KR200311153Y1 - River underwater construction having fish passway - Google Patents

Abstract

The present invention relates to a stepped river underwater structure equipped with a fish movement passage installed in the river, more specifically, the fish movement hole is formed is easy to move the fish to the upstream water source and can protect the breeding and ecosystem of the fish A stepped river underwater structure is provided with a fish movement passage having a structure.

The present invention is formed to cross the river, and in the underwater structure made of concrete, the above-mentioned underwater structure is provided with a vertical retaining wall on the upstream side and the downstream side, respectively, so that it can be fresh across the width of the river, The vertical retaining wall is connected and connected to each other to be inclined downward to form a sloped floor, and at the top where the vertical retaining wall and the inclined bottom are connected, a protruding jaw is formed so that the height is lower than the vertical retaining wall. The flow rate deceleration jaw is formed to be spaced apart in a state in which a space is formed in the middle, and a plurality of fish moving holes are formed in the flow rate deceleration jaw to match the direction of the river, and the above-mentioned underwater structure has an upper portion on both sides of the width of the inclined bottom. The waterway retaining wall is formed to protrude into the amber, and the amber stone is filled in the space so that the fish can move smoothly from the downstream to the upstream. The fish flow channel being formed so as claimed cascading stream comprising underwater structures are provided.

Description

RIVER UNDERWATER CONSTRUCTION HAVING FISH PASSWAY}

The present invention relates to a stepped river underwater structure equipped with a fish movement passage installed in the river, more specifically, the fish movement hole is formed is easy to move the fish to the upstream water source and can protect the breeding and ecosystem of the fish A stepped river underwater structure is provided with a fish movement passage having a structure.

In general, the river, the underwater structure is installed in the form of an underwater beam so as to cross the river vertically, such an underwater structure is to store a certain amount of water to prevent the flow of water to be used as agricultural water in the agricultural season.

In addition, the above-mentioned underwater structure is often installed as a structure to block the movement passage of the fish, and solves this problem and many underwater structures are installed.

1 is a view showing a general underwater structure to be installed in the river, the underwater structure 20 is made of concrete is poured, the underwater structure 20, in the form of a beam, on the top of the base concrete plate 10 The horizontal part 30 is formed, and the vertical part 40 is integrally formed vertically on the upper part of the horizontal part 30 to construct the underwater structure 20.

Underwater structure having the above-described configuration, there is a problem that the flow passage of the fish is completely blocked due to the split across the river or river, this problem, if the step between the upstream and downstream of the river is high, the flow passage of the fish There is a drawback to the destruction of aquatic ecosystems due to the destruction of.

In particular, such an ecosystem destruction has a shortcoming that has an immediate effect on humans.

The present invention to solve the above problems, the present invention, when manufacturing for the underwater structure to manufacture and install the staircase partition type, to form a moving passage for the fish on the staircase partition retaining wall so that the fish can naturally move upstream. Therefore, the object of the present invention is to provide a stepped river underwater structure equipped with a fish movement passage to prevent the destruction of the underwater environment, which has emerged as a big problem of the underwater structure, to protect the reproduction of the fish and the ecosystem as much as possible.

1 is a view showing a general underwater structure installed in the river.

Figure 2 is a perspective view of a stepped river underwater structure equipped with a fish movement passage of the present invention.

Figure 3 is a view showing a side cross-sectional state of the stepped river underwater structure equipped with a fish movement passage of the present invention.

<Explanation of symbols for the main parts of the drawings>

110,120: vertical retaining wall 130: inclined bottom

140: protrusion jaw 150: flow rate reduction jaw

154: fish moving hole 160: space

170: channel retaining wall 180: amber stone

200: underwater structure W: river

The present invention, in order to achieve the above object, the present invention is formed to cross the river, in the underwater structure made of concrete, the above-mentioned underwater structure, the upstream side so that it can be fresh water across the width of the river Each vertical retaining wall is installed on the downstream side, and the vertical retaining wall is connected to each other, and the bottom is formed in a stepped manner in a stepped manner to connect to the vertical retaining wall and protrude so that the height is lower than the vertical retaining wall at the top where the vertical retaining wall and the inclined bottom are connected. The jaw is formed, the flow rate deceleration jaw is formed in the upper portion of the inclined bottom spaced to form a space in the middle, and the plurality of fish moving holes are formed on the flow rate deceleration to match the direction of the river, The underwater structure has a structure in which a channel retaining wall protrudes upward on both sides of the width of the inclined bottom and a amber stone is filled in the space. The groups are smoothly in the downstream flow channel provided with a fish, characterized in that formed so as to be movable in an upstream cascade stream underwater structures is provided.

Hereinafter, with reference to the accompanying drawings will be described the configuration of the present invention.

2 is a perspective view of a stepped river underwater structure with a fish moving passage of the present invention, Figure 3 is a view showing a side cross-sectional state of the stepped river underwater structure with a fish moving passage of the present invention.

The underwater structure 200 is produced in the form of vertically traversing the upstream and downstream water source of the stream (W), while the casing structure is provided with a moving hole 154 of the fish to smoothly move the fish from downstream to upstream This is a structure formed to be possible.

The underwater structure 200, the vertical retaining wall 110, 120 is formed so as to traverse the stream vertically and one side and the other side has a step, respectively, is connected to the vertical retaining wall (110, 120) downstream The inclined bottom 130 is integrally connected to be inclined to each other, and a plurality of flow rate reduction jaws 150 are formed to protrude every predetermined distance in a stepped manner on the top of the inclined bottom 130.

In the flow rate deceleration jaw 150 of the underwater structure 200, three fish movement holes 154 are formed in the same manner as the flow of the river, and the flow rate deceleration jaw 150 has an inclined upper surface. The water flow is configured to be smooth.

In addition, the underwater structure 200, the projection jaw 140 is formed so that the height is lower than the vertical retaining wall 110 at the top of the vertical retaining wall 110, 120 and the inclined bottom 130 is connected, The flow rate deceleration jaw 150 of the underwater structure 100 of the, is formed to be spaced apart a predetermined distance via the space portion 160 therebetween.

In addition, the underwater structure 200, the waterway retaining wall 170 is formed to protrude upwards in the same way as the flow of the river on the top of the inclined bottom 130, the waterway retaining wall 170 is a sloped bottom 130 It is connected to the vertical retaining wall 110 on the upstream side with an inclination such as) to be formed up to the vertical retaining wall 120 on the downstream side.

That is, the channel retaining wall 200 may be installed in the middle of the length of the vertical retaining wall 110 that crosses the river W. However, when the width of the river is wide, the middle or both sides may be considered in consideration of the underwater ecosystem of the river. Of course, it can be formed to protrude from each other.

The underwater structure 200, the inclined bottom 130, the flow rate reduction step 150 and the water channel retaining wall 170 is to be carried out to fill the amber stone 180 in the space portion 160 formed integrally in close contact. In this case, the fish moving hole 154 formed in the flow rate reduction jaw 150 is configured to fill the large amber stones to move the fish.

As can be seen in the above-described configuration, in the state where the vertical retaining walls 110 and 120 are installed to vertically traverse the river W, the water depths of the upstream and downstream water sources are connected to the vertical retaining walls. Since the inclined bottom 130, the flow rate reduction step 150, and the channel retaining wall 170 are formed so that the flow of the river is not hindered, the fish movement hole 154 is formed through the flow rate reduction step 150. It is possible to move upstream to the water source.

In the underwater structure 200, when the amber stone 180 is filled in the space portion 160, when the small amber stone 180 is filled, the fish movement hole 154 of the flow rate reduction jaw 150 is blocked. As such, the size of the amber stone 180 is correct to form the size that the fish can move in consideration of the ecosystem of the river, in particular, the fish moving hole 154, the bottom surface of the space 160 It is preferably installed at the top of the approximately 10cm from.

This is to prevent the underwater structure 200, the amber stone 180 is filled in the space 160 and the mud of the upstream water source overflows with the water, while the fish movement hole 154 is blocked by the mud. .

In addition, the underwater structure 200, as a unitary structure can be installed by installing the formwork in the field, as well as can be manufactured as a ready-made product in the factory, wherein the underwater structure 200, the vertical retaining wall 110 If only the structure except for) is manufactured as a ready-made product, it can be configured as an integrated structure by simply installing the vertical retaining wall in the field construction.

In addition, the underwater structure 200, unlike the conventional structure is formed as an integral structure, as well as a space between the plurality of flow rate reduction step 150 is formed to protrude on the top of the inclined bottom 130 After the 160 is formed, it is natural that the fish can be used to move to the upstream water source through the fish moving hole 154 directly in the space 160 without filling the amber stone 180.

The effect according to the configuration of the present invention described above will be described.

The stepped river underwater structure provided with the fish movement passage of the present invention, when the underwater structure is installed in the river because of the integral structure to form the structure, it is possible to obtain the effect of improving the workability.

In addition, the above-mentioned underwater structure, the flow rate reduction step is formed in a stepped manner so as to project to the upper portion of the inclined bottom, the fish moving hole is formed in the flow rate reduction step, so that the fish can move smoothly from the downstream to the upstream to maximize the underwater ecosystem. The effect can be obtained.

Claims (2)

In the underwater structure formed to cross the river, made of concrete, The underwater structure 200, the vertical retaining wall (110, 120) is installed on the upstream and downstream side, so that the fresh water across the river width, and connecting the vertical retaining wall (110, 120) and In addition, the inclined bottom 130 is formed in a stepped manner to be inclined to the downstream side in contact with each other, and the projection jaw (lower than the vertical retaining wall 110 at the top of the vertical retaining wall 110, 120 and the inclined bottom 130 is connected) 140 is formed, and the flow rate deceleration jaw 150 is formed on the inclined bottom 130 to be spaced apart to form a space 160 in the middle, the flow rate deceleration jaw 150 and the direction of the river A plurality of fish movement holes 154 are formed to match, The underwater structure 200, the waterway retaining wall 170 protruding upwards on both sides of the width of the inclined bottom 130, the amber stone 180 is filled in the space portion 160, the fish smoothly Stepped river underwater structure provided with a fish movement passage, characterized in that it is formed so as to move from the downstream to the upstream. The method of claim 1, In the flow rate deceleration jaw 150 of the underwater structure 200, a fish movement hole 154 is formed 10cm above the bottom of the space portion 160, so that water from the upstream source lands in the mud contained in the water when it overflows. Stepped river underwater structure provided with a fish movement passage, characterized in that formed by the fish movement hole 154 is not blocked.