KR20200042230A - greening structure - Google Patents

Abstract

The present invention relates to a slope surface greening structure capable of semi-permanently greening a slope surface with various plants and enabling convenient construction. According to the present invention, the slope surface greening structure includes: support bars fixed to a slope surface; a plurality of vegetation blocks connected with each other to be located between the support bars to cover the entire area of the slope surface, and including planting holes formed on one side at regular intervals such that plants can be planted therein; a root isolation sheet installed to cover the vegetation blocks, including a cut part formed by being cut in a corresponding position part of the planting holes of the vegetation blocks, enabling the plants to be planted in the planting holes through the cut part, and preventing the roots of the plants from being exposed to the outside; a fixing mesh fixed to the support bars to cover the root isolation sheet to fix the root isolation sheet; a red clay layer stacked by applying dry red clay powder onto the upper surface of the fixing mesh to an extent where the fixing mesh is not shown; and a coating layer formed by spraying a vegetable adhesive including a capsaicin component, which is formed by mixing water with glue made by mixing and heating water and powder containing starch such as rice powder, flour or the like, through a spray device in order to prevent the red clay on the upper surface of the red clay layer from being swept away by wind or rain.

Description

Greening structure

The present invention relates to a sloped greening structure, and more particularly, to a sloped greening structure capable of semi-permanently recording the sloped surface with various plant species, and allowing the construction to be carried out very easily.

In general, various legal protection methods have been attempted to prevent the river banks from being eroded by running water, and to prevent the roads from being damaged by the erosion of trees around the road by road construction.

Representative examples of such a protection method include a construction method using a revetment block and a construction method using a revetment mat.

The construction method using the revetment block is to prevent the discharge of soil from the outside of the block by stacking blocks formed of concrete on various surfaces with various structures.

In addition, the construction method using a mat for revetment, installs and secures a mat formed of a mesh structure on the front side to prevent the soil from leaking out of the mat, and scatters seeds on the mat so that vegetation can be achieved to soften the ground. It is to strengthen the environment and form an eco-friendly face close to nature.

However, there are the following problems in this protection method.

Blocks for shorelines are made of concrete, and plants such as flowers and grass cannot inhabit, which is heterogeneous with the surrounding environment and has a problem of ecological destruction.

In addition, the mat for revetment is formed of a mesh structure in which the weft yarn and the warp cross each other, and after construction, there is a problem that the soil is lost through the mesh of the mat.

In addition, when the load of the earth and sand is continuously applied to the shore mat, there is a problem in that durability is deteriorated due to an increase in shape or deformation.

In particular, in recent years, a method of recording using a vegetation block (plant block), which is a kind of vegetation infrastructure, is known.

The vegetation block is a block shape made of artificial soil that enables plants to germinate, root and grow, and is usually produced by compression molding artificial soil into a square body.

Artificial soil is mainly used for greening of artificial ground such as rooftops, and vegetation blocks are used to facilitate the work of the artificial soil.

These vegetation blocks are used to reduce the inconvenience of installing artificial soil after insulation, waterproofing and drainage treatment when greening artificial ground using artificial soil, and to reduce construction costs, and in road construction to cut mountains. It is also used to form vegetation bases in a short time with simple construction to prevent the discharge of soil from slopes, etc. that occur after the construction of slopes or rivers.

The main points to be considered for vegetation blocks must first be maintained in a minimal form and easy to handle, and should be able to provide breathability, absorbency, drainage and nutrient adsorption properties suitable for plant growth, and should be light in weight for convenience in construction. And, it must have a long life to prevent rework.

Artificial soil is largely divided into artificial soil, which is necessary for seedling, and cultured soil, which is required for growth, and mainly used for vegetation blocks. The top soil used as artificial soil is commercially available by various companies, but the composition ratio varies according to each company, but usually contains perlite as the main ingredient, and in addition, cocopeat, coir, and peat moss. , Vermiculite, zeolite, perlite, water soluble fertilizer, antibacterial substances and wetting agents.

The basic ingredients of the vegetation block must have: ① moderate water retention and retention, ② breathability for root breathing, ③ sterility, sterility, and seed-free, ④ maintenance of acidity of weak acidity to neutrality, ⑤ uniform physical and chemical properties , ⑥ moderate and uniform particle size, ⑦ ease of handling, and ⑧ block formation (root entanglement).

The conventional vegetation block was prepared by adding a chemical adhesive to artificial soil and then compressing it, and wrapping the artificial soil with coir, which is a natural coconut fiber.

First, if you look at the method of compression molding after adding a chemical adhesive to artificial soil, a lot of urea resin is used as a chemical adhesive, and these adhesives contain phenol and formaldehyde components, which may have a harmful effect on plant growth. You can. In addition, in order to solidify the artificial soil using an adhesive, high pressure must be applied at the time of molding, which eliminates voids in the soil and hinders plant growth. The pore is one of the physical properties of the soil. It is a gap between soil particles. The larger the particle size, the larger the gap, the larger the gap, and the larger the pores, the better the soil absorption and water communication. It has an adverse effect on plant growth.

On the other hand, the method of wrapping and compressing the outer side of artificial soil with coir net, which is a natural fiber collected from the fruit of cocos palm, has no adhesive force to the artificial soil itself, so it is forced to apply considerable pressure to form a vegetation block. By reducing the pores in the interior, it becomes undesirable for plant growth. In addition, the natural fiber net used to prevent the separation of the internal artificial soil has a very short lifespan when exposed to an external environment such as sunlight or a rapid temperature change due to the limitations of the natural fiber, so that the artificial soil inside does not pass long after construction. As it induces unbalanced growth of plants, it can damage the surrounding landscape and cause settlement such as corrosion due to corrosion of natural fibers, and may cause hassle of rebuilding. That is, if more than one year has elapsed since installation, the vegetation block itself will rot and shrink in half and flow down, completely losing its original function. Accordingly, a situation in which a vine plant such as ivy and honeysuckle must be planted on the basic soil even with the use of a greening base has been created.

These problems ultimately cause the plant growth to be poor enough to colorize the good purpose of special greening, making it difficult to achieve a good effect. In addition, wrapping the outside of the vegetation block with a net has a disadvantage in that the manufacturing process is complicated, which in turn leads to an increase in manufacturing cost, and the absorption of moisture and nutrients from plants is inhibited due to the oily oil film of the coir used as the outside net.

On the other hand, as a method of planting a plant for a vegetation block, there is a method of mixing seeds or coating the surface.

However, the method of mixing or applying seeds to the vegetation block has a problem in that the seeds need to wait for a long period of time to germinate, root, and grow appropriately.

Korean Patent Registration No. 10-1900728, slope recording method using a mesh with integrated slope holder.

The present invention has been devised to solve the problems of the prior art described above, and the object of the present invention is that the vegetation block used can be easily molded and suitable for plant growth with appropriate pores, and various plant species It is intended to provide a slope-type greening structure that can provide excellent directing diversity and field applicability, and has a semi-permanent lifespan, which can be eliminated.

In addition, the present invention can be very easy to plant plants in the vegetation block, and can be constructed with plants grown to a certain extent in advance to reduce the time required for greening coating, and can maintain the evergreen in winter, so it can be maintained in winter. It can be prevented and can be constructed very simply, reducing construction cost and construction period, providing management convenience and reducing management cost, and stable and semi-permanent recording can be achieved with only one construction. It is to provide a sloped greening structure that can realize a variety of landscapes as desired by applying various plant species such as ground cover and flowering plants.

The above objects and various advantages of the present invention will become more apparent from preferred embodiments of the present invention by those skilled in the art.

The present invention for achieving the above object is a slope surface recording structure in which the slope surface is recorded as a plant, forming a grid on the slope surface and supporting bars fixedly installed by anchor bolts at regular intervals; A vegetation block in which a plurality of pieces are connected to each other so as to be positioned between the support bars to cover the entire area of the slope, and a planting hole for planting plants is formed at predetermined intervals on one surface; It is installed so as to cover the vegetation bud, an incision part is formed by cutting in a corresponding position portion of the planting hole formed in the vegetation block, and a plant planted in the planting hole through the incision is planted to pass through the planted plant. A rooting sheet having a permeability coefficient of 10 ^-3 cm / sec or more, which blocks roots from being exposed to the outside; A fixed mesh in the form of a mesh that is fixedly installed on the support bars so as to cover the windbreak sheet to fix the windbreak sheet; An ocher layer layered by spraying dry ocher powder so that the fixed mesh is applied only to the extent that the fixed mesh is not visible on the upper surface of the fixed mesh; And in order to prevent the ocher from being easily lost by wind or rain on the top surface of the ocher layer, the powder made by mixing the powder containing starch such as rice flour or wheat flour with water and mixing the grass with water, and containing the capsaicin component. It includes; a coating layer formed by spraying the vegetable adhesive with a spray device for spraying.

Preferably, the support bars are installed in a lattice shape by a horizontal support bar and a vertical support bar having a cross section of a square shape, and the lower opening groove and the upper opening groove are horizontally supported at a region where the horizontal support bar and the vertical support bar intersect. It is formed to correspond to a bar and a vertical support bar, and the lower opening groove and the upper opening groove may be installed to be mutually coupled.

Also preferably, the fixed mesh may be made of a galvanized wire mesh having a lattice structure.

Also preferably, the vegetation block is a rectangular block while low-temperature heat treatment is performed so that the low-melting polyester short fibers are melted by mixing 4-30 parts by weight of polyester short fibers coated with low-melting polyester short fibers in 100 parts by weight of artificial soil. It can be manufactured to have a plurality of the planting holes by compression molding in the form.

In addition, preferably, the vegetation block, bentonite 5 ~ 10vol%, low-melting polyester short fibers coated with a polyester short fiber 01 ~ 10vol%, artificial soil 80 ~ 949vol% mixed with the low-melting polyester short fibers It may be manufactured to have a plurality of planting holes by compression molding in a square block shape while heat-treating at low temperature to melt.

In addition, preferably, the windbreak sheet may be a special non-woven fabric in which embossing is formed on the surface after thermally compressing after spreading thousands of strands of a general non-woven fabric or microfine synthetic yarn compressed by mixing waste fibers.

In addition, preferably, the incision may be formed in a "⊥" shape according to the cutting.

Also preferably, the plant may be one type selected from tray seedling, pot seedling, and shoveling.

Also preferably, the plant may be one selected from vine plants, wildflowers, ripe perennial plants, shrubs, and flowering plants.

Also preferably, the plant is a vine plant group including a honeysuckle, a red honeysuckle, a creeping vine, a crown, a tree, a jacaranda, a pine tree, an old vine, a wisteria, and a red-eyed brier, or an evergreen grass stalk, stalk, stalk, rock brush , Geumgye-guk, flower grass, snow ball, nippia, snail, wild flower grass, stone rose, horseshoe line, Baekdusan Baby Cedar, Blue Sol Cedar, Blue Baby Cedar, Thyme, Silken Leek, Vinca, Sassa, Saponaria, It may be one or more selected from the winter evergreen plant group, including evergreen evening primrose, evergreen Aegirincho, evergreen phosphorus, red phosphorus, pensterone evergreen lobster, western barberry, and sumgirincho.

In addition, preferably, the plant is applied to the sunny place, real wormwood, silver mugwort, cloud leek leek, silk leek leek, alchymilla, dwarf star, evergreen galsacho, evergreen green vinegar, hongjadan, rhizome cosmos, ground skin cosmos, The one or more selected from gaura, sky gentian, stone rose, red stripe, rose sera, furux, water carpet, root saruvia, jopop, clover, and tailweed, and the plant applied to the shaded area is a patterned angelica, Patterned zombies, lizards, rock scents, vinca, one or more selected from the above, the above-mentioned plants that are irrelevant to the shade and the sun, pebbles, pebble grease, baby giggles, king giggles, metabolism, gold band, snowline , Ever gold, umji hwangguk, julsa iron, sand iron, patterned film, evergreen ivy, scent, maekmundong, carpet wrinkles, guardian plants, may be one or more selected from moonshine.

According to the sloped greening structure according to the present invention, any plant species such as vine plants, wildflowers, succulent perennial plants, shrubs, and flowering plants can be planted and recorded, so that it is possible to produce a variety as desired, and planting and installation thereof is very easy. Since it can be implemented, an effect that can reduce construction cost and provide convenience of construction work can be achieved.

In addition, according to the present invention, since the plant can be planted in a state in which it has been pre-grown to some extent, it is possible to provide a greening effect immediately upon construction and also reduce the period required for greening, and also remove all the leaves of the plant. In winter, it is possible to prevent deterioration by the loess layer, and weeds do not grow, so it is possible to prevent deterioration of aesthetics and control management may be unnecessary, and an effect of reducing management costs and providing convenience can also be achieved. have.

In addition, according to the present invention, as a final effect, through the recording of an easy and effective slope surface, it enhances the quality of human life by providing environmental beautification, improving psychological stability and mental health, reducing noise pollution, preventing air purification and preventing heat island phenomenon, etc. Can contribute.

1 is a view showing separately the respective components for explaining the slope recording structure according to the present invention,
2 is a view showing a slope recording structure according to the present invention,
3 is a view showing an example of a support bar provided in a sloped greening structure according to the present invention,
4 is a view showing a vegetation block provided in a sloped greening structure according to the present invention,
Figure 5 is a conceptual diagram showing a polyester short fiber coated with a low-melting polyester short fiber for manufacturing a vegetation block provided in a sloped greening structure according to the present invention,
6 is a conceptual view showing a sponge-like net structure formed in a vegetation block provided in a sloped greening structure according to the present invention,
7 is a photograph showing a vigorous plant growth state in the actual vegetation block provided in the sloped greening structure according to the present invention,
FIG. 8 is a photograph showing a method of planting and extracting greening plants from a seedling tray in an actual manufactured vegetation block provided in a sloped greening structure according to the present invention.

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

Prior to the description of the present invention, the following specific structures or functional descriptions are merely exemplified for the purpose of illustrating the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention can be implemented in various forms, , It should not be construed as being limited to the embodiments described herein.

In addition, embodiments according to the concept of the present invention can be applied to various changes and may have various forms, and thus, specific embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific disclosure form, and it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Attached Figure 1 is a view to which the present invention is applied Figure 1 is a view showing each configuration separately for explaining the slope recording structure according to the present invention, Figure 2 is a view showing the slope recording structure according to the present invention, Figure 3 Is a view showing an example of a support bar provided on a sloped greening structure according to the present invention, FIG. 4 is a view showing a vegetation block provided on a sloped greening structure according to the present invention, and FIG. 5 is a sloped greening structure according to the present invention It is a conceptual view showing a polyester short fiber coated with a low-melting polyester short fiber for manufacturing a vegetation block provided in, Figure 6 is a sponge-like net structure formed in the vegetation block provided in the sloped greening structure according to the present invention It is a conceptual diagram, and FIG. 7 shows vigorous plant growth in an actual manufactured vegetation block provided in a sloped greening structure according to the present invention. 8 is a photograph showing a state, and FIG. 8 is a photograph showing a method of planting a greening plant from a seedling tray in an actual manufactured vegetation block provided in a sloped greening structure according to the present invention.

As shown in these drawings, the present invention uses a plate-shaped vegetation block (ie, vegetation mat) 120 having a predetermined thickness and area as a vegetation base for allowing plants to grow on a slope. The vegetation block 120 will be described later.

As shown, it is preferable that the support bars 110 are provided in the sloped greening structure according to the present invention.

The support bars 110 form a grid on the slope and are installed at regular intervals. At this time, the support bars 110 may be fixedly installed on the slope surface by anchor bolts. For the installation of the support bars 110, a concrete mortar may be previously placed on the slope surface to perform a flattening operation.

In addition, the support bars 110 may be installed in a lattice shape by a horizontal support bar 112 and a vertical support bar 114 having a square cross section. At this time, the lower opening groove 112a and the upper opening groove 114a correspond to the horizontal supporting bar 112 and the vertical supporting bar 114 at the area where the horizontal supporting bar 112 and the vertical supporting bar 114 intersect. It is formed so that the lower opening groove 114a and the upper opening groove 114a may be installed to form a grid by installing so as to be mutually coupled.

As shown, it is preferable that the vegetation block 120 is provided in the sloped greening structure according to the present invention.

The vegetation block 120 is provided so as to be positioned between the support bars 110 so as to cover the entire area of the slope surface by connecting with each other, and on one surface, planting holes capable of planting plants are formed at predetermined intervals.

The vegetation block 120 may preferably be formed in a square plate shape, and a plurality of planting holes 122 are formed to be spaced apart at regular intervals in all directions on the wide side surface, and the planting hole 122 is small to be recessed. In the form of a hole, a plant for greening, which can be any one of a tray seedling, a pot seedling, and a shoveling shape, can be simply inserted and planted.

According to the present invention, the vegetation block 120 directly imparts bonding strength between artificial soil particles 20 using synthetic fibers, and specifically, uses polyester short fibers 10 among synthetic fibers. As is well known, polyester fiber has light weight and good durability. In detail, the low-melting polyester short fibers 12 coated with low-melting polyester short fibers 12 that can melt and adhere to each other without the use of an adhesive at a low temperature of about 70 to 150 ° C. are relatively low. ) Is mixed with artificial soil in an appropriate ratio, uniformly mixed, and then melted low-melting polyester short fibers 12 through heat treatment to heat to 70-250 ° C. to retain residual polyester short fibers 10 and artificial soil particles ( 20) It is manufactured to maintain sufficient shape without additional structure such as a separate net by providing a sufficient and strong bonding force by forming a sponge-like net structure by connecting each other. Unexplained reference numeral 12 ¹ is a structure formed by melting low-melting polyester short fibers.

According to him, it is possible to form through a low pressure, and thus it is possible to smoothly contain moisture, organic matter and nutrients by forming sufficient voids inside, thereby providing conditions suitable for plant growth. Since it can be fixed firmly and the processability is good, it is possible to manufacture it in any desired shape by simply changing the molding frame, and the planting hole 122 that allows planting by simply plugging plants is compressed through side molding. It can be easily formed on the phase, and because of its strong bonding strength, it is possible to minimize the detachment of artificial soil even if it is torn or deformed due to external impact, and even if it is positioned vertically due to the strength and weather resistance of the polyester fiber, its shape is stable for a long period of time. Can be maintained, and its life span can be semi-permanent with all weather, The light weight also provides excellent construction workability.

As the artificial soil used for the production of the vegetation block 120, the top soil can be used as in the prior art, and the top soil contains a slightly different composition ratio depending on each company, but usually contains perlite, which is a land improving agent as the main component. In addition, it contains coco feet, peat moss, vermiculite, zeolite, water-soluble fertilizers, antibacterial substances and wetting agents. Therefore, artificial soil can be used by selecting an appropriate one from various commercially available ones.

The vegetation block 120 is prepared by mixing 4 to 30 parts by weight of the polyester short fibers 10 coated with the low-melting polyester short fibers 12 with respect to 100 parts by weight of artificial soil. If, if the polyester staple fiber 10 is mixed to less than 4 parts by weight, it is not possible to give sufficient vigor to the vegetation block 120, whereas, if the polyester staple fiber 10 exceeds 30 parts by weight, polyester staple fiber (10) can be entangled with each other, the bonding strength is too strong, and the proportion of artificial soil is too low, which is undesirable for plant growth.

The production of the vegetation block 120 is mixed with artificial soil and polyester short fibers 10 coated with low-melting polyester short fibers 12 in an appropriate ratio, and after loading the mixed composition in a molding mold, loaded Compression molding is performed while heating the composition to a suitable temperature within 70 ° C to 250 ° C, and the molded article is dried. At this time, in order to form a plurality of planting holes 122 on the side surface of the vegetation block 120, one of which is provided with pressurized projections on one or both sides of the upper and lower pair of forming molds is used.

Furthermore, the vegetation block 120 is easily dried as it uses polyester synthetic fibers, which may adversely affect plant growth and may cause disadvantages that may require too frequent irrigation. It may further contain a certain amount of bentonite with very good retention. When bentonite is contained, the composition ratio of the vegetation block 120 may be 5 to 10 vol% of bentonite, 01 to 10 vol% of fibrous material, and 80 to 949 vol% of artificial soil. When the content of bentonite is less than 5 vol%, water absorption becomes insufficient, whereas when the content of bentonite exceeds 10 vol%, drainage is worsened, which may adversely affect root growth.

Referring to FIG. 7, the roots of plants (p) planted in the vegetation block 120 actually manufactured according to the present invention can be confirmed to grow very well, and the vegetation block 120 according to the present invention It can provide very ideal vegetation conditions. As described above, when the fine roots thrive, the vegetation block 120 has a stronger binding force by the fine roots.

As shown, the sloped greening structure according to the present invention is preferably provided with a rooting sheet 130.

The rooting sheet 130 is installed to cover the vegetation block 120, and the incision part 132 is formed by cutting in the corresponding position portion of the planting hole 122 formed in the vegetation block 120, Plants planted in the planting hole 122 through the incision 132 are planted so as to block the roots of the planted plant from being exposed to the outside.

It is preferable that such a fender sheet 130 has a permeability of 10 ^-3 cm / sec or more.

In addition, the rooting sheet 130 basically blocks the root of the plant p planted in the vegetation block 120 from being exposed to the outside so that the plant p is not killed.

By these collateral sheet 130 is incidentally to control weeds according to the coating on the vegetation block 120, prevent the invasion of pests, by providing a proper and long-term moisture preservation and prevent fertilizer leaching In other words, there is almost no management and no management cost is required.

In addition, it provides a warming role according to the covering to help the growth of the plant (p) and to overcome the rapid growth of early spring and late dormancy of late autumn, as well as many problems of winter planting.

In particular, by preventing weeds from penetrating at all, we completely block weed growth to prevent deterioration of landscaping by weeds, and can provide excellent growth effects to planted plants (p) as described above, which is superior to cost. It provides an effect.

Preferably, the non-woven fabric improved such as general non-woven fabric or "non-woven fabric for preventing soil acidification and suppressing weed growth" of the Korean Patent Registration No. 10-0208939 can be used as the above-mentioned fleeting sheet 130. As a general non-woven fabric is well known, the waste fibers are mixed and compressed. In addition, the special nonwoven fabric according to the above-mentioned patent is stretched to a uniform thickness while rotating thousands of strands of about 3 ± 0.2 denier ultrafine synthetic yarn with a somewhat larger radius, and then heat-pressed to form a nonwoven fabric, and embossed on the nonwoven fabric, but embossed. The width of is about 0.5 mm, the spacing is about 1 mm, and embossing processed on the nonwoven fabric is formed at the same position on both sides of the front and back surfaces, and the thickness of the nonwoven fabric is about 0.8 to 1.5 mm. At this time, the ultrafine synthetic yarn has proper pores and light-shielding ability at an appropriate density, and also absorbs and heats the surrounding heat in black and shades it to block weed growth.

In construction, the part of the rooting sheet 130 corresponding to each planting hole 122 on the vegetation block 120 is cut to form an incision 132, and the vegetation block 120 is passed through the incision 132. Plant p is planted with respect to planting hole 122 on the top. At this time, it is possible to block the outflow and exposure of the vegetation block 120 material inside by cutting the incision 132 in a “⊥” shape without cutting it in a cross shape.

As shown, it is preferable that the fixed mesh 140 is provided in the slope recording structure according to the present invention.

The fixed mesh 140 is installed so that the fender sheet 130 is fixed to the support bars 110 to cover the fender sheet 130 and serves to fix the fender sheet 130. At this time, a variety of fixing means or fixing structures may be used for coupling of the fixing mesh 140 to the support bar 110.

In addition, the fixed mesh 140 is preferably made of a mesh shape. As an example, the fixed mesh 140 may be made of a galvanized wire mesh having a lattice structure.

As shown, it is preferable that the ocher layer 150 is provided in the sloped greening structure according to the present invention.

The ocher layer 150 is made by spraying dry ocher powder, and functions to prevent the fixed mesh 140 from being exposed to the outside by covering the top surface of the fixed mesh 140. At this time, the ocher layer 150 is thinly applied to the extent that the fixed mesh 140 is not visible.

As shown, the sloped greening structure according to the present invention is preferably provided with a coating layer 160.

The coating layer 160 is to prevent the ocher from being easily lost by wind or rain on the top surface of the ocher layer 150, and a certain amount of vegetable adhesive is applied to the top surface of the ocher layer 150 to form the coating layer 160 By doing so, it is possible to prevent the ocher of the ocher layer 150 from being lost by wind or rain. That is, the ocher layer 150 is formed by spraying dry ocher powder, and when the wind blows or rains, it is easily wiped down and lost. However, when the vegetable adhesive is applied to the top surface of the ocher layer 150 to form the coating layer 160 and dried, it is possible to prevent the ocher particles on the top surface of the ocher layer 150 from being easily lost by wind or rain.

At this time, the vegetable adhesive constituting the coating layer 160, such as rice flour or wheat flour, mixed with water and mixed with water to make the paste made by heating in water, to a viscosity that can be sprayed with a spray device for spraying Use thinner ones.

In addition, a capsaicin component that has a spicy aroma and taste may be mixed with the vegetable adhesive that forms the coating layer 160 at a constant ratio.

Hereinafter, a method of recording a slope surface according to the present invention will be described.

First, a vegetation block 120 of a certain standard is formed by heating and compression molding a mixture of polyester short fibers 10 coated with low-melting polyester short fibers 12 and artificial soil and bentonite in an appropriate ratio in a factory or the like. Prepared by mass production.

On each vegetation block 120, a plurality of planting holes 122 are formed in all directions. For reference, the specification of the vegetation block 120 may be implemented as 33 × 33 cm, 39 × 39 cm, 50 × 50 cm, 80 × 80 cm, etc., and 5 × 5 as an example on one vegetation block 120. A total of 25 planting holes 122 may be formed. Of course, the number of planting holes 122 and the separation distance therebetween can be appropriately selected in consideration of the type of planting p for planting or growth characteristics.

In the construction site, the support bars 110 are installed to form a lattice on the slope. At this time, the thickness of the support bars 110 is the thickness of the vegetation block 120 and the roots sheet 130 covering the vegetation block 120. It is preferably formed to correspond to the thickness equal to the combined thickness.

As described above, the vegetation blocks 120 are connected to each other between the support bars 110 installed in a lattice shape on the slope surface, and a plurality of repetitively installed to cover the entire area to fill the space between the support bars 110. Sleep.

Then, to install the rooting sheet 130 to cover the vegetation block 120, cut the portion of the rooting sheet 130 corresponding to the location of each planting hole 122 on the vegetation block 120 to cut the seating sheet 130 Several incisions 132 are formed on the image. At this time, since each planting hole 122 is in the form of a recessed hole, the incision part 132 may be formed while checking the position by pressing on the rooting sheet 130. Then, the incision 132 is formed by cutting in the form of “⊥”.

Subsequently, the fixed mesh 140 is fixedly installed on the support bars 110 to fix the rooting sheet 130 to form an ocher layer 150 and a coating layer 160. That is, starch, such as rice flour or wheat flour, is sprayed on the top surface of the fixed mesh 140 to spray and apply dried anti-flour powder so that the fixed mesh 140 is not visible, and the ocher layer 150 is applied and stacked, so that the loess is not easily lost by wind or rain. The coating layer 160 is formed by spraying a vegetable adhesive mixed with water by mixing the powder included with water and heating and spraying it with a spray device for spraying.

Thereafter, the plant p is planted by planting the plant p for each planting hole 122 on the vegetation block 120 so that the plant p passes through each incision 132 of the rooting sheet 130. At this time, the incision 132 is formed to correspond to each planting hole 122, and each planting hole 122 is in the form of a recessed hole, so that it is positioned when pressed from the top of the ocher layer 150 on which the coating layer 160 is formed. Because it can be easily identified, plants can be easily planted.

At this time, the planting plant (p) to be planted may be in the form of tray seedlings, pot seedlings, or shoveling, that is, simply inserting the seedlings or shoveling to complete the planting. Therefore, any plant grown in any form can be planted simply by planting it, so there is no limit to the plant species planted, and the planting work can be carried out very easily and quickly.

As a result, all of the construction work can be completed, and afterwards, the greening plants (p) planted are grown and grown to cover the slope completely or bloom beautifully.

As described above, the sloped greening construction of the present invention comprises a planting and installation process that is very easy for the entire process.

Furthermore, in the following, the greening plant (p) planted in the greening structure according to the present invention can be planted in any plant species and can be smoothly grown, and thus can produce various slopes accordingly, in particular, the ocher layer 150 and the coating layer ( In the winter, when the leaves of the plant (p) are all removed and removed by 160), the fixed mesh 140 and the rooting sheet 130 are not exposed as it is, so that it can be prevented from being felt ugly.

The technical problem of the present invention is achieved by the technical configuration as described above, although the present invention is not limited to the present invention by a person having ordinary knowledge in the technical field to which the present invention pertains, although it has been described with limited embodiments and drawings. Of course, various modifications and variations are possible within the technical scope of and within the scope of the equality of the claims to be described below.

110-Support bar 120-Vegetation block
122-Food Hall 130-Vacation Sheet
132-incision 140-fixed mesh
150-coating layer 160-ocher layer

Claims (6)

In the sloped greening structure in which the sloped surface is planted,
Support bars that are fixedly installed by anchor bolts at regular intervals in a lattice shape on the slope surface;
A vegetation block in which a plurality of pieces are connected to each other so as to be positioned between the support bars to cover the entire area of the slope, and a planting hole for planting plants is formed at a predetermined interval on one surface;
It is installed so as to cover the vegetation bud, an incision part is formed by cutting in a corresponding position portion of the planting hole formed in the vegetation block, and a plant planted in the planting hole through the incision is planted to pass through the planted plant. A rooting sheet having a permeability coefficient of 10 ^-3 cm / sec or more, which blocks roots from being exposed to the outside;
A fixed mesh in the form of a mesh that is fixedly installed on the support bars so as to cover the windbreak sheet to fix the windbreak sheet;
An ocher layer layered by spraying dry ocher powder so that the fixed mesh is applied only to the extent that the fixed mesh is not visible on the upper surface of the fixed mesh; And
Vegetables containing capsaicin ingredients mixed with water by mixing flour containing starch such as rice flour or wheat flour with water to prevent ocher from being easily lost by wind or rain on the upper surface of the loess layer A sloped greening structure comprising a coating layer formed by spraying the adhesive onto the spraying device for spraying.
According to claim 1,
The support bars,
It is installed to form a grid by horizontal and vertical support bars having a square cross section,
In the area where the horizontal support bar and the vertical support bar intersect, a lower opening groove and an upper opening groove are formed to correspond to the horizontal support bar and the vertical support bar, and the slope surface is characterized in that the lower opening groove and the upper opening groove are installed to be coupled to each other. Greening structure.
According to claim 1,
The fixed mesh,
A sloped greening structure characterized by being made of a galvanized steel mesh having a lattice structure.
According to claim 1,
The vegetation block,
4 to 30 parts by weight of low-melting polyester short fibers coated with short-melting polyester short fibers are mixed with 100 parts by weight of artificial soil, and low-temperature heat-treated to melt the low-melting polyester short fibers, compression-molded in a square block shape, and a plurality of the food materials A sloped greening structure characterized by being manufactured to have a hole.
According to claim 1,
The vegetation block,
Bentonite 5-10vol%, low-melting polyester short fibers coated with polyester short fibers 01-10vol%, artificial soil mixed with 80-949vol%, low-melting polyester short fibers heat-treated so as to melt into a square block form A sloped greening structure characterized by being compression-molded and manufactured to have a plurality of the planting holes.
According to claim 1,
The rooting sheet,
A non-woven greening structure characterized by using a special non-woven fabric that is embossed on the surface after heat-pressing after spreading thousands of strands of a general non-woven fabric or micro-synthetic yarn compressed by mixing waste fibers.

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