KR20150134255A - The planting construction structure and method to manufacture that - Google Patents

Abstract

The present invention relates to a construction structure in which plants can grow and a method for constructing the same wherein plants can be grown on the whole structure through a soil layer attached on the outside of the structure and a growth environment can be half-permanently maintained by preventing the soil layer from being rotten and lost. The construction structure comprises: an artificial structure for functioning as an internal support for growth of plants; a structure protection layer for covering the outside of the artificial structure and protecting the artificial structure; the soil layer attached and dried to prevent a soil mixture from sliding down and to cover the outside of the structure protection layer, and providing a vegetation base needed for growth of the plants; and the plants planted and grown on the soil layer.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plant construction method and a construction method thereof,

The present invention relates to an architectural structure capable of growing plants and a method of constructing the same. More particularly, the present invention relates to an architectural structure and a method of constructing the same, It is possible to sustain the growth environment by allowing plants to grow by planting the whole structure at the same time through the attached and integrated soil layer and preventing the soil layer from being rotten and not being lost.

Typical urban buildings are constructed using a variety of materials such as concrete, steel, sandwich panels, and wood. However, these structures have disadvantages that plants can not be planted. Especially in the vertical plane, recently, they are attempting to record a variety of urban scenes such as rooftop and wall greening for aesthetic effect and energy reduction.

Urban artificial ground greening has been recognized as a concept of planar greening after the cultivation of a soil layer on artificial ground. However, in order to secure more green space on natural ground or artificial ground in urban areas, It will be more efficient and will enhance the beauty of the city. The necessity of a stereoscopic recording system in which such a conventional planar recording system is improved can be understood by anyone.

Conventional stereoscopic buildings are mainly constructed by fixing a vegetation base such as a vegetation mat to a frame having a predetermined shape and planting plants or seeds of plants on a vegetation base such as a vegetation mat In this connection, the applicant of the present invention has proposed a method of controlling the height of a vertical pillar structure using a vegetation base, a patent application No. 10-2009-12378 entitled "Recording Wall", a utility model registration application No. 20-2007-0020056 " Registration Application No. 20-2007-0020055 "Recording apparatus of road median separator using vegetation-based body"

However, in the case of the structure recording apparatus such as conventional stereoscopic buildings, a separate frame is required, and a vegetation mat such as a vegetation mat must be provided. Even if the foundation providing a complete vegetation base such as the product name "mural water" made by the method of 0807285 is very effective for the growth of the plant, it can not be integrated with the structure or the structure because it is applied to the structure or the structure, There are many problems in the growth of plants and plants, and there is a disadvantage that they are not permanent.

Also, it has been attempted to construct an outer wall surface having a plurality of through holes through a coarse installation so as to be spaced apart from the structure, to fill the soil between the outer wall surface and the structure, and to plant the plants through the through hole of the outer wall surface. It is possible to construct the outer wall surface only when the shape of the structure is linear, and when the structure has a curved shape or an overhang section such as an egg shape or a mushroom shape, the outer construction of the outer wall surface itself is impossible, .

Also, the soil applied here is not attached to the structure but is filled in the space between the structure and the outer wall surface, and when the sinking occurs downward over time, or when the outer wall is damaged or the water supply is excessive, It is impossible to sustain the vegetation environment of the plant because of the characteristic of being lost together with water. In addition, vegetation itself is not possible at the upper part of the structure. When the plant is damaged in the middle part of the outer wall of the structure, It is impossible to repair the middle part of the structure because the plant is removed and then the outer wall surface is newly constructed through the mooring and the soil is filled between the structure and the outer wall surface and the plant seedlings are planted again.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method for growing a plant in an entire structure through a soil layer integrated with the structure regardless of the shape of the structure by allowing the soil layer to adhere to the outer surface of the structure, The object of the present invention is to provide an architectural structure and a method of constructing the same that can maintain the growth environment semi-permanently so that the soil layer does not rot and is not lost.

In order to solve such a problem, a structure such as a building in which plants can grow according to the present invention includes an artificial structure serving as an inner support for growing plants; A structure protection layer covering the outer surface of the artificial structure to protect the artificial structure; A soil layer providing a foundation for vegetation necessary for plant growth by integrating and integrating the soil mixture so as to surround the outer surface of the structure protection layer so that the soil mixture does not flow downward; A soil protection layer positioned to surround an outer surface of the soil layer in a state where a plurality of vegetation holes communicating with the soil layer are formed and integrated with the soil layer to protect the soil layer; And plants planted and grown in the soil layer.

Preferably, the artificial structure may be a linear building / civil structure, a curved building / civil engineering structure, or an artificial rock structure.

Advantageously, the artificial structure may include an overhang section.

Preferably, the structure protection layer is made of a material selected from concrete, steel plate, rubber, and fiber mixed with a waterproofing agent and an antifogging agent. When the structure protection layer is bonded to and adhered to the artificial structure, Can be provided.

Preferably, when the artificial structure is formed of an artificial rock structure, the artificial structure and the structure protection layer may have a plurality of through holes so that the ground sheet and the soil layer communicate with each other.

Preferably, the soil mixture comprises a soil of natural or artificial soil providing the vegetation base of the plant; And a member having compatibility with weatherability; It can be used semi-permanently because it does not rot even after a long period of time after being attached to the structure, and at the same time, the materials constituting the soil mixture can be combined and firmly supported.

Preferably, the member having the above-described weatherability is composed of a fiber material made of synthetic fiber, waste fiber, or low melting point fiber material; An adhesive containing hotmelt may be further added to the soil mixture.

Preferably, a supporting structure composed of a reinforcing bar or mesh may be fixed to the outside of the structure so as to support the soil mixture adhered to the structure without being hammered downward.

Preferably, the soil protection layer may be made of a material selected from among concrete, steel, ceramic, synthetic resin, fiber, rubber, felt, and cushion so as to provide semi-permanent solidity.

The method may further include a first connecting layer positioned in multiple stages between the structure protection layer and the soil layer to integrate the structure protection layer and the soil layer.

The method may further include a second connection layer positioned in multiple stages between the soil layer and the soil protection layer to integrate the soil layer and the soil protection layer with the structure.

Preferably, the first connection layer is formed by mixing a material of the structure protection layer and a soil mixture constituting the soil layer, and a region near the soil layer is formed such that the content of the soil mixture is less than the material content of the structure protection layer The material protection layer is formed so that the material content of the structure protection layer gradually increases from the region close to the soil layer to the structure protection layer, so that the structure protection layer and the soil layer can be integrated.

Preferably, the second connection layer is formed by mixing a soil mixture constituting the soil layer with a material of the soil protection layer, and a region near the soil layer is composed of a mixture of the soil composition and the soil protection layer, The soil layer and the soil protection layer may be integrated with each other so that the material content of the soil protection layer gradually increases from the portion closer to the soil layer to the soil protection layer.

Preferably, when the soil protection layer is made of a material having no bonding force, the adhesive may be mixed with the material of the soil protection layer to have a self-bonding force, or a hot melt or LMP And may be configured to have a bonding force by mixing and heating and pressing.

Preferably, the plurality of fixing pins are fixed to the artificial structure or the structure protection layer at a predetermined interval, respectively; Wherein the soil protection layer is made of a flexible outer material, and a connection member is net-shaped between the fixing pins at the outside of the soil protection layer so as to support the soil protection layer as the outer covering and the soil layer .

Preferably, the outer envelope is made of a nonwoven fabric, a felt, a rubber chip, or a cushioning material, and is thermally fused or attached to the material of the soil layer by heating or pressurization and integrated with each other; A plurality of vegetation holes may be formed before the outer layer is covered on the outer surface of the soil layer or a plurality of vegetation holes may be formed after the outer layer is covered on the outer surface of the soil layer.

According to another aspect of the present invention, there is provided a method of constructing a plant in which a plant can grow, comprising: forming a structure protective layer to surround an outer surface of an artificial structure serving as an inner support for growing a plant; Mixing soil with natural soil or artificial soil providing a vegetation base of plants with a member having weatherability and binding properties together with water to form a soil mixture; Attaching the soil mixture so as to surround the outer surface of the structure protection layer, and drying the soil mixture to form a soil layer; Forming a soil protection layer on the surface of the soil layer; And planting the plant toward the soil layer outside the soil protection layer.

Preferably, the structure protection layer, the soil mixture constituting the soil layer, and the supporting structure made of reinforcing bars or wire mesh are installed in the artificial structure so that the soil protection layer does not flow downward before the formation of the structure protection layer Step < / RTI >

Preferably, when the structure protection layer is made of a concrete material, the waterproofing material and the covering material are mixed to prevent the secondary damage by the plant when the structure protection layer is sprayed or plastered, and the artificial structure is mixed with the concrete wall The method may further include the step of forming a plurality of water holes in the artificial structure and the structure protection layer so as to communicate with the ground sheet.

Preferably, when the soil protection layer is made of a concrete material, a plurality of separate vegetation forming bases are placed above the soil layer when the soil protection layer is sprayed or plastered, and the soil protection layer is formed, And forming a plurality of vegetation holes simultaneously with the formation of the layer.

Preferably, when the soil protection layer is made of a flexible outer covering, it may further include a step of perforating a plurality of vegetation holes prior to the formation of the soil protection layer, or a plurality of vegetation holes after forming the soil protection layer .

Preferably, the soil mixture is sprayed onto the surface of the structure protection layer, and the soil mixture is heated at the time of spraying of the soil mixture to squeeze the soil at a high temperature and a high pressure, And further increasing the supporting force while the fibrous material is fusion-bonded with the other composition.

Preferably, a plurality of fixing pins are fixed to the artificial structure or the structure protecting layer at regular intervals, respectively. The soil protection layer may be made of a flexible outer layer, and the outer layer may be adhered with an eco-friendly adhesive at the time when the soil mixture is dried to form a soil layer. Alternatively, the soil layer may be wrapped with the outer layer to generate a high temperature steam iron, Melting and fusing the fibers constituting the outer shell and the low melting point fiber material of the soil layer located inside the outer fibers by heating and pressing using a roller; And supporting the soil protection layer and the soil layer as the outer covering by braiding a connecting member made of a string or a wire mesh in a net shape between the fixing pin and the outside of the soil protection layer.

Preferably, the soil mixture constituting the soil layer comprises 1 to 80 parts by weight of a fibrous material selected from the group consisting of PE fiber, waste fiber and LM fiber having weather resistance and bonding properties with respect to 100 parts by weight of the soil constituting the main material; 1 to 5 parts by weight of an adhesive; 10-30 parts by weight of vegetable fiber material of peat moss or coco peat; 10 to 30 parts by weight of a mineral selected from perlite, vermiculite and volcanic stone; 0.1 to 3 parts by weight of a moisturizing agent and a slow-release fertilizer; And 1 to 30 parts by weight of water.

The present invention attaches a soil mixture including a member having weatherability and bonding property to the outer surface of a man-made structure such as a structure, a building or the like, a retaining wall, or a fence, and therefore, when such a soil mixture adheres to the outer surface of the structure, It is possible to form a semi-permanent soil layer because it does not rot if the soil mixture is adhered to the structure and remains in an integrated state for a long time. If the seed is directly sown or planted in such a soil layer, It has the same environment as the one grown on the ground, and the growth of the plant can be made more active without the restriction of the root by the specific space or the spatial limitation, and the plant growth environment can be maintained without the separate framework for preserving the soil layer. It will be semi-permanent.

Since the soil layer is adhered to the soil without flowing out from the structure, it can be constructed in any form, and the structure may be linear or curved, including an overhang section such as an egg shape or a mushroom shape, It is possible to construct even a place with severe irregularities and automation using a machine, so that the construction is very easy and simple, and the cost can be greatly reduced. In addition, when the plant is damaged or damaged, it is possible to easily replace the soil and the plant at the site.

In addition, when the structure protection layer for protecting the artificial structure is made of concrete, fiber, rubber chip, etc., it is possible to keep the artificial structure almost permanently when it is covered with the artificial structure. In the case of the artificial structure, It is possible to easily integrate the artificial structure with the artificial structure at a low cost without the need for a separate frame for attaching the various blocks or the like, and it is possible to achieve the effect of the insulation and humidification of the artificial structure only by the recording construction according to the present invention without the artificial heater or the humidifier Can be obtained at the same time.

In addition, when spraying or plastering for the formation of a protective layer for the structure, it starts with the protective layer of the structure, gradually increases the content of the soil mixture to form a certain period soil layer, and then gradually increases from the region close to the soil layer to the soil protection layer If the content of the mixture of the soil mixture and the soil protection layer is adjusted so that the content of the soil protection layer mixture is higher than that of the soil protection layer mixture, a gradual connection layer may be formed between the soil layer and the soil protection layer. And the soil protection layer can be integrated with the artificial structure, thereby providing a more stable vegetation environment.

In addition, the material of the structure protection layer and the soil protection layer may be different. First, the protection layer of the structure starts with concrete, is sprayed on the building or is applied to the building, and when a certain point elapses, the amount of the soil mixture is gradually increased, If the soil protection layer is finished using fiber material or rubber chip, the area close to the soil layer becomes larger than the content of the soil protection layer mixture and becomes closer to the soil protection layer than the soil protection layer If the content of the soil mixture and the fiber or rubber chips are adjusted so that the content of the mixture of fibers or rubber chips is higher and the soil protection layer is finished with a fiber or rubber chip after a certain point, The soil protection layer can be integrated with the artificial structure, so that a more stable vegetation environment can be maintained. It is possible that the benefits can do.

Further, even if the soil protection layer is made of outer cloth such as nonwoven fabric, felt, rubber chip, cushioning material, etc., the soil layer and the soil protection layer can be integrated. In addition, when a net-like connecting member is added to the outside of the soil protection layer, it is possible to maintain stronger support and bonding force, so that the soil layer and the soil protection layer are frozen in winter and deformed in volume, Or deformation occurs or the pressure is applied to the outward direction of the soil layer due to the growth of stem or roots of the plant, the outer layer is not broken by the elasticity of the outer layer constituting the soil protection layer and the supporting force of the connecting member, There is an advantage in that the plant can be planted immediately after removing the plant of the part without removing the soil protection layer even at the time of maintenance.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a structure in which a plant growable according to the present invention is formed into an egg shape.
Fig. 2 is a schematic view showing a structure in which a plant growable according to the present invention is formed into a mushroom shape.
Fig. 3 is a schematic view showing a structure in which a plant growable according to the present invention is formed by incision cancer slopes. Fig.
Fig. 4 is a cross-sectional view of a main part of a structure in which a plant according to the present invention can grow. Fig.
FIG. 5 is an explanatory view of a repair and a supplementation of a plant in which plants can grow according to the present invention. FIG.
Fig. 6 is an example of a case where a structure protection layer, a soil layer, and a soil protection layer are integrated into a structure in which plants can grow according to the present invention.
Figure 7 is a flow chart of the construction of a plant in which plants can grow according to the present invention.
8 is a view showing a construction procedure in the case where an outer covering is applied to a soil protective layer in a structure in which plants can grow according to the present invention.
Fig. 9 is a view showing a construction process in the case where an outer covering is applied to a soil protective layer in a structure in which plants can grow according to the present invention. Fig.
Fig. 10 is a cross-sectional view of the construction site of the construction site constructed according to the procedure of Figs. 8 and 9. Fig.
Fig. 11 is a perspective view of a constriction site constructed according to the procedure of Figs. 8 and 9. Fig.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the attached drawings.

FIG. 1 is a view showing a structure in which a plant capable of growing according to the present invention is formed into an egg shape, FIG. 2 is a view showing a structure in which a plant capable of growing according to the present invention is made into a mushroom shape, Fig. 4 is a cross-sectional view of a main part of a plant in which the plant according to the present invention can grow, and Fig. 5 is a cross-sectional view of a plant according to the present invention in which the plant grows 6 is a view showing an example in which a structure protection layer, a soil layer and a soil protection layer are integrated with a plant in which plants can grow according to the present invention, and Fig. 7 is a view Is a construction sequence diagram of a structure in which plants can grow.

In FIGS. 1 to 3, 5 and 6, support structures such as reinforcing bars are omitted so that the cross section can be more clearly displayed.

The present invention relates to a structure in which plants can grow, and as shown in the drawings, a structure such as a building, a three-dimensional structure, a retaining wall, a fence, a straight building or civil structure, a curved building or a civil engineering structure, (10) such as a rock structure, and can be applied to any structure irrespective of the shape of the artificial structure (10), and it can be used as an inner support body for growing plants A soil mixture 21 is attached so as to surround the outer surface of the structure protection layer 15 so as to protect the artificial structure 10 by covering the outer surface of the artificial structure 10 with the structure protection layer 15 And the soil layer 20 is formed. In this soil layer 20, plant seeds are sown or plant seedlings are planted to allow the plant to grow.

The structure protection layer 15 formed on the surface of the artificial structure 10 is basically composed of a concrete material mixed with a waterproofing agent and an antifogging agent to prevent moisture from being absorbed from the soil layer 20 toward the artificial structure 10 It is preferable that the roots of the plant 10 are constructed so as to prevent the root of the plant from approaching toward the artificial structure 10, but it may be constituted by an iron plate or a rubber or fiber mixed with a water- , It protects the artificial structure 10 and is designed to perform waterproofing and anticorrosion functions.

When the material of the structure protective layer 15 is made of a material having no bonding force such as rubber or fiber, a strong adhesive may be mixed to have a self-bonding force, a hot melt or LMP may be mixed, So that a bonding force can be given.

The artificial structure 10 and the structure protection layer 15 are provided with a plurality of water holes 16 so that the ground sheet and the soil layer 20 are communicated with each other in the case where the artificial structure 10 is formed of an artificial rock structure such as a rock cut- Can be formed.

The soil mixture 21 constituting the soil layer 20 is mixed with fibers such as a binder serving as a binder and an adhesive such as hot melts and the like so that the soil mixture 20 itself has a binding force. Therefore, whether the shape of the artificial structure 10 is a linear civil structure or a curved civil engineering structure Whether a structure or an artificial rock structure, such as an egg shape or a mushroom shape, is attached to the outer surface of the structure by a method such as spraying or plastering without a separate form, regardless of the overhang section, , And this soil mixture becomes a semi-permanent vegetation base with its own binding force.

The soil mixture 21 can assist the soil mixture 21 in an initial state attached to the structure protection layer 15 so that the soil mixture 21 does not fall down due to the load and the structure protection layer 15 and the soil layer 20 ), A support structure 40 made of a reinforcing bar or net can be fixed to the outside of the structure protection layer 15 so that the soil protection layer 30 to be described later can be semi-permanently supported.

The soil protection layer 30 may be coated on the outer surface of the soil layer 20 so as to maintain the functionality as a semi-permanent structure. In the soil protection layer 30, seeds of plants may be sown or plants may be planted A plurality of vegetation holes 31 communicating with the soil layer 20 are formed.

The soil protection layer 30 should be designed to have semi-permanent robustness sufficient to support the plant and soil even if the plant is fully activated and the plant grows.

The soil protection layer may be made of a concrete material, a steel material, a ceramic material, a synthetic resin material, a fiber material, a rubber chip, a felt, and a cushioning material so as to provide semi-permanent solidity.

The soil protection layer 30 made of the above material can be attached to the outside of the soil layer 20 and the synthetic resin material such as concrete and PE can be treated directly on the surface of the soil layer 20. Concrete can be either 쑈 crite, bit light, or plastered, which can spray uncured concrete. The synthetic resin material can be formed by applying directly to the surface as if it is painted in a molten state and hardening it, or by processing the surface of a material such as PE fiber with heat or using an environmentally friendly adhesive.

When the soil protection layer 30 is made of a concrete material, a plurality of separate vegetation forming frames (not shown) are placed above the soil layer 20 when the soil protection layer 30 is sprayed or plastered, 30 to form a plurality of vegetation holes 31 at the same time as the soil protection layer 30 is formed.

When the soil protection layer 30 is made of a material having no bonding force such as a fiber material, a felt, a rubber chip, a cushion material, etc., a strong adhesive may be mixed with the material of the soil protection layer 30 so as to have a self- And the hot-melt or LMP may be mixed with the material of the soil-protection layer 30 so as to have a bonding force by heating and pressurization in a post-process.

The soil mixture 21 comprises soil such as natural soils or artificial soils that provide a vegetation base of the plant and members such as fibers having weatherability and bonding ability, wherein the soil mixture 21 comprises a structure protective layer 15 ), It can be used semi-permanently because it does not rot even after a long period of time through a member such as a fiber having weatherability and binding property, and is formed so as to firmly support the materials constituting the soil mixture.

The member having weatherability and bonding property can be composed of synthetic fiber, waste fiber, or low melting point fiber material, and in addition, an adhesive such as hot melt can be added to the soil mixture to improve the bonding property between the materials .

At this time, a member such as PE fiber, waste fiber, and LM fiber having weather resistance and bonding property with respect to 100 parts by weight of the soil constituting the main material is added in an amount of about 1 to 80 parts by weight to maintain the soil in an undisturbed state, If the content of the member having weatherability and bonding property exceeds 80 parts by weight, the bibbing force or water retaining ability is lowered and the growth of the plant is inhibited. If the content is less than 1 part by weight, the function can not be exerted. In addition, a member such as a fiber having weather resistance and bonding property is naturally melted in the heat curing step after covering with the soil protection layer 30, and firmly bonds with other surrounding materials.

However, in plant growth, soil is a plant's supporting role and the supply of biomass is important. In order to support it, a lot of fiber can be used, but there may be a disadvantage that it has a limitation of bobbin power and water holding capacity. Permanent maintenance can cause problems.

The adhesive such as hot melt is a component for strengthening the bonding force by attaching various elements constituting the soil layer 20 in the heat curing step. The adhesive such as hot melt is added in 1 to 5 parts by weight with respect to 100 parts by weight of the soil It is preferable to add the materials within a range that does not interfere with the vegetation environment of the plants while helping to bond the materials.

In addition, vegetable fiber materials such as peat moss or coco peat are added to the soil mixture 21 in an amount of 10 to 30 parts by weight based on 100 parts by weight of the soil, and minerals such as pearlite, vermiculite and volcanic stone can be added in an amount of 10 to 30 parts by weight Water-moisturizing agent and slow-releasing fertilizer may be added in an amount of from 0.1 to 3 parts by weight to improve the vegetation environment of the plant, and it is obvious that water should be added in an amount of 1 to 30 parts by weight to have viscosity.

The soil mixture 21 may also include a nutrient-based vegetative substrate such as sewage sludge instead of soil.

According to the present invention, since the soil layer 20 itself is firmly attached to the structure protection layer 15 on the surface of the artificial structure 10, the vegetation hole 31 formed in the soil protection layer 30 can be arranged in any direction The soil layer 20 is not leaked to the outside.

Meanwhile, although not shown in the drawing, irrigation water is required for continuous growth of the soil in the soil layer 20 formed on the structure protection layer 15 on the surface of the artificial structure 10, The wick can be connected to the soil layer 20 or the water of the water tank can be gradually supplied to the soil layer 20 by the capillary phenomenon of the concrete. Since the matters related to such irrigation water are general matters, the description and description will be omitted.

Since the moisture remaining in the soil layer 20 freezes during the winter season, the volume of the soil layer 20 is increased and the soil layer 20 or the soil protection layer 30 is cracked or cracked. The soil layer 20 may be provided with a hot wire or a heating wire so as to prevent the frost wave during the winter season, although not shown in the drawings.

The structure of the plant according to the present invention constituted as described above is such that the soil mixture 21 having its own binding force is attached to the outer surface of the artificial structure 10 by spraying or by a method such as plastering, So that the soil mixture 21 can be easily handled as an artificial structure regardless of whether the artificial structure 10 is linear, curved, egg-shaped or mushroom-shaped, including an overhang section. (10).

The soil mixture 21 attached to the outer surface of the artificial structure 10 is dried to form a soil layer 20. The seeds of the plant are sown or planted on the soil layer 20, It becomes possible to implement a growing structure.

Since the soil mixture 21 constituting the soil layer 20 includes a member such as fiber having weatherability and bonding property, it is possible to strengthen the bonding force by bonding various materials constituting the soil mixture 21 together, 20 is attached to the artificial structure 10, the soil layer 20 does not decay even after a long period of time has elapsed, so that semi-permanent use becomes possible. The state of being attached to the artificial structure 10 and the supporting structure 40 by the viscosity of the soil mixture 21 and the bonding force of the materials can be maintained without being stuck in the downward direction.

It is possible to realize a structure in which the plant can grow by simply forming the soil layer 20 on the surface of the artificial structure 10, but in order to improve the functionality as a permanent structure, concrete or the like is laid outside the soil layer 20, Layer 30 can be formed and the soil protection layer 30 can cover the outside of the soil layer 20 to prevent the soil layer 20 from being lost due to wind and rain and the soil moisture can easily flow out into the air or evaporate It is possible to permanently preserve the vegetation environment of the plant.

When the soil protection layer 30 is made of concrete, it is possible to form a large number of vegetation holes 31 communicating with the soil layer 20 when the concrete is covered. Through the vegetation holes 31, , Planting of plant seedlings can result in more active growth under the same conditions as plants growing on the ground.

When the soil protection layer 30 is formed by fusing PE fibers or the like, it can be constructed without a separate vegetation hole 31. If a plant seed such as a shrub or grass is sprayed on the soil protection layer 30, The plant may continue to grow as its roots pass through the soil protection layer 30 and become lodged on the soil side 20.

The soil protection layer 30 is preferably made of concrete fiber, PE fiber or the like so that it is integrated with the soil layer 20 as much as possible. The concrete can be either a 쑈-crite type or a bit light type in which uncured concrete is sprayed. The synthetic resin material can be formed by directly applying the resin material to the surface as if it is painted or by hardening it, or by treating the material such as the PE fiber with heat and fusing it with heat or using an environmentally friendly adhesive.

Therefore, plants which can be applied to the present invention can be any plant such as a superpowder or a leafy vegetable, but a shrub that can live permanently is suitable, and an azalea, a snow lily, a boxwood, It becomes possible to apply a plant having a long back and long life span.

During the winter season, the water remaining in the soil layer 20 is frozen, so that the volume of the soil layer 20 and the soil protection layer 30 can be destroyed. Thus, after planting the plant in the vegetation hole 31, The soil layer 20 may be provided with a heat line or a heating line to protect the plant until the plant grows and stabilizes when the plant grows. Plants can grow smoothly regardless of the external temperature, with the roots of the plants growing large and the roots of the plants firmly holding the soil layer (20) and the support structure (40).

According to the present invention, when the soil layer 20 and the soil protection layer 30 are formed on the outer surface of the artificial structure 10 and the plants such as shrubs are planted, the root volume of the plant is increased 3 to 5 years, (30) breaks or bursts, and after that, if the plant is to be replaced or if the plant dies for some reason, maintenance and supplementation is required at this site.

At this time, scrape off the damaged soil in the same way, fill in the new soil, plant the seedlings, and then manage the same as the other parts.

The soil protection layer 30 is attached to the outer surface of the structure protection layer 15 after the structure protection layer 15 is formed on the outer surface of the artificial structure 10 and the soil protection layer 30 is formed on the outer surface of the soil layer 20, The structure protection layer 15, the soil layer 20, and the soil protection layer 30 can be separated from each other without being integrated due to the heterogeneity of the artificial structure 10, the structure layer 20, and the soil protection layer 30.

The first connection layer 60 in which the material of the structure protection layer 15 and the soil mixture constituting the soil layer 20 are mixed is interposed between the structure protection layer 15 and the soil layer 20 The structure protection layer 15 and the soil layer 20 are integrated and the soil mixture constituting the soil layer 20 and the material constituting the soil protection layer 30 are mixed between the soil layer 20 and the soil protection layer 30 So that the soil layer 20 and the soil protection layer 30 can be integrated with each other.

The mixture of the first connection layer 60 and the soil layer 20 is formed so that the content of the soil mixture is greater than the content of the structure protection layer 15, 15, the material content of the structure protection layer 15 is gradually increased more than the soil mixture, so that the structure protection layer 15 and the soil layer 20 are integrated. For example, when the first connecting layer 60 is composed of three layers, the soil layer 10 may be composed of 100 wt% of the soil mixture, and the first connecting layer 60, which is close to the soil layer 10, And 30% by weight of the material constituting the structure protective layer 15 at 70 wt%, and 50 wt% of the material constituting the structure protective layer 15 at 50 wt% of the soil mixture, And 30 wt% of the soil mixture to 70 wt% of the material constituting the structure protective layer 15.

The mixture of the second connection layer 60 'and the soil layer 20 is formed so that the content of the soil mixture is greater than that of the soil protection layer 30, So that the material content of the soil protection layer 30 becomes higher than the soil mixture gradually toward the layer 30 so that the soil layer 20 and the soil protection layer 30 are integrated. For example, when the connection layer 60 is composed of three layers, the soil layer 10 may be composed of 100 wt% of the soil mixture, and the layer of the connection layer 60 close to the soil layer 10 may be composed of 70 wt% And the middle layer is composed of 50wt% of the concrete mixture and the layer near the soil protection layer 30 is composed of 30wt% of the soil mixture and 70wt% of the concrete mixture, and the soil protection layer (30wt% 30) can be composed of 100 wt% of concrete mixture.

At this time, since a member such as PE fiber, waste fiber and LM fiber having weatherability and bonding property is added to the soil mixture, the structure protective layer 15, the first connection layer 60, the soil layer 20, (60 ') and a soil protection layer (30), and then mulching the soil protection layer (30) with a plastic or the like on a soil protection layer (30) by a subsequent process. When heat is applied by blowing steam or heat through a separate heating line, The structure layer 15, the first connection layer 60, the soil layer 20, the second connection layer 60 'and the soil protection layer 30 are firmly fixed to each other while the member having the applied weather resistance and bonding property melts. The artificial structure 10, the structure protection layer 15, the soil layer 20 and the soil protection layer 30 can be integrated with each other and the first connection layer 60 and the second connection layer 60 '), So that the growth of plants can be accomplished through the use of the soil mixture, and as the plants grow, Which it will be made continuous growth.

The structure protection layer 15 and the soil protection layer 30 may be made of the same material or different from each other. For example, the structure protection layer 15 may be made of a concrete material and sprayed onto the artificial structure 10 And the soil layer 20 is formed by gradually increasing the amount of the soil mixture when a certain point elapses. When the soil protection layer 30 is finished using a fiber material or a rubber chip, The content of the mixture of fibers or rubber chips is higher than that of the soil mixture as it goes from the region close to the soil layer 20 to the soil protection layer 30 as the content of the soil mixture becomes larger than the content of the mixture of the soil protection layer 30 And the soil protection layer 30 is finished with fibers or rubber chips after a certain point so that the structure protection layer 15, the soil layer 20 and the soil protection layer 30 are integrated with the artificial structure 10 I can do it. It is able to give a stable environment, vegetation composition.

The structure in which the plant according to the present invention grows can be utilized for covering the surface of the base structure 10 or can easily construct the three-dimensional structure having various shapes such as a post structure, an electric pole, an animal shape, It is obvious that it can be used for applications.

In the case where the artificial structure 10 is formed of an artificial rock structure such as a rock cutter or a stone cutter of a road, a plurality of water holes 16 are formed in the artificial structure 10 and the structure protection layer 15 so as to communicate with the ground. Water is discharged to the soil layer 20 and water can be spontaneously discharged.

FIGS. 8 to 11 illustrate another embodiment of the present invention, in which the shape of the soil protection layer 30 is maintained regardless of the climate change depending on the growth of the plant or the season to protect the soil layer 20 semi-permanently The layer 30 is made of an outer layer 35 made of a nonwoven fabric, a felt, a rubber chip or a cushioning material instead of a concrete layer. The outer layer 35 is integrated with the soil layer 20 through heating.

In addition, the following operations can be further performed to permanently protect the outer layer 35 covered with the soil layer 20 and integrated therewith.

A plurality of fixing pins 41 such as an anchor are fixed to the artificial structure 10 or the structure protection layer 15 at predetermined intervals and the reinforcing bars 41 are fixed between the structure protection layer 15 and the fixing pins 41, Or a wire mesh or the like is installed to form the supporting structure 40, and then the soil mixture 20 is formed by spraying the soil mixture 21.

The soil mixture 21 may be prepared in the same manner as in the embodiment of the present invention.

It is preferable that the thickness of the soil mixture 21 to be sprayed is about 5 to 30 cm so as to be able to plant shrubs and the like as well as the superpowders.

When the soil is heated to pressurize the soil mixture 21 at high temperature and high pressure, the fiber material in the soil mixture 21 melts and fuses with other surrounding compositions to function as a binder, so that the soil is entirely drained The adhesive agent adheres to the other composition through a specific adhesive property when the soil mixture 21 is sprayed, thereby firmly fixing the soil mixture 21 to the wall surface of the artificial structure 10. At this time, the adhesive may be an adhesive of a natural component which does not cause a problem to the plant or the environment, and the kind of the hot melt which does not harm the environment is not specifically limited. Also, since the soil layer 20 has a weather-resistant and bonding property such as the fibers contained in the soil mixture 21, the soil layer 20 does not rot at all even after a long period of time, and thus it is possible to provide a semi-permanent vegetation base.

When the soil layer 20 is completely dried or solidified to some extent, the outer layer 35 of the nonwoven fabric, the felt, the rubber chip, the cushioning material or the like can be attached to the outer wall of the soil by using an environmentally friendly adhesive, A nonwoven fabric, a felt, a rubber chip, a cushioning material or the like constituting the outer covering 35 and an adhesive such as a fiber material or a hotmelt of the soil layer 20 located in the inner layer 35 by heating and pressing them by using an iron or a roller generating high temperature and high pressure So that the outer covering 35 is not lifted even when the temperature changes according to the season, and it is possible to have flexibility that is not broken or torn even when it hits a dull structure or the like.

When the outer covering 35 is made of a rubber chip, it may be solidified through an adhesive.

A connecting member 43 such as a semi-permanent cord or a wire mesh is interposed between the respective fixing pins 41 so as to support the outer covering 35 more stably so as to form a net shape of diamond, triangle, Thereby fixing the outer shell 35 to the artificial structure 10 together with the life thereof.

Vegetation is planted in the state that the outer covering 35 is completely fixed, and the vegetation hole 31 is formed in the outer covering 35 for the planting material.

The vegetation holes 31 may be formed in advance by perforating the outer cloth 35 or may be formed in a post-process after the outer cloth 35 is fixed. A flower plant or a shrub is planted in each of the vegetation holes 31 You can do it by regularly managing it.

When the soil protection layer 30 is made of concrete, the moisture contained in the soil protection layer 30 is frozen during the winter season and cracks can be generated. When the soil protection layer 30 is covered with the outer covering 35), it is possible to fundamentally solve problems such as cracks occurring due to temperature changes that may occur when the soil protection layer (30) is composed of concrete, and cracks due to pressure applied to the outside as the plant roots grow In particular, it is possible to increase the binding force of the soil layer 30 within the soil protection layer 30 to create an environment in which the plants can live without permanently decaying. Also, as the roots of the plants grow and spread, It is possible to maintain the original functionality of protecting the soil layer 30 without tearing the outer layer 35 because the outer layer 35 is somewhat elastic.

In addition, even when water is supplied without planting the plant, the moss is naturally generated in the outer covering (35), and thus the moss structure can be produced.

In addition, when the soil protection layer 30 is made of concrete, the soil protection layer 30 itself can provide firmness, while the moisture inside the soil protection layer 30 is frozen during the winter season, A separate member such as a nonwoven fabric may be attached to the outside of the soil protection layer 30 or the soil protection layer 30 made of concrete may be protected through heating such as heat rays. It is obvious that concrete can be applied to the soil protection layer 30 in warmer regions.

10: artificial structure 15: structure protective layer
16: water hole 20: soil layer
21: soil mixture 30: soil protection layer
31: Vegetation Balls 35: Outer
40: support structure 41:
43: connecting member 60: first connecting layer
60 ': second connecting layer

Claims (24)

Artificial structures that serve as internal supports for plant growth;
A structure protection layer covering the outer surface of the artificial structure to protect the artificial structure;
A soil layer providing a foundation for vegetation necessary for plant growth by integrating and integrating the soil mixture so as to surround the outer surface of the structure protection layer so that the soil mixture does not flow downward;
A soil protection layer positioned to surround an outer surface of the soil layer in a state where a plurality of vegetation holes communicating with the soil layer are formed and integrated with the soil layer to protect the soil layer; And
An architectural structure in which plants including plants cultivated in the soil layer can grow. The method according to claim 1,
Wherein the artificial structure is made of a linear construction / civil structure, a curved construction / civil structure, or an artificial rock structure. 3. The method of claim 2,
Wherein the artificial structure includes an overhang section. The method according to claim 1,
The structure protection layer is made of a material selected from concrete, steel plate, rubber, and fiber mixed with a waterproofing agent and an antifogging agent. When the structure protection layer is bonded to the artificial structure, the waterproofing and antifogging function can be performed together with the protection of the artificial structure A building structure in which plants can grow. The method according to claim 1,
Wherein when the artificial structure is formed of an artificial rock structure, a plurality of water holes are formed in the artificial structure and the structure protection layer so that the ground floor and the soil layer communicate with each other. The method according to claim 1,
The soil mixture may contain,
Soils of natural or artificial soil providing the vegetation base of plants; And
A member having weather resistance and bonding properties;
Wherein the material is formed so as to be semi-permanently usable without deterioration even after a long period of time after being attached to the structure, and to firmly support the materials constituting the soil mixture. The method according to claim 6,
The member having weatherability and bonding property is made of a fiber material made of synthetic fiber, waste fiber, or low melting point fiber material;
Characterized in that the soil mixture further comprises an adhesive comprising hotmelt. The method according to claim 1,
Wherein a supporting structure composed of a reinforcing bar or a net is fixed to the outside of the structure so that the soil mixture adhered to the structure can be supported without being tilted downward. The method according to claim 1,
The soil protection layer is made of a material selected from a concrete material, a steel material, a ceramic material, a synthetic resin material, a fiber material, a rubber chip, a felt and a cushioning material so as to provide semi-permanent solidity. structure. The method according to claim 1,
And a first connection layer positioned at a plurality of stages between the structure protection layer and the soil layer to integrate the structure protection layer and the soil layer. The method according to claim 1,
Further comprising a second connecting layer positioned in multiple stages between the soil layer and the soil protection layer to integrate the soil layer and the soil protection layer with the structure. 11. The method of claim 10,
Wherein the first connection layer is formed by mixing a material of the structure protection layer and a soil mixture constituting the soil layer, and a region near the soil layer is formed so that the content of the soil mixture is greater than the material content of the structure protection layer, Wherein the structure protective layer is formed so that the material content of the structure protection layer gradually increases from the site close to the soil layer to the structure protection layer, so that the structure protection layer and the soil layer are integrated. 12. The method of claim 11,
Wherein the second connection layer is formed by mixing a soil mixture constituting the soil layer and a material of the soil protection layer, and a portion near the soil layer is formed so that the content of the soil mixture is greater than the material content of the soil protection layer, Characterized in that the material content of the soil protection layer is gradually increased from the soil close to the soil layer to the soil protection layer so that the soil layer and the soil protection layer are integrated with each other. 10. The method of claim 9,
When the soil protection layer is made of a material having no bonding force, the adhesive may be mixed with the material of the soil protection layer to have a self-bonding force. Alternatively, hot melt or LMP may be mixed with the material of the soil protection layer, Wherein the structure is constructed to have a binding force by pressurization. The method according to claim 1,
A plurality of fixing pins are fixed to the artificial structure or the structure protection layer at predetermined intervals, respectively;
Wherein the soil protection layer is made of a flexible outer material and a connection member is net-shaped between the fixing pins at the outside of the soil protection layer to protect the soil protection layer and the soil layer A building structure in which plants can grow. 10. The method of claim 9,
The outer covering is made of a nonwoven fabric, a felt, a rubber chip, or a cushioning material, and is thermally fused or attached to the material of the soil layer by heating or pressurization and integrated with each other;
Wherein a plurality of vegetation holes are formed before the outer layer is covered on the outer surface of the soil layer or a plurality of vegetation holes are formed after the outer layer is covered on the outer surface of the soil layer. Forming a structure protective layer so as to surround an outer surface of the artificial structure serving as an inner support for plant growth;
Mixing soil with natural soil or artificial soil providing a vegetation base of the plant with a member having weatherability with water or an adhesive to form a soil mixture;
Attaching the soil mixture so as to surround the outer surface of the structure protection layer, and drying the soil mixture to form a soil layer;
Forming a soil protection layer on the surface of the soil layer; And
And planting the plant toward the soil layer from outside the soil protection layer. 18. The method of claim 17,
Further comprising the step of installing a reinforcing structure or a wire mesh supporting structure in the artificial structure so that the soil protecting layer does not flow downward before the structure protecting layer is formed, A method of constructing an architectural structure in which plants can grow. 18. The method of claim 17,
In the case where the structure protection layer is made of a concrete material, the waterproofing material and the covering material are mixed to prevent the secondary damage caused by the plant when the structure protection layer is sprayed or plastered, and the artificial structure is made of concrete, And forming a plurality of water holes in the artificial structure and the structure protection layer so as to communicate with the ground plate when the artificial structure and the structure protection layer are composed of cut-outs. 18. The method of claim 17,
When the soil protection layer is made of a concrete material, a plurality of separate vegetation forming bases are placed above the soil layer when the soil protection layer is sprayed or plastered, and the soil protection layer is formed to form the soil protection layer And allowing a plurality of vegetation holes to be formed at the same time. 18. The method of claim 17,
The method according to any one of claims 1 to 3, wherein when the soil protection layer is made of a flexible outer covering, a plurality of vegetation holes are formed before formation of the soil protection layer, or a plurality of vegetation holes are formed after formation of the soil protection layer How to construct an architectural structure. 18. The method of claim 17,
Wherein the soil mixture is sprayed onto the surface of the structure protection layer to heat the soil mixture at the time of spraying the soil mixture to press the soil at a high temperature and a high pressure to form a low melting point fiber material or an adhesive Further comprising the step of increasing the supporting force while fusing the other composition with the other composition. 18. The method of claim 17,
Fixing a plurality of fixing pins to the artificial structure or the protective layer of the structure at regular intervals;
The soil protection layer may be made of a flexible outer layer, and the outer layer may be adhered with an eco-friendly adhesive at the time when the soil mixture is dried to form a soil layer. Alternatively, the soil layer may be wrapped with the outer layer to generate a high temperature steam iron, Melting and fusing the fibers constituting the outer shell and the low melting point fiber material of the soil layer located inside the outer fibers by heating and pressing using a roller; And
Supporting the soil protection layer and the soil layer as the outer covering by braiding a connecting member made of a string or a wire mesh in a net shape between the fixing pins at the outside of the soil protection layer, . 18. The method of claim 17,
The soil mixture constituting the soil layer is a soil-
1 to 80 parts by weight of a fibrous material selected from the group consisting of PE fiber, waste fiber and LM fiber having weather resistance and bonding properties with respect to 100 parts by weight of the soil constituting the main material; 1 to 5 parts by weight of an adhesive; 10-30 parts by weight of vegetable fiber material of peat moss or coco peat; 10 to 30 parts by weight of a mineral selected from perlite, vermiculite and volcanic stone; 0.1 to 3 parts by weight of a moisturizing agent and a slow-release fertilizer; And 1 to 30 parts by weight of water are mixed together to form a plant structure.

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