KR20190083290A - Water-energy reduction type crib in which plant can be planted - Google Patents

Abstract

The present invention relates to an ecological home, and more particularly, to a planting space in which a plant is planted to improve the waterfront by setting up a river, a lake or a wetland of the wetland, In addition to providing fish habitat and shelter by forming an aquatic habitat space, a flow control panel composed of a water wall or a water sheet is installed between neighboring ecological parks to reduce the energy of water flow during flood, Energy-saving eco-friendly space.

Description

{WATER-ENERGY REDUCTION TYPE CRIB IN WHICH PLANT CAN BE PLANTED}

The present invention relates to an ecological home, and more particularly, to a planting space in which a plant is planted to improve the waterfront by setting up a river, a lake or a wetland of the wetland, In addition to providing fish habitat and shelter by forming an aquatic habitat space, a flow control panel composed of a water wall or a water sheet is installed between neighboring ecological parks to reduce the energy of water flow during flood, Energy-saving eco-friendly space.

A revetment is a structure that is installed in front of a river, a lake, or a mound of a wetland or a mud. The embankment and the ditch are mainly constructed of gravel because of the ease of material securing, construction, and construction cost. These embankments and ditches are likely to be eroded by runoff. Accordingly, a revetment is installed at the boundary between the embankment of the stream, the lake or the artificial wetland and the slope to prevent the levee or the slope from being lost by the rainwater or the wave.

Conventionally, a concrete shore block was installed mainly for the purpose of dimensioning. Concrete shore blocks are cheap and easy to install, but they physically block the infiltration of river water into the soil layer, so they can not only dry (dry) the rainforest vegetation of natural rivers, Habitat, spawning place, and eventually damage the habitat of birds that take food in the vicinity of the shallow vegetation and hiding in the vegetation dumbbells. In recent years, the social demand to exclude concrete shore blocks has been strongly emphasized.

Recently, as interest in the river environment has increased, attempts to recover and restore ecologically damaged river environments have been attracting attention. It is made of a wire mesh box filled with stones. The box is cut into the same length to form a frame and filled with stones in the frame, so that the river water can permeate into the soil layer, so that the vegetation can be activated. However, in the case of conventional cages and grasses, it is difficult to plant the plants by filling with stones or gravel.

Recently, eco-friendly or planted groves capable of vegetation vegetation have been developed. For example, as shown in FIG. 10, wooden structures provided in the form of elongated bars are horizontally and vertically cross connected to form a frame 100 having an internal space 300, A weight 400 having a large weight such as gravel, aggregate and crushed stone is filled in the inner space 300 of the plant 100 and the vegetation mat or the coarse mat is fixed on the upper side thereof with the planting means 600 of the plant, ) So as to improve the surrounding landscape of the reef by the plant, and at the same time, the water purification effect can be additionally obtained by consuming the nutrients in the water through the roots of the planted plant 500 A vegetation field is being developed.

As shown in FIG. 11, the vegetation pattern is formed by forming a wire netting or a steel plate netting so that a predetermined size of space is formed therein, and a netting (2) filled in the inside space of the netting (2) A vegetation layer consisting of two supporting layers 4 and 26 which are additionally protected and supported and a vegetation layer 14 which is disposed between the supporting layers 4 and 26 and forms a basis on which plants such as trees can grow can be developed .

If such a vegetation cover or ecological cape is installed at the place where the loss of the soil is expected due to the embankment of the river or civil engineering works, it is possible to safely protect the ground of the slope by the load support of the weight, Thereby improving the surrounding landscape of the reef by the plant. However, in such a vegetation house or eco-house, the vegetation is located on the upper side of the heavy object in terms of structure, and the vegetation is vegetated only at the upper part. Therefore, when the water falls during the watering and the low water level persists for a long time, do.

In order to solve such a problem, Korean Patent Registration No. 10-0545142 discloses a multi-functional vegetation plant using an absorber. That is, the oil tube 7 filled with the absorber 6 is mounted on the tank, and the oil tube 7 is supported by the weight 3 filled in the extra space, so that the capillary phenomenon of the oil tube and the water Water supply to the plants planted on the upper part of the frame by absorbing power is made possible so as to prevent the damage of plants which may occur in the low water level due to seasonal water level fluctuation.

However, the conventionally developed eco-house has been installed only considering the scenery of rivers, not considering consideration of habitats of flora and fauna, especially fish, that dominate river ecosystem. In other words, there is not enough room for the fish to live in the water during flood or to conceal the habitat of fish or amphibian reptiles in the water when installing the house in the river. Especially, the shape that causes deterioration of the ecosystem occurs because the spawning ground of the spawning season can not be secured Also. In addition, since the conventional ecological house is mainly made of wood and assembled in the field, the process is complicated and the construction period is long. In addition, since the conventional ecological complex can not reduce the flow energy of the flowing water, it has not been able to properly protect the embankment during the flood.

Korea Registered Utility Model No. 20-0306402 (February 22, 2003) Korean Registered Patent No. 10-0545142 (Jan. 16, 2006)

The main object of the present invention is to solve the problems of the prior art, and to provide a plant for growing and culturing various plants, To provide a living environment in which plants can grow well, provide aquatic life habitat space that aquatic organisms can conceal, use as a spawning place, and reduce streamflow energy of the stream, And to provide an energy saving type eco-house capable of preventing the environment.

Another object of the present invention is to provide an energy saving type ecological kitchen which is easy to manufacture and install and which is excellent in durability by constructing a planting box using a metal bar or a wire netting.

As means for achieving the object of the present invention, an energy-

In an energy-saving ecological house installed on the bank of rivers, lakes or artificial wetlands,

The energy-saving type ecological kitchen is a structure made of metal and includes a planting box for forming a planting space of a predetermined size so as to plant plants therein and a planting box provided on the bottom of the planting space for aquatic organisms This includes a number of bridges that form aquatic habitat for habitat,

The planting box includes a rear surface provided to be in contact with the bank, a bottom surface extending forwardly from the rear surface, a side vertically installed on both sides of the bottom surface, and a front surface provided on the bottom surface and the front surface and,

A wire mesh and a nonwoven fabric are installed on the rear surface, the bottom surface and the side surface of the planting box. The planting space is filled with a base layer soil for planting plants, and a soil protection net is installed on the base layer soil , The aquatic habitat space is provided with a plurality of stringy medias and wicks, and the upper end of the wick is embedded in the base layer soil.

In the present invention, the bottom surface of the planting box is inclined upward, and the side surface of the planting box is formed so that the height thereof decreases toward the front, so that the planting space formed inside the planting box is reduced in height toward the front And the aquatic organism living space formed at the lower part of the planting space is formed in such a shape that the height increases toward the front.

The leg is composed of a vertical leg extending a certain length downward from a lower end of the rear surface and a slant leg extending a certain length from the center of the bottom surface to the lower side and being inclined forward at a predetermined angle.

The base layer soil is composed of a culture soil or sand or a mixture thereof. The base layer soil further includes a terracotem, which is an absorbent material. On the bottom of the base layer soil, a purification layer soil composed of sand, ceramics, granular activated carbon, Lt; / RTI >

The decorative plate has an upper end protruding slightly from the front surface, and a lower end is installed to extend downward to a predetermined length so as to block the upper end of the aquatic biological living space.

The energy-saving ecological baskets are installed in a row along the bank, and a flow control plate composed of a water wall or an aqueduct sheet is further installed between adjacent energy-conserving ecological basins to reduce water energy in the aquatic living space to protect the bank do.

At the rear of the rear surface, there is further provided an embankment for embedding, and at the upper part of the embedding embankment, the embankment soils are stacked at a predetermined height.

The embedding pattern forms an inner space made of a metal frame and a wire mesh, and the inner space is filled with gravel.

The energy-saving ecological kitchen has a weight of the gravel embedded in the embedding pattern and the embedding pattern and the embankment soil stacked on the top of the embedding pattern, and the weight of the planting box and the planting box The balance of the weight ratio of the ground bed soil or clearing bed soil being charged is balanced.

Wherein the bottom surface of the planting box is horizontally disposed and the side surface of the planting box is formed so as to have a lower height as the planting box moves forward, the planting space formed inside the planting box has a height lowered toward the front, The aquatic habitat formed at the lower part of the habitat is formed into a shape having a constant height.

As described above, the energy-saving eco-friendly riverbed according to the present invention can be installed along the bank of a river, lake or artificial wetland to protect and plant various plants, as well as the growth conditions necessary for plant vegetation by the level difference Provides a growth environment in which plants can grow well by preventing the death of plants, and it is possible to provide a living environment in which animals in the river, especially aquatic organisms, can conceal, provide a place for spawning, and create healthy ecological rivers. In addition, it has the effect of preventing the erosion of the bank and the excessive accumulation by reducing the flow energy during the flood.

The present invention has the effect of preventing scour and loss by reducing the flood energy by continuously applying resistance to the flowing water flowing at a high speed by using a flow control plate installed between neighboring energy-saving ecological receptacles.

In addition, the present invention has the effect of preventing the overflow of the river by reducing the flow rate during flood and increasing the water storage capacity of the river by enlarging the cross section of the water using aquatic living habitat formed at the lower part of the slope of the reef.

In addition, the present invention improves durability by using stainless steel which is resistant to corrosion, reduces the construction cost by shortening the construction period in the field, and connects the neighboring energy-saving type ecological kitchen to the fastening means, thereby increasing the overall structural stability .

1 is a sectional view showing a structure of an energy saving type ecological kitchen according to the present invention,
FIG. 2 is a perspective view showing an appearance of an energy saving type ecological house according to the present invention,
FIG. 3 is a perspective view showing a state in which a foundation floor soil is filled in a planting space of an energy-saving ecological kitchen according to the present invention,
FIG. 4 is a perspective view showing a plant planted on a base layer soil of an energy-saving ecological house according to the present invention,
FIG. 5 is an explanatory view showing a state in which an energy-saving type ecological center according to the present invention is installed;
FIG. 6 is an explanatory view showing a river in which an energy-saving ecological container according to the present invention is installed;
7 is a sectional view showing another embodiment of the energy saving type ecological house according to the present invention,
8 and 9 are perspective views showing still another embodiment of the energy saving type ecological house according to the present invention,
10 and 11 are perspective views showing an ecological house and an ecological structure according to the prior art.

Brief Description of the Drawings The advantages and features of the present invention, and how to accomplish it, will be described by way of embodiments described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following terms are defined in consideration of the functions of the present invention, and this may be changed according to the intention or custom of the user, the operator, and the like, and the definition is used throughout this specification to describe the energy- It should be based on the contents.

 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an energy saving type ecological center according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing the structure of an energy saving type ecological house according to the present invention, FIG. 2 is a perspective view showing an appearance of an energy saving type ecological house according to the present invention, FIG. FIG. 4 is a perspective view showing a plant planted on a ground layer soil of an energy-saving ecological house according to the present invention. FIG.

As shown in the drawing, the energy saving type ecological container 1 according to the present invention is installed so as to be in contact with the bank 4 of river, lake or artificial wetland so as to prevent erosion of the bank 4 due to flowing water or wave (3) which can be used as a shelter or spawn for fish are provided at the lower part to provide a river similar to the natural state. It is.

Specifically, the energy-saving ecological kitchen 1 of the present invention comprises a planting box 5 for largely forming a planting space 2 therein and a planting box 5 installed on a lower surface of the planting box 5, And a plurality of legs (6) which float the box (5) at a predetermined height from the ground and form aquatic living space (3) at a predetermined size in the lower part.

First, the planting box 5 includes a rear surface 51 vertically installed so as to contact with a bank 4 of a river, lake or artificial wetland, a bottom surface 52 extending a predetermined length forward from the rear surface 51, A side surface 53 vertically installed on both sides of the bottom surface 52 and a front surface 54 provided on the front surface of the bottom surface 52 and the side surface 53. The planting box 5 is in the form of a box having an open top and forms a planting space 2 with a certain size inside.

Preferably, the cross section of the planting space 2 is triangular. To this end, the bottom surface 52 is inclined upward, and the side surface 53 is formed in a triangular shape that decreases in height toward the front. Therefore, the upper surface of the planting base 21 installed at the upper part of the planting space 2 is inclined downward, while the height of the aquatic organism habitat 3 installed at the lower part becomes higher toward the front.

The planting box 5 is made of iron. For example, the planting box 5 comprises a frame made of a plurality of stainless steel bars and a wire mesh 57 attached to the frame. The frame forms the skeleton of the planting box 5 and the wire mesh 57 supports the soil of the planting space 2 or the bank 4 so as not to flow out.

For example, the rear surface 51 is composed of a square frame shaped by welding a plurality of metal bars, and a wire mesh 57a attached to the outer surface of the frame. The bottom surface 52 is composed of a square frame shaped by welding a plurality of metal bars, and a wire mesh 57b attached to the upper surface of the frame. The side surface 53 is formed by connecting a metal bar between the upper end of the rear surface 51 and the front end of the bottom surface 52 and attaching a wire mesh 57c to the inner surface. And the front surface 54 is made of a metal bar fixed to the bottom surface 52 and the front end of the side surface 53. [ However, the manner of joining the metal bars and attaching the wire mesh is not necessarily limited to the above-described manner.

 A plurality of legs (6) are installed in the lower part of the planting box (5). The leg 6 includes a vertical leg 62 extending a predetermined length downward from the lower end of the rear face 51 and a vertical leg 62 extending from the lower face of the bottom face 52 to a lower side, And a leg 61. The inclined legs 61 and the vertical legs 62 support the planting box 5 in a state where the planting box 5 is spaced apart from the ground by a predetermined height so that the aquatic biological living space 3 is formed therebelow. The aquatic habitat (3) is used as a habitat, shelter, or spawn of fish, and the height is lowered toward the back, so that a cozy atmosphere can be created. On the contrary, since the entrance of the aquatic habitat 3 is elevated, the water can be introduced into the aquatic habitat 3, and the environment rich in oxygen and food can be created.

At this time, the inclined legs 61 are installed to be inclined forward at a predetermined angle in a state where the upper end is fixed about the middle of the bottom surface 52, so that the load of the planting box 5 can be stably supported. The inclined legs 61 and the lower ends of the vertical legs 62 are embedded in a predetermined length on the ground and stably fixed. The base 65 is made of gravel, sand, or concrete at the position where the legs 6 are fixed. A shoe 64 having an enlarged area is provided at the lower end of the leg 6 to disperse a load applied to the leg 6.

3, the base layer soil 21 is filled in the planting space 2 of the planting box 5 so as to plant the plant. The base layer soil (21) may be composed of soil, sand or mixtures thereof. In addition, the base layer soil 21 may be mixed with an absorbent material, for example, terra cottem 25. TerraCotem (25) is a high molecular substance that absorbs water from a feng shui and discharges the water absorbed by the frizzling season to prevent the plant from failing. In addition, the base layer soil 21 may include plant seeds.

At this time, as shown in FIG. 1, a plurality of nonwoven fabrics 23 are installed on inner surfaces of the rear surface 51, the bottom surface 52 and the side surface 53 of the planting box 5. The nonwoven fabric 23 prevents the base layer soil 21 from being lost and allows the water of the stream or lake to permeate into the base layer soil 21. Also, on the upper surface of the base layer soil 21, a soil protection net 24 made of a nonwoven fabric 23 or a coir mat is provided to prevent erosion or loss.

Preferably, as shown in FIG. 1, a purification layer soil 22 formed by filling sand, gravel, or the like may be further installed on the lower end of the planting box 5. The soil of the purification layer 22 removes contaminants contained in water flowing into the planting box 5 from the water coming down from the base layer soil 21 or from a river or lake. Preferably, the purifying layer soil 22 further comprises porous ceramic, char or activated carbon particles.

As shown in FIG. 1, a plurality of wicks 71 are installed between the planting space 2 and the aquatic habitat 5. The wick 71 is made of a porous material in which a capillary is formed and the upper end thereof is located in the planting space 2 and is buried in the ground layer soil 21 and the lower end thereof is located in the aquatic living space 5 So that it is in contact with the water of rivers, lakes or artificial wetlands. The wick 71 then sucks the water from the aquatic living space 2 and supplies it to the base layer soil 21. In particular, when the level of a stream or lake descends below the bed soil 21, the wick 71 sucks up the water of the stream or lake and supplies it to the base soil 21 to prevent the plant from failing have.

Also, as shown in FIG. 1, a plurality of strap-like media 72 are installed in the aquatic creature habitat 3. The upper end of the string medium 72 is fixed to the bottom surface 62 and the lower end is located in the aquatic living space 5. The sticky media 72 then increases the microbial retention in the aquatic habitat 5 to purify the contaminants contained in the water. In addition, the rod-shaped medium 72 may be provided with a microfilm attached to the outer surface thereof as food for fish. In addition, a plurality of densely packed stringy media 72 may be used as a shelter or spawn for fish by forming a shadow.

5, a decorative plate 55 may be further provided on the front surface 54 of the planting box 5. [ The decorative plate 55 is a plate made of wood or stone and is installed perpendicularly to the front surface 54 of the planting. Preferably, the upper end of the decorative plate 55 is slightly protruded from the upper end of the front surface 54, and the lower end of the decorative plate 55 is installed to extend downward to a predetermined length so as to block the upper end of the aquatic biological living space 3.

Thus, if the lower end of the decorative plate 55 is installed at a lower portion, the lower surface of the ecological container 1 is prevented from being exposed to the outside, thereby improving aesthetic appearance. On the other hand, the upper end of the decorative plate 55 is installed relatively short so that the amphibian moving between the land and the water can be easily moved. In addition, the decorative plates 55 may be installed at different heights to form a moving path of the amphibian.

As described above, the energy saving type ecological kitchen 1 according to the present invention comprises a planting space (not shown) formed by a rear surface 51, a bottom surface 52, a side surface 53 and a front surface 54 made of an iron frame, 2) is filled with soil layer (21) to prevent the bank (4) from being eroded or scratched and damaged by the water or wave of river water or lake water.

4, the base layer soil 21 is installed in the planting space 2 of the planting box 5 to improve the water environment by planting various plants, A plurality of legs 6 are provided on the lower part of the planting box 5 to form an aquatic living space 3 at a lower portion of the planting box 5 and a base layer soil of the planting space 2 The roots planted in the aquatic habitat (3) are not only supplied with oxygen to the aquatic habitat (3) but also form shadows to enhance the habitat function of various fishes, ultimately leading to biodiversity It is possible to create a natural stream. In addition, the aquatic habitat (3) can enlarge a section of the water surface formed at the lower part of the slope of the reef to reduce the flow rate during the flood and increase the water storage capacity of the river, thereby preventing flooding of the river.

In addition, by providing a wire mesh and a nonwoven fabric 23 on the inner side of the planting box 5, it is possible to prevent water from leaking out of the base layer soil and to allow the water in the stream or lake to be absorbed into the planting box 5 or the bank 4 It has the effect of preventing the dry vegetation of the perennial vegetation (dried vegetation) and allowing various plants to flourish.

As shown in FIG. 6, the energy-saving ecological container 1 of the present invention is installed in a line along the bank 4 of a river, lake or artificial wetland. The neighboring ecological receptacle 1 is tightly bound using a plurality of fastening bolts or wires. Further, a flow control plate 67 composed of a water wall and an aeration sheet is installed between adjacent ecological baskets 1. The water wall is made of a metal plate or a concrete plate, and a through hole can be formed to partially block the flow of a river or a lake. The water-receiving sheet is installed between one side of the water wall and the water wall. Thus, the flow control plate 67 installed between the neighboring aquatic habitat spaces 3 can partially block the flow of water in the aquatic habitat space 3. Therefore, the flow control plate 67 protects the levee by reducing the flow energy, and reduces flood damage.

7 is a cross-sectional view showing another embodiment of the energy saving type ecological house according to the present invention.

As shown in the figure, the ecological basket 1 according to the present embodiment can be further provided with an embedding net 80 on the rear surface 51 of the planting box 5. The frame 80 comprises a frame 81 made of metal and a wire net 87 installed in the frame, and the inner space is filled with a plurality of gravel 82.

That is, the embedding style 80 is a rectangular parallelepiped composed of a rear surface 84, a bottom surface 85 and a side surface 86, and the bottom surface 85 extends obliquely downward toward the front, 1 on the rear surface 51 thereof. And the side surface 86 includes a metal bar horizontally installed between the upper end of the rear surface 84 and the rear surface 51 of the ecological box 1. At this time, the embedding net 80 is fixed to the lower end of the ecological basket 1 and may be fixed by welding or wire bonding.

As described above, the ecological basket 1 of the present embodiment is provided with the embedding net 80 on the rear side of the rear side 51 vertically installed adjacent to the bank 4, and is provided in front of the rear side 51 The earthenware box 1 can be firmly fixed and prevented from falling down by providing a balance with the planting box 5. That is, the load of the gravel 82 filled in the embedding mortar 80 and the embankment soil 4a installed thereon is balanced with the load of the planting box 5 and the soil layer 21 It is possible to prevent the ecological receptacle 1 from falling or falling toward the river, the lake or the wetland.

8 and 9 are perspective views showing still another embodiment of the energy saving type ecological house according to the present invention. As shown in the figure, the energy-saving ecological kitchen 1 of the present embodiment is provided with a planting space 2 in which plants can be planted and an aquatic creature habitat 3 that can be used as a shelter or a fish spawn But the structure of the planting box 5 forming the planting space 2 is somewhat different.

That is, the energy-saving ecological container 1 includes a rear surface 51 provided to contact with a bank 4 of a river, a lake or a wetland, and a bottom surface 51 extending forward from the rear surface 51 A side surface 53 vertically installed on both sides of the bottom surface 52 and a front surface 54 provided on the front surface of the bottom surface 52 and the side surface 53, And a planting box (5) for forming the planting space (2) at a constant size. A plurality of legs (61) (62) are installed in the lower part of the planting box (5) to form aquatic living space (3) with a certain size.

The side surface 53 is formed of a metal bar 531 connected between the upper end of the rear surface 51 and the upper end of the front surface 54. The front surface 54 Is composed of a rectangular frame-shaped frame and a wire mesh 59 installed at the ends of the bottom surface 52 and the side surface 53. Therefore, although the upper surface of the planting base 21 formed in the planting space 2 is sloped downward, the iron ecological house 1 according to the present embodiment has the same height .

 While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Various modifications and variations are possible within the scope of equivalents to be described.

1: Energy-saving ecological house 2: planting space
3: aquatic habitat space 4: embankment
5: Planting Box 6: Leg
21: Base layer soil 22: Purified layer soil
23: nonwoven fabric 51: rear surface
52: bottom surface 53: side surface
54: Front 55:
57: wire mesh 61: inclined bridge
62: vertical leg 64: shoes
67: Flow control panel 71: Wick
72: string medium 80: embankment for embedding

Claims (10)

In an energy-saving ecological house installed on the bank of rivers, lakes or artificial wetlands,
The energy-saving type ecological kitchen is a structure made of metal and includes a planting box for forming a planting space of a predetermined size so as to plant plants therein and a planting box provided on the bottom of the planting space for aquatic organisms This includes a number of bridges that form aquatic habitat for habitat,
The planting box includes a rear surface provided to be in contact with the bank, a bottom surface extending forwardly from the rear surface, a side vertically installed on both sides of the bottom surface, and a front surface provided on the bottom surface and the front surface and,
A wire mesh and a nonwoven fabric are installed on the rear surface, the bottom surface and the side surface of the planting box. The planting space is filled with a base layer soil for planting plants, and a soil protection net is installed on the base layer soil Wherein the aquatic habitat is provided with a plurality of stringy medias and wicks, and the upper end of the wicks is embedded in the base layer soil.
The method according to claim 1,
Wherein the bottom surface of the planting box is inclined upward and the side surface of the planting box is formed so as to be decreased in height toward the front side so that the planting space formed inside the planting box has a height lowered toward the front, Wherein the aquatic living habitat formed at the lower part of the space is formed in a shape that increases in height toward the front.
The method according to claim 1,
Wherein the leg comprises a vertical leg extending a predetermined length downward from a lower end of the rear face and an inclined leg extending from the center of the bottom face to a lower side by a predetermined length and being inclined forward at a predetermined angle. Ecological house.
The method according to claim 1,
The base layer soil is composed of a culture soil or sand or a mixture thereof. The base layer soil further includes a terracotem, which is an absorbent material. On the bottom of the base layer soil, a purification layer soil composed of sand, ceramics, granular activated carbon, Which is installed in the building.
The method according to claim 1,
Wherein the decorative plate is installed so that an upper end thereof protrudes slightly from the front surface and a lower end thereof is installed to extend downward to a predetermined length so as to block an upper end of the aquatic biological living space.
6. The method according to any one of claims 1 to 5,
The energy-saving ecological baskets are installed in a row along the bank, and a flow control plate composed of a water wall or an aqueduct sheet is further installed between adjacent energy-conserving ecological basins to reduce water energy in the aquatic living space to protect the bank Wherein the energy-saving type ecological house is an energy-saving type ecological house.
6. The method according to any one of claims 1 to 5,
Wherein an embedding mortar is further provided on the rear side of the rear surface, and the embankment soil is stacked at a predetermined height on the upper side of the embedding mortar.
8. The method of claim 7,
Wherein the embedding pattern comprises an inner space made of a metal frame and a wire mesh, and the inner space is filled with gravel.
10. The method of claim 9,
The weight of the gravel to be filled in the embedding pattern and the embedding pattern and the embankment soils stacked on top of the embedding pattern and the base layer soil to be filled in the planting box and the planting box, Wherein the weight ratio of the layer soil is balanced.
The method according to claim 1,
Wherein the bottom surface of the planting box is horizontally disposed and the side surface of the planting box is formed so as to have a lower height as the planting box moves forward, the planting space formed inside the planting box has a height lowered toward the front, Wherein the aquatic living habitat formed at a lower portion of the living body is formed in a shape having a predetermined height.

Images