of vent holes 131-1 having a predetermined diameter perpendicular to the horizontal double wall pipe 121, and the horizontal double wall pipe 121. Side double wall pipe 132 is inclined and formed with a plurality of vent holes (132-1) of a predetermined diameter is disposed, amber stone 133 and chestnut gravel (134) on the outer surface of the vertical double wall pipe 131 and the side double wall pipe 132 ) Is mixed and laminated in a certain proportion of the wind blood connection lower layer 130, The vertical double wall pipe 131 is formed above the central blood layer 120 and has a plurality of vent holes 131-1 having a predetermined diameter perpendicular to the horizontal double wall pipe 121, and the horizontal double wall pipe 121. Side double wall pipe 132 is inclined and formed with a plurality of vent holes (132-1) of a predetermined diameter is disposed, amber stone 133 and chestnut gravel (134) on the outer surface of the vertical double wall pipe 131 and the side double wall pipe 132 ) Is mixed and laminated in a certain proportion of the wind blood connection lower layer 130, The gravel layer is formed on the upper part of the wind-blood connection lower layer 130, and communicates with the vertical double wall pipe 131 and the side double wall pipe 132, respectively, and the flagstone layer 141 and the amber stone, chestnut gravel and martha are mixed in a constant ratio. Alternately stacked, the alternating stacking flagstone layer 141 and the gravel layer outside the wind-blooded connection upper layer 150 having a predetermined shape air passage, A blowing unit 170 disposed at one end of the horizontal double wall tube 121 of the wind blood central layer 120 to communicate with the horizontal double wall tube 121; Artificial wind-blood paper (200) comprising a planting layer 160 formed on the top of the blood-connected upper layer (150). 17. The method of claim 16, The planting layer 160 is formed of a yarn, sand loam stacked at a certain height on the top of the yarn and crushed stone 152 stacked on the sand loaf at a predetermined height, the crushed stone 152 is 1 to Artificial wind-blood paper 200, characterized in that having a diameter of 3cm. 17. The method of claim 16, The planting layer 160 is formed by stacking the mixed yarns, sand loam and horticultural soils mixed at a predetermined ratio, and the horticultural soils are made of pit moss, perlite, stones, and peat mixed at a predetermined ratio. Ruin blood (200). 17. The method of claim 16, A pair of vertical stones and a top stone are formed outside the flagstone layer 141 and the gravel layer which are alternately stacked in the upper blood layer connecting upper layer 150 to form the air passage. Artificial wind blood (200). The method according to claim 13 or 16, The horizontal double wall tube 121 of the wind blood central layer 120 has a diameter of 25 to 40 cm, and the diameter of the vent 121-1 of the horizontal double wall tube 121 is 5 to 25 mm. Artificial wind blood (200). The method according to claim 13 or 16, Amber stone 122 of the blood-blooded central layer 120 has a diameter of 15 to 35 cm, night gravel 123 has a diameter of 2.5 to 12.5 cm, 50 to 70 parts by weight of the amber stone (122) artificial rubbing paper (200), characterized in that to mix 30 to 50 parts by weight of the night gravel (123). The method according to claim 13 or 16, The vertical double wall pipe 131 and the side double wall pipe 132 of the wind blood connection lower layer 130 have a diameter of 20 to 30 cm, and the air vents 131-of the vertical double wall pipe 131 and the side double wall pipe 132. 1, 132-1) diameter of the artificial wind paper 200, characterized in that 5 to 25mm. The method according to claim 13 or 16, Amber stone 133 of the bleeding connection lower layer 130 has a diameter of 5 to 20 cm, night gravel 134 has a diameter of 2 to 6 cm, 50 to 70 parts by weight of the amber stone (133) artificial rubbing paper (200), characterized in that to mix 30 to 50 parts by weight of the night gravel (134). The method according to claim 13 or 16, The planting layer 160 is formed by mixing 30 to 40 parts by weight of martha, 30 to 40 parts by weight of sandy loam, and 10 to 30 parts by weight of horticultural soil, wherein the horticultural soil is peat moss, perlite, stones, and peat 5: Artificial wind-blood paper 200, characterized in that the mixture is made of 3: 2: 1 ratio.

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