KR101825376B1 - Apparatus and Method for Deterring Fish from Approaching - Google Patents

Abstract

The present invention relates to a change of a moving route using dually installed wall, a structure for eradicating aquatic organisms by capture, and a method of eradicating aquatic organisms thereof, which comprises: a pair of induction wall bodies (1) and a trapping wall body (2) vertically installed in water sequentially arranged to a protection point; an interval blocking wall body (3) for preventing aquatic organisms from passing through a gap in a space between an edge of the trapping wall body (2) and a guiding wall (11) of each of a pair of induction walls bodies (1); and a bubble generator (5) which is installed in a trapping space (4) formed between the induction wall body (1) and the trapping wall body (2) to generate bubbles. Thereby, it is possible to change a moving route of aquatic organisms and capture aquatic organisms in a predetermined space to effectively eradicate aquatic organisms and prevent clogginess of intake halls in advance.

Description

Technical Field [0001] The present invention relates to a structure for removing aquatic organisms and a method for eliminating aquatic organisms using the same,

The present invention relates to an aquatic life fighting structure for effectively preventing an aquatic life creature from approaching a protection point such as a water intake, and a method for combating aquatic life using the same, and more particularly, (Hereinafter abbreviated as "protection point") where aquatic organisms should not be introduced, such as a water intake, to be protected from inflow or access of aquatic organisms, Which can prevent the aquatic organisms from being effectively clogged and to prevent clogging of the water intake, by allowing the aquatic organisms to be captured and trapped in a predetermined space " And a method for combating aquatic life using the same.

In facilities such as power plants and factories, necessary water is taken from the sea or river. In the process of taking water, the water intake is blocked by aquatic organisms and normal water intake is not achieved or water It is often reported that the flow of water into the facility, which impedes the flow of water in the facility, causes damage to the facility itself.

A related art related to this method is disclosed in Korean Patent No. 10-1486437, in which a method of generating an evasive sound that a fish dislikes is proposed. This Korean Patent No. 10-1486437 is a very effective method, but it is not an aquatic creature that is not specifically understood about the avoidance sound, and is not sensitive to sound, so that the aquatic life can be more aggressively prevented It is also very important to present the technology that can be used.

Particularly, aquatic organisms do not voluntarily approach the water intake, but they are forcibly pushed into the water intake by the flow of water such as tidal currents, ocean currents, or streams. There is a need for technology that can effectively block access to aquatic life.

Korean Registered Patent No. 10-1486437 (Bulletin issued on May 26, 2015).

The present invention has been developed in order to overcome the limitations of the prior art as described above and aims to provide a technique capable of positively blocking the inflow or access of aquatic organisms to a protection point requiring protection from aquatic organisms do.

In particular, it is an object of the present invention to provide a technique capable of effectively eliminating the inflow of aquatic organisms, such as refuse, into a protection point by the flow of water, as well as aquatic organisms having no separate propulsion capability.

In order to accomplish the above object, the present invention provides an aquatic biotic restraint structure which is installed so as to block the approach of aquatic organisms to a protection point to be protected by preventing inflow or access of aquatic organisms, The guiding wall of the pair and the capturing wall are sequentially disposed to the protection point; Each induction wall comprising a barrier wall and a guide wall connected at an angle to the barrier wall; The pair of guiding walls are arranged so that the guiding walls are opposed to each other with the gap between the guiding walls facing each other becoming gradually narrower toward the rear toward the protection point; The trapping wall has a rearward convex shape facing the protection point as viewed in plan view so that the trapping wall faces a part of the edge of the trapping wall and the guide wall of each of the pair of guide walls facing each other, Is disposed in the form of wrapping around the guide wall rear end of the guide wall An interval blocking wall is provided at an interval between the edge of the capturing wall and the guide wall of each of the pair of induction walls to prevent aquatic organisms from passing through the interval; A bubble generator is installed in the trapping space formed between the induction wall and the capturing wall to generate a bubble to thereby impart a levitation force to the aquatic organism trapped between the induction wall and the capturing wall; The aquatic organisms being introduced into the trapping space through a pair of guide walls to be trapped, thereby preventing the aquatic organisms from approaching the protection point.

In order to accomplish the above object, according to the present invention, a pair of guiding walls and a capturing wall vertically installed in water are sequentially disposed to a protection point to be protected by preventing inflow or access of aquatic organisms, And a partition wall provided between the guide wall and the baffle, wherein the baffle is provided with a bubble generator for generating bubbles, the baffle being installed so as to obstruct the approach direction of the aquatic creature to the protection point; Each induction wall comprising a barrier wall and a guide wall connected at an angle to the barrier wall; The pair of guiding walls are arranged so that the guiding walls are opposed to each other with the gap between the guiding walls facing each other becoming gradually narrower toward the rear toward the protection point; The trapping wall has a rearward convex shape facing the protection point as viewed in plan view so that the trapping wall faces a part of the edge of the trapping wall and the guide wall of each of the pair of guide walls facing each other, Is disposed in the form of wrapping around the guide wall rear end of the guide wall The spacing blocking wall is provided at an interval between the edge of the trapping wall and the guide wall of each of the pair of guide walls; The bubble generator is provided in a trapping space formed between the induction wall and the trapping wall to generate a bubble to thereby impart a levitation force to the aquatic organism trapped between the induction wall and the trapping wall; Wherein the aquatic organisms are introduced into the trapping space through a pair of guide walls to be trapped, thereby preventing the aquatic organisms from approaching the protection point.

In the structure and method of the present invention, the trapping wall includes a flat front wall and a pair of left and right side wall portions provided on both sides of the front wall and sloping forward from the front wall at a predetermined angle And a biocide can be protruded on the front outer surface facing the direction opposite to the direction from the capturing wall toward the protection point, thereby causing aquatic organisms to be pierced and killed. In this case, the biopsy needle is fixedly installed on the surface of the insertion plate, and the insertion plate is disposed on the front side outer surface of the capturing wall, so that the biopsy needle may be provided on the capturing wall.

Furthermore, in the present invention, the interval blocking wall may be provided so as to rise and fall in response to the water level change, and a lower blocking plate may be further provided at the lower end of the interval blocking wall to prevent the aquatic organisms from sinking in the trapping space direction It is possible.

According to the present invention, the trapping wall and the guiding wall are provided so as to surround the protection point, thereby effectively preventing aquatic organisms such as jellyfish, which are moved with the water flow, The effect can be achieved.

Also, in the present invention, the aquatic organisms approaching the protection point are trapped in the trapping space between the trapping wall and the guide wall, and collected, thereby effectively blocking the access to the aquatic life to the protection point and eliminating it.

Particularly, in the present invention, a floating force is applied to aquatic organisms through bubbling, thereby preventing aquatic organisms from escaping from the trapping space, and causing aquatic organisms to lose their active force or to float aquatic organisms in the vicinity of the water So that the collection work of captured aquatic organisms can be performed very easily.

Furthermore, in the present invention, when a killing needle is provided, the activity of the aquatic organism trapped in the trapping space can be positively eliminated, thereby effectively eliminating the activity, thereby facilitating the elimination, capture and collection of aquatic organisms .

In the present invention, since the wall made of a rigid body (induction wall, capturing wall) is rigidly fixed in water, the heavy underwater mass collides with the wall and the flow thereof is interrupted, And the damage to the protection point due to the underwater weight can be prevented in advance.

FIG. 1 and FIG. 2 are perspective views schematically showing different views of the aquatic life fighting structure according to the present invention.
3 is a schematic plan view of the aquatic bioerodable structure of the present invention shown in FIG.
FIGS. 4 and 5 are schematic perspective views showing different directions in which only the induction wall is viewed. FIG.
Figure 6 is a schematic perspective view of the capture wall.
7 is a schematic perspective view of a trapping wall showing a state in which an insertion plate provided with a kill needle is inserted into a front side outer surface of a trapping wall.
8 is a schematic enlarged exploded perspective view of the circle D portion of FIG. 6 showing a configuration in which the gap blocking wall is coupled to the guide wall so as to be ascendable and descendable.
FIG. 9 is a schematic plan view corresponding to FIG. 3 showing the inflow flow of water and aquatic organisms in the aquatic biological attack structure of the present invention shown in FIG. 1;
10 is a schematic half cross-sectional perspective view according to line AA of FIG. 1 showing the inflow flow of water and aquatic organisms in the aquatic lifeboat structure of the present invention.
11 is a schematic plan view corresponding to FIG. 3 for an embodiment in which an additional bubble generator is additionally provided in the aquatic earthenware structure of the present invention, the interspace blocking wall and the underwater floor of the space between the trapping wall and the guiding wall of the guiding wall .
12 is a schematic plan view showing a plurality of the aquatic bioerodable structures according to the present invention are installed so as to completely wrap around and surround the protection point.
FIG. 13 is a schematic plan view showing the aquatic bioerodable structure of the present invention installed in front of a water intake pipe protruding from a land site; FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby. For the sake of convenience, when looking down on the aquatic biotic restraint structure according to the present invention, the side facing the protection point will be referred to as "back side" and the opposite direction will be referred to as the "front side ". The direction away from the protection point is referred to as "forward" and the direction approaching the protection point is referred to as "rear".

1 and 2 are schematic perspective views showing different views of the aquatic life fighting structure 100 according to the present invention. FIG. 3 is a perspective view of the aquatic life fighting structure 100 shown in FIG. A schematic top view is shown. As illustrated in the figure, the aquatic bioterror structure 100 of the present invention is installed in front of the protection point to block the direction in which aquatic organisms approach the protection point. As shown in the figure, the aquatic biological attacking structure 100 of the present invention has a configuration in which a pair of guiding wall 1 and a capturing wall 2 are sequentially disposed rearward, Between the pair of guiding walls 1 and the capturing wall 1, a spacing blocking wall 3 is provided. The inducing wall 1 and the capturing wall 2 are firmly fixed to the underwater ground so as to have sufficient stability against conduction due to waves and the like.

FIGS. 4 and 5 are schematic perspective views showing the induction wall body 1 in different directions. 4 and 5, the lower portion of the guide wall 1 is not shown. The induction wall 1 is a structure made up of a plate-like member having a thickness and a height at which an upper end thereof can protrude above the water surface in a vertical direction, is vertically installed and fixed in water, and is manufactured using concrete or other corrosion- In the invention, two induction wall bodies 1 are installed in pairs. Since each induction wall 1 is composed of the blocking wall 10 and the guide wall 11 and the blocking wall 10 and the guide wall 11 are connected at an angle, And has a bent planar shape. The induction wall body 1 having the blocking wall 10 and the guiding wall 11 is formed as a pair so that the guide walls 11 are vertically erected so as to face each other with a space therebetween, At this time, the pair of induction wall bodies 1 are arranged such that the guide walls 11 are inclined rearwardly when seen in a plan view, so that the distance between the guide walls 11 facing each other becomes gradually smaller toward the rear .

At the rear of the pair of induction wall bodies 1, a capturing wall body 2 is provided. Fig. 6 shows a schematic perspective view of the capture wall 2. In FIG. 6, the lower part of the trapping wall 2 is not shown for the sake of convenience. In FIG. 6, a spacing barrier wall 3 is also shown. The spacing barrier wall 3 will be described later. As shown in the drawing, the capturing wall 2 is also made of a plate-shaped member having a thickness that allows the upper end thereof to protrude above the water surface in the vertical direction, and is vertically standing and fixed in water and made of concrete or other corrosion- . Particularly, the capturing wall 2 has a rearward convex shape when seen in plan view, so that a capturing space 4 is formed on the front side of the capturing wall 2 in a plan view.

In the case of the embodiment shown in the figures, the catching wall 2 is provided with a flat front wall 20 and a continuous wall on both sides of the front wall 20, And a pair of flat oblique side walls 21 which are arranged obliquely with a predetermined angle. However, if the capturing wall 2 has a convex shape rearward viewed from the plane as described above and a catching space 4 is formed on the front side of the capturing wall 2, the capturing wall 2 may be formed in a circular or oval shape It may be configured to have a planar shape.

If necessary, a biocide needle 120 may protrude from the front side outer surface of the capturing wall 2. The peritubular needles 120 may be provided in plurality over the entire vertical height of the capturing wall 2 so that the aquatic creatures are stuck in the capturing space 4 to be pierced and killed by the pointed needles 120 Or to lower the activity of aquatic organisms. If the capture wall 2 has a flat front wall 20, as in the previously illustrated embodiment, the biopsy 120 may be provided in the front wall 20. The biopsy needle 120 may be provided in a completely fixed form on the front side outer surface of the capturing wall 2 but the biopsy needle 120 is fixed to the separate insertion plate 121, The biopsy needle 120 may be provided on the front side outer surface of the body 2.

7 shows a schematic perspective view of the capture wall 2 showing a state in which the insertion plate 121 provided with the biopsy needle 120 is inserted into the outer surface on the front side of the capture wall 2. As shown in FIG. In FIG. 7, the lower part of the trapping wall 2 is not shown for the sake of convenience. When the killing needles 120 are provided, the aquatic creatures may be stuck in the killing needles 120 and remain stuck in the killing needles 120. By using the insertion plates 121 as described above, The insertion plate 121 itself can be removed and the insertion plate 121 can be easily installed and replaced in a form of installing a new insertion plate 121. As a result, It is possible to easily remove the organisms, thereby preventing pollution caused by corruption of dead aquatic organisms in advance.

When the trapping wall 2 having the trapping space 4 is disposed behind the pair of guide walls 1 as described above, a part of the edge of the trapping wall 2 and a guide of each of the pair of guide walls 1 So that the wall 11 is positioned so as to face the gap. As described above, the pair of guide walls 1 are arranged so that the guide walls 11 are opposed to each other and the guide walls 11 are narrowed toward the rear, so that a pair of guide walls 1 The guiding wall 11 of the guiding wall 11 has a funnel shape rearward so that the rear end of the guiding wall 11 of the guiding wall body 1 is guided by the catching wall 2 2 is disposed behind the induction wall body 1. As shown in the figure, when the trapping wall 2 is composed of a flat front wall 20 and a pair of oblique side walls 21, each guiding wall 11 of the pair of guiding wall bodies 1, (21) and are arranged to face each other in parallel.

As a result, the capturing wall 2 is provided behind the guiding wall 1, so that there is a gap between the edge of the capturing wall 2 and the guiding wall 11 of each guiding wall 1, In order to prevent aquatic organisms from escaping at this interval, an interval blocking wall 3 is provided. That is, when the trapping wall 2 is composed of a flat front wall 20 and a pair of oblique side walls 21 as illustrated in the drawing, the gap wall 22 is formed between the oblique side wall 21 and the guide wall 11, (See Fig. 6).

The spacing blocking wall 3 may be made of a plate-shaped member, and it is not necessary to be installed at the entire height of the water depth, such as the induction wall 1 and the catching wall 2, The spacing blocking wall 3 is a part of the guide walls 11 of the guide walls 1 and the capturing walls 2 which are to be floated by the air bubbles, This is because it is intended to prevent. That is, since the interval blocking wall 3 is sufficient to exhibit a function of blocking the movement of aquatic organisms that float near the water surface by the bubbles, it is required to have a height from the water surface to a predetermined depth. Therefore, the vertical height of the gap blocking wall 3 is smaller than the vertical height of the guiding wall 1 and the capturing wall 2.

It is also preferable that the lower blocking plate 30 protruding toward the trapping space 4 is further provided at the lower end of the space blocking wall 3, as illustrated in the drawing. The space between the trapping wall 2 and the guide wall 11 of the induction wall body 1 is blocked by the gap blocking wall 3 so that the space between the trapping wall 2 and the guide wall 11 It is possible to prevent the aquatic organisms gathered in the aquarium from sinking and to easily collect the aquatic organisms when the aquatic organisms are collected by using a vase or the like as described later. The lower shielding plate 30 may be formed of a plate member, but may be formed in a net shape.

On the other hand, when the space blocking wall 3 is provided between the capturing wall 2 and the guiding wall 11 of the guiding wall 1, the space blocking wall 3 may be fixed so as not to move, It is also preferable to provide the interval blocking wall 3 so as to move upward and downward in the vertical direction in conjunction with the change. Fig. 8 is a schematic enlarged exploded perspective view of the circle D portion of Fig. 6 showing a configuration in which the interval blocking wall 3 is coupled to the guide wall 11 so as to be able to move up and down. As illustrated in the figure, the trapping wall 2 and the guide wall 11 of the guiding wall 1 are provided with protruding or concave shaped rails 28 extending vertically in the vertical direction, And the joining member 33 engages with the rail so as to move along the rail 28. This allows the gap blocking wall 3 to be raised and lowered in accordance with the water level change will be. In this case, the interval blocking wall 3 may be made of a lightweight material or a hollow material so that it can easily ascend and descend in accordance with a change in water level. Of course, the configuration in which the spacing barrier wall 3 can be raised and lowered in accordance with the water level can be variously used in addition to the configuration using the above-described rails. That is, the gap blocking wall 3 can be configured to be movable in the vertical direction while maintaining the engagement of the trapping wall 2 and the guiding wall 11 of the guiding wall 1, using various forms.

The bubble generator 5 for generating bubbles is provided in the trapping space 4 formed between the induction wall 1 and the trapping wall 2 in the present invention. The bubble generator 5 may be installed on the underwater floor in the capturing space 4, but may be installed at a position spaced apart from the water surface by a predetermined height.

Next, the aquatic biological attacking structure 100 according to the present invention including the induction wall 1, the capturing wall 2, the spacing barrier wall 3 and the bubble generator 5 as described above is used as a protection point Describe the specific process of how to block and eliminate access to aquatic life.

FIG. 9 is a schematic plan view corresponding to FIG. 3 showing the inflow flow of water and aquatic organisms in the aquatic biological control structure 100 of the present invention shown in FIG. The aquatic organisms can also move together with the flow of water toward the protection point. In this way, the aquatic life-fighting structure 100 of the present invention is installed so as to block the flow of water and aquatic organisms toward the protection point. Therefore, the flow direction of water and aquatic organisms flowing toward the protection point is first changed by the pair of induction wall bodies 1. When the guide walls 11 of the pair of induction wall bodies 1 are moved rearwardly, The water flow and aquatic organisms flow along the guiding wall 11 of the pair of guiding walls 1 in a denser form in a tapered space toward the protection point.

Since the capturing wall 2 is disposed behind the guiding wall 1 so as to surround the guiding wall 11 of the guiding wall 1, The aquatic organisms are trapped in the trapping space 4 surrounded by the trapping wall 2. In the case where the biocide 120 protrudes from the front side outer surface of the capturing wall 2, the aquatic organisms enter the trapping space 4 in this way, and during the stay of aquatic organisms in the trapping space 4, The aquatic organism is stuck to the killing needle 120. The aquatic creature may remain in the killing needle 120 while being stuck in the killing needle 120, or may be wounded or dead.

The water flow that has passed between the guide walls 11 of the pair of guide walls 1 is changed in the direction in which the catch walls 2 are blocked and thereby scattered to both sides of the catch wall 2 when viewed in plan, And flows toward the gap between the wall 2 and the guiding wall 11 of the guiding wall 1. The aquatic organisms trapped in the trapping space 4 flow along the water stream of which the traveling direction is changed at a distance between the trapping wall 2 and the guide wall 11 of the guide wall 1, The aquatic organisms can no longer move and the gap blocking wall 3 and the trapping wall 2 and the induction wall 1 can be separated from each other because the gap blocking wall 3 is provided between the guiding wall 1 and the guiding wall 1 of the guiding wall 1. [ In the space between the guide walls 11 of the guide grooves.

FIG. 10 is a schematic half cross-sectional perspective view along line AA of FIG. 1 showing the inflow flow of water and aquatic organisms in the aquatic biological control structure 100 of the present invention. As shown in FIG. 10, 5, the bubble 50 is generated, and the bubble 50 is raised from the direction of the water surface. Therefore, the aquatic organisms flowing into the trapping space 4 can not sink and rise in the water surface direction by the bubbles. Therefore, even if the interval blocking wall 3 is present only from the water surface to a predetermined depth, the water flow is blocked by the interval blocking wall 3 even if the water flow passes through under the interval blocking wall 3, The aquatic organisms gathered in the space between the wall body 2 and the guide wall 11 of the induction wall body 1 are continuously floated by the air bubble 50 and descend to the lower end of the interval blocking wall body 3, I can not get out and stay near the water. In other words, the aquatic organisms gathered in the space between the gap blocking wall 3 and the trapping wall 2 and the guide wall 11 of the guiding wall body 1, And will float around the surface of the water. Therefore, the manager approaches the aquatic life fighting structure 100 as needed, periodically or occasionally as needed, and is guided by the guide wall 11 of the guiding wall 1 and the trapping wall 2, It is possible to easily collect the aquatic organisms captured in the space between them.

In order to stably maintain a state in which the aquatic organisms gathered in the space between the gap blocking wall 3 and the trapping wall 2 and the guide wall 11 of the guiding wall 1 float near the water surface, An additional bubble generator 5 may further be provided at the water surface of the gap between the trapping wall 2 and the guiding wall 11 of the guiding wall 1 as required. Fig. 11 is a cross-sectional view corresponding to Fig. 3 showing an additional bubble generator 5 further provided on the underwater surface of the space between the trapping wall 3 and the trapping wall 2 and the guide wall 11 of the guide wall 1 There is shown a schematic plan view of the aquatic eclipse structure 1 of the present invention. Thus, the bubble generator 5 can be installed at a necessary position in the trapping space 4.

Using the aquatic life extinction structure (1) according to the present invention, which has been described in detail above, through this process, it is possible to positively And very effective interception of aquatic organisms, especially those that do not have their own mobility, can be effectively eliminated by the flow of water into the protected area.

In other words, according to the present invention, the capturing wall 2 and the guiding wall 1 are installed so as to surround the protection point, so that aquatic organisms such as jellyfish, etc., It is possible to effectively prevent the movement of the aquatic organisms to the protection point, and furthermore, the aquatic organisms approaching the protection point are trapped in the trapping space between the capture wall and the induction wall, It is possible to effectively prevent access and to eliminate the effect.

Particularly, in the aquatic organisms preventive structure (1) according to the present invention, since a plurality of walls are firmly fixed in water in the form of multi-layers, heavy heavy weight such as garbage flowing into the protection point through the water, So that the present invention can effectively block such an underwater heavy body, so that it is possible to prevent damage or the like at a protection point due to the underwater heavy body in advance.

When the aquatic biological destruction structure 100 according to the present invention is installed near the protection point, a plurality of aquatic biological destruction structures 100 may be installed so as to completely surround the protection point.

FIG. 12 is a schematic plan view showing a plurality of the aquatic bioerodable structures 100 according to the present invention are installed so as to completely wrap around and surround the protection point. For example, in the case of a water intake pipe 200 in which the protection point is vertically installed on the underwater floor, the aquatic life fighting structure 100 according to the present invention may be constructed so as to completely separate the water intake pipe 200 from the outside of the water intake pipe 200 It is possible to thoroughly block or eliminate the inflow of aquatic organisms into the water intake pipe 200 in various directions.

On the other hand, if the section where aquatic organisms need to be blocked around the protection point, such as when the intake pipe 200 protrudes from the land site of the power plant, is only a part of the entire outline of the protection point (for example, Only one or a plurality of the aquatic bioerodable structures 1 of the present invention can be installed only for the corresponding protection required period. 13 is a schematic plan view showing that the aquatic life fighting structure 100 according to the present invention is installed only in front of the water intake pipe 200 when the water intake pipe 200 protrudes from the land site.

As described above, the use of the aquatic life-saving structure (1) according to the present invention makes it possible to actively and very effectively block aquatic organisms from entering or approaching a protection point requiring protection from aquatic organisms A very favorable action effect is exhibited.

1: Induction wall
2: capture wall
3:
4: Capture space
5: Bubble generator
10: blocking wall
11: guide wall
20: Front wall
21: sloping side wall
30: Lower shield plate
100: aquatic life-fighting structure
120: Cremation needle
121: Insertion plate

Claims (7)

An aquatic euthanasia structure (100) installed to intercept a direction in which aquatic organisms approach a protected point that must be protected by preventing the influx or access of aquatic organisms,
A pair of induction wall bodies (1) and trapping walls (2) vertically installed in water are sequentially disposed to a protection point;
Each induction wall 1 comprises a blocking wall 10 and a guide wall 11 connected at an angle to the blocking wall 10;
The pair of guide walls 1 are arranged such that the guide walls 11 face each other with the gap between the guide walls 11 facing each other being gradually narrowed toward the rear toward the protection point;
The capturing wall 2 has a convex shape projecting rearward toward the protection point when viewed in plan view so that a part of the edge of the capturing wall 2 and the guiding wall 11 of each of the pair of guiding walls 1 are spaced apart from each other The trapping wall 2 is arranged so as to surround the rear end of the guide wall 11 of the pair of guide walls 1;
An interval blocking wall 3 is provided at an interval between the edge of the capturing wall 2 and the guide wall 11 of each of the pair of guiding walls 1 to prevent aquatic organisms from passing through the interval;
A bubble generator 5 is provided in the trapping space 4 formed between the inducing wall body 1 and the trapping wall body 2 to generate bubbles so that a gap between the induction wall body 1 and the trapping wall body 2 By giving the aquatic organisms trapped a floating force;
Characterized in that the aquatic organisms are introduced into and trapped in the trapping space (4) through a pair of guide walls (1), thereby preventing the aquatic organisms from approaching the protection point.
The method according to claim 1,
The capturing wall 2 includes a front wall 20 of a flat shape and a wall wall 20 which is provided on both sides of the front wall 20 so as to be continuous with each other and which is disposed obliquely at a predetermined angle forward from the front wall 20 And a pair of inclined side walls (21).
3. The method according to claim 1 or 2,
Characterized in that a protector is provided on the front side outer surface facing the direction opposite to the direction toward the protection point in the capture wall (2), with a biocide (120) protruding to cause the aquatic organism to die.
The method of claim 3,
The biopsy needle (120) is fixedly installed on the surface of the insertion plate (121) in a protruded form;
Characterized in that the insertion plate (121) is disposed on the front outer surface of the capturing wall (2), whereby the biocide (120) is provided on the capturing wall (2).
3. The method according to claim 1 or 2,
And the interval blocking walls (3) rise and fall in response to a change in the water level.
3. The method according to claim 1 or 2,
And a lower blocking plate (30) protruding toward the trapping space (4) at the lower end of the space blocking wall (3) to prevent aquatic organisms from sinking.
A pair of guiding walls 1 and a catching wall 2 which are vertically erected in water are sequentially disposed to a protection point to be protected by preventing inflow or access of aquatic organisms, (1), and the bubble generator (5) including the bubble generator (5) that generates bubbles is disposed in a direction perpendicular to the direction in which aquatic organisms approach the protection point Install it to block;
Each induction wall 1 comprises a blocking wall 10 and a guide wall 11 connected at an angle to the blocking wall 10;
The pair of guide walls 1 are arranged such that the guide walls 11 face each other with the gap between the guide walls 11 facing each other being gradually narrowed toward the rear toward the protection point;
The capturing wall 2 has a convex shape projecting rearward toward the protection point when viewed in plan view so that a part of the edge of the capturing wall 2 and the guiding wall 11 of each of the pair of guiding walls 1 are spaced apart from each other The trapping wall 2 is arranged so as to surround the rear end of the guide wall 11 of the pair of guide walls 1;
The spacing blocking wall 3 is provided at an interval between the edge of the capturing wall 2 and the guide wall 11 of each of the pair of guiding walls 1;
The bubble generator 5 is provided in the trapping space 4 formed between the inducing wall body 1 and the trapping wall body 2 to generate air bubbles so that the bubbles are generated between the inducing wall body 1 and the trapping wall body 2 By giving the aquatic organisms trapped a floating force;
Characterized in that the aquatic organisms are introduced into and trapped in the trapping space (4) through a pair of guide walls (1), thereby preventing the aquatic organisms from approaching the protection point.

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