KR20110116100A - Fish way for movement of fishes with variable water level - Google Patents

Abstract

The present invention relates to a fishery located in the upstream side of the beam, the fish can be moved throughout the year even when the water level fluctuates, and more specifically, installed in the upstream side of the beam, the water level of the upstream stream of the beam, such as high or low water level It is possible to move fish year-round by opening and closing the estuary outlet of the beam step by step according to the change and allowing the water to flow downstream of the beam, and the fish is located in the water and is not exposed to the outside so that it does not harm the aesthetics. It is about.
The fisherman according to the present invention is provided in the beam for storing the water of the river to provide the fish to move the fish, the fishery inclined to extend in the water upstream of the beam from the fish inlet provided in the beam And an fish body including fish body side wall portions provided on both sides of the fish bowl bottom portion.

Description

Fish way for movement of fishes with variable water level

The present invention relates to a fishery located in the upstream side of the beam can be moved throughout the year even when the water level fluctuates, and more specifically, installed in the upstream side of the beam, the water level of the upstream stream of the beam such as high or low water level It is possible to move fish year-round by opening and closing the estuary outlet of the beam step by step according to the change and allowing the water to flow downstream of the beam, and the fish is located in the water so that the fish is not exposed to the outside and does not harm the beauty. It is about.

In general, rivers and valleys are equipped with dams or beams (collectively referred to as “beams”) to secure agricultural water and industrial waters to store a certain amount of water. These beams function to store water so that the water level of the reservoir is always within a certain range, and a hydrologic gate is formed to control the water level during a flood or drought.

However, when the beam is formed, the downstream and the upstream of the stream are disconnected, and it is impossible for the fish to rise and fall up and down the stream, and thus the habitat environment of the various fish inhabiting the river is changed. In particular, as the beam is formed, the returning fish for spawning cannot move backwards and upstreams, and small fish, including fry, cannot move steeply, resulting in the destruction of the fish ecosystem. .

Due to these problems, in recent years, at least one waterway is formed in the beam in the process of forming the concrete beams and used as a fish that can move. However, there are not many beams installed yet, and the research and recognition on the fish is insufficient.

Conventional fish is formed by forming a small channel in any one of the beams, the water stored in the beams can be discharged only in a time when the water is abundant to secure a moving passage such as fish, but the water level upstream of the beam is lower than the height of the beam There is a problem that the movement of fish is impossible because the water is not discharged through the ground fish. In addition, when the water level is increased, the flow rate of the water flowing along the island increases and at the same time the flow rate is fast, it is difficult to small fish through the fish. In addition, since the fish is extended to the downstream side of the beam long relative to the beam, there is a problem that is exposed to the water is not aesthetically pleasing.

On the other hand, in brackish areas or large reclaimed lands bordered by rivers and coasts, beams are installed to block the inflow of seawater to the rivers according to the sea level. However, these coastal beams are provided with flood gates for flood control, but there is a problem that it is impossible to move the species that go between seawater and freshwater because they are not installed.

The present invention is to improve the above problems, and even when the water level in the upstream stream of the beam changes to a low or high water level to provide an appropriate amount of water can be discharged through the fish to provide a fish that can be moved throughout the year For the purpose of

In addition, another object of the present invention is to block the inflow of seawater into the river when the water level is higher than the level of the inner surface, such as during high tide, fresh water to the sea when the water level of the sea level is lower than the level of the inner surface, such as at low tide It is intended to provide fish that can be moved twice a day by allowing them to be introduced.

Located in the water upstream side of the beam according to the present invention for achieving the above object is possible to move the fish year-round even when the water level fluctuation is installed in the beam for storing the water in the river to allow the fish to move And a fish body including a fishery bottom portion inclined to be located in the water upstream of the fish from the fish inlet portion provided in the fish and an fishery side wall portion provided on both sides of the fishery bottom portion. do.

In addition, the fish is located in the water upstream side of the beam according to the present invention for achieving the above object can be moved throughout the year even when the water level fluctuation is installed in the beam formed on the boundary between the river and the coast can move the fish An fish body comprising: an fish body portion which is inclined to extend in the water upstream of the beam from the fish inlet portion provided in the fish and an fish side wall portion provided on both sides of the fish ground portion; It is installed in the fish inlet to the sea level when the water level is higher than the water level of the sea level closing the fish inlet, when the water level is lower than the water level of the sea level to open the fish inlet to form a fish; Characterized in that.

The seawater blocking gate is fixed to the seawater side outer wall of the beam and extends in a direction away from the outer wall of the beam, a link portion that is pin-coupled to the support frame and rotatably installed and bent at a predetermined angle, the link It is characterized in that it is provided with a blocking plate coupled to the opening and closing the fish flow inlet.

It is characterized in that it further comprises a buoyancy body coupled to the blocking plate or the link portion to provide a rotation moment for rotating the link portion in a direction opposite to each other in accordance with the water level change of the sea level and the inner surface.

The body is characterized in that it has a plurality of fish outlets formed at different heights on the fish-side wall portion, the higher the distance away from the beam.

As the water level of the beam rises or falls, it is characterized in that it further comprises an outlet opening and closing door for sequentially opening and closing the fish outlet portion to discharge water to any fish outlet portion corresponding to the water level of the beam.

The outlet opening and closing door is a housing provided with an inlet to allow the water stored in the beam to flow into the interior, and the inside of the housing when the water level of the beam rises above the level corresponding to the upper end of each of the fish outlets. An outlet portion for discharging water to the outside; a gate portion rotatably disposed up and down with respect to the fish body at the lower portion of each fish outlet portion; and a gate portion for opening and closing the fish outlet portions according to the elevation of the first mouth portion; When the water level rises above the level corresponding to the lower end of each of the estuaries, the gate portion is rotated upward to gradually close the estuary outlet, and the water level of the beam lowers to a lower level than the lower end of each of the estuary outlets. The first outlet and the gate portion to rotate the gate portion downward so that the fish outlet portion can be opened. It is characterized by comprising a relay unit for connecting.

The outlet part is an opening and closing plate pivotally hinged to the end of the discharge pipe and the discharge pipe extending from the outside of the housing to the inside to discharge the water contained in the housing to the outside of the body body; And, one end is coupled to the opening and closing plate and the other end includes a wire member extending upwardly outward of the housing, and the second section is coupled to the other end of the wire member to move up and down by the water level of the beam It is done.

It is coupled to the end of the body to extend to the stream upstream of the beam to increase and decrease the flow rate of the water flowing through the bottom of the water when the water level of the beam rises above the normal level while raising and lowering according to the water level of the beam And a flow regulating gate for maintaining a constant depth of water in the fisherman's bottom portion.

The fisherman's bottom portion is formed to be pulled downward from an upper surface thereof, and is provided with a plurality of rest pools spaced apart from each other along the extending direction of the fisherman's bottom portion and extending in a direction shifting from the fisherman's bottom portion.

The fish body further comprises an extension portion extending from the fish inlet portion in a direction toward the downstream side of the beam.

According to the present invention, at a low water level, a certain amount of water can be discharged through the fish island, and at a high water level, fish can be moved throughout the year even if the water level is changed by suppressing the flow rate and the flow rate of the water flowing through the fish.

In addition, unlike the conventional fish that is installed downstream of the beam exposed to the outside, the fish of the present invention is installed in the water upstream of the beam so that it is not exposed to the outside does not harm the aesthetics.

In addition, the present invention, when the water level of the sea level is higher than the level of the inner surface, such as during high tide, when the water blocking gate blocks the inflow of the esophagus, and when the water level of the sea level is lower than the level of the inner surface, such as low tide The seawater blocking door opens the inlet to allow fresh water to flow into the sea, making it possible to move fish.

1 is a perspective view showing the fisherman according to the first embodiment of the present invention,
Figure 2a is a partially enlarged perspective view showing the exit opening and closing the gate applied to Figure 1,
Figure 2b is a perspective view of the main portion of the exit opening and closing door according to another embodiment,
3 is a cross-sectional view showing the view of FIG.
4 is a perspective view showing the fisherman according to a second embodiment of the present invention,
5 is a perspective view showing the fisherman according to a third embodiment of the present invention,
FIG. 6 is a cross-sectional view of the view of FIG. 5.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the fish which is located in the water upstream side of the beam according to a preferred embodiment of the present invention, even when the water level fluctuates throughout the year.

1 to 2A and 3 show the fish according to the first embodiment of the present invention. Referring to the drawings, the island of the present invention is equipped with an adobe body 200, the outlet opening and closing door 300, the flow control door 400.

Hereinafter will be described in more detail for each component of the present invention configured as described above as follows.

The beam 100 is a structure that blocks the flowing water is installed to cross the river. On one side of the beam 100, the fish inlet 110 is formed. The fish inlet 110 is formed through the beam 100 so that water flows from the upstream of the beam 100 to the downstream of the beam 100. In the illustrated example, the upstream of the beam 100 refers to the rear relative to the beam, and the downstream of the beam 100 refers to the front relative to the beam 100. Thus water flows from the rear of the beam 100 to the front.

The fish body 200 installed in the upstream side of the beam 100 includes a fishery bottom portion 250 and a fishery side wall portion 210.

The fisherman bottom portion 250 is formed such that one side thereof is connected to the fishery inlet portion 110, and the other side thereof extends in an upstream direction of the beam 100. The other side of the beam 100 is formed in a structure in which the height is increased as it extends in the upstream direction of the river to provide a gradient and flow rate that is easy for small fish.

The fisheye side wall portion 210 is formed on both sides of the fishery bottom portion 250, respectively. One side of the fisherman's bottom part 250 is connected to the beam 100. The height of the side wall portion 210 is higher than the maximum height of the bottom portion 250, and may be formed to be the same or somewhat lower than the height of the beam (100). For the beauty of the river, the height of the side wall portion 210 is formed to be somewhat lower than the smooth water level of the river, it is preferable that the main body 200 is usually submerged in water.

Although the above-described adobe body 200 is installed in a stream upstream of the beam 100, alternatively, a portion of the adobe body 200 may be installed in a downstream stream of the beam 100. That is, one side of the adobe body 200 is formed in the downstream side of the beam 100, the other side passes through the beam 100 and extends in the upstream side river direction of the beam 100. In this case, about 1/4 to 1/2 of the entire length of the body 200 may be located in the downstream river.

On the other hand, the side wall portion 210 is provided with a plurality of fish outlets 211 at regular intervals. The fish outlet 211 may be formed of a square hole having the same size penetrating through the fish-side wall portion 210. The fish outlets 211 are formed to have different heights. As shown, the outlet portions 211 are formed to increase in steps as they move away from the beam 100. In addition, when the fish outlet is called the first fish outlet, and the increasing fish outlets are sequentially referred to as the second, third, and fourth fish outlets, a lower end of one fish outlet (for example, the second fish outlet). Is higher than the lower end of the fishery outlet portion (first fishery outlet portion) adjacent to the lower portion, and the upper end of the fishery outlet portion (second fishery outlet portion) is higher than the upper end of the fishery outlet portion (third fishery outlet portion) adjacent to the higher portion. It is desirable to form low so that water can be continuously discharged to the bottom of the fish through the fish outlets in the event of a change in the water level.

The fishery side wall portion 210 is provided with outlet opening and closing doors 300 to open and close the fishery outlet portions 211, respectively.

The outlet opening / closing gates 300 correspond to the water level of the beam 100 by sequentially opening and closing the fish outlet 211 as the water level of the beam 100, that is, the upstream level of the beam increases or decreases. The water outlet portion 211 to allow the discharge of water.

The outlet opening and closing door 300 includes a housing 310, a first buckle 330, an outlet 340, a gate 350, and a relay 360.

The housing 310 is installed on the side wall portion 210 and has an inner space 311, and an inlet 312 and an outlet 313 are provided to allow water stored in the beam into the inner space 311. do. Inside the housing 310 is provided with a guide 320 for guiding the shangdong of the first sub-ball 330 to be described later and limit the rising and falling range.

The first sub-ball 330 is installed inside the housing 310 to move up and down according to the water level in the housing 310, and is made of a material having a buoyancy or a hollow structure, and guide protrusions extending in the longitudinal direction at both ends thereof. 331 are respectively formed, and the lifting and lowering in the housing 310 in the state in which the guide protrusion 331 is inserted into the guide groove formed in the guide portion 320.

The guide part 320 for guiding the first sub-ball 330 may be formed in a plate shape or a rod shape, and the guide part 320 is not limited thereto.

The outlet part 340 may include a discharge pipe 341 in which an inlet is located inside the housing 310, an opening and closing plate 342 rotatably installed at an end of the discharge pipe 341, and the opening and closing plate 342. A hinged and penetrating wire member 343 penetrates the housing, and a second accessory hole 344 installed at an end of the wire member 343.

The discharge pipe 341 is coupled to the outlet 342 of the housing 310 and extends downward through the beam 100 to discharge water stored in the internal space 311 to the downstream side of the beam 100. . The discharge pipe 341 is a housing so that the water outlet portion 211 of the fishery side wall portion 210 can be opened when the water level of the beam 100 rises above the water level corresponding to the top height of the fishery bottom portion 250. The water introduced into the 310 is discharged to the outside of the body 200.

The gate 350 is rotatably coupled to a hinge provided at the lower portion of the fish outlet 211 to open or close the fish outlet 211 according to the states of the first and second mouth holes 330 and 344. do. Although not shown in the gate portion 350, a sealing for maintaining airtightness with the side wall portion 210 is provided at the edge to close the outlet portion 211.

When the water level of the beam 100 rises above the water level corresponding to the lower end of each of the air outlets 211, the relay 360 rotates the gate part 350 upward to gradually rotate the air outlets 211. The first sub-ball 330 to close the gate 100 and rotate the gate portion 350 downward when the water level of the beam 100 is lowered to a lower level than each of the air outlets 211. And the gate unit 350 are connected.

The relay unit 360 is rotatably installed on the pair of rope members 361 and the fishery side wall portion 210 connecting the fastening rings 351 provided on the gate unit 350 to support the rope members 361. And a plurality of first rollers 362 for guiding the movement of the rope member 361 and a plurality of agents rotatably fixed to the bottom of the housing 310 to support the path of the rope member 361. Two rollers 363.

The first rollers 362 may have a rope member 361, one end of which is coupled to the fastening ring 351, to extend into the housing 310 along the fisheye side wall portion 210. Installed at different positions, the second roller 363 supports the direction of the rope member 361 extending from the top to the bottom by the fastening ring 351 in the direction of the first sub-ball 330.

The relay unit 360 may further include an accelerator 500 as shown in FIG. 2B to sufficiently close the gate unit by the transfer force of the first sub-sphere 330. 2B, the accelerator 500 includes a case 505 fixed to the bottom of the housing 310, a first drum 510 rotatably installed at one side of the case 505, and a case 510. The second drum 520 is installed to be rotatable on the other side of the. The rope member 361 connected to the gate portion 350 is wound on the second drum 520, and the rope member 530 wound on the first drum 510 has a left guide protrusion (1) of the first buckle 330. 331. Inside the case 505, the axes of the first drum 510 and the second drum 520 are interconnected by two or more gears. Gears may be appropriately arranged in accordance with the rotation ratio. For example, the rotation ratio of the first drum 510 and the second drum 520 may be 1: 2 to 4. Although the above-described accelerator is not shown, it is of course installed on the right side of the first sub-sphere.

By the accelerator 500, even if the vertical displacement of the first sub-ball 330 is small, the gate part 350 can be opened and closed sufficiently. That is, as the first sub-ball 330 is elevated, the first drum 510 is rotated forward and backward, and the rope member 361 is rotated by the second drum 520 accelerated and rotated by the rotation of the first drum 510. Cold or loosened. Therefore, the gate portion 350 can be opened and closed even with a small moving distance of the first sub-ball 330. To this end, a torsion spring may be installed on the hinge shaft of the gate unit 350 so that the elastic force acts in the opening direction. In addition to the above-mentioned accelerator, pulleys and the like can be used.

Referring again to FIGS. 1 to 2A and 3, the outlet opening / closing gate 300 opens the fishery outlet portion 211 by opening the fishery outlet portion 211 located at the top of the fishery side wall portion 210 at the level of water. The water is discharged into the water, and when the water level is low, the fish outlet 211 located at the middle of the fishery side wall portion 210 is opened to discharge water through the fishery bottom portion 250, and when the water level is low, the fishery side wall portion ( Water is discharged through the fishery bottom portion 250 by opening the fishery outlet portion 211 located at the lower portion of the 210.

That is, the water level 250 is opened by gradually opening the fish outlets 211 positioned downward as the water level of the beam 100 decreases, and closing the fish outlets 211 step by step as the water level increases. The amount of water discharged into the water can be adjusted, and the water can be discharged to the fisherman bottom 250 during the year, thereby enabling the movement of the fish at any time through the fisherman bottom 250.

In particular, during the flooding, the outlet 313 is opened by the second outlet 344 and the amount of the river water discharged through the outlet 313 is greater than the amount of river water flowing through the inlet 312. ) Will not be injured, so that all of the gate parts 350 blocking the air outlet 211 are opened.

The flow regulating gate 400 is used to block the discharge of a large amount of water into the fisherman bottom 250 according to the water level of the beam 100 at the end of the fish body 200 extending in the upstream direction of the beam 100. As the guide frame 410, the buoyancy member 420, it comprises a tilt plate 430 rotatably coupled to one side of the buoyancy member 420.

The guide frame 410 is limited to raise and lower the buoyancy member 420 in accordance with the water level is provided with a receiving space for the buoyancy member 420 can be accommodated to insert the buoyancy member 420 into the receiving space The upper part is opened and the lower part is formed to be closed so that the buoyancy member 420 does not fall to the lower part. In addition, the guide frame 410 is a part of each side is formed to be open so that water can be introduced into the receiving space or outflowed water.

The buoyancy member 420 may be formed of a material having buoyancy so that it can be elevated according to the water level, or may be formed of a closed structure having an empty inside to have buoyancy.

The hinge portion 440 is rotatably coupled to the edge portion of the upper side of the buoyancy member 420 so that the inclined plate 430 placed on the upper surface of the fisherman bottom portion 250 is rotatable. The inclined plate 430 restricts the buoyancy member 420 to rise within a predetermined range, and at the same time, forms an inclined surface between the upper bottom portion 250 and the upper end of the buoyancy member 420 when the buoyancy member 420 is raised. To get an appropriate gradient.

When the level of the beam 100 is lower than the lower end of the guide frame 410, the buoyancy member 420 is located in the receiving space of the guide frame 410, the higher the level of the beam 100, the buoyancy member 420 Is upwardly constrained by the guide frame 410. Therefore, when the water level rises higher than the height of the end portion side of the fisherman's bottom portion 250, the buoyancy member 420 rises to substantially increase the height of the fishtail portion's length of the fisherman's bottom portion. Can control the amount of water discharged.

When the water level rises, the inclined plate 430 coupled to the hinge 440 rotatably at the corner of the buoyancy member 420 also rises above the fisherman's bottom 250. At this time, the inclined plate 430 does not continue to increase as the water level increases, but is raised only by a predetermined height by the catching rod 450 provided on the side wall portion 210.

On the other hand, Figure 4 is an illustration according to a second embodiment of the present invention. Referring to FIG. 4, a plurality of rest pools 251 are spaced apart from each other along the longitudinal direction and extend in a direction orthogonal to the longitudinal direction on the upper surface of the fisherman bottom 250.

The relaxation pool 251 is formed to connect each of the outlet portion 211 provided at a height corresponding to each other. The relaxation pools 251 provide a residence space for the fish to move upstream and downstream through the fishery bottom 250 in step, and serve to reduce the fluctuation of water flow or flow rate, and each fish outlet 211. ), Allowing fish to move upstream.

5 and 6 illustrate a fisherman according to a third embodiment of the present invention.

5 and 6, in the present embodiment, the fish is installed in a beam formed between the river and the shore to block the inflow of seawater into the river. The fish of the present invention is equipped with the fish body 200, the fisherman's outlet opening and closing gate 300, the flow regulating gate 400 and the seawater blocking gate 500.

Since the above-mentioned body, the outlet opening and closing gate and the flow regulating gate are the same as described in detail in the description of the fish according to the first and second embodiments of the present invention described above, duplicate descriptions are omitted, and the same configuration The same reference numerals are used.

When the water level of the sea level is lower than the inner water level, the seawater blocking gate 500 opens the fish inlet 110 so that water can flow from the stream to the shore, and when the sea level is higher than the water level, the seawater flows into the river. The air inlet 110 is closed by the seawater pressure and buoyancy so as not to enter.

The seawater blocking gate 500 is coupled to the support frame 510 fixed to the outer wall of the beam 100, the link portion 520 rotatably coupled to the support frame 510, and the link portion 520. It includes a blocking plate 530 for opening and closing the inlet 110 and the buoyancy body 540 attached to the blocking plate 530.

The support frame 510 is fixedly installed at a position spaced upwards from the fish inlet portion 110 by a predetermined distance, and the base provided with an anchor groove so that the anchor wall can be fixed to the outer wall of the beam 100 by using an anchor. It extends in a direction away from the outer wall of the beam from each other and includes a vertical portion provided with a pinhole at the end.

The link portion 520 has a structure that is bent at a predetermined angle at a point biased from one side of the length center, and a portion of which the length from the bending point to the end of one side is shorter than the length to the end of the other side is disposed upward and the support frame The pin 515 is coupled to the 510 and rotatably installed.

That is, the link unit 520 is a support frame 510 in a state in which the blocking plate 530, which will be described later, is deflected toward the inlet portion 110 with respect to the support frame 510 in a state where there is no interference between the sea level and the inner surface. The length of the upper part is made shorter than the length of the lower part so that it may be suspended.

The blocking plate 530 is fixed to the link unit 520 to open or close the fish inlet unit 110 provided in the beam. The blocking plate 530 is formed to have an area larger than the cross-sectional area of the fish inlet portion 110, and although not shown, the blocking plate 530 is sealed to prevent the water from entering the fish inlet portion 110 on the surface of the fish inlet portion 110. Sealing member (not shown) to be further provided.

The buoyancy body 540 is rotated so that the link portion 520 is rotated in a direction facing the fish inlet portion 110 to automatically close the fish inlet portion 110 when the sea level is higher than the water level. It is coupled to the front or back of the blocking plate 530 to provide a moment. Preferably, the buoyancy body 540 is coupled to the pin 515 of the link part 520 and the support frame 510 in a state where the blocking plate 540 opens the fish inlet 110 as shown in FIG. 6. It is installed on the blocking plate 530 to be located on the right side. That is, when a virtual vertical line is drawn downward from the coupling portion of the link portion 520 and the pin 515 of the support frame 510, the buoyancy body 540 is located on the right side of the vertical line.

Hereinafter, the operation of the seawater blocking gate 500 by the difference between the tides.

When the water level of the sea level is lower than the water level of the inner surface of the sea level, the support frame 510 is formed to be bent at a predetermined angle so that the inflow portion 110 is opened.

On the other hand, when the water level of the seawater and the level of the inner surface is relatively similar, the force to rotate the blocking plate 530 to the fishery inlet 110 by the seawater and the barrier plate by the water discharged through the fishery inlet 110 ( A force for pushing the 530 away from the fish inlet 110 acts on the blocking plate 530 at the same time to open the fish inlet 110.

 And when the water level of the sea level rises above the water level of the inner surface, the blocking plate 530 is rotated in a direction close to the fish inlet 110 by the buoyancy of the buoyancy body 540, the water level of the sea level becomes higher, the high water When the blocking plate 530 is to completely close the fish inlet 110.

As the level of the sea level rises, the buoyancy force acting on the buoyancy body 540 acts as a rotational force to push the blocking plate 530 upward, thereby closing the air inlet 110.

As such, when the sea level is high tide higher than the water level of the sea level 500, the seawater inlet 110 is automatically closed by buoyancy to block the inflow of sea water into the river, and the sea level is higher than the water level of the inner surface. When the low tide is to automatically open the fish inlet 110.

When the fish inlet 110 is open, water is discharged from the river to the shore through the fish bottom 250 so that fish can move from the shore to the river through the fish bottom 250.

As shown in FIG. 4, the body 200 is spaced apart from each other along the longitudinal direction of the body 200 on the upper surface of the bottom portion 250 and extends in a direction orthogonal to the length direction of the body 200. Thus, a plurality of rest pools may be formed to provide a living space so that the fish may move from the downstream to the upstream through the fisherman bottom 250 step by step.

Fish that can be removed even in the low water level according to the present invention as described above has been described with reference to an embodiment shown in the drawings, but this is only an example, those skilled in the art will be various It will be understood that other variations and equivalent embodiments are possible.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Bo
200: Adobe body
210: fishery side wall
250: bottom of the fish
300: exit opening and closing gate
400: flow control gate
500: accelerator

Claims (10)

A fishery bottom portion which is installed in a beam for storing water in a river and which provides fish to move the fish, which is inclined so as to be located in the water upstream of the beam from the fish inlet portion provided in the fish; An fish body comprising: an fish body including an fish-side wall portion provided on both sides of the portion, wherein the fish can be moved throughout the year even when the water level fluctuates. A fisherman bottom portion provided on a boundary formed between a stream and a coast to provide fish to which fish can move, the fisherman bottom portion inclined to be located in the water upstream of the beam from the fish inlet portion provided in the fish; An fish body comprising fish-side wall portions provided on both sides of the portion;
A seawater blocking gate installed in the fishery inlet to close the fishery inlet when the water level of the sea level is higher than the water level of the sea, and opening the fishery inlet to form a fish when the water level of the sea level is lower than the water level of the seawater; Located in the upstream side of the beam characterized in that the fish can move throughout the year even when the water level fluctuates. The method of claim 2,
The sea-blocking floodgate is
A support frame fixed to the outer wall of the seawater side of the beam and extending in a direction away from the outer wall of the beam, a link part that is pin-coupled to the support frame to be rotatably installed and bent at a predetermined angle, and is coupled to the link part A fish is located in the upstream side of the beam characterized in that it comprises a blocking plate for opening and closing the fish inlet, the fish can be moved throughout the year even when the water level fluctuates. The method of claim 3,
Positioned in the upstream side of the beam further comprises a buoyancy body coupled to the blocking plate or the link portion to provide a rotation moment for rotating the link portion in a direction opposite to each other in accordance with the change in the water level of the sea surface and the inner surface. Fish can be moved throughout the year even when the water level fluctuates. The method according to claim 1 or 2,
The fish body is formed at different heights on the side wall of the fish body and has a plurality of fish outlets that increase as the distance from the fish increases. Possible as possible. The method of claim 5,
The upstream of the beam further comprises an outlet opening and closing door for sequentially opening and closing the fish outlet portion as the water level of the beam increases or decreases to discharge water to any fish outlet portion corresponding to the water level of the beam. Located on the side of the sea, fish can move around the year even if the water level fluctuates. The method of claim 6,
The exit opening and closing door is
A housing provided with an inlet to allow the water stored in the beam to enter therein;
An outlet portion for discharging water contained in the housing to the outside when the water level of the beam rises above the water level corresponding to the upper end of each of the air outlets;
A gate part which is rotatably installed up and down with respect to the fish body at the lower portion of each fish outlet portion, and opens and closes the fish outlet portions according to the elevation of the first sub-sphere;
When the water level of the beam rises above the level corresponding to the lower end of each of the estuaries, the gate portion is rotated upward to gradually close the estuary outlet, and the water level of the beam is lower than the lower end of each of the estuaries. When the water level fluctuates in the upstream side of the beam having a relay for connecting the first outlet and the gate portion to rotate the gate portion downward so that the water outlet portion can be opened when descending to the water level Edo fish can travel throughout the year. The method of claim 7, wherein
The outlet portion
A discharge pipe extending inward from the outside of the housing to discharge water contained in the housing to the outside of the body;
An opening and closing plate rotatably hinged to an end portion of the discharge pipe located inside the housing;
One end is coupled to the opening and closing plate and the other end is a wire member extending outwardly of the housing,
And a second sub-hole coupled to the other end of the wire member to move up and down by the water level of the beam, wherein the fish can be moved throughout the year even when the water level fluctuates. The method according to claim 1 or 2,
It is coupled to the end of the body to extend to the stream upstream of the beam to increase and decrease the flow rate of the water flowing through the bottom of the water when the water level of the beam rises above the normal level while raising and lowering according to the water level of the beam And a flow regulating gate that maintains a constant depth of the bottom portion of the fisherman's bottom. Located in the upstream side of the beam, the fish can move year round even when the water level fluctuates. The method according to claim 1 or 2,
The fisherman's bottom portion is drawn downward from the upper surface and is spaced apart from each other along the extending direction of the fisherman's bottom portion and provided with a plurality of rest pools extending in a direction shifted from the extending direction of the fisherman's bottom portion. Located on the island, the fish can move year round even when the water level fluctuates.

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