KR101533424B1 - Blocks with the ecological function of the river - Google Patents

Abstract

The present invention relates to a block with ecological features for a river. According to the present invention, a plurality of blocks are installed on a river bottom to be connected to each other in an alternate manner to form a jet flow by varying the flow of river water, wherein an uneven overflow part protrudes upward from the top of the river bottom and jet flow forming parts in different sizes are arranged in the front and rear sides of the overflow part to reduce the flow rate of the river water and to form rapids and a jet flow. Therefore, the blocks are used for natural purification, drops, water inlet beams, underwater beams, scour prevention, and biological habitats around a pier and are applied to a cut slope and a road slope to prevent the slopes.

Description

Blocks with ecological functions of the river {

The present invention relates to a block having an ecological function of a river, and more particularly, to a block having an ecological function of a river, a plurality of blocks arranged in a crossing manner on the bottom of a river, , A water-purification and ecological function fused, structurally stable, ecologically environmentally friendly, ecological function of the stream.

In general, a tributary section of a small river that meets a large river or an accelerated flow rate in a shoal may cause a scour phenomenon due to a strong and rapid flow of water, or a disaster may occur in which the slope of the river collapses.

As the above-mentioned trenches are exposed and the steep slopes are formed, when the water is blown at the time of heavy rain and the water flowing in the trench section flows at a high speed with high speed at a time, In the case of valleys, landslides can also lead to landslides.

Thus, in the existing river maintenance method, concrete blocks have been mainly used for ease of construction and prevention of erosion. However, concrete blocks have been a typical example of undermining the main habitat of river organisms by completely covering the soil, which is the foundation of the undergrowth vegetation. Recently, the emphasis on the importance of river habitat environment has led to the opening of the environmental block, which has been applied to the field, and methods using materials such as natural stones are being developed.

As shown in Korean Utility Model No. 10-2013-0010982, a conventional technique for performing the above functions is to fill a stone inside a retaining wall constructed on a soft ground in order to prevent collapse when cutting a road surface or constructing a river side So as to form a mesh of a network structure by repeatedly joining a plurality of longitudinal and transverse wires in a lattice form so as to resist the impact of the filling stone and structurally stabilize the longitudinal wires, A plurality of unit mesh panels formed so as to protrude at least at an installation interval of at least one transverse direction wire from the iron wire and to divide a portion of the mesh of the network structure into a front wall portion and a bottom bottom portion centering on the "L" A plurality of longitudinal wires and a plurality of transverse wires are repeatedly combined with each other in a lattice form with a dense mesh so as to prevent the filling stone from being disengaged from the front of the unit mesh panel. An auxiliary mesh panel that is formed by forming an auxiliary mesh panel; A plurality of longitudinal wires and a plurality of transverse wires are repeatedly combined with each other in a lattice form so as to prevent the stones to be filled in each cell from escaping to the rear surface of the cut surface, Is folded and divided into a rear wall portion and an extended bottom wall portion around the "L" -shaped corner portion. The front wall portion of the unit mesh panel and the rear wall portion of the mesh panel for covering the rear face may be prevented from being inclined due to the settlement of the filling stone, And a tie-keeping support wire which forms a coupling ring at both ends so as to be respectively bound to a transverse wire at a position spaced from the "L" -shaped corner of the transverse wire at the extended bottom; .

These revetment methods have the advantage of being able to flow in vegetation, but there is a risk of loss of interlocking between block and natural stone in a section where a large flow force is expected to occur. Also, when the actual construction is performed in the field, there is a difficulty in the construction such as cutting a part of the block and fitting it to finish the installation.

In addition, since the gabion which is generally constructed at low cost for the purpose of scour prevention has to fill the gravels larger than the size of the gabion mesh, the selection and procurement of the filler is limited, and the gravel is lost after the gabion breaks over time there was.

From the viewpoint of water quality purification in rivers, the purification function of rivers is generally based on the principle that microbes living on the surface of gravel in the river bed oxidize and decompose pollutants. By using this principle, a large amount of gravel is filled Gravel contact oxidation facilities have been used to promote self-cleaning, but this approach has astronomical costs to install and, over time, deposits of inorganic suspended solids, such as soil, And the efficiency is remarkably reduced.

Therefore, it is necessary to develop new shape and function blocks that can provide vegetation inflow, improve natural purification ability, and provide nature friendly artificial shouls without pollution source, while complementing the disadvantages of existing revetment blocks. .

As shown in Korean Utility Model Registration No. 20-0426009, a conventional art for performing the above function is a block having an ecological function of an irrigation canal, which can expect the effect of a fish passageway and water inhabiting a river, A body of a rectangular shaped bottom base portion including a block integral linkage at four corners; The support of the 'H' shape is formed on the upper part of the bottom of the floor, the protrusions of both longitudinal edges are formed as a whorl in the front part and a whorl part in the rear part; A protrusion is formed at the center connecting the two longitudinal protrusions, the protrusion being formed at an intermediate height between a front portion and a rear portion of the longitudinal protrusion; It is a structure that is installed on the bottom or the bottom of the stream in the front, rear, left and right.

However, the conventional technology has a problem that the blocks are vertically and horizontally arranged so that the flow direction of the river is not changed and no stream is generated.

In addition, there is a problem that the plant can not be planted because there is no constitution capable of vegetation.

In addition, if the inside of the mesh is filled with a filling stone or the outside is provided with a stone, there is a problem that the mesh is cut or the mesh is dried and the filling stone is scattered or lost.

In addition, if the river water penetrates strongly to the bottom of the block, the block may float and bacteria may propagate on the floor.

In addition, there is a problem that the eroded sand can not be discharged between the blocks.

Korean Registered Utility Model No. 20-0426009. (September 01, 2006) Korean Public Utility Model No. 10-2013-0010982. (January 30, 2013)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a watercraft having a plurality of blocks having ecological functions of rivers crossing the river bottom, And the flow of river water is varied to induce the flow of rivers.

Another object of the present invention is to facilitate the vegetation of vegetation, and to secure a space for providing a vegetation space and a fish hiding place on a foundation block, thereby integrating ecological functions.

In addition, another object of the present invention is to organically combine with the bottom so that the residual means is not separated.

In addition, another object of the present invention is to prevent a flood from being lost or damaged due to buoyancy or sludge during flood.

In addition, another object of the present invention is to make it possible to easily discharge eroded sand on the block.

In order to solve such problems, the present invention provides a block having an ecological function of a stream installed on the bottom of a river, wherein a pair of coupling pieces are formed on both sides of the river, And a plurality of subwall wall portions formed on both sides of the main wall wall portion protruding upward from the upper surface of the bottom portion so as to be stepped outwardly toward the outer side are provided so that the height of the plurality of subwall wall portions is gradually reduced The top wall of the sub wall has an upwardly curved shape so that the plurality of sub wall walls have a continuous waveform, and the main wall wall has a vertical wall, which is vertically perforated from the upper part to the bottom part, And a partition wall is laminated inside the mesh box installed in the vegetation hole, and a soil layer and a gravel layer are sequentially filled, A moisture supply unit for allowing a water absorbing film, which is a bottom nonwoven fabric layered between a bottom surface of the bottom part and the bottom of the river bed, connected to the bottom nonwoven fabric to enter into the vegetation box to allow the river water to pass moisture, The plurality of first fluidizing means are fixed so as to be distributed in the bottom portion and the plurality of second fluidizing means are distributed in the bottom portion in the front and rear space of the main wall flow wall, And a flow forming portion for receiving the flow of the river water by the first fluidizing means to reduce the flow velocity of the river water by the main wall flow wall having the river water gathered toward the main wall wall side and relatively higher in height than the subwall wall. The basic features of

In order to solve such problems, the present invention provides a block having an ecological function of a stream installed on the bottom of a river, wherein a pair of coupling pieces are formed on both sides of the river, And a plurality of subwall wall portions formed on both sides of the main wall wall portion protruding upward from the upper surface of the bottom portion so as to be stepped outwardly toward the outer side are provided so that the height of the plurality of subwall wall portions is gradually reduced The top wall of the sub wall has an upwardly curved shape so that the plurality of sub wall walls have a continuous waveform, and the main wall wall has a vertical wall, which is vertically perforated from the upper part to the bottom part, And a partition wall is laminated inside the mesh box installed in the vegetation hole, and a soil layer and a gravel layer are sequentially filled, A moisture supply unit for allowing a water absorbing film, which is a bottom nonwoven fabric layered between a bottom surface of the bottom part and the bottom of the river bed, connected to the bottom nonwoven fabric to enter into the vegetation box to allow the river water to pass moisture, The plurality of first fluidizing means are fixed so as to be distributed in the bottom portion and the third fluidizing means is fixed so as to be connected to the rear wall of the main wall flow wall and the plurality of second fluidizing means are distributed in the front and rear spaces of the main wall flow wall, The first and third fluidizing means are formed to have a larger volume than the second fluidizing means and the flow of the river water is resisted by the first and third fluidizing means and the third fluidizing means, And a stream forming portion which is dispersed to the stream wall side to reduce the flow velocity of the stream water is another basic feature of the technical construction.

According to the present invention, a plurality of blocks having an ecological function of the river are installed so as to be connected to each other while being crossed with each other at the bottom of the river, and the flow of the river water is resisted by the first river means arranged so that the overflowing river water is gathered toward the main flow wall side And the stream flowing over the river water is collected while being collected toward the main flow wall side so that the flow velocity is reduced and the flow is generated.

According to the present invention, the flow of the river water is resisted by the first and second streaming means in which a plurality of the blocks having the ecological function of the river are arranged so as to be connected to each other while being crossed to the bottom of the river, And the flow passing through the river water is dispersed while being dispersed toward the next sub trolley wall side so that the flow velocity is reduced and the shouls are generated.

According to the present invention, the bottom portion is formed with a first coupling groove on the upper surface of the corner of the coupling piece, and a second coupling groove is formed in the center of the upper portion of the coupling space.

According to the present invention, a plurality of blocks having an ecological function of the river are provided, and a plurality of bottom portions are arranged laterally so that the first engaging grooves are aligned with each other, A pair of engaging pieces is fitted into the engaging space so as to abut the second engaging grooves, and then the engaging plate is inserted into the first engaging groove and the second engaging groove, and then fixed by the fixing means.

According to the present invention, the first and second fluidizing means and the second fluidizing means are installed through the installing means, wherein the installing means is provided with an iron plate at a lower portion of the bolts passing through the bottom portion, And a part of the anchor bolt is inserted into the lower part of the first and second means and the eye bolt is fixed to the lower part of the anchor bolt and the eye bolt of the computer bolt and the eye bolt of the anchor bolt are fastened with a steel wire. do.

According to the present invention, the bottom portion is characterized in that at least one buoyancy prevention hole is passed through the upper surface.

According to the present invention, the overflow portion is formed with discharge grooves on both sides of the lower portion abutting on the bottom portion.

According to the present invention, the overflow portion is formed by continuously connecting the front and rear surfaces of the main flow portion and the western flow portion in a curved shape so that the front and rear surfaces have a continuous waveform, thereby forming a space.

According to the present invention, the overflow portion is characterized in that the front and back surfaces of the main overflow portion and the overflow portion are linearly joined.

According to the present invention, the mesh box is provided with a mediator to adhere and grow microorganisms in the water.

As described above, the blocks having the ecological function of the river according to the embodiment of the present invention are installed in such a manner that the blocks having the ecological functions of the rivers intersect with each other at the bottom of the river and the hydrophilic river and landscape A swirling section having upwardly protruding steps formed on the upper surface of the bottom part to generate a stream of swollen water by forming a sole in consideration of the surface of the swirling flow, , The flow rate of stream water is reduced and the generated streams and shrubs are generated to be used as natural purification, sinking water, water intake, underwater scavenging, scouring around the pier or biological habitat, and applied to incision slope and road slope Slope protection is effective.

In addition, the block having the ecological function of the present invention can easily plant vegetation, and the base block is provided with a partition wall inside the mesh box so as to secure a space for providing a vegetation space and a fish hide, It has an effect of securing the fish grains, habitat and food source through the vegetation box in which the soil layer and the gravel layer are stacked and the plants are buried in order to perform the resting place of the fish, the feeding field and the spawning ground function.

In addition, the block having the ecological function of the present invention has an effect of improving the structural stability through the installation means for installing the floating means on the bottom portion so as to be organically coupled with the bottom portion so that the floating means is not removed.

In addition, the block having the ecological function of the present invention is a bottom structure of a river, so that at least one buoyancy prevention hole is penetrated on the upper surface of the bottom portion so as not to be lost or destroyed by buoyancy or laminar flow during flood, And the stability is improved.

In addition, the block having the ecological function of the present invention has the effect of preventing the accumulation of sand on the bottom portion by forming discharge grooves on both sides of the lower portion abutting the bottom portion so as to easily discharge the sand eroded on the upper portion of the block have.

1 is an exploded perspective view showing a block having an ecological function of a river according to the present invention.
2 is a front view showing a block having an ecological function of a river according to the present invention.
3 is a side view showing a state in which a block having an ecological function of a river according to the present invention is installed in a river.
4 is a plan view of an embodiment of a block having an ecological function of a river according to the present invention.
5 is a plan view of another embodiment of a block having an ecological function of a river according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

Fig. 1 is an exploded perspective view showing a block having an ecological function of a river according to the present invention. Fig. 2 is a front view showing a block having an ecological function of a river according to the present invention. Fig. FIG. 4 is a plan view of a block having an ecological function of a river according to an embodiment of the present invention, and FIG. 5 is a plan view of a block having an ecological function of a river according to another embodiment of the present invention.

1 to 3, a block 10 having an ecological function of a river according to the present invention will be described. In a block 10 having a river ecological function installed on a river bottom F, A flow-up part 200, a vegetation box 300, a water supply part 400, and a stratified part forming part 500.

The block 10 having the ecological function of the river according to the present invention will be described in more detail as follows.

First, the bottom portion 100 is a rectangular concrete block. In the bottom part 100, coupling means 110 is formed on the front and rear surfaces. At this time, the coupling means 110 includes the coupling piece 120 and the coupling space 130.

Here, the pair of engagement pieces 120 protrude from both sides of the bottom portion 100 in the forward direction. In addition, a coupling space 130 is formed between the coupling pieces 120 to be inserted therein.

The coupling space 130 is a width corresponding to the width of the pair of coupling pieces 120.

In addition, a first coupling groove 121 is formed on the upper surface of the corner of the coupling piece 120, and a second coupling groove 131 is formed in the upper center of the coupling cavity 130.

Here, a plurality of blocks 10 having the ecological function of the river are provided so as to be able to be installed so as to intersect with the river bottom F while being connected to each other. A plurality of the bottom portions 100 are arranged in the lateral direction so as to coincide with the first coupling grooves 121, A pair of engaging pieces 120 are fitted into the engaging spaces 130 so that the engaging grooves 121 are in contact with the second engaging grooves 131, then the engaging plates 150 are inserted into the first engaging grooves 121 and the second engaging grooves 131, .

The binding plate 150 is preferably "T" shaped, but is not limited thereto. In addition, it is preferable that the first and second coupling grooves 121 and 131 are formed with a female screw so as to be coupled in a bolt-fastening manner through fixing means 160 having a male screw.

In addition, one or more anti-buoyancy bores 140 were passed through the top surface of the bottom portion 100.

As a result, the block 10 having the ecological function of the present invention penetrates at least one buoyancy prevention hole 140 on the upper surface of the bottom part 100 so that the block does not float even if the river water infiltrates into the lower part of the block, And the stability is improved.

On the other hand, the ridge 200 is divided into a main wall 210 and a subwall wall 220. Here, the main flow wall 210 protrudes upward from the top surface of the bottom portion 100. In addition, a plurality of subwall walls 220 are formed on both sides of the main wall 210 in such a manner that steps are formed toward the outer side.

Here, the height of the plurality of subwall wall 220 gradually decreases, and the upper surface of the subwall wall 220 has an upward curved shape. Thus, the plurality of subwall walls 220 have a continuous waveform.

In particular, as shown in FIG. 4, the sweeping part 200 is formed so that the front and rear surfaces of the main swinging part 200 and the west swinging part 200 are continuously formed in a curved shape so that the front and rear surfaces have a continuous wave form.

In particular, the curved space of the corrugated structure formed on the front and rear surfaces of the ridge portion 200 can provide a large and small fish rest and hiding place, respectively, in accordance with the change of the flow rate through the organic connection with the streaming means. In other words, it provides a space for selecting and moving a suitable flow velocity region for each fish body.

In addition, the protruding spaces of the corrugated structure formed on the front and rear surfaces of the swollen portion 200 disperse the flow to the right and left to naturally disperse the swirls.

In addition, as shown in FIG. 3, the sweeping section 200 has the front and rear faces of the main swinging section 200 and the west swinging section 200 joined in a straight line.

The water level can be secured through the swinging part 200 as described above, and it is possible to prevent the loss of internal rubble and the like, and the ecological function as a whole can be secured.

Further, the ridge portion 200 forms a discharge groove 240 on both sides of the lower portion abutting on the bottom portion 100.

As a result, in the block 10 having the ecological function of the present invention, the discharge grooves 240 are formed on both sides of the lower portion abutting the bottom portion 100 so as to easily discharge the sand eroded on the upper portion of the block, do.

In addition, the main wall 210 forms a perforated vegetation hole 230 from the upper part to the lower part of the bottom part 100.

In addition, a vegetation box 300 is inserted into the vegetation hole 230. In the vegetation box 300, a partition wall 311, which is a nonwoven fabric, is laminated inside the grid box 310. Between the partition walls 311, a soil layer 313 and a gravel layer 315 are sequentially filled to form a plant.

Further, the water supply unit 400 stacks the bottom nonwoven fabric 410 between the lower surface of the bottom part 100 and the bottom of the river, inserts the water absorbing cloth 420 connected to the bottom nonwoven fabric 410 into the vegetation box 300,

The mesh box 310 may be provided with a plurality of medias 320, which function like a plant, to adhere and grow microorganisms in the water.

A plurality of vegetation holes 230 may be formed for arranging a plurality of vegetation boxes 300.

As a result, the block 10 having the ecological function of the present invention can easily plant vegetation, and the base block can secure vegetation space and a space for providing a fish hiding place so that the ecological function can be fused, The vegetation compartment 311 is stacked inside the mesh box 310 and the soil layer 313 and the gravel layer 315 are sequentially filled to form vegetation boxes 300 through which vegetation and habitats of the fish ) And food source (animal plactone proliferation by plants) are ensured to perform fish rest, feeding, and spawning.

On the other hand, the strand forming unit 500 includes a first winding unit 510, a second winding unit 520, and a third winding unit 530 installed at the bottom part 100.

4, a plurality of first fluidizing means 510 are fixedly distributed in the bottom portion 100 in the front and rear space of the subwall wall 220, and a plurality of second fluidizing means 520 are installed in the front and rear spaces of the main wall wall 210 So as to be distributed in the portion 100.

At this time, the first secondary means 510 is formed to have a larger volume than the second secondary means 520, so that the flow of the river water is resisted by the first secondary means 510 and the river water is gathered toward the main wall wall 210, So that the flow rate of the river water is reduced by the high main flow wall 210.

That is, a plurality of blocks 10 having ecological functions of rivers are installed so as to be connected to each other while being crossed with the river bottom F, and the flow of the river water is resisted by the first secondary means 510 arranged so that the overflowing streams are gathered toward the main flow wall 210 And then flows to the next main flow wall 210 side to repeat the flow of the river water so that the flow velocity is reduced and the flow is generated.

5, a plurality of first fluidizing means 510 are fixed so as to be distributed in the bottom portion 100, and a third fluidizing means 530 is fixed to the rear wall of the main wall 210 in the front and rear space of the subwall wall 220 In the front and rear spaces of the main flow wall 210, a plurality of second fluidizing means 520 are fixedly distributed on the bottom portion 100.

At this time, the first and second fluidizing means 510 and 530 have a larger volume than the second fluidizing means 520 and the flow of the river water is resisted by the first fluidizing means 510 and the third fluidizing means 530, 210 to the side of the subwall wall 220 formed on both sides to reduce the flow velocity of the river water.

That is, the flow of the river water is resisted by the first secondary means 510 in which the plurality of blocks 10 having the ecological functions of the rivers are arranged so as to be connected to each other while being crossed to the bottom F of the river, The stream is distributed to the next suburban wall 220 side, and the flow of the river water is repeated.

The first secondary winding means 510, the second secondary winding means 520, and the third secondary winding means 530 mainly use natural stone-like amber stones as a meandering induction material. Here, the first fluidizing means 510 has a size of 30 cm or more, the second fluidizing means 520 has a size of 15 cm or less, and the third fluidizing means 530 has a size of 25 cm to 30 cm.

Here, the first and second fluid means 510 and 520 are installed through the installation means 600. The installation means 600 is provided with an iron plate 620 at a lower portion of a bolt 610 passing through the bottom portion 100 and an upper nut 640 at an upper portion of the bolt 610. An anchor 640 is fixed to the lower portion of the first secondary means 510 and the second secondary means 520 A part of the bolt 630 is inserted and an eye nut 640 is installed on the lower part of the anchor bolt 630. The eye bolt of the computer bolt 610 and the eye bolt of the anchor bolt 630 are fastened by the steel wire 650.

That is, the block having the ecological function of the present invention is structurally improved in stability through the installation means 600 for installing the floating means on the bottom portion 100 so that the floating means is organically coupled with the bottom portion so as not to be detached.

Also, it is possible to create a water-friendly landscape through natural means, to ensure naturalness and prevent the accumulation of waste.

As a result, the block 10 having the ecological function of the river according to the embodiment of the present invention is installed in such a manner that a plurality of blocks 10 are connected to each other while being crossed on the bottom of the river block 10, and the upper surface of the block is formed with the hydrophilic river and the scenic surface A wobbling part 200 having upwardly protruding steps formed on the upper surface of the bottom part 100 so as to vary the flow of the river water and inducing the flow of the river water, Distribution of the stream formation part 500 reduces the flow rate of stream water and generates streams and shrubs that are generated and used for natural cleansing, sinking, water intake, underwater scavenging, scouring around the pier or biological habitat, and applied to incision slopes and road slopes Slope protection is effective.

As used herein, the terms "substantially", "substantially", and the like are used herein to refer to a value in or near the numerical value when presenting manufacturing and material tolerances inherent in the meanings mentioned, Absolute numbers are used to prevent unauthorized exploitation by unauthorized intruders of the mentioned disclosure.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

Description of the Related Art [0002]
F: Stream bottom 10: Block with ecological functions of rivers
100: bottom part 110: engaging means
120: coupling piece 121: first coupling groove
130: coupling space 131: second coupling groove
140: Buoyancy prevention ball 150: Binding plate
160: Fixing means
200: ridge portion 210: main ridge portion
220: a subwall wall 230: a vegetation ball
240: discharge groove
300: vegetation box 310: mesh box
311: partition wall 313:
315: Gravel layer 320: Media
400: water supply part 410: bottom nonwoven fabric
420: Water absorbent
500: strand forming part 510: first stranding means
520: second secondary means 530: third secondary means
600: mounting means 610: computer bolt
620: steel plate 630: anchor bolt
640: InNut 650: Steel wire

Claims (12)

In a block having an ecological function of a stream installed on a river bottom,
A bottom portion formed on the front and rear surfaces of the coupling means, the coupling means having a pair of coupling pieces formed on both sides thereof and a coupling space formed between the coupling pieces,
A plurality of subwall flow walls are formed on both sides of the main flow wall protruding upwardly from the bottom portion so as to be stepped outwardly so that the height of the plurality of subwall flow walls gradually decreases, A plurality of sub-wall flow walls having a continuous curved shape so that the sub-wall flow walls have a continuous waveform, and the main wall flow wall has a sweeping portion formed with a perforated hole vertically perforated from the upper portion to the bottom portion,
A vegetation box in which partition walls are stacked in a mesh box installed in the vegetation hole, and a soil layer and a gravel layer are sequentially filled,
A water supply unit for layering the bottom nonwoven fabric between the bottom surface of the bottom part and the bottom of the river bed and allowing the water absorbing cloth connected to the bottom nonwoven fabric to enter into the vegetation box,
Wherein a plurality of first fluidizing means are fixed so as to be distributed in the bottom portion and a plurality of second fluidizing means are distributed in the front and rear spaces of the main wall flow wall in such a manner that the first and second fluidizing means are distributed in the bottom portion, The flow of the river water is resisted by the first collecting means and the flow of the river water is reduced by the main flow wall having the relatively higher height than the subwall wall by collecting the river water to the main wall wall side Wherein the block has an ecological function of the river.
In a block having an ecological function of a stream installed on a river bottom,
A bottom portion formed on the front and rear surfaces of the coupling means, the coupling means having a pair of coupling pieces formed on both sides thereof and a coupling space formed between the coupling pieces,
A plurality of subwall flow walls are formed on both sides of the main flow wall protruding upwardly from the bottom portion so as to be stepped outwardly so that the height of the plurality of subwall flow walls gradually decreases, A plurality of sub-wall flow walls having a continuous curved shape so that the sub-wall flow walls have a continuous waveform, and the main wall flow wall has a sweeping portion formed with a perforated hole vertically perforated from the upper portion to the bottom portion,
A vegetation box in which partition walls are stacked in a mesh box installed in the vegetation hole, and a soil layer and a gravel layer are sequentially filled,
A water supply unit for layering the bottom nonwoven fabric between the bottom surface of the bottom part and the bottom of the river bed and allowing the water absorbing cloth connected to the bottom nonwoven fabric to enter into the vegetation box,
A plurality of first fluidizing means are fixedly distributed in the bottom portion of the sub wall flow wall and a third fluidizing means is fixed in such a manner as to be connected to the rear wall of the main wall flow wall, The first and third fluidizing means are formed to have a larger volume than the second fluidizing means and the flow of the river water is resisted by the first fluidizing means and the third fluidizing means, And a flow shaping portion which is dispersed toward the subwall wall formed on both sides of the flow wall to reduce the flow velocity of the stream water.
The method according to claim 1,
A plurality of blocks having an ecological function of the river are installed so as to be connected to each other at the bottom of the river, and the flow of the river water is resisted by the first streaming means arranged so that the overflowing river water is collected, Wherein the flow of the river water is repeated so that the flow rate is reduced and the shouls are generated.
3. The method of claim 2,
The flow of the river water is resisted by the first and second fluid means disposed in such a manner that the blocks having the ecological function of the river are connected to each other while being crossed and connected to the bottom of the river, Wherein the flow is repeated while the stream is being dispersed so that the flow is reduced and the flow is reduced.
3. The method according to claim 1 or 2,
The bottom portion
Wherein a first coupling groove is formed on an upper surface of the corner of the coupling piece and a second coupling groove is formed in an upper center of an inner upper portion of the coupling space.
6. The method of claim 5,
A plurality of blocks having an ecological function of the river are provided so that they can be installed so as to be crossed and connected to the bottom of the river,
A pair of engaging pieces are fitted into the engaging space so that the first engaging grooves are in contact with the second engaging grooves, and then the first engaging grooves and the second engaging grooves are engaged with the first engaging grooves, Wherein a binding plate is inserted into the upper part and fixed by a fixing means.
3. The method according to claim 1 or 2,
Wherein the first and second fluidizing means are installed through installation means,
The installation means
An iron plate is provided on a lower portion of the bolt passing through the bottom portion, an eye nut is provided on the top of the bolt, a part of the anchor bolt is inserted into the lower part of the first and second means, And an eye bolt of an anchor bolt is fastened by a steel wire.
3. The method according to claim 1 or 2,
The bottom portion
Wherein at least one buoyancy prevention hole is passed through the upper surface of the block.
3. The method according to claim 1 or 2,
Wherein the overflow portion has discharge grooves formed on both sides of the lower portion abutting on the bottom portion.
3. The method according to claim 1 or 2,
The above-
Wherein the front and rear surfaces of the main sweeping portion and the western sweeping portion are continuously formed in a curved shape so that the front and rear surfaces have a continuous wave form so as to form an associative space.
3. The method according to claim 1 or 2,
The above-
Wherein the front and rear surfaces of the main ridge portion and the western ridge portion are linearly joined to each other.
3. The method according to claim 1 or 2,
Wherein the mesh box is provided with a mediator to adhere and grow a microorganism in the water.

Images