KR100582160B1 - A dam easy to discharge deposit - Google Patents

Abstract

The water gate of the underwater beam is automatically opened and closed according to the water level flowing in the river, and relates to an underwater beam including a function that can easily discharge the sediment loaded by the water and deposited on the lower side of the underwater beam.

The object of the present invention is to automatically open and close the water gate of the submarine by the water level flowing in the river provides convenience, and to effectively discharge the sediment deposited on the bottom of the submarine to eliminate the need for water pollution and dredging The present invention provides an easy-to-manage underwater submersible.

Underwater beam, buoyancy member, sediment, discharge, wire

Description

Underwater beams with easy sediment discharge {A DAM EASY TO DISCHARGE DEPOSIT}

1 is a perspective view showing an underwater beam according to the present invention,

2 is a front view showing an underwater beam according to the present invention,

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B of FIG.

5 is a cross-sectional view showing the structure of a sluice gate according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: sluice 10a: hinge axis
11 cover 12 opening
13: support base 14: second sluice member
15: water inlet hole 16: guide roller
17: engaging jaw 18: packing member
19: floating material outlet 20: sediment discharge furnace
30: opening and closing member of the deposition path 40: buoyancy lifting member
50: wire 100: underwater beam

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The present invention relates to an underwater beam, and more particularly, the water gate of the underwater beam is automatically opened and closed according to the water level flowing in the river, and includes a function that can be easily discharged by the water and sediment deposited on the lower side of the underwater beam. It is about underwater report.

In general, agricultural water in rural areas or industrial water in factory areas are usually secured by building dikes in nearby rivers and installing submerged walkways, or by building small dams or reservoirs in mountainous areas.

These underwater beams, small dams, reservoirs, etc., when the water level is above a certain level, and controls the amount of water by opening and closing the manual or semi-automatic upright gates.

That is, after installing a plurality of bodies across the river at regular intervals, in order to control the water level of the water to be stored was installed by using a conductive water gate that rises and falls between each body.

However, in the case of using such a conductive water gate, a lifting device that raises and lowers the water gate should be installed at the top of the water gate to operate with a hydraulic cylinder, which makes operation difficult, while the water gate itself is exposed to the outside, which limits its use period due to corrosion. It became.

In addition, there was a difficulty in managing the sediment, which was carried with water, on the bottom of the river where the underwater beam was installed.

 The present invention has been made to solve the above problems, an object of the present invention is to automatically open and close the hydrologic gate of the submarine by the water level flowing in the river provides convenience for use, sediment deposited on the bottom of the submarine It is to provide an easy-to-manage underwater beam that effectively discharges water, eliminating the need for water pollution and dredging, and can always form fishing.

The configuration of the present invention for achieving the above object is provided at a predetermined interval in the underwater beams to control the water level of the water, sediment discharge path for discharging the sediment on the bottom of the underwater beams, and opening and closing the furnace to open and close the deposit discharge passage In the underwater beam comprising a member, a buoyancy lifting member provided in the underwater beam to be lowered in accordance with the water level, and the wire connecting the sediment opening and closing member and the buoyancy lifting member, wherein the water gate 10, the Both sides of the lower side are rotatably coupled by the hinge shaft 10a to the opening 12 of the underwater beam 100 to open and close the opening 12 of the underwater beam 100 according to the water level, and the upper portion is buoyant to be automatically rotated by buoyancy. It is formed as a buoyancy member having a, characterized in that the support 13 is formed on the inner surface of the opening 12 of the underwater beam 100 is in contact with the rotation of the water gate 10 to control the rotation. It shall be.

Here, the sluice 10 is raised by the buoyancy according to the water introduced through the water inlet hole 15 formed on one side of the sluice 10 to control the top length of the sluice 10 to adjust the top length 14 and the guide roller 16 and the guide roller 16 are provided to smoothly slide on both sides of the second sluice member 14 and the second sluice member 14 is separated. It is preferable to further include a locking projection (17) protruding from the upper inner surface of the sluice (10) to prevent the.

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

1 is a perspective view showing the underwater beam according to the invention, Figure 2 is a front view showing the underwater beam according to the invention, Figure 3 is a cross-sectional view taken along the line AA of Figure 2, Figure 4 is a cross-sectional view taken along the line BB of Figure 2 5 is a cross-sectional view showing the structure of a sluice gate according to the present invention.

As shown in the drawings, the present invention forms a plurality of sediment discharge passages 20 for discharging the sediment deposited on the bottom surface of the underwater beam 100 provided with the water gate 10 to adjust the water level of the river.

The deposit opening and closing member 30 for opening and closing the deposit discharge passage 20 is hinged to one side of the deposit discharge passage 20 to be rotated.

On the other hand, the inside of the underwater beam 100 is formed with a predetermined space so that the upper and lower portions are opened, there is provided with a buoyancy lifting member 40 which is raised and lowered by buoyancy therein.

In addition, the buoyancy elevating member 40 and the deposition path opening and closing member 30 by connecting the wire 50 to the lifting and lowering of the buoyancy elevating member 40, the deposition path opening and closing member 30 is hinged by the Allow the sediment discharge passage 20 to be opened and closed.

A cover 11 is provided on the upper portion of the underwater beam 100 to artificially remove floating materials (twigs, garbage, etc.) floating on the water in the interior space of the underwater beam 100, and the underwater beam ( The upper portion of the rear surface of the 100 may be cut to form a floating material outlet 19 so that the water and the floating material are raised and discharged inside the underwater beam 100 as the level of water rises.

Meanwhile, the water gate 10 of the underwater beam 100 cuts the underwater beam 100 to a predetermined width to form the opening 12, and by the hinge shaft 10a on the inner surface of the opening 12 of the underwater beam 100. Hinge coupled to open and close the opening 12 of the underwater beam 100 according to the water level, the upper side of the water gate 10 is preferably formed of a buoyant material.
Here, looking at the operation of the sluice 10 according to the water level, it is operated to rotate up or down about the hinge axis (10a), when the water level is low, the upper side of the sluice 10 is made of buoyancy member relationship It is rotated downward so as to be in contact with the water level surface is provided at the same position, and the lower side of the water gate 10 is rotated upward to open the opening 12 of the underwater beam 100.
Contrary to the above, when the water level is increased, the upper side of the water gate 10 is gradually rotated upward while contacting the water surface, and the lower side of the water gate 10 is downwardly rotated to open the opening 12 of the underwater beam 100. When the water level becomes full, the water gate 10 becomes a straight line at a right angle on the horizontal line so that the lower side of the water gate 10 completely closes the opening 12 of the underwater beam 100.

In this case, the inner surface of the opening 12 is provided with a support 13 provided in the vertical direction to support the water gate 10 rotated during full water, the support 13 and the water gate 10 is in contact The part to be provided with a packing member 18 to prevent water from leaking when fresh water.

On the other hand, the inside of the sluice 10 is further provided with a second sluice member 14 for adjusting the length of the sluice 10, which forms a predetermined space inside the top of the sluice 10 and in the space The second sluice member 14 is slid.

The second sluice member 14 uses a buoyancy member to move up and down by buoyancy, and a plurality of water inlet holes 15 are formed on the front surface of the sluice 10 so that water flows into the space in the sluice 10. Allow inlet or outlet.

In addition, the guide rollers 16 are provided at both sides so that the lifting and lowering flow of the second gate member 14 is smooth, and the guide roller 16 is caught on the upper inner surface of the gate 10. (17) is provided so that the second sluice member 14 is fixed without being separated from the sluice.

On the other hand, the buoyancy member is made of the outer surface is wrapped with a synthetic resin, the inside filled with styrofoam.

In the present invention configured as described above, when the water level of the water flowing in the river is increased, the water gate 10 is rotated upward according to the water level by the buoyancy member at the top, and shields the opening 12 of the underwater beam 100.

In addition, according to the water level, the second sluice member 14 provided inside the sluice 10 may be lifted and lowered by the water introduced through the water inflow hole 15 to adjust the length of the sluice.

Meanwhile, as the water level increases, the water gate rotates upward to contact the support 13 formed on the inner surface of the opening 12 of the underwater beam 100 so that the water gate 10 can no longer be rotated and the opening 12 of the underwater beam 100 is rotated. ) Will be shielded.

At this time, the buoyancy lifting member 40 provided in the inside of the underwater beam 100 is elevated in the underwater beam 100 as the water level is increased, at this time connected to the buoyancy lifting member 40 by a wire 50 The sedimentary opening and closing member 30 rotates upward and opens the sediment discharge passage 20 to discharge the sediment deposited on the bottom of the river.

In addition, when the suspended solids floating on the water enters the inside of the underwater beam 100, it can be removed by opening the top cover 11 of the underwater beam 100, the water inside the underwater beam 100 due to the rise of the water level And the suspended solids are also discharged while overflowing through the floating material outlet 19, the rear of the underwater beam 100.

On the other hand, when the water level is lowered, the buoyancy elevating member 40 in the underwater beam 100 is lowered, and the opening and closing member 30 is rotated downward by the lowering of the buoyancy elevating member 40 and the sediment discharge passage 20 ) Will be shielded.

On the contrary, as the water level 10 is lowered, the upper side rotates downward, and the lower side rotates upward, thereby opening the opening 12 of the underwater beam 100.

Therefore, the operations of the water gate 10 and the sediment opening / closing member 30 are made opposite to each other according to the water level, thereby making it possible to easily form the fish and discharge the sediment regardless of the water level.

As described above, according to the present invention, the water gate is rotated by the buoyancy member according to the water level, thereby saving water and automatically adjusting the water level, thereby maximizing the efficiency of water resource management and depositing on the bottom of the underwater beam. By effectively discharging the sediment, it is easy to manage and maintain, eliminating the need for separate sediment removal work and dredging.

Claims (3)

delete Water gates provided at predetermined intervals in the underwater beam to control the water level, sediment discharge path for discharging the sediment on the bottom of the underwater beam, sediment opening and closing member for opening and closing the deposit discharge path, and provided in the underwater beam according to the In the underwater beam comprising a buoyancy lifting member to be raised and lowered, and a wire connecting the deposition path opening and closing member and the buoyancy lifting member, The sluice 10 is coupled to the opening 12 of the underwater beam 100 by the lower both sides by the hinge shaft 10a rotatably coupled to open and close the opening 12 of the underwater beam 100 according to the water level, the upper Is formed as a buoyancy member having a buoyancy to be automatically rotated by buoyancy, the inner surface of the opening 12 of the underwater beam 100, the support 13 is formed so as to contact the rotation of the water gate 10 to control the rotation Featured underwater beams. The method of claim 2, The sluice 10 is raised by the buoyancy according to the water introduced through the water inlet hole 15 formed on one side of the sluice 10 to adjust the top length of the sluice 10 to adjust the length of the second sluice member 14 ), And the guide roller 16 and the guide roller 16 are provided to smoothly slide on both sides of the second sluice member 14 to prevent the second sluice member 14 from being separated. Underwater beams, characterized in that it further comprises a locking step (17) protruding to the upper inner surface of the water gate (10) to be.

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