KR101119972B1 - Eco-Friendly Structures - Google Patents

Abstract

According to the present invention, the underwater beam 110 is installed across the river; A level control natural discharge channel structure 120 installed along one of the submersible beams 110 along the inclined surface of the river to naturally discharge the water of the stream; And the water level control natural discharge channel structure 120 is installed inside the water level control so as to slow down the speed of the water so that the fish is injured from the downstream to the upstream, and provides a resting space. It includes a waterway structure 130 to go back to the river is installed, the water level control natural discharge channel structure 120, a pair of water level is installed at a certain height along the inclined surface from one side of the underwater beam (110). A controlled natural discharge channel side wall 121; The water level control natural discharge channel structure is divided by the side wall 121 and includes a water level control natural discharge channel structure 122, which is a water channel to allow the natural discharge of water from the submersible beam 110 along the inclined surface, the waterway structure 130 ), A pair of airway side wall 131 is installed at a predetermined height along the inclined surface from one side of the underwater beam 110 inside the water level control natural discharge channel side wall 121; An aqueduct 132 which is divided by the aqueduct side wall 131 and which is a channel for causing fish to be small along the slope; And a plurality of flow rate resisting plates 133 installed on the waterway side wall 131 are installed at an angle to the submersible beam 110 at an oblique direction.

Edo, Fish, Underwater Beam, Dam, Sluice, Regression

Description

A nature friendly fish way structure

       The present invention relates to an eco-friendly fishery structure, and more particularly, by installing a flow rate resistance plate on an inclined portion of an underwater beam installed on a bank or the like, to significantly reduce the water flow rate, and to move upstream of fish such as regressive fish. The present invention relates to an eco-friendly fishery structure that facilitates the conservation of the ecosystem.

In general, a lot of underwater reports are installed to improve the quality of water by desalination in rivers, agricultural waterways or reservoirs in a situation where there is a large amount of water. This is not only for improving water quality, but also for agricultural water in real life. There is considerable benefit in securing it.

However, due to the above-mentioned submerged beams, since a straight channel is formed along the slope from the upstream to the downstream, the water flow rate is increased, and a large topographical drop occurs in the extension of the downstream drainage channel where the submerged beams are installed. In the state where the water is stored by the underwater beam, it is difficult for fish and various living organisms downstream thereof to move upstream, which may cause an imbalance of the ecosystem or the ecosystem may be destroyed.

In order to solve the above problems, the fish has been conventionally configured to move the fish using the formation of a gentle slope, stepped, zigzag upright structure, concave-convex bottom surface, etc. so that the fish can move to the drop of the underwater beam drainage.

However, according to the above method, even when the door of the underwater beam is only slightly open and the depth of the water where the fish cannot swim is shallow, the speed of water is rapidly increased so that the fish cannot climb up the structure by using the fins so that the fish can move upstream smoothly. There is a difficulty not to do. In addition, in the case of the upright structure, the water splashes out of the vortex and the outside due to the water hitting the structure, etc., and the fish moving upstream also jumps out of the channel by jumping against the rapid current and jumping. Due to the loss of directionality due to lack, there is a problem in that small wounds are difficult to exert their function as fish.

Therefore, an object of the present invention is a water level control natural discharge channel structure for the natural discharge of water in the inclined portion of the underwater beam and the reverse venturi structure that is wider toward the lower side of the inclined portion of the fish channel to enable the small phase of the fish And a plurality of flow-resistance plates are formed on the fishery channel to face upwards of the inclined portion of the underwater beam to slow down the flow rate of water flowing in the fishery channel and provide a resting space for the small fish, and at the same time, the fish swim smoothly. It is to provide an eco-friendly fishery structure that can facilitate the small wounds of fish.

In addition, another object of the present invention is to provide a sufficient space to rest between the flow rate resistance plate of the fish channel even when the flow of water flows from the water level control natural discharge channel structure to the water channel to the inlet It is to provide an eco-friendly fishery structure that can facilitate the small scale.

In addition, another object of the present invention is to discharge the sediment deposited on the flow rate resistance plate of the waterway to the water level control natural discharge water to lower the water level flowing in the flow rate resistance plate by the sediment or the resting space is narrowed It is to provide eco-friendly fish structures that can prevent clogging.

Meanwhile, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

To this end, according to the present invention, the underwater beam is installed in the river crossing; A level control natural discharge channel structure installed along the inclined surface of the river on one side of the submerged stream, in which water in the stream is naturally discharged; And an aqueduct structure that is installed inside the water level control natural discharge channel structure to reduce the speed of water so that the fish is injured from the downstream to the upper stream, provide a resting space, and allow the fish to swim smoothly. The water level control natural discharge channel structure, the pair of water level control natural discharge channel side wall is installed at a predetermined height along the inclined surface from one side of the underwater beam; And a water level control natural discharge channel, which is divided by the water level control natural discharge channel side wall and is a channel for allowing the water to flow naturally along the inclined surface from the underwater beam, and the fish channel structure is inside the water level control natural discharge channel. A pair of aqueduct side walls installed at a predetermined height along an inclined surface from one side of the; An aqueduct which is divided by the aqueduct side wall and which is a channel for causing fish to be burned along an inclined surface; And a plurality of flow rate resistance plates installed at an angle facing the underwater beam at an angle to the fishery side wall.

Therefore, according to the present invention, a water level control natural discharge channel for natural discharge of water to the inclined portion of the underwater beam or dam and an fish channel to enable the small phase of the fish is formed and a plurality of flow rate resistance plates in the channel Are provided to face upwards of the inclined portion of the underwater beam, significantly slowing the flow rate of the water flowing in the aqueduct and providing a resting space for the small fish, while allowing the fish to swim upstream of the stream without resistance of the flow rate. Small wounds are easy and the ecosystem can be conserved smoothly.

In addition, the water level control natural discharge to ensure that the water flows into the water channel always enough to maintain a constant depth of the amount of water and to provide a sufficient rest space by the flow rate resistance plate of the water channel to prevent the death of fish and capture Or the likelihood of becoming a bird of prey can be minimized.

In addition, the sediment deposited on the flow resistance plate of the waterway can be discharged to the water level control natural discharge channel to prevent the water level of the flow resistance plate space is lowered or the resting space is narrowed or blocked by the deposit. have.

In addition, the arrangement of the flow rate resistance plates can be varied and the angle can be changed to variably control the flow rate according to the flow rate change to safely protect the flow of fish.

On the other hand, the effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an eco-friendly fish structure according to a first embodiment of the present invention, Figure 2 is a plan view showing an eco-friendly fish structure of Figure 1, Figure 3 is an eco-friendly fish structure of Figure 1 4 is a side view showing the waterway side wall, and FIG. 4 is a view showing an embodiment of a river to which the eco-friendly fishery structure of FIG. 1 is applied.

As shown in Figures 1 to 4, the eco-friendly fish structure according to the first embodiment of the present invention, the submersible beam 110 is installed in the river transversely installed on one side of the submersible beam 110 along the slope of the river The water level control natural discharge channel structure 120 and the water level control natural discharge channel structure 120 in which the water stored by the underwater beam 110 is naturally discharged so that the fish are small phase from the downstream to the upstream. It includes an aqueduct structure 130 to reduce the speed of water and provide a rest space and allow the fish to climb smoothly.

The underwater beam 110 is a facility that is installed in the direction of the water or the width of the river for the purpose of farming water and drinking water, etc. in a specific location of the river, has a certain height and is cast in one-piece concrete or precast concrete block, etc. Connection is installed.

The water level control natural discharge channel structure 120, a pair of water level control natural discharge channel side wall 121 is installed at a predetermined height along the inclined surface from one side of the submersible beam 110, and the water level control natural discharge channel side wall 121 It is divided by) and includes a water level control natural discharge channel 122, which is a channel for allowing the natural discharge of water from the underwater beam 110 along the slope.

In this case, the water level control natural discharge channel side wall 121 is generally placed in one-piece concrete, or installed as a precast concrete block.

Therefore, the waterway structure 130 is a natural discharge of only the water stored in the river so as to correspond to a certain height of the underwater beam 110, even if the state of flood or flood due to heavy rain or typhoon, such as small scale or return of the fish You can do it smoothly.

The fish channel structure 130, a pair of fish is installed at a predetermined height along the inclined surface from one side of the underwater beam 110 inside the water level control natural discharge channel side wall 121 of the water level control natural discharge channel structure 120. The underwater beam 110 is obliquely divided into the aqueduct 132 and the aqueduct aqueduct side wall 131 which are divided by a channel side wall 131 and the fish channel side wall 131 so that the fish are burned along the inclined surface. A plurality of flow rate resistance that is installed at an angle to the head to reduce the flow rate of the water flowing in the waterway 132 and at the same time provide a space for the small fish to rest and to allow the fish to burn toward the underwater beam 110 Plate 133.

Here, the waterway side wall 131 and the plurality of flow rate resistance plates 133 are generally placed in concrete or precast concrete blocks, and the plurality of flow rate resistance plates 133 on the channel side wall 131. ) May be installed at any regular interval.

The waterway side wall 131 is installed at a certain height along the inclined surface from one side of the underwater beam 110, the width thereof is widened toward the lower side of the inclined surface, that is, toward the water level control natural discharge channel side wall 121 By forming a wider structure, it is easy to access the fish on the lower side of the inclined surface and to enter the waterway 132, and also prevents the fish from burning toward the water level control natural discharge channel 122, the water level Fish leaps from the controlled natural discharge channel 122 It can be prevented from being killed by leaving the waterway or the structure, that is, off the bank or slope, such as water does not exist.

Here, it is preferable that the fish channel side wall 131 is formed to be longer than the water level regulating natural discharge channel side wall 121 to minimize the incidence of fish to the lower portion of the water level regulating natural discharge channel 122.

The plurality of flow resistance plates 133 are installed at an oblique angle toward the underwater beam 110 on the channel side wall 131 so that water flowing through the channel 132 is flowed by the flow rate resistance plate 133. The flow rate may be lowered, and even small fish having a weak swimming force and a weak jumping force may be more easily burned along the aqueduct 132.

That is, the water flowing along the inclined surface from the underwater beam 110 is controlled by the flow rate resisting plate 133 and accumulated in the space between the flow rate resisting plate 133 and the flow rate resisting plate 133 and then again flow rate resisting plate From the space of 133 flows toward the lower channel 132, at this time, the water flowing continuously from the underwater channel 110 to the channel 132 by the water toward the channel 132 flow rate The flow rate of the water flowing through the waterway 132 is significantly reduced due to a controlled and temporary stagnation.

In addition, the plurality of flow resistance plate 133 is partitioned in the waterway side wall 131 at a predetermined interval to rest so that the fish small in the space of the vertically adjacent flow rate resistance plate 133 to stay away from the water flow rate Provide space.

Here, the plurality of flow rate resistance plates 133 may be installed on the channel side wall 131 at a predetermined length, and the flow rate resistance plates 133 may be alternately long and short depending on the field situation.

In addition, the plurality of flow resistance plate 133 may be installed at a predetermined height to serve as a stepping bridge so that a manager or the like who manages the structure may step on when crossing the waterway 132.

In addition, the upper side surface of the plurality of flow rate resistance plate 133 is formed so that the height is slightly lowered toward the center of the waterway 132 from the waterway side wall 131, the waterway 132 Water flowing in the) may have a water level of a certain height in the resting space by the flow rate resistance plate 133, thereby preventing the water from overflowing to the upper side of the flow rate resistance plate 133. That is, the surface of the water stagnated in the rest space has a horizontal state with respect to the surface of the river so that the water stagnates stairway from the underwater beam 110 in the rest space.

On the other hand, the plurality of flow resistance plate 133 is provided in the waterway side wall 131 is provided at a predetermined interval, for example, a plurality of flow rate resistance plate 133 is provided in the lower side of the flow resistance plate 133 1 When the resting space is formed by the flow rate resistance plate 133-1 to the third flow rate resistance plate 133-3, the lower portion of the first to third flow rate resistance plates 133-1, 133-2, 133-3 is provided. An inflow water inlet 131a is formed at an oblique angle from the water level control natural discharge channel 121 side to the fish channel 132 side.

Thus, a large amount of water flows from the water level control natural discharge channel 122 side along the water inlet hole 131a to the fishery channel 132 side, so that the natural discharge channel 122 and Loss of function of the waterway 132 generated when the amount of water discharged along the waterway 132 is small, that is, the fish dies due to the low water level of the waterway 132, or is caught by the catch or algae. This can be prevented.

In addition, a plurality of flow resistance plate 133 is installed on the lower side of the flow resistance plate 133 on the waterway side wall 131 where the plurality of flow rate resistance plates 133 are provided at regular intervals. 1 When the resting space is formed by the flow rate resistance plate 133-1 to the third flow rate resistance plate 133-3, the lower side of the first to third flow rate resistance plates 133-1, 133-2, and 133-3 is provided. A sediment discharge hole 131b is formed at an oblique angle toward the water level control natural discharge channel side wall 121 from the fish channel side wall 131.

Thus, sediments contained in the water from the airway channel 132 side to the water level control natural discharge channel 122 side along the deposit discharge hole 131b is not deposited in the resting space of the flow rate resistance plate 133. It is possible to prevent the rest space is narrowed or blocked by being discharged toward the water level control natural discharge passage 122.

Therefore, according to the waterway structure 130, the flow rate of the water flowing into the waterway 132 from the underwater beam 110 is lowered by the flow rate resistance plate 133 to facilitate the small phase of the fish. In addition, even if the amount of water flowing into the waterway 132 is small, it is possible to prevent the fish from being killed by introducing water from the water level control natural discharge channel 122, water flowing into the waterway 132 The sediment contained in the discharge to the water level control natural discharge channel 122 side can continuously secure the function of the resting space of the flow rate resistance plate 133.

On the other hand, Figure 5 is a planar cross-sectional view showing the connection of the flow rate resistance plate is installed in an angle-adjustable side wall of the waterway structure of the waterway structure in the eco-friendly fish structure according to a second embodiment of the present invention.

According to the first preferred embodiment of the present invention, although the waterway side wall 131 and the plurality of flow rate resistance plates 133 are integrally installed at a predetermined interval, the second embodiment of the present invention is the waterway side wall ( 131 has an installation groove for inserting the plurality of flow resistance plate 133 is formed, the other end of the flow resistance plate 133 inserted into the installation groove and the angle adjustment connecting member connected to one side of the water channel side wall 131. It may be further provided so that the installation angle is changed in accordance with the amount and flow rate of water flowing in the waterway 132.

Thus, the second preferred embodiment of the present invention has the same configuration and reference numerals as the first preferred embodiment of the present invention except for the installation groove and the angle adjustment connecting member, so that the installation groove and the angle adjustment connecting member This will be described in detail.

As shown in FIG. 5, the eco-friendly fish structure according to the second embodiment of the present invention includes a plurality of installation grooves 134 into which the other ends of the plurality of flow resistance plates 133 are inserted into the fish channel side wall 131. And a plurality of angle adjusting connecting members 135 connected to the other end of the flow resistance plate 133 inserted into the installation groove 134 and to one side of the waterway side wall 131.

The plurality of installation grooves 134 are formed at an angle toward the submersible beam 110 at an angle to the channel side wall 131. Here, the width W1 of the installation groove 131c may have a length greater than the width W2 of the flow resistance plate 133.

The plurality of angle adjustment connecting members 135, the wire 135a and the wire (1) which is connected to the other end of the flow resistance plate 133 inserted into the installation groove 134 and the waterway channel side wall 131, respectively. It is connected to the other end of the 135a) comprises a displacement adjusting bolt (135b) for varying the length by winding or recommending the wire (135a).

Thus, one end of the flow rate resistance plate 133 is inserted into the installation groove 134 as described above, and the other end of the flow rate resistance plate 133 and the angle adjusting connecting member 135 are connected to the waterway side wall 131. In the state, when the wire 135a is wound or recommended by the displacement adjusting bolt 135b, the angle of the flow resistance plate 133 inserted into the installation groove 134, that is, the oblique angle toward the underwater beam 110 is variable. Will be.

Here, in the case of the flow rate resistance plate 133, the width W1 of the installation groove 134 is greater than the width W2 of the flow rate resistance plate 133 because the material has a relatively large weight. Even if the angle adjusting connecting member 135 is connected only to the other end of the flow resistance plate 133 having one end inserted into the installation groove 134, one end of the flow resistance plate 133 is separated from the installation groove 134 by the resistance of the flow rate. The width W1 of the installation groove 134 has a ratio of 3: 2 with respect to the width W2 of the flow resistance plate 133, and the depth of the installation groove 134 It is preferable that H) is longer than the width W2 of the flow resistance plate 133.

) 하고 상기 어도수로(132)에 흐르는 물의 양이 많지 않은 경우 상기 설치홈(134)에 삽입된 유속저항판(133)의 각도를 작게(

) 하여, 상기 어도수로(132)에 흐르는 유량의 변화에 따른 유속 저하를 가변적으로 수행할 수 있다. Therefore, when the amount of water flowing in the waterway 132 is large, the angle of the flow rate resistance plate 133 inserted into the installation groove 134 is large (

When the amount of water flowing in the waterway 132 is not large, the angle of the flow resistance plate 133 inserted into the installation groove 134 is reduced (

), A decrease in flow rate due to a change in the flow rate flowing through the waterway 132 may be performed.

Hereinafter, with reference to the drawings will be described the operation and effect of the eco-friendly fish structures according to a preferred embodiment of the present invention.

As shown in Figure 4, eco-friendly fish structure according to a preferred embodiment of the present invention, the water level control natural discharge channel structure along the inclined surface of the river on one side of the underwater beam 110 for storing water is installed across the river ( 120 is installed and the aqueduct structure 130 to reduce the speed of the water so that the fish is small phase from the downstream to the upstream of the water level control natural discharge channel structure 120 is installed.

Here, the water level control natural discharge channel structure 120 is a water level control natural discharge channel 122 by a pair of level control natural discharge channel side wall 121 is installed at a certain height along the inclined surface from one side of the underwater beam 110. Is formed, the waterway structure 130 is a plurality of waterway side wall 131 is installed at a predetermined height along the inclined surface from one side of the underwater beam 110 inside the water level control natural discharge channel structure 120. The waterway 132 is formed, and a plurality of flow rate resistance plates 133 are installed on the fishery side wall 131 at an angle facing the underwater beam 110 at an angle.

Subsequently, water flowing from the underwater beam 110 flows into the water level control natural discharge channel 122 of the water level control natural discharge channel structure 120 and the water channel 132 of the fish channel structure 130.

At this time, the water flowing into the waterway 132 is temporarily controlled by the flow rate resistance plate 133 formed at regular intervals on the waterway side wall 131 to control the flow rate in the space between the flow rate resistance plate 133. It is stagnant and flows back from the flow-resistance plate 133 toward the aqueduct 132 and controls the flow rate of water continuously flowing into the aqueduct 132 from the underwater beam 110 to the aqueduct ( The flow rate of water flowing in 132 is lowered.

In addition, through the inflow water inlet 131a formed in the side wall 131 of the waterway, the water naturally discharged from the water level control natural discharge channel 121 side to the water channel 132 side flows in such a way that there is not much flow of water. Even in this case, the resting space by the flow resistance plate 133 is sufficiently provided.

In addition, the sediment contained in the water flowing into the waterway 132 side through the sediment discharge hole (131b) formed in the waterway side wall 131 is discharged to the water level control natural discharge channel 121 side.

In addition, the installation angles of the flow rate resistance plate plates 133 installed on the waterway side wall 131 may be varied according to the amount of water flowing in the waterway 132 to control the flow rate of the water.

Therefore, according to the present invention as described above, the flow rate of the water flowing in the waterway 132 is significantly lowered by the flow rate resistance plate 133, so that even small fish having a weak swimming force and leap power ( 132 may be more easily burned.

In addition, a rest space is provided by the flow rate resistance plate 133 so that the small fish along the aqueduct 132 may stay without being affected by the flow rate of the water, causing the fish to resist the flow rate plate 133. Smoothly through the stream can be more easily wound toward the underwater beam (110).

In addition, even when the water flows naturally discharged from the water level control natural discharge channel 122 side to the waterway channel 132 side is not provided with a large flow of water is provided a sufficient rest space by the flow rate resistance plate 133 It can prevent the death of fish and minimize the chance of catching or feeding on algae.

In addition, the sediment contained in the water flowing into the waterway 132 side can be discharged to the water level control natural discharge channel 122 side to prevent the rest space is narrowed.

6A and 6B are a plan view and an A-A cross-sectional view, respectively, illustrating an eco-friendly fish structure according to a third embodiment of the present invention.

According to the first and second preferred embodiments of the present invention, the bottom surface of the water level control natural discharge channel 122 and the fish channel 132 has the same height, but the third preferred embodiment of the present invention 6A and 6B, the bottom surface of the waterway canal 132 is formed to have a position relatively lower than that of the bottom surface of the water level control natural discharge channel 122, such as a river, etc. When there is not a lot of stored water, it is preferable that the fish channel 132 has a higher water level than the water level control discharge channel 122 to facilitate the small phase of the fish.

Here, as described above, when the bottom surface of the waterway 132 is formed to have a relatively low position compared to the bottom surface of the water level control natural discharge channel 122, of the waterway 132 The sediment discharge hole 131b which prevents the accumulation of sediment on the flow rate resistance plate 133 is not formed in the water channel side wall 131 so as to face the water level control natural discharge channel 122. The bottom of one side of the adjacent flow resistance plate 133 is formed in a direction parallel to the water flowing in the waterway 132, that is, the sediment of the flow resistance plate 133 of the upper end of the flow rate resistance plate 133 It is good to let it out.

While the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains have various permutations and modifications without departing from the spirit or essential features of the present invention. It is to be understood that the present invention may be practiced in other specific forms, since modifications may be made. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

1 is a perspective view showing an eco-friendly fish structure according to a first embodiment of the present invention;

FIG. 2 is a plan view showing the eco-friendly fish structure of FIG.

FIG. 3 is a side view showing the fishery channel side wall of the fishery structure of the environment-friendly fishery structure of FIG. 1; FIG.

4 is a view showing an embodiment of a river to which the eco-friendly fishery structure of Figure 1 is applied;

Figure 5 is a cross-sectional view showing the connection of the flow rate resistance plate is installed in an angle-adjustable side wall of the waterway structure of the waterway structure in the eco-friendly fish structure according to a second embodiment of the present invention; And

6A and 6B are a plan view and an A-A cross-sectional view, respectively, illustrating an eco-friendly fish structure according to a third preferred embodiment of the present invention.

* Drawing reference *

110: underwater beam 120: water level control natural discharge channel structure

121: level control natural discharge channel side wall 122: level control natural discharge channel

130: island waterway structure 131: island waterway side wall

131a: flowing inflow hole 131b: sediment discharge hole

132: islands 133: flow resistance plate

134: mounting groove 135: connecting member

135a: Wire 135b: Displacement adjustment bolt

Claims (13)

delete An underwater beam 110 installed in the river; A level control natural discharge channel structure 120 installed along one of the submersible beams 110 along the inclined surface of the river to naturally discharge the water of the stream; And The water channel structure 130 is installed inside the water level control natural discharge channel structure 120 to slow down the speed of the water so that the fish is injured from the downstream to the upstream, and provide a resting space, allowing the fish to swim smoothly and climb up. Eco-friendly structure, characterized in that it comprises a). According to claim 2, The water level control natural discharge channel structure 120, A pair of level control natural discharge channel side walls 121 installed at a predetermined height along a slope from one side of the underwater beam 110; Eco-friendly fishery structure characterized in that it is divided by the water level control natural discharge channel side wall 121 and the water level control natural discharge channel 122 which is a water channel from the underwater beam 110 to allow the natural discharge along the slope. . According to claim 3, The hydro channel structure 130, A pair of waterway side walls 131 installed at a predetermined height along an inclined surface from one side of the underwater beam 110; An aqueduct 132 which is divided by the aqueduct side wall 131 and which is a channel for causing fish to be small along the slope; And Eco-friendly fishery structure, characterized in that it comprises a plurality of flow rate resistance plate 133 is installed at an angle facing the submersible beam 110 at an angle to the waterway side wall (131). The waterway side wall 131 in which the plurality of flow rate resistance plates 133 are installed is formed. The inflow water inlet 131a is formed at an oblique angle toward the fishery channel 132 side from the water level control natural discharge channel 121 side at a portion corresponding to the lower portion of the flow resistance plate 133. Eco-Friendly Structures. The waterway side wall 131 in which the plurality of flow rate resistance plates 133 are installed is formed. Sediment discharge hole (131b) is formed at an oblique angle toward the water level control natural discharge channel 122 side from the waterway channel 132 side in the portion corresponding to the upper portion of the flow resistance plate 133 Eco-Friendly Structures. The water channel side wall 131 is A plurality of installation grooves 134 is formed is inserted into one end of the plurality of flow resistance plate 133, Eco-friendly fishery structure, characterized in that a plurality of angle adjustment connecting member 135 is connected to the other end of the flow resistance plate 133 inserted into the installation groove 134 and the side of the fishery channel side wall 131. The method of claim 7, wherein the plurality of installation grooves 134, The waterway side wall 131 is formed at an angle facing the submersible beam 110 at an angle, The width W1 of the installation groove 131c is an eco-friendly fish structure, characterized in that it has a length greater than the width (W2) of the flow rate resistance plate 133. The method of claim 7, wherein the plurality of angle control connecting member 135, A wire 135a having one end connected to the other end of the flow rate resistance plate 133 inserted into the installation groove 134 and the fish channel side wall 131, respectively; Eco-friendly fishery structure comprising a displacement adjusting bolt (135b) connected to the other end of the wire (135a) to change the length by winding or recommending the wire (135a). The method of claim 4, wherein the plurality of flow resistance plate 133, Eco-friendly fishery structure, characterized in that the length is relatively long and relatively short depending on the installation position on the channel side wall (131) alternately arranged. The waterway side wall 131, Eco-friendly fishery structure, characterized in that formed in the reverse venturi structure that is wider toward the lower side of the inclined surface of the underwater beam (110). The eco-friendly fish structure of claim 4, wherein the bottom surface of the waterway channel 132 is formed to have a lower position than the bottom surface of the water level control natural discharge channel 122. The method of claim 4, wherein the plurality of flow resistance plate 133, Eco-friendly fishery, characterized in that the deposit discharge hole 131b is formed in a direction parallel to the water flowing in the fishery channel 132 at one bottom of the flow resistance plate 133 adjacent to the fishery channel side wall 131. structure.

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