KR200432314Y1 - Fish passage using wing type supporting panel structure by means of fishes upper-movement - Google Patents

Abstract

The present invention uses a wing-shaped tread structure that is installed on a bank or inclined portion to serve as a stepping board for the fish to move upstream, and at the same time, to reduce the water flow rate and to help the fish move more easily. It is about the fishery which I composed.

The present invention arranges the multi-stage wing plate in the vertical direction, the hinge plate is rotatably hinged between the central portion of each wing plate, and the uppermost side of the support plate of the support plate to form a unit stepping plate structure; Position the fishery using at least two or more unit tread structures on the bank of the channel or inclined portions side by side in the horizontal direction at a predetermined interval to fix the fixing pins on the bank or the inclined portion through the loops of the unit tread structures. This can reduce the water pressure that the fish receive when they are injured through the wing plate and the support plate, as well as making it very advantageous for the fish to burn off the wing plate using their fins. In the process of abutting the wing plate or the support plate, aeration is generated and water molecules are decomposed, which has the advantage of improving water quality and purifying contaminated water quality.

 Fishbone, tread, wing plate, support plate, fish, small wound

Description

Fish passage using wing type supporting panel structure by means of fishes upper-movement}

1 is a perspective view of a wing tread structure according to a first embodiment of the present invention;

Figure 2 is an explanatory view of the installation state of the blade-shaped tread plate structure according to the first embodiment of the present invention.

3 is a perspective view of a wing tread structure according to a second embodiment of the present invention;

Figure 4 is an explanatory view of the installation state of the wing-shaped tread plate structure according to the second embodiment of the present invention.

Figure 5 is a perspective view of the wing plate according to the present invention is configured to be bent in a "∨" shape.

Figure 6 is a cross-sectional view of the wing plate according to the present invention is configured in a streamlined form.

Figure 7 is a block diagram of a unit tread structure to which a wing plate of the "∧" shape according to the invention is applied.

*** Explanation of symbols for the main parts of the drawing ***

1: Weak 2: Stainless or synthetic resin

100: unit tread structure 110: wing plate

111: wall 112,123: water pipe

113: open part 114: hinge pin

115: enclosed space 120: support plate

121: ring 122: fixing pin

124: hinge part

The present invention relates to an esophagus constructed using a wing-shaped tread structure that assists in the small phase of the fish, and more particularly, it is installed on a bank or inclined portion to serve as a tread for the fish to move upstream, and at the same time, the flow rate of water It is reduced to make it easier to move the fish.

Recently, many floodgates have been installed to improve water quality by desalting water in rivers, agricultural waterways or reservoirs (hereinafter referred to as 'waterways') in a situation where water is scarce, and this is not only for water quality improvement but also for agricultural purposes in real life. It is used as water or industrial water, which has a considerable benefit in securing water resources.

However, due to the formation of a straight channel from the upstream due to these water gates, the flow rate of the water is increased, and it is not possible to completely exclude the large topographical drop in the extension of the downstream drainage channel where the gate is installed.

Therefore, in the state where the water gate is installed and the water is stored, it is difficult for fish or various creatures downstream of the water gate to move upstream, resulting in imbalance of the ecosystem or destruction of the ecosystem.

In order to solve this problem, conventionally, a gentle slope is formed so that the fish can move to the freefall of the hydrologic drainage, or a large freefall is formed along the slope to form a zigzag upright resistance plate inside the waterway. In the former case, even though the slope is gentle, the flow velocity is urgent even when the water gate is slightly opened, so it is not easy to move upstream, and the fish can climb on it using fins. In fact, it was very difficult for the fish to move upstream due to the lack of structures. In the latter case, the water hits the resistance plate, and at the same time, it hits the resistance plate wall of the waterway and bounces out. Bounced out of the waterway The downside was that you can not exercise any functions as even at the door.

The present invention has been proposed in view of this point, and the rotor plate of the multi-stage is rotatably connected to the support plate, each wing plate and each support plate in the state of forming a plurality of water holes through which water can pass through Wing-shaped tread structure that installs on inclined part of slope or waterway to allow fish to use small fins to cut off the wing plate and to reduce water flow rate to help the fish's statue to be easier to catch. It is to provide a configuration configured by using.

Hereinafter, the present invention will be described in detail with reference to the embodiments presented.

1 is a perspective view of a wing tread structure according to the first embodiment of the present invention, Figure 2 is an explanatory view of the installation state of the wing tread structure according to the first embodiment of the present invention, Figure 3 is 4 is a perspective view of a wing type tread plate structure according to a second embodiment, and FIG. 4 is an explanatory view of an installation state of the wing type tread plate structure according to the second embodiment of the present invention, and FIG. 6 is a cross-sectional view of a case in which the wing plate according to the present invention is configured in a streamlined form, and FIG. 7 is a block diagram of a unit tread plate structure to which a wing plate having a “∧” shape according to the present invention is applied.

As shown in the figure, the island constructed by using the wing-shaped tread plate structure according to the present invention, the multi-stage wing plate 110 is arranged in the vertical direction, between the central portion of each wing plate 110, each support plate 120 It is rotatably hinged, and forms a unit tread structure 100 by forming a ring 121 at the upper end of the support plate 120 of the support plate 120, and at least two on the weir of the channel 1 or the inclined portion of the channel. The unit tread structure 100 is positioned side by side in the horizontal direction to be spaced apart by a predetermined interval to fix the fixing pin 122 through the ring 121 of each unit tread structure 100.

At this time, each wing plate 110 may be configured in a variety of forms, such as plate-shaped, multi-valent, round, etc. In the first and second embodiments, each wing plate 110 " The structure which formed and formed the wall 111 in the edge of the surface which opposes water while constructing the shape of "B" shape was applied.

Each wing plate 110 is formed with a plurality of water holes 112 so that water passes, the water holes 112 may be all configured the same size, any wing plate 110 and adjacent to The other wing plate 110 may be configured to vary in size.

In addition, each wing plate 110 may be configured in the same length, but in this case there is a limit to reduce the flow rate, so each wing plate 110 has a relatively long length and relatively long length depending on the installation position It is preferable to alternate the short ones, and as in the first embodiment, the length of each wing plate 110 in the other tread structure 100 adjacent to any one of the unit tread structures 100 is Both may be arranged horizontally the same, or, as in the second embodiment, the longest and the shortest ones may be alternately arranged in the horizontal order.

In addition, the water hole 112 may be configured in the same unit tread structure 100 in any wing plate 110 and the other wing plate 110 adjacent to each other in the vertical position, but in this case the water is Since it passes through the through hole 112 as it is limited to reduce the flow rate, the through hole 112 is vertical in any wing plate 110 and another wing plate 110 adjacent thereto in the same unit tread structure 100 It is preferable to comprise so that the position may shift | deviate from each other.

In addition, the bottom surface on which the unit tread structure 100 is installed is coated with a stainless steel sheet or a synthetic resin 2 having fluidity so that the wing plate 110 flows from side to side according to water pressure.

Each support plate 120 for supporting each wing plate 110 is formed in a plate shape and a plurality of water holes 123 are formed here so that the water can also pass through the side.

Each support plate 120 and each wing plate 110 is a structure that can be rotated within a certain extent when receiving water pressure so as to cope with the water pressure elastically and may be connected in any way, each wing plate 110 in the drawings A part of the center portion of the opening is opened and the hinge pin 114 is fixed through the open portion 113 from the outside, the wing plate contact portion of each support plate 120 is formed to be rounded, respectively, extending from the center of the rounded portion to the outside For example, the formed hinge part 124 is rotatably connected to the hinge pin 114.

In addition, in the configuration of the wing plate 110, each wing plate 110 to form a closed space 115 on the inside while forming the outside of the wing plate 110 in a streamlined form so as to have a floating property in the water as in the third embodiment In the place where the inclination is gentle and the flow rate is not so fast, the wing plate 110 bent in a "∧" shape as in the fourth embodiment may be applied to serve as a stepping board for assisting in the small wound of the fish. It can also be configured to prevent foreign objects from drifting with the water.

And, if each wing plate 110 and each support plate 120 is a material capable of constituting each wing plate 110 and each support plate 120, such as metal, synthetic resin, concrete, wood applied to any one present on the earth. It is possible.

An airway constructed using the wing-shaped tread plate structure according to the present invention configured as described above functions as follows.

First, the wing plate 110 having a relatively long length and the wing plate 110 having a relatively short length are prepared and alternately arranged, and each support plate 120 is positioned between the center portions of each wing plate 110. It is connected to each other, a part of the center portion of each wing plate 110 is opened and the hinge pin 114 is fixed through the open portion 113 from the outside, the wing plate contact portion of each support plate 120 Since the hinge portion 124 is formed to be rounded and extends outwardly from the center of the rounded portion, the hinge portion 124 of each support plate 120 is externally opened through the open portion 113 of each wing plate 110. When rotatably fixed to the hinge pin 114 is exposed to each other can be rotatably connected to each other within a certain range of each wing plate 110 and each support plate 120.

In addition, when the support plate 120 having the ring 121 is rotatably connected to the upper side of the wing plate 110, the unit tread plate structure 100 is completed.

At this time, the unit tread structure 100 may be configured in all the same shape, and together with the unit tread structure 100 of the above-described structure, the position of each wing plate 110 is a unit tread structure ( The unit tread structure 100 may be configured to be different from each other by 100).

After the unit tread structure 100 is configured as described above, it is placed side by side at a predetermined interval in the horizontal direction on the bank of the channel 1 or the inclined portion of the channel, and the fixing pin 122 is placed in each unit tread structure 100 The unit tread plate structure 100 may be positioned along the inclined surface by fixing the upper portion of the upper support plate 120 to the upper part of the weir 1 or the inclined portion.

At this time, each of the unit tread structure 100 is placed side by side in the horizontal direction on the bank of the channel (1) or the inclined portion of the channel may be made of all the unit tread structure 100 of the same shape, a relatively long wing Unit 110 and the relatively short wing plate 110 may be alternately arranged in the unit stepping plate structure 100 different from each other by one position.

When the unit stepping plate structure 100 is installed as described above, when water falls over the weir 1 or the inclined portion, it may collide with each wing plate 110 and each support plate 120 to reduce its flow rate. In addition, the wing plate 110 is to escape to the outside or through the through hole 112 of the wing plate 110, the wing plate 110 has a relatively long length according to its position and relative As a thing having a short length is alternately arranged so that water does not escape as it descends beyond the wing plate 110 and draws a wave shape, water is stagnated between the wing plate 110 and the wing plate 110 to increase the flow rate. It can be further reduced.

In addition, in the same unit tread structure 100, the positions of each of the water holes 112 of the wing plate 110 are vertically shifted from each other, so that the water does not pass through the water holes 112 as it is, and is disposed on the surface of the wing plate 110. After hitting it again, the process of exiting through the water hole 112 is repeated so that the flow rate can be further reduced through this process, and the water hole 112 of each wing plate 110 in the same unit tread structure 100 is provided. Even if the size is different, because some of the water is stagnated inside the wing plate 110 without passing through each hole 112 as it will also serve to reduce the flow rate of water.

On the other hand, the fish that rides on the inclined portion of the waterway is smoothly moved upstream along the inclined plane through the space between each unit tread plate structure 100 by using the fins, Since the water is stagnant between the wing plate 110 and the wing plate 110, the fish rests on the wing plate 110 between the wing plate 110 and the wing plate 110 while the fish climbs along the slope. You can also take

In addition, when any unit tread structure 100 and the other unit tread structure 100 adjacent to each other has the same shape, the flow of water is constant, but the probability of occurrence of vortices is relatively low, so the probability of fish being pushed down into the water stream is small. When the short wing 110 of the other unit tread structure 100 adjacent to the long wing plate 110 of the one side stepping plate structure 100 is horizontally adjacent, there is a disadvantage that the flow of water is uneven There is an advantage in reducing the flow rate is the advantage that the fish is advantageous to rest between the wing plate 110 and the wing plate (110).

Of course, in the present invention, the wing plate 110 is relatively long in length and the wing plate 110 is relatively short in length alternately arranged, but in some cases, the wing plate 110 and the length is relatively long in length It is apparent that the relatively short wing plate 110 may be arranged unspecifically.

Here, when each wing plate 110 is bent in a "∨" shape and the wall 111 is formed on the edge of the surface facing the water, the water pressure that can be received through the wing plate 110 is very strong. There is an advantage that can greatly reduce the flow rate, and therefore, the wing plate 110 of such a structure is suitable to apply when the flow rate is relatively large inclination angle is relatively large.

In addition, when the outer space of each wing plate 110 is formed in a streamline shape and the closed space 115 is formed on the inside, the inclined angle is increased because of the buoyancy of the air filled in the closed space 15. It is suitable to be used when the quantity is relatively small and the quantity is large. When each wing plate 110 is bent in the shape of "∧", it is in contact with water and inclined plane, so there is a limit in reducing the flow rate, but foreign substances contained in the water Since it has a characteristic that can be discharged more smoothly, it is preferable to apply the place where the flow rate is not very fast because of the gentle slope.

In addition, when the wing plate 110 flows in a place where the quantity is not so much, the bottom surface and the wing plate 110 is spaced apart so that it is difficult to small fish in the present invention in consideration of this in the present invention the bottom surface in contact with the wing plate It is coated with a stainless steel sheet or synthetic resin (2) having fluidity to the wing plate 110, the friction coefficient is lowered as the wing plate 110 is excluded from contact with the flowable synthetic resin (2) corresponding to the flow of the wing plate 110 As much as possible, the fish statue is more advantageous.

And, the water pressure in contact with the wing plate 110 or the support plate 120 is very large, but the wing plate 110 and the support plate 120 are rotatably connected within a certain range of each other can cope with such water pressure smoothly. It is possible to extend the life of the water, aeration occurs in the process of water collides with the wing plate 110 or the support plate 120 and the water molecules are decomposed as the foreign matter contained in the water to purify the contaminated water quality. There is also an advantage.

The structure of the wing plate 110 and the support plate 120 used in the present invention can be configured by modifying the shape and shape of the wing anyway, so changing the shape and shape to facilitate fluidity and resistance to the wing plate 110 and What constitutes the support plate 120 is naturally within the scope of the present invention.

In addition, by using the modified manner to configure the wing plate 110 and the support plate 120 to apply for patents or utility models all should deny registration.

형태로 구성할 수도 있으며, 여울형의 형태로 구성하거나, 가로 또는 세로 형태로 조합하여도 본 고안에서 요구하는 효과를 얻을 수가 있는 것이므로 이러한 설계 변경 또한 본 고안의 권리 범위에 속하는 것은 당연한 것이다.In addition, the shape of the wing plate 110 and the support plate 120 using a rod-shaped steel ▒ shape, Ш shape, Ⅲ shape, ∋ shape, or

It may also be configured in the form, it can be obtained in the form of a fox, or combined in a horizontal or vertical form, so that the effect required by the present invention can be obtained, such a design change is also within the scope of the right of the present invention.

In addition, it is possible to configure the wing plate 110 to form a hollow or vacuum space inside the wing plate 110 so that the wing plate 110 is fixed in a certain position by fixed buoyancy. It is natural that such design changes are also within the scope of the present invention.

As described above, the present invention is because a plurality of unit stepping plate structure in which the support plate is connected between the wing plate is installed side by side in the horizontal direction on the bank or inclined portion of the channel, so that the fish receive when the fish are small In addition to reducing hydraulic pressure through the wing and support plates, it is very advantageous for the fish to use their fins to cut off the wing plates and produce aeration and water molecules during the collision of water and wing plates or support plates. As it is decomposed, there is an advantage that the effect of water quality improvement and well-purification can be obtained.

Claims (12)

In constructing the esophagus; The multi-stage wing plate 110 is arranged in the vertical direction, and between the central portion of each wing plate 110, the hinge rotatably coupled to each of the support plate 120, the upper end of the support plate 120 of the support plate 120 ring (121) to form a unit tread structure (100); At least one or two or more unit tread structures 100 are arranged side by side in the horizontal direction at predetermined intervals on the bank of the channel 1 or the inclined portion of the channel, and the ring 121 of each unit tread structure 100 Through the fixing pin 122 through the weir (1) or the inclined portion of the upper portion of the fish characterized in that the configuration using the wing-shaped tread structure to assist the wound. The method of claim 1, Each wing plate 110 is configured to be bent in a "∨" shape, each wing plate 110 has a wing-shaped stepping plate structure to assist in the small phase of the fish, characterized in that a plurality of through-holes 112 are formed. Constructed using ado. The method of claim 1, Each wing plate 110 is configured to be bent in a "∧" shape, each wing plate 110 has a wing-shaped stepping plate structure to assist in the small phase of the fish, characterized in that a plurality of through-holes 112 are formed. Constructed using ado. The method of claim 2 or 3, Each wing plate 110 is constructed by using a wing-shaped tread structure for assisting in the small wound of the fish, characterized in that the relatively long and relatively short length is arranged according to the installation position. The method of claim 4, wherein Each of the water holes 112 is the same unit tread structure 100 in any wing plate 110 and the other wing plate 110 adjacent to the position of the fish, characterized in that configured to deviate from each other vertically An island constructed by using a winged tread structure to assist. The method of claim 4, wherein Each through-hole 112 is to assist in the appearance of a fish, characterized in that the size is different from any wing plate 110 and the other wing plate 110 adjacent thereto in the same unit tread structure 100 An island constructed using a wing tread structure. The method of claim 1, Each wing plate 110 is formed by using a wing-shaped tread structure to assist in the small phase of the fish, characterized in that the wall 111 is formed on the edge of the surface facing the water to be configured to receive water pressure. The method of claim 1, Each wing plate 110 is made of a streamlined outer side, the inside of each wing plate 110 using a wing-shaped stepping plate structure to assist in the small wound of the fish, characterized in that the closed space 115 is formed. Organized by The method of claim 1, In the other tread structure adjacent to any one of the unit tread structure 100, the length of each wing plate 110 are all wing-shaped, characterized in that arranged horizontally the same An island constructed using a tread structure. The method of claim 1, In the other tread structure adjacent to any of the unit tread structure 100 of the unit tread structure 100, the length of each wing plate 110 is arranged horizontally alternately the long and the short in length An island constructed using a winged tread structure that assists in the appearance of a fish. The method of claim 1, The bottom of the surface on which each of the unit tread structure 110 is installed is coated with a stainless steel or synthetic resin (2) having fluidity characterized in that the configuration using the wing-shaped tread structure to assist in the small phase of the fish. The method of claim 1, Each support plate 120 is formed in a plate shape, each support plate 120 is formed using a wing-shaped stepping plate structure to assist in the small wound of the fish, characterized in that a plurality of holes (123) is formed.

Images