KR20100130107A - Method for constructing eco-bridge system of combined moving way with fish and benthos - Google Patents

Abstract

PURPOSE: A fishway system mounting method having an integrative ecology path for benthic organism and fishes is provided to simultaneously and independently transfer diadromous fish, demersal fishes and benthic organism. CONSTITUTION: A fishway system mounting method having an integrative ecology path for benthic organism and fishes is as follows. A fishway system of a dual structure has a path, capable of the simultaneous movement of diadromous fish, demersal fishes and benthic organism. A concrete structure is formed to connect and assemble a water gate drainage unit and a water gate drainage unit. A binding projection and a binding groove are constituted respectively in the concrete structure in order to make binding projections(160a,160b) correspond to binding grooves(170a, 170b).

Description

Method for Constructing Eco-bridge System of Combined moving way with Fish and Benthos}

The present invention relates to a method for installing an airway system installed on the inclined surface of a hydrologic drainage part, such as a river cross-section hydraulic structure such as a beam or a dam.

Recently, the government introduced the project contents on the fundamental solution of water shortages and the repeated floods and droughts and the use of river-friendly water spaces utilizing the ecological environment in relation to Korea's Four Major Rivers Restoration Project. We have prepared a sufficient water supply plan. In other words, 16 beams will be installed in the four major rivers to secure 760 million ㎥ of water, and the Bo will adopt various designs considering the surrounding landscapes to create local landmarks and be eco-friendly, such as fish way. Plans to install facilities. At present, 18,000 agricultural reservoirs and dams are installed in Korea, but there are not many dams or reservoirs with fishes, and research and recognition on fishes is very insufficient.

A fish way is a generic term for waterways or devices that are artificially made to allow the movement of fish when it is difficult or impossible to move the fish by hand structures such as beams and dams that cross rivers. There are pooled fishes that are cascaded, Ice Habor type fishes, waterway fishes that are vertical slot type, denil type, horizontal gradient stone fishes, elevators, locks, Borland type, Fishpump type, hybrid fishes. .

Among these, the vertical slot type fish flows rapidly along the inclined surface by installing a right-angled or inclined flow path wall on a gentle channel connecting the inlet and the outlet. Attenuates the flow rate of water to flow constantly, and is easy to construct and maintain, and is widely applied to river cross-section constructions of low drop. In addition, according to the microcapacity study data comparing and comparing the rushing speed and the cruising speed of fish according to the fishery design guidelines (Rural Fisheries Promotion Corporation, 1997), It is introduced as a more suitable word for exercise. In addition, with regard to the installation of the fishery, the site-casting concrete method has the disadvantage of requiring a lot of manpower and construction period in formwork, reinforcement, concrete placement and curing, while precast concrete The construction method not only shortens the air through rationalization and mechanization of construction sites, but also considers the environment with the advantages of reducing construction waste and design. Therefore, precast has a disadvantage of high initial development cost, but it is worth considering it for construction that requires nature-friendly construction like repetition and repetitive construction of similar systems.

However, existing river cross-section structures such as beams and drop holes, which have been installed for the purpose of mitigating river slope, preventing dry-draining, and utilizing agricultural water, have fish and migratory properties that move upstream or downstream for spawning. In addition to making fish migration and small injuries almost impossible, fish populations can be reduced or extinct due to the destruction of their living environment. In particular, when dams are constructed upstream from small and medium-sized rivers, the stream maintenance of downstream streams decreases rapidly, cutting off the movement of various substances and causing catastrophic disturbances in river ecosystems such as water degradation.

In order to minimize the destruction of the river water ecological environment, the Fish Way is mandated by Article 79 of the Fisheries Act and Article 12 of the Fisheries Resources Protection Ordinance when constructing river cross-section structures, but the importance of fishery is economical. The present situation has not been recognized not only in terms of aspects, but also in terms of river ecological conservation.

On the other hand, a number of patent technologies have already been proposed at home and abroad, but these are all fishery techniques that are confined to migratory fishes, and at the same time independent fishes, benthic fish, benthos, benthos, etc. In addition to the lack of fisheries systems that can be transported, the type of fishes that are installed in most cross-section constructions is often selected without sufficient research on their function. In many cases, its function is lost due to lack of operation management system for fish. In other words, existing fishing vessels often do not fully reflect the hydrological characteristics of the river.

Therefore, the present invention is to improve the problems of the conventional fishery technology, as well as to devise a new fishery system installation method that can be restored at the same time, as well as micro-efficiency of aquatic fish and benthic organisms and aquatic plants as well as migratory fish.

Accordingly, the present invention has been made to improve the problems of the prior art, the object of the present invention relates to the installation method of the airway system is installed on the inclined surface of the hydrologic drainage, such as river cross-section construction structures such as beams and dams, in particular river ecosystem restoration It is to provide a fishery system installation method that has integrated ecosystem of fish and aquatic organisms that can be moved simultaneously at the same time independently of pedigree fish, benthic fish and benthos.

According to a feature of the present invention for achieving this object,

In the installation method of the airway system installed on the inclined surface of the hydrologic drainage, such as river cross-section hydraulic structures such as beams, dams,

Assembling and connecting at least one fishery system in the field on the upper and lower ends of the left and right side walls 110a and 110b on a concrete structure including the upper and lower side walls 110a and 110b and the upper plate 120a and the lower plate 120b having a predetermined space. Binding jaw (160a, 160b) and the binding groove (170a, 170b),

In the center of the upper plate (120a) is in close contact with the left and right side walls (110a, 110b) to move the pedigree fish with a running water passage, and assembled and installed in a zigzag on the bottom of the upper plate (120a) to a certain standard that can aquatic plants vegetation A plurality of adobe blocks 130,

Under the plurality of fish blocks 130, the light penetrates well and prevents the inflow of soil, and has a passage through which fishes and benthos can move, and inside the passages, a plurality of fish blocks varying in size depending on the dominant species. (141, 151) is formed in a zigzag and includes a plurality of passages 140, 150 for aquatic plants and aquatic benthic plants that can be vegetated,

In addition, the left and right side walls (110a, 110b) and the plurality of the block 130 in a straight line in parallel with the plurality of support pipe through holes 180 having a predetermined size for fixing the system 100, and the plurality of The support pipe 181 is inserted into the two support pipe through holes 180, and the tilt angle variable adjusting device 190 is fixed and fastened by adjusting the height of the support pipe 181 in accordance with the inclination angle of the hydrologic drainage. The first step of manufacturing the adobe system 100 having a;

A second step of forming concrete structures 510 and 520, respectively, for assembling and connecting the fishery system 100 with a gentle inclination angle between the sluice drainage part 300 and the lower floor of the downstream layer of the sluice drainage part;

In the concrete structures 510 and 520, the binding jaws 511a and 511 corresponding to the binding jaws 160a and 160b and the coupling grooves 170a and 170b of the fishery system so as to assemble and connect the fishery system 100. 511b) and the binding grooves 521a and 521b, each of which includes a third step of forming an integrated fishery system having an integrated ecological passage of fish and benthic organisms.

Preferably, the rubber having a waterproof function to alleviate the impact and prevent water leakage through the connection portion when assembling and connecting each of the air system 100 and the air system 100 and the concrete structure (510, 520) Or a fourth step of packing with a urethane (urethane) resin or the like.

Preferably, the concrete structure 510 is formed in a “?” Shape, and binding jaws 511a and 511b are formed to be assembled and connected to the binding grooves 170a and 170b of the fishery system 100, respectively. It characterized in that it comprises a fifth step.

Preferably, the concrete structure 510, the sixth grooves (512a, 512b) are formed to be fitted with a fixing pin (not shown) formed in the rear surface portion of the inlet side of the fishery system 100, respectively Characterized in that it comprises a step.

Preferably, the concrete structure 520 is formed in a "ㅛ" shape, the binding grooves 521a, 521b are formed to connect the binding jaw (160a, 160b) of the air system 100, respectively And a seventh step.

Preferably, the air system 100, characterized in that it comprises an eighth step of being supported by a concrete pedestal or natural stone 600 instead of the support pipe 181.

According to the present invention, the following effects can be expected.

The fishery system installation method having an integrated ecological passage of fish and benthic organisms of the present invention is capable of assembling and disassembling the fishery system as well as planting aquatic plants, and a plurality of fish blocks assembled and installed in a zigzag with a predetermined standard, and By integrating a plurality of fishes and aquatic passages in which a plurality of fish blocks are zigzag to a smaller size than a plurality of fish blocks,

(1) Cytomegaloid fish, paddling fish, and benthic creatures, which are relatively large fish in one fishery system, can be moved independently.

(2) Each of the plurality of fish blocks has a filtering function to purify the contaminated runoff, to promote the sticking and growth of aquatic plants, and to enhance the effectiveness of sedimentary fish, fish and benthic species.

(3) Facilitate the movement of fish by attenuating the fast flow rate of the inclined surface guided in the zigzag direction from the inlet to the outlet.

(4) As it is possible to assemble and disassemble the fishery system, it is easy to move to the site, and the installation and construction work are simple, which has a unique effect of remarkably reducing construction costs.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even if displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view schematically showing an esophagus system in a method of installing an fishery system having an integrated ecological passage of fish and benthic creatures according to a preferred embodiment of the present invention, and FIG. 2 is a fish and benthic creature according to a preferred embodiment of the present invention. Figure 3 is a three-dimensional view and a side view showing a block diagram of the fish in the installation system of the integrated ecosystem with the integrated ecological path of Figure 3 is a fishery system installation method having an integrated ecosystem of fish and benthos according to a preferred embodiment of the present invention 4 is a perspective view showing a state of assembling and disassembling the fish block, FIG. 4 is a plan view and a steel grade specifically showing the fish meat system in a method of installing the fish food system having an integrated ecological passage of fish and benthic fish according to a preferred embodiment of the present invention; Figure 5 shows the integrated ecology of fish and benthic organisms according to a preferred embodiment of the present invention. 6 is a perspective view illustrating a tilt angle variable adjusting device in an airway system installation method having a furnace, and FIG. 6 is installed in a hydrologic drainage part in an airway system installation method having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention. Figure 7 is a view showing a concrete structure, Figure 7 is a view showing a concrete structure installed in the lower floor of the lower floor of the hydrologic drainage in the installation system of the fishery system having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention, 8 shows one or more fishery systems installed with a gentle inclination angle between the hydrologic drainage part and the lower floor of the lower layer of the hydrologic drainage part in a method of installing an fishery system having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention. Figure 9 is a combination of fish and benthic creatures according to a preferred embodiment of the present invention Even with the passage shows a flow chart for the system installation method, respectively.

1 to 9, the core technical configuration of the installation system of the fisherman system 100 having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention, a plurality of fish blocks 130, 141, 151 ), A plurality of passages for fish and benthos 140, 150, binding jaw (160a, 160b) and the binding groove (170a, 170b), a plurality of support pipe through hole 180, tilt angle variable control device 190 ), And the concrete structure (510, 520).

First of all, the present invention has a function of restoring an ecosystem of a river unlike a single structure having a moving passage centered on a conventional migratory fish, and a migratory fish and aquatic fishes, benthic creatures in one fishery system 100. In this case, a dual structured fishery system having passages for fishes and benthic creatures installed on the inclined surface 200 of the hydrologic drainage part 300, such as river cross-section hydraulic structures such as beams and dams, which are independently movable together It has its features.

Referring to FIGS. 1 and 2, the plurality of fish blocks 130 is a passage means for allowing the migratory fish to easily move along the inclined surface 200 for a while, and is uniform with the left and right side walls 110a and 110b. The left and right sidewalls 110a and 110b have a flow passage in the center of the upper plate 120a of the fishery system 100 formed of the upper plate 120a and the lower plate 120b having a space portion so that the quay fish, which are relatively large fishes, can move. It is in close contact with the top plate 120a is assembled in a zigzag bottom.

Here, the plurality of fish blocks 130 is composed of (130a ~ 130f), a kind of ditch wall used in the perpendicular or inclined direction of the flow path on the gentle channel connecting the inlet and outlet (유입 流 壁) ), Which reduces the water flowing down the slope so as to have a constant flow rate, and is also more prevalent in the precast concrete process, which is more advantageous than the site-casting concrete method, which is more advantageous for the repeated construction of concrete structures of similar systems. It shall be produced by.

In addition, referring to FIG. 2, the plurality of fish blocks 130 may be assembled and installed in the field, and the blocks may be disassembled and assembled in a zigzag form at the bottom of the top plate 120a of the fish food system 100. The lower portion 132 includes a plurality of block fixing holes 135 and block fixing pins 136 inserted into and fastened to the block fixing holes 135.

Here, the block fixing pins 136 fixing the plurality of fish blocks 130 are inserted into and fixed in the fixing grooves 121a and 121b formed on the bottom of the upper plate 120a of the fishery system 100.

The plurality of reservoirs and the passage for benthic creatures (140, 150) is a passage means for allowing aquatic organisms, such as aquatic fishes to move easily, the upper plate (120a) and lower plate (120b) of the fish system 100 The space portion, that is, the lower portion of the fish block 130 has a passage through which the fish and benthos can move, the passage is a plurality of fish block (141, 151) is adjusted according to the dominant species species It is assumed to be formed in a zigzag (see an enlarged part of FIG. 1).

In addition, the plurality of fish blocks (141, 151) by making the size 1/3 / 1/10 size than the plurality of fish blocks 130, the plurality of fish blocks (141, 151) according to the dominant species ) To adjust the size of the) to make it.

In addition, the plurality of reservoirs and passages for benthic organisms (140, 150) can be manufactured in advance to be assembled and disassembled like the plurality of fish blocks 130 or in a structure that is fixed at the time of precast concrete casting. .

Here, the plurality of fish blocks 130, 141, and 151 may be concreted as necessary in consideration of the design load of the fish system 100 having the integrated ecological passage of fish and benthic organisms according to the preferred embodiment of the present invention. Instead of FRP (Fiber glass Reinforced Plastic), porous bio-stone (Bio-stone) can be produced.

In addition, the plurality of ponds and benthic passages (140, 150) is a waste, such as soil and tree roots through the sluice drainage 300 during flooding the plurality of ponds and benthic passages (140, 150 may be provided with a separate transparent shielding means (not shown) in the steel gratings 142 and 152 installed in the inlet of the fishery system 100 and the opening of the upper plate 120a to prevent the passage from being blocked.

Referring to FIG. 2, the plurality of adobe blocks 130, 141, and 151 form a left and right side 133 rounded with a constant r value between the upper part 131 and the lower part 132, but flowing down from an inclined surface. Flowing water storage jaw 134 is formed in the lower portion 132 and the left and right side 133 so that flowing water is vortexed in the plurality of fish blocks 130, 141, and 151 to store a predetermined flow of water.

Meanwhile, referring to FIG. 3, the plurality of fish blocks 130 are in close contact with the left and right sidewalls 110a and 110b of the fishery system 100 to be assembled and installed in a zigzag on the bottom of the upper plate 120a. The shape of one of the plurality of Adobe blocks 130, 141, and 151 is shown graphically for easy understanding (see dotted line enlargement).

Referring to FIG. 4, in order to allow light to penetrate through the passages 140 and 150 for the plurality of fishes and benthic creatures, the upper plate 120a except for the portion where the plurality of fish blocks 130 are installed is disposed. It is to include a steel-grating (142, 152) of a material that does not rust well by opening as much as the area portion of the plurality of fish and the passage for benthos 140, 150.

In addition, the oil and water storage jaw 134 of the plurality of fish blocks 130, 141, 151 has a filtering function to purify the contaminated water, promote the swelling and growth of aquatic plants, and pelagic fish and fishes, benthic organisms It is assumed that the porous biostone 137 is included so as to enhance the small phase effectiveness of (see FIG. 2).

Here, the biostone (bio-stone) is filled with the bio soil of the ceramic porous body containing zeolite (Zeolite,, 石), does not decompose well in water and supplies sufficient nutrients to planted aquatic plants as well as fish and It helps to injure benthic creatures such as snails.

The binding jaw (160a, 160b) and the binding groove (170a, 170b) is a means for easily assembling and connecting at least one of the Adobe system 100 in the field, and has a left and right side wall (110a, 110b) and a constant space portion The upper and lower ends of the left and right side walls 110a and 110b are respectively formed on the concrete structure including the upper plate 120a and the lower plate 120b. Moreover, it is supposed to have a high strength so as to withstand the inclined load of the inclined surface sufficiently.

1, 3, and 5, the plurality of support pipe through holes 180 is a means for fixing the fishery system 100 having an integrated ecosystem of fish and benthic organisms of the present invention, The plurality of support pipe through holes 180 are arranged in line with each of the plurality of fish blocks 130 (130a to 130f) which are assembled in close contact with the left and right sidewalls 110a and 110b of the system 100. When the concrete is placed (180a ~ 180f), respectively, the diameter of the through hole through which the pipe is inserted (Φ value) shall be determined to fully reflect the design load of the fishery system having an integrated ecological passage of fish and benthic organisms of the present invention.

In addition, the plurality of support pipe through holes 180 has a predetermined standard and includes a variety of circular, rectangular, polygonal, etc. according to the installation location or construction method of the fishery system 100.

Referring to FIG. 5, the inclination angle variable adjusting device 190 includes a plurality of support pipe through holes 180 formed in the airway system 100 according to the inclination value of the inclined surface 200 of the hydrological drainage part 300. It is a means for fixing and fastening by adjusting the height of the support pipe 181 to be inserted variably.

Here, each of the inclination-angle variable adjusting device 190 (190a ~ 190f), each of the left and right side walls (110a, 110b) of the fishery system 100 and each of the plurality of fish blocks 130 (130a ~ 130f) and It is installed on the upper surface of each of the plurality of support pipe through holes 180 formed in a straight line side by side (180a ~ 180f), may independently adjust the height of the support pipe 181 according to the construction site conditions, In addition, the pipes facing each other in proportion to the inclination of the fishery system 100 can be specially manufactured so that the height of the support pipe 181 can be adjusted step by step as a group. Hereinafter, the technical details of the device for adjusting the inclination angle of the Adobe system 100 are not mentioned herein any further, and the disclosed technologies may be selected.

Up to now, according to a preferred embodiment of the present invention has been described a unique fishery system of dual structure that can move independently for simplicity fish as well as for poncho fish, benthic life.

6 to 9, a description will be given of a fishery system installation method having an integrated ecosystem of fish and benthic organisms according to a preferred embodiment of the present invention using the fishery system 100 described above.

First of all, the step S1 of manufacturing a dual structure of the fishery system 100 having a passage capable of independently moving simultaneously with an appeasement fish, an aquarium fish, and an benthic creature according to a preferred embodiment of the present invention.

Concrete structure 510 for assembling, connecting, fixing and supporting the fishery system 100 with a gentle inclination angle between the hydrology drainage portion 300 and the lower floor bottom of the downstream layer of the hydrology drainage portion 300. 520 to form the step S2.

In order to be able to assemble and connect the fishery system 100 to the concrete structures 510 and 520, a bonding jaw (ie, corresponding to the engagement jaws 160a and 160b and the engagement grooves 170a and 170b of the fishery system 100). S3 steps of forming 511a and 511b and binding grooves 521a and 521b, respectively.

In addition, rubber or urethane having a waterproof function to alleviate the impact and prevent water leakage through the connection portion when assembling and connecting the fishery system 100 and the fishery system 100 and the concrete structures 510 and 520. (Surethane) step S4 may be packed with a resin or the like.

In addition, the concrete structure 510 is formed in a "?" Shape, the binding jaw (511a, 511b) is formed, respectively, in order to assemble and connect to the binding grooves (170a, 170b) of the fishery system 100, respectively S5. Steps.

In addition, the concrete structure 510, the step S6 is formed with fixing grooves (512a, 512b) are formed to fit the fixing pins (not shown) formed on the rear surface of the inlet side of the air system 100, respectively. do.

In addition, the concrete structure 520 is formed in a "ㅛ" shape, the binding grooves 521a, 521b are formed respectively to assemble and connect the binding jaws (160a, 160b) of the fishery system 100, respectively S7. Steps.

In addition, the air system 100 includes a step S8 is supported by a concrete pedestal or natural stone 600 instead of the support pipe 181.

As described above, the fishery system installation method having an integrated ecological passage of fish and benthic organisms includes a plurality of fish blocks that can be assembled and disassembled as well as aquatic plants can be planted and assembled and installed in a zigzag with a certain standard. By integrating a plurality of fishes of a size smaller than the plurality of fish blocks with the zigzag plural fishes and aquatic passages, independent fishes, fishes and fishes, which are relatively large fish in one fish system, are independent. Simultaneous movement is possible. In addition, each of the plurality of fish blocks has a filtering function to purify the contaminated running water, promote the adhesion and growth of aquatic plants, and enhance the effectiveness of small fish, fish and benthic organisms. In addition, since it is possible to assemble and disassemble the air system, it is easy to move to the site, and the installation and construction work are simple, and thus, there is a unique feature that can significantly reduce construction costs.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

1 is a perspective view schematically showing an esophageal system in a method of installing an esophageal system having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention;

Figure 2 is a three-dimensional view and side view graphically showing the block of the fish in the installation system of the fishery system having an integrated ecosystem of fish and benthic organisms according to a preferred embodiment of the present invention

Figure 3 is a perspective view showing a state of assembling and disassembling the block in the air system installation method having an integrated ecosystem of fish and benthic organisms according to an embodiment of the present invention

FIG. 4 is a plan view and steel-grating specifically showing the fishery system in the fishery system installation method having an integrated ecological passage between fish and benthic organisms according to a preferred embodiment of the present invention.

Figure 5 is a perspective view showing a tilt angle variable control device in the airway system installation method having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention

6 is a view showing a concrete structure installed in the hydrologic drainage in the airway system installation method having an integrated ecological passage of fish and benthos according to a preferred embodiment of the present invention

7 is a view showing a concrete structure installed on the bottom floor of the downstream layer of the hydrologic drainage in the airway system installation method having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention

8 is at least one fish system installed with a gentle inclination angle between the hydrologic drainage portion and the lower floor of the lower layer of the hydrologic drainage in the method of installing the fishery system having an integrated ecological passage of fish and benthic organisms according to a preferred embodiment of the present invention Drawing shown

FIG. 9 is a flow chart illustrating a method for installing an airway system having an integrated ecosystem of fish and benthic organisms according to a preferred embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: Adobe system 110a, 110b: left and right side walls

120a, 120b: Upper and lower plates 130, 141, 151: Adobe Block

131, 132: upper and lower 133: left and right side

134: flowing water storage jaw 135: block fixing hole

136: block fixing pin 137: bio-stone

140, 150: passages for fishes and benthic creatures

160, 170, 511, 521: binding jaw and binding groove

180: support pipe through hole 181: support pipe

190: tilt angle variable adjusting device 200: slope

300: sluice drain 510, 520: concrete structure

Claims (6)

In the installation method of the airway system installed on the inclined surface of the hydrologic drainage, such as river cross-section hydraulic structures such as beams, dams, Assembling and connecting at least one fishery system in the field on the upper and lower ends of the left and right side walls 110a and 110b on a concrete structure including the upper and lower side walls 110a and 110b and the upper plate 120a and the lower plate 120b having a predetermined space. Binding jaw (160a, 160b) and the binding groove (170a, 170b), In the center of the upper plate (120a) is in close contact with the left and right side walls (110a, 110b) to move the pedigree fish with a running water passage, and assembled and installed in a zigzag on the bottom of the upper plate (120a) to a certain standard that can aquatic plants vegetation A plurality of adobe blocks 130, Under the plurality of fish blocks 130, the light penetrates well and prevents the inflow of soil, and has a passage through which fishes and benthos can move, and inside the passages, a plurality of fish blocks varying in size depending on the dominant species. (141, 151) is formed in a zigzag and includes a plurality of passages 140, 150 for aquatic plants and aquatic benthic plants that can be vegetated, In addition, the left and right side walls (110a, 110b) and the plurality of the block 130 in a straight line in parallel with the plurality of support pipe through holes 180 having a predetermined size for fixing the system 100, and the plurality of The support pipes 181 are respectively inserted into the two support pipe through holes 180, and the inclination angle variable adjusting device 190 fixes and fastens the variable height of the support pipe 181 according to the inclination angle of the hydrologic drainage. The first step of manufacturing the adobe system 100 having a), A second step of forming concrete structures 510 and 520, respectively, for assembling and connecting the fishery system 100 with a gentle inclination angle between the sluice drainage part 300 and the lower floor of the downstream layer of the sluice drainage part; Binding jaws 511a and 511b corresponding to the binding jaws 160a and 160b and the coupling grooves 170a and 170b of the airborne system so as to assemble and connect the fishery system 100 to the concrete structures 510 and 520. And a third step in which the coupling grooves 521a and 521b are formed, respectively. The method of claim 1, wherein the waterproofing system is provided to relieve shock and prevent water from leaking through the connecting portion when the fishery system 100 and the fishery system 100 and the concrete structure 510 and 520 are assembled and connected. A fishery system installation method having an integrated ecosystem of fish and benthic organisms, characterized in that it comprises a fourth step of packing with rubber or urethane resin. The method of claim 2, wherein the concrete structure 510 is formed in a "?" Shape, the binding jaw (511a, 511b) to be assembled and connected to the binding grooves (170a, 170b) of the fishery system 100 A fishery system installation method having an integrated ecological pathway of fish and benthic organisms comprising a fifth step each formed. The method of claim 3, wherein the concrete structure 510, the fixing grooves (512a, 512b) are formed to fit the fixing pins (not shown) formed on the rear surface of the inlet side of the air system 100, respectively A fishery system installation method comprising an integrated ecological pathway of fish and benthic organisms comprising a sixth step. The method of claim 2, wherein the concrete structure 520 is formed in a "ㅛ" shape, the binding grooves (521a, 521b) is formed in order to assemble and connect the binding jaws (160a, 160b) of the fishery system 100 A fishery system installation method having an integrated ecosystem of fish and benthic organisms comprising a seventh step each formed. According to claim 1, The fish system 100, Fish and benthic integration, characterized in that it comprises an eighth step of being supported by a concrete pedestal or natural stone 600 instead of the support pipe 181 Airway system installation method with ecological passage.

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