KR20140099112A - Dam and Fishway device - Google Patents

Abstract

The present invention relates to a diversion dam and a fish way apparatus. The present invention includes a diversion dam installed across a stream and a fish way which is extended from the diversion dam to enable fishes and water to move or flow in order to prevent sediment from accumulating on the diversion dam and enables the fishes and water to move or flow from an upper stream to a lower stream.

Description

Dam and Fishway device}

[0001] The present invention relates to a beam apparatus, and more particularly, to a beam apparatus having a V-shape in a stream and an island equipped with a plurality of arches at the center in the upstream direction of the beam, The present invention relates to a fishing boat and a fishing boat which can prevent accumulation of sediments on a boat by simply opening the barrel without using the fishing boat and water and allowing the fish and water to flow from upstream to downstream.

In order to raise the water level and to secure the necessary quantity, it is made to block some or all of rivers and valleys (hereafter referred to as "rivers"), which is usually called a boiler. There are three types of import information: high-level information, operational information, and automatic information. Fixed beam is concrete or stone that is fixed to the bottom of the river to prevent movement of the whole beam, and it is possible to adjust the water level or water level by moving up and down the moving water gate. In addition, it is opened and closed by the action of the water pressure generated by the change of the automatic water level.

Generally, many of these are made by combining the two. In other words, the structure is made by combining the high information with the movable beam or the high information and the automatic beam.

However, in the case of the structure made of the high information and the movable beam, when the beam is formed, the upper and the downstream of the beam are disconnected, so that it is impossible for the fish to move upward and downward, and the habitat environment of the fish is changed . Particularly, as the fish are formed, the fish returning for spawning can not move from the downstream to the upstream, and there is a problem that the ecosystem is destroyed because the small fish including the fish can not move on the steep slope.

In order to solve the above problem, although fishes are made to be able to move upstream and downstream of a river, most of the fishes are located downstream of the fishes. When the level of the river is lower than the height of the fishes, There is a problem in that the function of the mouse is lost.

In addition, when the flow rate and the flow rate of the river increase due to the intense flood and the flood due to the abnormal weather, tree branches, gravel, and gravels (hereinafter referred to as 'sediments') are deposited in the upper part of the beam, The entrance of the fish is clogged and the fish can not be moved.

In addition, when the sediments are piled up, there is a problem that the volume of the beam is decreased, the function of the beam is lost, and the sediment needs to be separately removed in order to solve the problem, thereby wasting costs and time.

In addition, there is a problem that a water scouring phenomenon occurs in which the bottom surface in the downstream direction is shaved by the water having a high flow velocity while the upstream water is discharged downstream, and the beam is destroyed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

A problem to be solved by the present invention is to provide a V-shaped beam and to provide an archway having a plurality of arches at the center in the upstream direction of the beam to naturally deposit sediments in front of the arch, It is possible to discharge the sediment to the downstream of the beam only by opening the gate.

It is another object of the present invention to provide an elevator system for a vehicle, comprising: a bottom of an elevator which is inclined; and a plurality of elevator doors provided on a side wall of the elevator, And it is an object of the present invention to open a plurality of outlets formed in a side wall of a fishing port of a fishermen by opening a plurality of locks regardless of a water level so that fish and water can be discharged downstream through the outlets.

Another object of the present invention is to provide a plurality of prevention columns in the downstream direction of the beam to reduce the flow rate of the water flowing in the downstream direction.

In order to accomplish the above object, the present invention can be achieved by a boat and a boat installed across the river, and an island extending from the boat and provided for the fish and water to move.

It is preferable to further include a 'V' shaped sediment guide surface on one side in the upstream direction, which has an inclination lowered from both edges of the river to the center of the river.

Preferably, the beam device is formed with an entrance through which the fish and water can pass into the lower center of the beam.

A sloping guide surface extending from the upper surface of the beam to the bottom surface of the stream so as to prevent the fish and sediment from falling from the upper surface of the beam to the bottom surface of the stream, .

Preferably, the air conditioner is formed to extend in the upstream direction from the entrance.

The air conditioner includes a sidewall part extending from both side surfaces of the doorway and extending in a direction of the river, and a bottom part provided inside the sidewall part and having a predetermined inclination angle so that the fish and water can be guided .

Preferably, each of the sidewall portions is formed with an inlet through which fish and water or sediments can pass.

Preferably, the outflow ports are formed at a plurality of intervals at positions corresponding to the inclination angles of the bottom portions.

Preferably, the beam device further includes an arm portion that is installed at each of the outlets to allow the respective outlets to be opened and closed.

Preferably, a plurality of latching protrusions are formed on the upper surface of the bottom portion of the fish-eye so as to allow the fish to stay in the fish-bottom portion at regular intervals.

It is preferable that an end of the bottom of the island is lower in height than an upper end of the side wall so that the upstream water of the river can be moved downstream.

Preferably, the beam guard device further includes a protection column installed upright on an upper portion of a bottom guard provided in a downstream direction of the beam.

It is preferable that a plurality of the protection pillars are provided on the upper portion of the bottom protection hole, but they are staggered so as to have a predetermined interval therebetween.

As described above, according to the present invention, a beam having a 'V' shape is installed and an island having a plurality of hooks is installed at the center of the beam in the upstream direction. Thus, Since the sediment is guided by the 'V' shaped beam and drifted to the downstream side of the beam, it is not only easy to discharge the sediment to the downstream of the beam, but also the cost of removing the sediment There is an effect that the processing cost is reduced.

In addition, according to the present invention, the bottom portion of the fishing line is formed to be inclined, and the plurality of the back portion provided on the side wall of the fishing line is positioned at a position corresponding to the bottom portion at a predetermined interval, Not only the effect of allowing the fish to freely move upstream and downstream of the river by opening the barrel regardless of the upstream water level, but also allowing a certain amount of water to be freely discharged downstream through the waterway at low water level, There is an effect that the flow rate and the flow rate can be controlled by blocking the water flowing through the island.

Also, according to the present invention, since the plurality of protection columns are staggered in the downstream direction of the beam, the flow velocity of the water flowing in the downstream direction can be lowered, so that the scour phenomenon caused by the rapid flow velocity can be mitigated There is also an effect.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an overall perspective view of a beam-and-air device in accordance with the present invention;
Figure 2 is a top plan view of a beamed device according to the present invention.
3 is a cross-sectional view taken along the line A-A 'in FIG.
Fig. 4 is an embodiment in which a protection column is installed in the beam device according to the present invention.
5 is a plan view of FIG. 4 as viewed from above.

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

Unless defined otherwise, all terms herein are the same as the general meaning of the term as understood by one of ordinary skill in the art to which this invention belongs, and if the terms used herein conflict with the general meaning of the term Are as defined herein.

It is to be understood that the present invention is not limited to the details of the embodiments described below, .

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to Figs. 1 and 2. Fig. FIG. 2 is a plan view of the beam device according to the present invention, and FIG. 3 is a cross-sectional view taken along the line A - A 'of FIG. 2.

As shown in FIG. 2, the beam apparatus 100 according to the present invention includes a beam 110 installed to obstruct a river, and an island 130 provided on the beam 110.

The beam 110 may extend from one side edge to the other side edge so as to block the river. This is to prevent water upstream and downstream of the river to be secured.

Meanwhile, an entrance 111 having a predetermined size may be formed at a lower portion of the beam 110. This is to allow the fish and water in rivers to flow. At this time, it is preferable that the entrance 111 is formed at the center of the beam 110, which will be described later in detail.

The beam 110 may have a sediment guide surface 1110 formed on one side in the upstream direction and having a slope lowered from both edges of the stream toward the center. That is, the beam 110 that can be installed in the stream can form a 'V' shaped sediment guide surface 1110 in the upstream direction. This is because when the sediment that drifts into the river is obstructed by the beam 110 and becomes impossible to move, the sediment is guided along the sediment guide surface 1110, and the arc portion 1350 located at the lowermost end of the arc portion 1350, So that a detailed description will be given later.

The beam 110 may be formed with a fall preventing guide surface 1130 on one side in the downstream direction to prevent the fish and sediment from falling from the upper surface 1150 of the beam 110 to the bottom surface of the river.

The falling prevention guide surface 1130 may be inclined to have a predetermined inclination angle from the upper surface 1150 of the beam 110 in the downstream direction of the beam 110. In this case, the height of the beam 110 may reach the upper part of the river. At this time, since the water level of the river is higher than the height of the beam 110, fishes and sediment floating in the direction from the upstream direction to the downstream direction, Is guided by the fall preventing guide surface (1130) so that it can sink stably on the bottom surface of the river when it moves in the downstream direction through the upper surface (1150). That is, fish and sediment can be prevented from suddenly falling to the bottom surface of the river, thereby preventing threats to fish and ecosystems on the ground.

The ADF 130 includes a side wall part 1310 extending from the beam 110 and a bottom part 1330 provided inside the side wall part 1310.

The side walls 1310 may extend from both sides of the entrance 111 formed in the beam in the longitudinal direction of the stream. At this time, it is preferable that each of the island side wall portions 1310 is located at a predetermined distance from each other. This is because the bottom 1330 is provided so that the fish can move inside each of the fish-eye side walls 1310.

In each of the sidewall portions 1310, a discharge port 1311 through which fish and water or sediment can pass may be formed. At this time, it is preferable that the outflow ports 1311 are formed at a plurality of intervals at positions corresponding to the inclination angles of the bottom portions 1330 of the bottoms 1330 described later. This is to form a plurality of outflow ports 1311 from the upper part to the lower part of the sidewall part 1310 so that the fish and the water can flow downstream regardless of the upstream water level of the river.

The bead and door device 100 according to the present invention may further include a lock 1350 capable of opening and closing a discharge port 1311 formed in each of the door side wall portions 1310. [ At this time, the lock 1350 may be installed at each of the plurality of outlets 1311 formed in each of the side walls 1310. This can be achieved by controlling all or a part of a plurality of outflow ports 1311 using the plurality of locks 1350 to control the flow rate and flow rate of the water flowing through the air port 130, So that fish and water can be moved through the outlet 1311.

The lock 1350 may be a means for opening and closing the lock 1311 so that an operator can manually open and close the lock 1350 provided on each side wall 1310 using a valve or the like, It can be automatically opened and closed by various methods such as a buoy by using the water level of the river.

The bottom portion 1330 may be formed inside each of the side wall portions 1310 spaced apart from each other by a predetermined distance, and may have a predetermined inclination angle. That is, the bottom portion 1330 may be formed to have an inclination angle that decreases from the upstream direction toward the downstream direction. This is to allow the fish and water passing through the plurality of outlets 1311 to be guided by the bottom portion 1330 so as to flow downstream even when the fish and water having an inclination angle are used. At this time, it is preferable that the end 1333 located in the upstream direction of the bottom 1330 is located lower than the top 1313 of the side wall 1310 because the level of the stream is higher than the height of the beam 110 It is possible to allow the upstream water to flow into the bottom part 1330 even if the discharge port 1311 is closed by using the lock part 1350.

On the other hand, a catching protrusion 1331 can be formed on the upper surface of the bottom part 1330 to allow the fish to stay therein. At this time, the latching jaws 1331 protrude from the bottom 1330, and a plurality of the latching jaws 1331 may be formed at regular intervals. This is because the fishes that go upstream from the downstream of the river have to be moved from the lower part to the upper part of the bottom part 1330. At this time, the fish are positioned in each of the plurality of catching jaws 1331 formed in the bottom part 1330 So as to be able to go back up the river gradually while supplementing the physical strength.

The boat 130 may be formed to extend in the upstream direction of the beam 110. [ When the water level of the river is reduced to be lower than the end 1333 of the bottom 1330 when the water level 130 is installed in the downstream direction of the boat 110, So that the movement of fish and water is blocked. That is, by installing in the upstream direction, the upstream fish and water can be discharged downstream regardless of the upstream water level of the river by raising the intake port 1350 and opening the outlet 1311. At this time, the EAF 130 is preferably located at the center of the beam 110. The reason for this is that when the river is gradually getting dry and the water level is lowered, the water is dried from both sides of the river, so that the waterway 130 can be positioned at the center so that the waterway 130 can be effectively used. Is formed at the center of the through-hole. Therefore, it is preferable that the EAF 130 is installed in the upstream direction of the beam 110, but it is located at the center of the beam 110.

4 to 5, a bottom protection box (not shown) is installed on the bottom surface in the upstream direction and the downstream direction in which the beam 110 is installed, At this time, it may further include a protection column 150 installed upright on the upper part of a bottom protection hole (not shown) installed in the downstream direction. Here, the floor protection hole (not shown) means to protect the upper and lower floors of the river structure from light vortex action. At this time, it is preferable that a plurality of the protection pillars 150 are installed on the upper part of the bottom protection hole (not shown) installed in the downstream direction, but they are staggered. That is, as shown in FIG. 5, each of the prevention columns 150 is installed in a line so as to have a predetermined gap therebetween, and is arranged in a line so that the prevention columns are spaced apart from each other But it is located at a position where it is staggered with each of the prevention columns installed first. This is because if the upstream water trapped by the beam 110 is discharged downstream, the bottom surface may have a scour phenomenon due to a rapid flow velocity. This is because the prevention column 150 installed on the bottom protection hole The flow rate of the water is slowed and the scour phenomenon is alleviated. However, the present invention is not limited thereto, and any arrangement may be used as long as the prevention column 150 is provided to reduce the flow rate of the water. Here, the scour phenomenon refers to a phenomenon in which the surface and the cross section are cut off by water when the cross section becomes small due to the action of water or there is an obstacle. Accordingly, since a plurality of the anti-scavenging pillars 150 are disposed to be shifted to the upper portion of the bottom protection hole (not shown) provided in the downstream direction, the scouring phenomenon is alleviated, thereby preventing the bottom protection hole (not shown) from being lost, It is possible to prevent the safety problem of the beam 110 due to the loss of the floor guard (not shown).

Hereinafter, a preferred embodiment of a method of operating the boa-longa device 100 according to the present invention will be described in detail.

First, when the water level of the river is higher than the height of the beam 110 installed on the river, the entirety of the lock 1350 provided on the side wall 1310 of the door 130 is closed to close the outlet 1311. Thus, the flow rate and the flow rate of the water flowing through the water inlet 130 can be controlled, and the necessary water can be held.

Although the outlet 1311 is closed, the water 1313 flows into the bottom 1330 even if the end 1333 of the bottom 1330 is lower than the top 1313 of the side wall 1310 The bottom portion 1330 is always kept in a non-dry state so that the fish can be lifted. There may be fishes that go up from the lower stream of the river to the upper stream, and the fish are moved from the downstream to the upstream along the bottom 1330 of the incline of the island 130. At this time, since a plurality of hooks 1331 are formed at the bottom portion 1330 of the fishing rod 130 at regular intervals, the fishing rod of the fishing rod 130 moves upward from the bottom portion 1330 of the fishing rod 130, And then moves to the next stopping jaw 1331 and gradually moves upward so that it can be moved to the upstream side after the stopping stay 1333 is rested for a while.

On the other hand, fish and sediments may move downstream through the upper surface 1150 of the beam 110. The fish and sediments may move downstream along the fall preventing guide surface 1130 installed in the downstream direction of the beam 110, It is possible to prevent the water from suddenly falling to the bottom surface of the river.

The apparatus 100 according to the present invention is described as being capable of moving the sediments downstream of the upper surface 1150 of the beam 110 because the level of the river is higher than the height of the beam 110 However, this is only a sediment floating on the surface of the river. In other words, the sediment in the water that drifts along the river is blocked by the beam 110 and the side wall portion 1310, so that it can no longer move downstream. At this time, the sediment is guided by the 'V' shaped sediment guide surface 1110 formed on the beam 110 and gradually moves downward. Finally, as described above, And is stacked on the front side of the lock portion 1350 located at the lowermost end of the lock portion 1350. As a result, the volume of the water that can be confined upstream can be reduced. A method for solving the problem is as follows.

First, the lock 1350 located at the lowermost one of the locks 1350 provided on the door sidewall 1310 is lifted to open the lock 1311. This causes the sediment to move downstream of the river through the outlet 1311 opened together with the water. That is, the sediment can be smoothly moved to the downstream of the river by lifting up the gate 1350 and opening the outlet 1311.

Therefore, accumulation of sediments on the beam 110 can be prevented, and the volume of the water that can be confined to the upstream can be secured (110).

If the upstream water level of the river is lower than the height of the end 1333 of the bottom 1330 of the river 1330, (1350) to open the discharge port (1311). At this time, the fish and the water flow into the bottom 1330 of the fishing line 130 through the open outlet 1311, and the fish and water located at the bottom 1330 of the fishing line 130 are positioned The photographer is also naturally moved downward along the bottom portion 1330 and moved downstream through the entrance 111. [ In other words, the water can be confined and used when necessary, and the water outlet and the water can be moved by opening the outlet 1311.

Next, when the upstream water level of the river gradually becomes lower, the closure part 1350 located at a position corresponding to the water level upstream of the river is lifted as described above to open the outlet 1311. This allows fish and water to flow downstream of the stream irrespective of the water level of the stream.

As described above, the apparatus 100 of the present invention can lift up the lock 1350 provided on the door 130 and open the discharge port 1311, so that the upstream water can be discharged from the bottom 1330 So that the flow rate of the water is lowered by the prevention column 150 installed in the downstream direction of the beam 110 to prevent the scour phenomenon.

Therefore, as described above, the beam 110 having the 'V' shape is installed in the river, and the island 130 having the plurality of the arc portions 1350 is installed at the central portion in the upstream direction of the beam 110 It is possible to prevent accumulation of sediments on the beam 110 only by opening the barrel 1350 without using any additional equipment, so that the volume of the water can be secured.

In addition, by arranging the plurality of locks 1350 provided on the side wall 1310 of the fishing line 130 at a predetermined interval in a position corresponding to the bottom 1330, The fish and the water can be made to flow to the downstream of the river by simply opening the barrel 1350 without the need of opening the barrel 1350.

The present invention may be embodied in various forms without departing from the scope of the invention. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: Beam and rod device 110: Beam
1110: Sediment guide surface 130:
1310: door side wall part 1330:
1311: Outlet 1350:
150: Prevention column

Claims (12)

Beams that are installed across rivers;
And an island formed to extend from the beam and provided so that fish and water can move,
The above-
Further comprising a 'V' shaped deposit guide surface on one side in the upstream direction, the slope guide surface having a slope that decreases from both edges of the stream to the center of the stream. The apparatus as claimed in claim 1,
And an entrance through which fish and water can pass is formed at the lower center of the beam. The method of claim 1,
The one side surface in the downstream direction is provided with a fall preventing guide surface extending from the upper surface of the beam to the bottom surface of the river so as to have an inclination angle so as to prevent the fish and sediment from falling from the upper surface of the beam to the bottom surface of the river Characterized in that it comprises: 3. The method of claim 2,
And extends in the upstream direction from the entrance. The method of claim 4,
A sidewall portion extending from both sides of the doorway in the direction of the river;
And a bottom portion provided inside the sidewall portion so as to have a predetermined inclination angle so that fish and water can be guided. 6. The portable terminal according to claim 5,
Fish and water or an outlet through which sediments can pass. The air conditioner according to claim 6,
Wherein a plurality of the fish-eyes are formed at positions corresponding to the inclination angle of the bottom portion at regular intervals. 8. The apparatus of claim 7,
Further comprising: an arm portion for opening and closing each of the outlets so as to be installed on the outer sides of the outlets. 6. The apparatus according to claim 5,
Wherein a plurality of catching jaws are protruded from the upper surface of the bottom portion of the fishing rod at predetermined intervals so that the fish can stay. 6. The apparatus according to claim 5,
Characterized in that the end is lower in height than the upper end of the sidewall so that the upstream water of the stream can be moved downstream. 11. An apparatus according to any one of claims 1 to 10,
Further comprising a protection column installed upright on an upper portion of a bottom protection hole provided in a downstream direction of the beam. 12. The method of claim 11,
Wherein a plurality of the bottom protection holes are provided at upper portions of the bottom protection holes, and are staggered so as to be spaced apart from each other.

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