KR101138492B1 - Ecological Structure for Creation of Fish and Aquatic Habitat in Eco-river - Google Patents

Abstract

PURPOSE: An ecosystem structure for developing a habitat for fishes and aquatic animals in an ecological river is provided to secure the recovery and diversification of aquatic ecosystem. CONSTITUTION: An ecosystem structure for developing a habitat for fishes and aquatic animals in an ecological river comprises a structure(10) and an inflow and effluent water control device(20). In the center of the structure, a porous membrane(11) is installed in an arch shape. A compartment space(12) for the habitation of fishes is formed inside the porous membrane. An outside compartment space(13) for the habitation of fishes is formed outside the porous membrane. The structure is formed in a hollow semi-circle shape.

Description

Ecological Structure for Creating Fish and Aquatic Habitat in Ecological Streams {omitted}

The present invention relates to a structure for habitat formation of fish and aquatic animals in urban streams, and the habitat environment similar to the natural environment before the damage in various aquatic animals, especially fish habitats in urban streams damaged by ecosystem damage and excessive river maintenance. The present invention relates to an ecological structure for fish and aquatic habitat creation in an ecological river that can preserve stream ecology.

In general, a dike refers to a civil structure that is formed by stacking soil and sand to prevent flooding by restricting water in rivers, coasts, lakes, and swamps within a certain flow path. These dikes are protected by grass, stone, concrete, retaining walls and other revetment works, depending on the location and purpose. Since these retaining walls and concrete structures are made of concrete material, there is no environment for plants and plants to grow on the bottom of the river, so there is not enough space for fish and aquatic animals. There was a problem that it is impossible to preserve the river ecology.

In other words, the existing freshwater fish habitat is a simple device type to create a simple evacuation space for fish in the concrete structure, focusing on securing dimensional stability rather than providing the habitat is limited inherent function as a habitat.

As an embodiment of such an ecological structure, Korean Patent Registration No. 0925264 discloses, "In a block constructed at a certain height on a river and a riverside, the first compartment in which earth and sand are stored, and the left and right sides of the first compartment are bounded by an intermediate partition. A body having a second compartment and a third compartment arranged at both sides to store water; A first movement path formed in a diagonal direction to enable movement of small animals, reptiles and insects on the front surface of the body; A cover provided on an upper portion of the body to open an upper portion of the first compartment; A flow pipe crossing the first compartment so as to communicate an interior space of the second compartment and the third compartment; And an filtration member provided at a lower end of the third compartment to regulate water quality and discharge rate of water.

In addition, the Republic of Korea Patent Registration No. 0703609, "The frame is installed between the side and the bottom of the stream having a vertical wall, a plurality of flanges and the front entrance and the upper entrance, and the entrance of the aquatic animal is installed on the back of the frame Since the coupling case to form, a plurality of fish table that is fixedly coupled to each of the vertical wall between the plurality of flanges, and a plurality of rubber cylinders for inserting and coupling the aquatic animals for insertion and insertion of the aquatic animal River dike for habitation of aquatic animals, which provides aquatic routes and habitats for aquatic animals such as fish, otters, and habitats where fish can inhabit, thereby protecting aquatic animals and fishes and creating eco-friendly ecosystems of rivers. Retaining Walls ”has been disclosed.

In addition, the Republic of Korea Patent Registration No. 0815290, "In the natural friendly retaining wall block assembly consisting of a body having a shape of a vertical tetrahedral plate and a support for supporting the body, the receiving hole through the central portion of the body of the retaining wall block assembly Is provided, is inserted from the rear of the receiving port, the cylindrical body formed with a screw thread on the outer circumferential surface of the one end portion having a space therein; and located in the front of the main body receiving port, the upper portion of the flange to form a main body Fish body formed so that it is no longer fitted inside the receiving port of the, has a flow path groove through which the fish can be moved through the upper surface, a screw thread is formed on one inner circumferential surface and fastened to the outer circumferential surface of the body screw; Installed retaining wall block assembly has been disclosed.

On the other hand, fish habitats in natural rivers are not sedimentary, but have a slow flow rate but flow of water, and various flow rates are formed depending on the season, and each fish selects a habitat that meets the conditions according to the type of habit. When the soil is partially deposited in the space and the flow velocity is high, the accumulated soil is floated and the original form is preserved to form a constant space as the environment changes, thus providing a space for fish and aquatic animals. do.

However, the conventional ecological structures are difficult to create an ecological environment similar to the state of natural rivers, and simply reduce or stagnate the flow rate to perform the function of evacuation of aquatic animals such as fish. Investigation of the river shows that there is a limit to the various fishes actually using such spaces. To solve these technical problems, Korean Patent Registration No. 1042759 states, “Living space for daily swimming and feeding activities of freshwater fish. Evacuation space for preservation in crisis situations such as changes in rainy season or surrounding environment, influx of pollutants and entry of harmful organisms, resting space for relieving animal instincts and stress, and for stable growth of spawning, hatching and fry Restoration of ecological river consisting of breeding space The natural habitat of freshwater fish and shellfish has been disclosed.

However, the natural habitat of freshwater fish and shellfish for the restoration of ecological rivers, in order to supply clean water to the habitat when the contaminated water flows into the river, creates a water tank at the bottom of the upstream where the contaminated water does not flow and the purified water is downstream. As it was invented to supply to the habitat space of the, it is expensive to apply it, there are many considerations such as transport distance, so it is impossible to realize it realistically, and the problem of supplying separate clean water such as groundwater or water supply There were limitations that were not realistic due to high costs.

In addition, it is inefficient and practical to consider the diversity of aquatic animals such as fish in rivers by separately setting eating and eating areas (hunting grounds) for fish feeding activities, resting spaces for stress relief, and breeding spaces. Not only is it unrealistic, but there is only one place that can be introduced into the habitat, so it is not easy for fish to enter, and this habitat is likely to be buried due to sediment deposition by one or two rainfalls. Very large, there is a problem that can not perform the function due to the sedimentation of the pipeline also the clean water inflow.

Therefore, it is necessary to create an environment similar to that of natural rivers in the habitats of aquatic animals such as fish, to provide clean water at all times, and to develop ecological structures to prevent sediment deposition. The development of biological habitats with observation facilities for observing and learning these habitats is required.

In order to solve the above problems, the present invention grasps the ecological habits of fish mainly in urban streams, such as fish inhabiting cattle in bedrock, fish attaching to aquatic plants, fish living in small gravel or sand, and spawning them. It provides an optimal environment for the habitat of various fishes by creating an ecological structure that functions as a habitation, rest and evacuation space, and prevents habitat damage due to sediment deposition or inflow of sewage. It is to provide an ecological structure for the creation of fish and aquatic habitats in ecological rivers.

In order to achieve the above object, the present invention is installed on the waterfront, the left and right sides are provided with an inlet and an outlet communicating with the inside and the structure partitioned into the inner and outer compartment space by the porous membrane installed in the center; It is installed corresponding to any one selected from the inlet and outlet of the structure or each of the inlet and outlet, inflow and outflow water to control the inflow and outflow amount by adjusting the blocking angle of the inlet and outlet of the structure It provides an ecological structure for the formation of fish and aquatic habitat of the ecological river, characterized in that it comprises a control device.

The inner and outer compartments are filled with fillers, and the porous diaphragm is made of permeable concrete, but a part of the outlet side of the porous diaphragm is composed of a communication unit so that the inner and outer compartments communicate with each other. In the vicinity, spawning and fry habitats are formed, and inlet water flows directly into and out of the external compartment where the inlet flows through. It is preferable to make it form.

In addition, the inlet and outlet water control device is a hinge shaft that is correspondingly rotatably coupled to the coupling holes provided at the left and right ends of the porous diaphragm to block the inlet and outlet portion of the structure; An inflow and outflow water control plate extending outwardly from one end of the hinge shaft and fitted into a plurality of coupling grooves formed along the incision space while rotating in the incision space provided in the coupling hole so as to adjust the blocking angle of the inflow part and the outflow part; It is preferably configured to include.

In addition, the coupling groove into which the inflow and outflow water adjusting plates are fitted may be formed along the incision space so that the inflow and outflow water blocking angles can be adjusted in three stages.

In addition, it is preferable that a removable water purification kit is installed at the inlet of the inlet.

In addition, the water purification kit is preferably composed of any one or more of activated carbon, zeolite, pearlite.

In addition, a vegetation block is provided at the bottom of the river and a vegetation mat is installed inside the vegetation block, which provides a vegetation space for the aquatic plants to grow without disturbing the operation of the fish inlet and inflow and outflow water control devices. desirable.

In addition, it is preferable to install the observation light and the underwater camera inside the structure to observe the ecology of aquatic animals through the observation monitor.

Ecological structure for the habitat of the fish and aquatic animal habitat of the ecological river according to the present invention, the habitat of the fish and aquatic animals in urban streams lost due to ecosystem damage and unreasonable river maintenance in the form similar to before the damage and breeding of fish It has the functions of possible spawning and resting spaces, and provides an evacuation space where fish can prepare in emergencies such as dry season and flooding.

In addition, it is possible to observe the habitat rich in fish and aquatic animals through the camera at all times, through the effect of eco-learning can bring people to increase the value of ecology and interest in the river.

1 is an installation state according to an embodiment of the present invention.
2 is a plan view according to an embodiment of the present invention.
3 is a cross-sectional photograph according to an embodiment of the present invention.
4 is a cross-sectional view taken along the line AA of FIG.
5 is a flow chart in accordance with an embodiment of the present invention.
6 is an exploded perspective view according to an embodiment of the present invention.
Figure 7 is an enlarged view of the opening and closing device according to an embodiment of the present invention.
8 is a view showing the step-by-step operation of the switching device according to an embodiment of the present invention.

1 is an installation state diagram according to an embodiment of the present invention, Figure 2 is a plan view according to an embodiment of the present invention, Figure 3 is a cross-sectional photograph according to an embodiment of the present invention, Figure 4 is a cross-sectional view taken along line AA of FIG. 5 is a flow chart according to an embodiment of the present invention, Figure 6 is an exploded perspective view according to an embodiment of the present invention, Figure 7 is an enlarged view of the opening and closing device according to an embodiment of the present invention, Figure 8 is As shown in each of the drawings showing the step-by-step operation of the switching device according to an embodiment of the present invention, the present invention will be described below with reference to the accompanying drawings.

Ecological structures for the formation of fish and aquatic habitats of ecological rivers according to the present invention, which relates to aquatic structures of aquatic animals, in particular fish, will be described below with reference to the fish. It has a function as a spawning space and a resting space for breeding and living of fish, and has the function of evacuation space that fish can prepare in emergencies such as dry season and flooding period.

The present invention is located on the water surface as shown in Figure 1 is formed in a size capable of manufacturing its own unit (unit) and the composition is an eco-friendly ecological block composition that is not harmful to the surrounding environment (patent registration No. 10 patented by Ecotop Co., Ltd. -0873996, Green Technology Certification GT-10-00023, Ministry of Land, Transport and Maritime Affairs.

More specifically, the present invention is a structure 10 is formed of a hollow semi-circular structure that is formed so as to form the inner, outer compartment 12, 13 inside by the porous membrane 11 inside as shown in Figs. And, the inlet portion 14 and the outlet portion 15 formed in both the left and right sides of the front of the structure 10, and the inlet and outlet water adjusting device 20 is installed corresponding to the inlet portion 14 and the outlet portion 15 It consists of.

That is, the structure 10 is manufactured by the ecological ecological block composition, and the porous membrane 11 through which the introduced river water can pass through the arch is installed in the center of the porous membrane 11 based on the porous membrane 11. Inside the diaphragm 11 is formed an inner compartment 12, where fish can inhabit, and outside the porous diaphragm 11, an outer compartment 13 is formed. Here, as both ends of the porous diaphragm 11 is spaced apart from the outer wall of the structure 10, the inlet portion 14 is in communication with the interior of the structure 10 to the front left and right sides of the structure 10 naturally The outlet part 15 is formed.

The porous diaphragm 11 is made of permeable concrete so that the introduced river water can penetrate, and the communication section 111 is formed at a part of the outlet 15 to communicate with the inner and outer partition spaces 12 and 13. To be.

The inner and outer compartments 12 and 13 formed inside the structure 10 are filled with fillers 16, such as natural habitats of fish such as sand, gravel and rock, as shown in FIGS. As the filler 16 is filled in these inner and outer compartments 12 and 13, the habitat of fish is divided into three regions. That is, as shown in FIG. 2, inflow water is not directly introduced into the left region of the inner partition space 12 based on the porous membrane 11 made of water-permeable concrete, but only a slight flow through the porous membrane 11 exists. The spawning and larvae (12) larvae (12a) and the entire outer compartment (13) is a resting place (13a) where the fish can rest by allowing the influent to flow directly. In addition, in the right side region of the inner compartment 12, two portions of the spawning and larvae (12) and the resting place (13a) as the peripheral region of the communication portion 111 of the porous diaphragm 11 meets the outlet portion ( 15), a fish shelter 12b is formed in which a small amount of vortex occurs.

In this case, the spawning and cheering habitats 12a are filled with stones larger than the rest 13a and the shelters 12b to provide a habitat for fish using the gaps of the stones, and the spawning and cheering habitats 12a at the bottom of the rest 13a. ) Can be laid with small sized sand, which is smaller than the stone, to provide a slower flow rate than river water, providing a space for fish to rest. In addition, the shelter 12b is formed by the communication portion 111 of the porous diaphragm 11 to form a large space where the spawning and cheering habitats 12a and the resting place 13a are joined, and the residues of the space are laid with sand and sand. A stone can be placed in the middle to serve as a refuge for fish.

On the other hand, when the river water flows from the inlet portion 14 side to the outlet portion 15 as shown in Figure 5 the river water flows into the inlet portion 14 formed on the front left of the structure 10 to communicate with the structure 10 inside Flow through the inner and outer compartments 12 and 13 filled with the filler 16 such as sand, gravel, rock, etc. to control the flow rate and to communicate with the inside of the structure 10. It is discharged through 15) and merged with the river water again. As the flow rate is adjusted in the course of the stream water flowing through the inlet 14 and the outlet 15 as described above, such as spawning and fry habitats 12a, resting places 13a, shelters 12b, etc., where fish can inhabit. Fish habitat can be provided.

The inflow and outflow water adjusting devices 20 are installed at the left and right ends of the porous diaphragm 11 to correspond to the inflow portion 14 and the outflow portion 15 to adjust the flow rate of the river water as shown in FIGS. 6 to 8.

More specifically, the inflow and outflow control device 20 is a hinge shaft 21 is coupled to correspond to the coupling hole 112 provided at both ends of the left and right sides of the porous diaphragm 11, as shown in Figure 7, It is composed of an inlet and outlet water control plate 22 extending outward from the outer peripheral end of the hinge shaft 21 to block the inlet 14 and the outlet 15 to adjust the flow rate of the river water. At this time, the coupling hole 112 is provided with a cutting space 113 to rotate the inlet and outlet water control plate 22, the cutting space 113 can adjust the angle of the inlet and outlet water control plate 22 in three stages. Three coupling grooves 114 to which the inflow and outflow water control plates 22 are correspondingly fitted are formed along the incision space 113.

That is, the inflow and outflow water adjusting device 20 may adjust the inflow and outflow water adjusting plate 22 in three stages to adjust the amount of inflow of the river. For example, the inlet and outlet water control plates 22 may be fitted into the coupling grooves 114 to be placed at positions 1 to 3 as shown in FIG. 7. From 1 to 3, the rotation angle of the inflow and outflow control plates 22 increases, and the inflow of river water also increases.

More specifically, the inflow and outflow water control plate 22 based on the horizontal surface of the river waterfront in which the structure 10 of the present invention is installed is located within the range of -10 ° to 10 ° based on the horizontal plane of the river waterfront in the first step, and the second step. Inflow and outflow throttle 22 is located within the range of 10 ° ~ 30 ° relative to the horizontal surface of the river water surface, inflow and outflow throttle 22 in the third stage 30 ° ~ 90 ° range relative to the horizontal surface of the river It is located inside.

In case of flooding, sewage can be introduced into the river by a confluence type, so that the inflow and outflow throttle 22 is step 1 as shown in FIG. 7 in order to minimize the inflow of the river water into the habitat (-10 based on the direction of the stream flow). Within the range of 10 ° to 10 °. As such, when the inflow and outflow water control plate 22 is positioned in the first stage, only a minimum flow rate flows into the inflow portion 14, thereby minimizing the flow rate flowing into the dry season during flooding or when the water quality of the river is not good (rivers). 1/10 or less of the flow rate).

By adjusting the inflow and outflow water control plate 22 to be in the second stage position (within the range of 10 ° to 30 ° based on the flow direction of the river water), the environment is formed so that 1/3 to 1/5 of the flow rate of the stream is formed in the habitat. can do. At this time, some soil may be introduced from the outside, so some sand may be deposited at the fish resting place.

Adjusting the inflow and outflow control plate 22 to be in three stage positions (within the range of 30 ° to 90 ° based on the flow direction of the river water), the river water flows at a flow rate of 1 to 2 times the stream flow rate, so that the soil or sediment accumulated in the habitat It can be used to remove other deposits.

As shown in FIG. 8, the inflow and outflow water control plate 22 lifts up the hinge shaft 21 fitted into the coupling hole 112 upwardly, and then the inflow and outflow water control plate 22 is coupled to the desired groove. Fit the 114 to adjust the angle of the inlet and outlet water control plate 22.

At the inlet of the inlet 14, a water purification kit 30 is installed in order to prevent the flow of sewage into the river or to prevent it from being severely polluted. Water purification kit 30 is composed of any one or more selected from activated carbon, zeolite, volcanic stone, pearlite, during the flood block the inlet 14 and inflow of a small amount of water is replaced after about 3 days to 7 days of use . Water purification kit 30 allows the fish to evacuate by introducing clear water into the structure 10 to provide a space independent of the stream.

Since the water purification kit 30 is used only for a certain period of time, such as during flooding, the water purification kit 30 may be detachably attached to the inlet 14. For example, if the grooves corresponding to the left and right sides of the water purification kit 30 are formed on both sides of the inlet 14, the inlet 14 can be detachable, such as a method of fitting the water purification kit 30 to the groove.

In addition, the bottom of the habitat space is installed lower than the bottom of the river, but the jaw is installed in front of the inlet and outflow water control device 20 of the inlet 14 to prevent the inflow of soil, etc. and discharge the river water from the inlet 14 It is configured to be connected to the outlet (15). The bottom of the space used as the resting place 13a is disposed lower than the spawning and cheering habitats 12a to prevent sand or earth and sand, which may be partially introduced from the inlet 14, from entering the spawning and cheering habitats 12a. To be able. The bottom surface of the outlet portion 15 is not formed at right angles when connected to the river bottom surface is processed in a curve to facilitate the outflow of sand or soil on the bottom surface if necessary.

Since the river water flows into the inlet 14, the river water does not flow toward the outlet 15, and the inflow and outflow of fish can be made freely, depending on the location of the inlet and outlet water control device 20. Various environments are created, such as the size and formation of vortices, so that the environment of the fish entrance can be controlled.

In addition, the vegetation block 40 is installed on the opposite side of the outlet 15 to the bottom of the river in a range that does not interfere with the operation of the inlet and outflow and outflow water control device 20 of the fish as shown in FIG. Inside the vegetation block 40, a vegetation mat (41: Patent Registration No. 0949747, which is the patent holder of Ecotop Co., Ltd.) of a biopolymer (PLA) mat is installed, and the soil is contained in the vegetation mat 41, including soil, etc. By inserting plants of plants, aquatic plants grow and create a good environment for fish. The aquatic plant can grow safely in the vegetation block 40 without being floated by the stream of the stream by the vegetation block 40 and the vegetation mat.

Aquatic plants grown in the vegetation mat 41 can serve as a spawning ground for fish species that attach to the plants such as crucian carp by functioning to provide shade and guide to fish habitat. Vegetation growing from the bottom of the vegetation block 40 installation area serves as a fence physically and visually, so that the fish can play a role to use the rest space in peace and increase the utilization rate of the habitat.

In addition, the observation monitor connected to the underwater camera 60 from the outside by installing the illumination 50 and the underwater camera 60, such as LED, in the inner and outer compartment 12 of the structure 10, as shown in FIG. (70) allows the ecology of fish to be observed.

Hereinafter, the present invention will be described in more detail with reference to the present embodiment.

Ecological structures for the habitat of fish and aquatic animal habitat of the ecological river according to the present invention are located completely submerged in the water to the bottom of the waterfront and each inlet to the size of the target species in the upstream and downstream direction on the vertical surface in contact with the water ( 14) and the outlet 15 is made and the interior of the spawning space is configured according to the ecological characteristics of the fish inhabiting the urban stream.

The flow rate adjustable inlet portion 14 and the outlet portion 15 in the structure 10 and provided with a habitat that provides a variety of conditions according to the conditions of the river, target fish species, etc., but the entrance and exit of fish through the outlet portion 15 of the habitat Make this free.

According to the condition of repairing habitats of wild fish, pyramids, which are representative fishes in urban streams, larvae are distributed at high speed and fry at low speed. In particular, it can be seen that scattering takes place at a slow flow rate.

Item
name Depth (cm) Flow rate (cm / s) spawning Cheer Idiom spawning Cheer Idiom Willow April-May
(20-40) Spring-Autumn
(10-20) Spring-Autumn
(30-100) 10-30 20-40 30-120 Pyramid April-May
(10-30) Summer ~ autumn
(10-20) Spring-Autumn
(20-50) 10-10 10-20 30-60

The inflow portion 14 and the outflow portion 15 of the flow rate adjustable in the structure 10 is provided with an inflow and outflow water adjusting device 20, the inflow portion 14 and the outflow according to the angle adjustment of the inflow and outflow water control plate 22 Each combination according to the degree of opening and closing of the unit 15 can adjust the flow rate in the structure (10). In this way, it is possible to induce the inflow of fish species by creating a habitat environment for various fishes, and on the contrary, the inflow and outflow water control devices installed in the inlet 14 and the outlet 15 according to the ecological characteristics of the target species. The inflow and outflow of the control panel 22 can be adjusted to provide a fish habitat space having an appropriate flow rate.

It is possible to adjust the flow rate through the cross-sectional area difference between the inlet 14 and the outlet 15 using the formula Q = AV (Q-flow rate, A-section area, V-flow rate) to obtain the flow rate, each combination Through this, various conditions can be provided.

Inlet Angle Inlet flow rate Purpose (use) Remarks One
(-10 ° ~ 10 °) 1/10 of river water For inflow of water in case of emergency such as flood, pollutant inflow 2
(10 ° ~ 30 °) River water
1/5-1/3 times Providing a resting space in the river at high speed, forming vortices, and inducing fish 3
(30 ° ~ 90 °) 1-2 times of river water For internal cleaning and removal of deposits Normal flow rate is assumed to be 0.2m / sec.
Cheonggyecheon Stream Average Flow Rate-0.25m / sec, Gwangju Stream Average Flow Rate-0.2m / sec

In particular, in the case of downtown rivers such as Cheonggyecheon stream, many of them have a constant flow rate and flow rate by supplying a predetermined amount using reprocessed water. However, it is difficult to provide various spaces such as cows and shoals as in natural rivers, and in the case of fish species that need to rest in a space with a slow flow rate, such as cows, there is no choice but to continue swimming. Compared to populations of the same age, it can be seen that the size of the individual is smaller. Excessive use of energy for reproduction and growth in swimming makes the proper population difficult to maintain and further reduces the health of the stream. Therefore, by introducing habitats with different environments in these separate spaces, it is possible to provide the ecological needs of fish inhabiting urban streams.

The fish habitat of the present invention is formed inside the structure 10 and installs a porous diaphragm 11 in the direction of the inlet 14 to the outlet 15 to help safe spawning and evacuation of the fish. Unlike the structure 10, the porous diaphragm 11 is formed of porous concrete and has pores of a predetermined size or more to allow inflow of flowing water. The spawning portion 12a lays sand of a predetermined thickness on the bottom to be suitable for breeding various fish. Place small pebbles on it. A large stone is placed halfway up the bulkhead on the gravel to provide space for fish to spawn and attach eggs.

In addition, the present invention allows the inner bottom surface to be positioned lower than the bottom of the river to form a water body of a certain space even in the low water dry season when the water level is lowered to act as a refuge for fish, the bottom surface of the inlet 14 It has a structure to block the inflow of soil by putting a part of the jaw.

The bottom of the passage portion connected from the inlet portion 14 to the outlet portion 15 is lower than the bottom of the scattering space so that some soil, such as sand, is not introduced into the scattering space, and the jaw of the bottom of the outlet portion 14 is lowered. The part is also curved to have a structure in which sediments such as sand can flow out without accumulating by a high flow rate.

These spawning spaces are used as resting spaces during the breeding season. When used as a resting space, LED lights and cameras can be installed in the upper part of the space to observe fish life. Monitors the lives of fish by installing monitors in areas not affected by floods, such as river banks and exclusion sites, and make ecological learning possible for users.

In addition, the habitat space is located in accordance with the stream line and the inlet 14 and the outlet 15 in the direction of the water flows from the upstream to the downstream so that the fish can be evacuated in the emergency, such as the dry season and flood. In order to prevent the contaminated river water from flowing into the inside, the inflow and outflow water adjusting devices 20 of the inlet part 14 are adjusted to prevent the inflow of the river water, and the inlet part 14 has a water purification kit 30 by itself. Inflow of purified river water provides a healthy habitat for fish.

The water purification kit 30 serving as a filter located at the inlet 14 of the present invention has a width corresponding to the inlet 14 with a hexahedron-shaped frame having a predetermined thickness. Located directly inside the effluent control device 20 is configured in a replaceable form, such as detachable from the inlet 14 inlet from the top. The water purification kit 30 is filled with at least one selected from activated carbon (GAC), zeolite, zeolite and pearlite as a medium for water purification. Intensive purification of contaminated water quality at such expected times.

Physical properties and treatment efficiency (SS standard) of the filter medium filled in the water purification kit 30 is shown in the table below.

Physical properties of the media Item GAC Zeolite Pearlite Particle size 1.0 to 3.0mm 1.0 to 4.0mm 1.0 to 3.0mm Heavy weight (apparent) 1.0 to 105 (0.45) 2.01-2.20 0.04 to 0.25 Porosity 60 to 80% 45 to 55% 80% Specific surface area 800-1,200 / g 600 to 700 / g 600 / g

Treatment efficiency of media (SS standard) division GAC Zeolite Pearlite Removal efficiency (%) 90 to 100% 90 to 100% 80 to 100%

Experimental observation of the SS treatment efficiency according to the media over one week showed that the treatment efficiency of the activated carbon, zeolite, and pearlite for SS was all higher than 80 ~ 90%. However, in the case of pearlite, SS is accumulated in the filter media layer, and thus, head loss increases and pressure is applied to the filter media layer so that the collected SS may leak out due to physical deformation of the filter media. The eggplant media is mixed at a constant rate (GAC 10-20%, Zeolite 50-60%, Pearlite 20-40%) and after a certain period of time (3-7 days) during the expected period of flooding or pollutants. Replace the water purification kit (30).

The vegetation block 40 located at the outlet 15 is a permeable concrete material, which is located at the bottom of the habitat structure, and has a biopolymer (PLA) mat (Patent No. 0949747, which is owned by Ecotop, Inc.). By forming soil layer and planting plants, it functions to provide shade and guide to fish habitat, and it can be used as spawning ground for fish species attached to plants such as crucian carp and spawning plants. If it is deep, the plant will be submerged. If the water depth is low, plant the plant.

In consideration of changes in fish phase with and without aquatic plants, there is a big difference between fishes in artificial and natural aquatic distribution sites and those in areas without plants. However, more individuals were found in natural myelin distribution than in artificial plants. By doing so, the plants grown in the vegetation block 40 installation zone and the vegetation block 40 in the present invention physically and visually play a role of a fence, so that fish and aquatic animals can play a role of using the rest area in peace. Use of habitats can be increased.

division and genus Bell Population Natural water plant distribution area 6 15 15 163 Artificial Reef Area 6 15 15 325 Non-aquatic area 5 12 12 71

As mentioned above, although the preferred embodiment of this invention was described in detail with reference to attached drawing, this is only an illustration and various deformation | transformation and change are possible within the scope of the technical idea of this invention. Therefore, the scope of the present invention will be defined by the description of the claims below.

10: structure 11: porous diaphragm 12: inner compartment space
12a: spawning and fry habitats 12b: shelter 13: outer compartment
13a: rest 14: inlet 15: outlet
16: Filler 20: Inflow and outflow control device 21: Hinge shaft
22: inflow and outflow control plate 30: water purification kit 40: vegetation block
41: vegetation mat 50: illumination for observation 60: underwater camera
70: observation monitor 111: communication part 112: coupling hole
113: incision space 114: coupling groove

Claims (8)

It is installed in the waterside and is provided with an inlet and an outlet communicating with both the left and right sides and partitioned into the inner and outer compartments by the porous membrane installed in the center. It is made of water-permeable concrete, but part of the outlet side of the porous diaphragm is composed of a communication part so that the outer compartment communicates with each other, so that the scattering and fry habitats are formed near the communication part of the internal compartment, and the inflow water directly A structure in which a resting place is formed in the outer partition space which is introduced and passed through, and a refuge is formed near the communication portion of the inner partition space connected to the outlet while the spawning place and the fry habitat and the resting place meet;
It is installed corresponding to any one selected from the inlet and outlet of the structure or each of the inlet and outlet, inflow and outflow water to control the inflow and outflow amount by adjusting the blocking angle of the inlet and outlet of the structure Regulator;
Ecological structure for fish and aquatic habitat creation of the ecological river, characterized in that comprises a.
delete The method according to claim 1,
Inflow and outflow control device,
A hinge shaft correspondingly coupled to the coupling hole provided at both ends of the porous diaphragm left and right so as to block the inlet and outlet portions of the structure;
An inflow and outflow water control plate extending outwardly from one end of the hinge shaft and fitted into a plurality of coupling grooves formed along the incision space while rotating in the incision space provided in the coupling hole so as to adjust the blocking angle of the inflow part and the outflow part;
Ecological structure for fish and aquatic habitat creation of the ecological river, characterized in that comprises a.
The method according to claim 3,
The coupling groove into which the inflow and outflow throttle plates are fitted to adjust the blocking angle of the inflow and outflow in three steps is an ecological structure for fish and aquatic habitat formation in an ecological river, characterized in that three are formed along the incision space.
The method according to claim 1,
At the inlet of the inlet,
Ecological structure for the creation of fish and aquatic habitat of the ecological river, characterized in that the removable water purification kit is installed.
The method according to claim 5,
The kit for water purification,
Ecological structure for the formation of fish and aquatic habitat of the ecological river, characterized in that composed of at least one selected from activated carbon, zeolite, pearlite.
The method according to claim 1,
Opposite the outlet,
Vegetation blocks that provide planting space for aquatic plants to grow without disturbing the operation of fish inlet, inflow, and effluent control devices are buried in the bottom of the river, and vegetation mats are installed inside the vegetation block. Ecological structures for the creation of fish and aquatic habitats in ecological rivers.
The method according to claim 1,
An ecological structure for fish and aquatic habitat creation in an ecological river, characterized by installing observation lighting and an underwater camera inside the structure to observe the aquatic life of the aquatic animal through the observation monitor.

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