KR101555657B1 - An undercurrent block for flow control of river - Google Patents

Abstract

The present invention relates to a reservoir block structure for controlling the flow rate of a river, wherein a standard reservoir block having a reservoir space therein, a flow rate reducing reservoir block and an openable reservoir block are installed in accordance with design conditions, And a screen is provided in the inflow hole communicating with the storage space to minimize the inflow of foreign matter into the storage space, And the stability of the bank can be improved by increasing the self weight of the blocks by the flow block.
In order to achieve the above object, the present invention provides a storage block structure installed in a stream including a curved section and a straight section to control a flow rate of a stream, the storage block structure being formed in a box shape opened front and rear, And an inlet hole is formed in the side wall to communicate with the storage space. The inlet hole is formed to be positioned above the center in the height direction of the side wall and is connected to at least two or more along the stream, A standard type storage block installed in a section; A reservoir space formed in a curved section of the stream and connected to a standard type storage block installed at an end of a straight section of the stream, the storage space being formed in a box shape opened front and rear, Wherein the inflow hole is formed in both the upper and lower sides with respect to the center in the height direction of the side wall portion and is connected to at least two or more of the inflow holes along the curved section of the stream. A reservoir space formed in a box shape opened front and rear so as to be connected to the standard reservoir block, an inflow hole formed in the side wall portion to communicate with the reservoir space, An openable storage block with possible door openings; And a blocking plate installed on the front and rear side surfaces of the standard type storage block, the flow rate reduction type storage block, and the opening and closing type storage block so as to perform storage.

Description

{An undercurrent block for a flow control of a river}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reservoir block structure for controlling the flow rate of a river, and more particularly, to a reservoir block structure for controlling the flow rate of a river to prevent flooding or erosion of a small river, .

Generally, a levee is a structure in which water is prevented from overflowing out of a water gutter and is floated high at the boundary where rivers, lakes, and seas are separated from the land for the purpose of preventing flood or making water flow smoothly.

Among them, the embankment which is built in the rivers usually forms a dam along the river by forming the soil and prevents the outflow of the embankment so that the embankment is prevented from collapsing. have.

However, even if a block of water is installed in a small river, there is a problem in that a lot of oysters are generated in the curved section where the soil around the valley is lost or the flow of the torrent is changed due to the sudden flow of water due to the geographical condition.

In addition, since the revetment block is not equipped with a reservoir function, there is a problem that the revetment block can not smoothly cope with the overflow of the overflowing river.

Registered utility model 20-0450476 Patent Document No. 10-2011-0048312

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems by providing a standard type storage block having a storage space therein, a flow rate reduction type storage block, and an openable storage block in accordance with design conditions, And a screen is provided in the inflow hole communicating with the storage space to minimize the inflow of foreign matter into the storage space, And the stability of the bank can be improved by increasing the self weight of the blocks by the flow block.

According to an aspect of the present invention, there is provided a storage block structure for controlling a flow rate of a stream installed in a stream including a curved section and a straight section, And an inflow hole is formed in the side wall portion so as to communicate with the storage space. The inflow hole is formed to be positioned above the center in the height direction of the side wall portion, A standard type storage block installed in a straight section of the river, at least two of which are connected to each other along the river; A reservoir space formed in a curved section of the stream and connected to a standard type storage block installed at an end of a straight section of the stream, the storage space being formed in a box shape opened front and rear, Wherein the inflow hole is formed in both the upper and lower sides with respect to the center in the height direction of the side wall portion and is connected to at least two or more of the inflow holes along the curved section of the stream. A reservoir space formed in a box shape opened front and rear so as to be connected to the standard reservoir block, an inflow hole formed in the side wall portion to communicate with the reservoir space, An openable storage block with possible door openings; And a blocking plate installed on the front and rear side surfaces of the standard type storage block, the flow rate reduction type storage block and the opening and closing storage block to store the standard type storage block, and the inlet port formed in the standard storage block and the opening and closing storage block The screen is formed to be inclined downward from the upper part of the inflow hole toward the lower part so that the screen can flow down to the river without accumulation of foreign matter.

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As described above, according to the present invention, the standard type storage block, the flow rate reduction type storage block, and the opening type storage block are separately configured and installed at necessary positions to match the flow of the stream, .

Also, when the flow rate is reduced, it is possible to temporarily store the flow of the water flowing during the rainy season. When the flow rate is reduced, the stored rainwater can be discharged and the flood can be prevented by reducing the flow rate due to the storage.

In addition, it is possible to prevent foreign matter from flowing into the blocks through the screen formed in the inflow hole to prevent the storability of the storm and the flow rate reduction efficiency from being deteriorated, and to prevent the screen from being clogged by installing the screen obliquely, It is a useful invention with excellent effect.

1 is a perspective view showing a standard type storage block according to the present invention,
2 is a perspective view of a flow-rate reduction type storage block according to the present invention,
3 is a perspective view showing an openable storage block according to the present invention,
4 is an exemplary view showing a state where a screen is installed in a standard type storage block of the present invention.
5 is a view illustrating an installed state of a storage block according to an embodiment of the present invention;
6 is a view illustrating an installed state of a storage block according to another embodiment of the present invention;
7 is a cross-sectional view illustrating a reservoir state through a standard type storage block of the present invention,
8 is a cross-sectional view showing a flow velocity reduction mode through the flow-rate reduction type storage block of the present invention,
9 is a cross-sectional view showing the storage and discharge mode of the openable type storage block of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view showing a standard type storage block according to the present invention, FIG. 2 is a perspective view showing a flow rate reduction type storage block according to the present invention, FIG. 3 is a perspective view showing an open type storage block according to the present invention, FIG. 8 is a view showing a state where a screen is installed in a standard type storage block. FIG. FIG. 5 is a view illustrating an installation state of a storage block according to an embodiment of the present invention, FIG. 6 is an exemplary view showing an installation state of a storage block according to another embodiment of the present invention,

The present invention relates to a standard type storage block (100) in which a storage is performed, a flow reduction type storage block (200) for reducing a flow rate, an opening type storage block (300) A flow-blocking type storage block 200, and a blocking plate 400 installed on side surfaces of the opening-closing storage block 300.

1, the standard type storage block 100 includes a lower plate portion 120 and an upper plate portion 110 facing each other, a pair of side wall portions 130 connecting the upper plate portion 110 and the lower plate portion 120, And is formed in the shape of a box having a storage space 150 therein. An inlet hole 140 is formed in one side wall 130 to allow water to flow into the storage space. The inlet hole 140 is formed to be positioned above the center in the height direction of the side wall part 130.

In the standard type storage block 100 constructed as described above, since the inlet hole 140 is located above the center of the side wall part 130, water is not stored during the dry season, and when the water level is raised during rainy season, It is possible to store the overflowing water through the pipe 140.

In addition, it is preferable that at least two or more standard-type storage blocks 100 are connected to a straight section of a river to be stored.

The flow rate reduction type storage block 200 includes a lower plate portion 220 and an upper plate portion 210 facing each other and a pair of side wall portions 230 connecting the upper plate portion 210 and the lower plate portion 220 And is formed in the shape of a box having a storage space 250 therein. An inlet hole 240 is formed in one side wall 230 to allow water to flow into the storage space, The inlet holes 240 are formed to be formed on both the upper and lower sides with respect to the height direction center of the side wall portion 230.

In the flow-reduced storage block 200 constructed as described above, the inflow hole 240 is formed on both the upper and lower sides with respect to the center of the side wall portion 230, so that water flowing in the inflow hole 240, And flows into the storage space 250 of the flow reduction type storage block 200 through the discharge passage 250 and then flows out of the storage space 250, thereby reducing the flow rate.

The flow-blocking type storage block 200 may be connected to at least two straight sections of the stream continuously, and may be installed in a curved section of the stream relatively faster than the linear section to reduce the flow velocity. Thereby preventing scouring of the curve section.

The opening and closing storage block 300 includes a lower plate portion 320 and an upper plate portion 310 facing each other and a pair of side wall portions 330 connecting the upper plate portion 310 and the lower plate portion 320 The inlet hole 340 is formed in the side wall part 330 at one side and the door hole 340 is formed in the inlet hole 340. The inlet hole 340 is formed in a box- 360 are installed.

The opening-closing type storage block 300 constructed as described above is installed to be connected to the standard-type storage block 100 so that water stored in the standard-type storage blocks 100 can be discharged.

The door 360 can be configured to be manually opened and closed using an automatic opening / closing mode or a jack or a power which is automatically operated by the flow rate of the river and the water pressure difference of the storages stored inside the block.

When the blocking plate 400 is installed on the front and rear sides of the standard type storage block 100 and the opening and closing storage block 300, the water stored in the standard type storage block 100 and the opening and closing storage block 300 The storage block 200 is provided so as not to be leaked in the longitudinal direction of the stream and in the case where the storage block 200 is installed on the front and rear sides of the flow reduction type storage block 200, I will block.

4, the present invention further includes a screen 500 installed in the inlet hole 140 of the standard storage block 100 to prevent foreign matter from flowing into the inlet hole 140.

Although not shown in the drawing, the screen 500 can be installed in the inflow hole 240 of the flow-rate reduction type storage block 200.

Such a screen 500 minimizes the inflow of foreign substances into the standard type storage block 100 and the flow rate reduction type storage block 200 at the time of rainy season so that the standard type storage block 100 and the flow rate reduction type storage block 200 So that foreign matter is prevented from accumulating in the interior of the vehicle.

Meanwhile, the screen 500 is formed to be inclined downward from the upper part of the inlet hole 140 so that the foreign material can flow down to the river without being accumulated on the screen 500.

In other words, since the screen 500 is inclined toward the direction of the river, even if foreign substances are caught on the screen, the inlet hole 140 can be closed down without being closed, or can be swept down by the storm.

Meanwhile, the standard type storage block 100, the flow-rate reduction storage block 200, and the opening and closing storage block 300 are connected in the longitudinal direction using a tensile material, and after the tensile force is introduced, they can be more firmly connected.

In the blocks of the present invention constructed as described above, a rubble is laid on the bottom surface on which the blocks are to be installed, a block is installed after pouring the shredded concrete, a rubble is laid, Install the blocks so that they are integrated with the rubble.

At this time, the standard type storage blocks 100 and the flow rate reduction type storage blocks 200 are installed so that at least two or more of them are continuously connected as shown in FIGS.

Also, after the standard type storage blocks 100 are continuously installed, the flow rate reduction type storage blocks 200 may be continuously installed.

In addition, a blocking plate 400 is installed on one side of the front and back sides of the standard type storage block 100 located at the most upstream among the plurality of standard type storage blocks 100 installed to be interconnected to each other, In the block 100, an opening-closing type storage block 300 is connected and installed so as to discharge the stored storm.

At this time, a blocking plate 400 may be installed on one side of the opening-closing type storage block 300 in the front and rear directions so that stormwater can be stored.

Meanwhile, the standard type storage blocks 100 and the open / close storage block 300 may be installed in a straight section of a river to secure a temporary storage space for an excellent flood water. When installed in an urban river, Be replaced by a levee.

Of course, if necessary, the standard type storage block 100 can be installed in the curved section of the river.

8 is a cross-sectional view illustrating a flow rate reduction mode of the flow rate reduction type storage block according to the present invention, and FIG. 9 is a cross-sectional view illustrating a flow rate reduction type storage block according to an embodiment of the present invention. The storages are stored in the storage spaces 150 and 350 of the standard type storage block 100 and the open and close storage block 300 and when the water level is lowered through the storage type storage block 300 By releasing it again, it prevents damage caused by overflow of river.

Also, a drain pipe (not shown) is connected to the standard type storage block 100 or the open / close storage block 300 so that the stored water can be reused as agricultural water or the like.

8, the flow-blocking type storage block 200 is installed in a straight section of the stream and in a curved section where the flow velocity is increased, so that the flood water storm can be stored in the flow- And flows into the space 250 to be discharged, thereby reducing the water level and the flow velocity, thereby preventing erosion.

According to the present invention configured as described above, the standard type storage block 100, the flow reduction type storage block 200, and the opening and closing storage block 300 are separately constructed and installed at necessary positions to match the flow of the stream, Reduction is made.

In other words, when the flow rate is reduced, the flow of the water flowing during the rainy season is temporarily stored. When the flow rate is reduced, the stored rainwater can be discharged and the flood can be prevented by reducing the flow rate.

In addition, it is possible to prevent foreign matter from flowing into the blocks through the screen formed in the inflow hole to prevent the storability of the storm and the flow rate reduction efficiency from being deteriorated, and to prevent the screen from being clogged by installing the screen obliquely, outstanding.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(100): Standard type storage block (110): Upper plate
(120): lower plate part (130): side wall part
(140): inlet hole (150): storage space
(200): flow rate reduction type storage block (210): upper plate
(220): lower plate part (230): side wall part
(240): inlet hole (250): storage space
(300): an opening-closing type storage block (310): a top plate
(320): lower plate part (330): side wall part
(340): inflow hole (350): retention space
(360): door (400): barrier
(500): Screen

Claims (3)

In a reservoir block structure installed in a stream including a curved section and a straight section to control the flow rate of the stream,
A storage space is formed in the inside of the box, and an inlet hole is formed in the side wall to communicate with the storage space. The inlet hole is formed to be located above the center in the height direction of the side wall A standard type storage block installed in a straight section of a river, which is installed to connect at least two along the river side;
A reservoir space formed in a curved section of the stream and connected to a standard type storage block installed at an end of a straight section of the stream, the storage space being formed in a box shape opened front and rear, Wherein the inflow hole is formed in both the upper and lower sides with respect to the center in the height direction of the side wall portion and is connected to at least two or more of the inflow holes along the curved section of the stream.
A reservoir space formed in a box shape opened front and rear so as to be connected to the standard reservoir block, an inflow hole formed in the side wall portion to communicate with the reservoir space, An openable storage block with possible door openings;
And a blocking plate installed on the front and rear side surfaces of the standard type storage block, the flow rate reduction type storage block, and the opening and closing storage block,
Further comprising a screen installed in the inlet hole formed in the standard type storage block and the opening and closing storage block to prevent foreign matter from entering the storage block,
Wherein the screen is formed so as to be inclined downwardly from an upper portion of the inflow hole toward a lower portion so that the screen can flow down to the stream without accumulation of foreign matter.












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