KR100932665B1 - Bottom block structure for regularly maintaining flow of river - Google Patents

Abstract

PURPOSE: A bottom block structure capable of maintaining a flow rate constantly is provided to prevent a damage to the bottom block structure by river water when the pressure of the river water drastically increases. CONSTITUTION: A bottom block structure capable of maintaining a flow rate constantly comprises a plurality of flow rate reduction structures(10), and a flow rate reduction guide(20). The flow rate reduction structure composed of a bottom and a side wall is fixed on the river water bottom by an anchor. The bottom part has a plurality of a bend part. The side wall is protruded in the width direction either side of the bottom part. The flow rate reduction guide forms a wall by being installed on the upper part of the flow rate reduction structure, and is installed on a post(30) rotatably and liftably.

Description

BOTTOM BLOCK STRUCTURE FOR REGULARLY MAINTAINING FLOW OF RIVER}

The present invention relates to a floor block facility that can maintain a constant stream flow rate, and more particularly to the stream water flowing through the bottom of the river flows while changing the direction along the bend to slow the flow rate of the river water, and, The present invention relates to a floor block facility that can maintain a constant stream flow rate by forming a wall so that river water flows over the wall, thereby slowing the flow rate of the stream water and preventing the flow rate reduction guide forming the wall from being damaged.

In general, places where underwater structures, such as rivers or seas, are installed, usually have a high flow rate of water or vortices, and a high flow rate causes a high flow velocity, which causes large vortices at the periphery of the underwater structure. At the same time, the sedimentation layer which protects the periphery, and the soil and gravel which are introduced into the water, the scour phenomenon occurs that wear and erosion of the bedrock of the underwater structure.

As described above, the scour phenomenon gradually progresses over a long period of time at the time of flooding or at a high velocity of the river, causing submerged structures such as piers and breakwaters to sink or fall, causing the structures to collapse. Since the displacement occurs in the underwater structure irrespective of the geology of the foundation ground such as the embankment, the displacement of the underwater structure has a structural influence on the upper structure.

In addition, the prior art is not provided with a facility for protecting aquatic ecosystems, such as spawning and shelter of fish inhabiting the river has caused a lot of difficulties in the habitat of fish and the like.

The present invention is to solve the above problems, to make the flow of the river flowing through the river bottom while changing the direction along the bend to slow the flow rate of the river water, and to form a wall in the river water so that the river water flows over the wall The purpose of the present invention is to provide a floor block facility that can keep the flow velocity of the stream water slowed and also maintain the flow velocity constant so that the flow rate reduction guide forming the wall is not broken.

In addition, another object of the present invention is to slow the flow rate of the river water and to be less affected by the flow of the river water to be able to scatter and steal the fish inhabiting the river.

Bottom block facility that can maintain a constant stream flow rate according to the present invention for achieving the object as described above, consists of a bottom portion having a plurality of bent portion and side walls protruding on both sides in the width direction of the bottom portion, respectively A flow rate reducing floor block arranged in a line along the width direction at the bottom of the river and fixed to each other through an anchor so that the flow rate of the stream flows along the bend; Posts fixed in a row along the width direction on the side wall of the flow rate reducing bottom block; It is characterized in that it is configured to include a flow rate reduction guide which is installed so as to be able to lift and lower between the posts while restraining the flow of the river water.

According to the floor block facility that can maintain a constant stream flow rate according to the present invention, because the flow of the river flows along the bottom of the river flows along the direction of the bend of the flow rate reducing bottom block flow rate is slowed down to scour the river floor In addition, it is possible to protect the stream ecosystem by reducing the flow rate and stealth block so that fish and insects inhabiting the stream are not swept away.

In addition, the flow rate reduction guide is operated so as not to disturb the flow of the river water according to the water pressure of the river water does not occur, thereby preventing damage to the river floor and banks, and can reduce the maintenance cost.

As shown in Figures 1 to 3, the floor block facility that can maintain a constant stream flow rate according to the present invention, a plurality of flow rate reduction floor block 10, the flow rate reduction floor block 10 is installed on the river bottom It includes a flow rate reduction guide 20 is installed at the top.

The flow rate reducing bottom block 10 includes a bottom portion 11 having a plurality of curved portions and sidewalls 12 protruding from both sides in the width direction of the bottom portion 11.

The flow rate reducing bottom block 10 is arranged in a line along the width direction of the stream at the bottom of the river and is fixed to each other through the anchor 13 is supported.

The flow rate reducing bottom block 10 slows the flow rate of the river water by allowing river water to flow while changing the direction through the bottom of the river.

The flow rate reduction guide 20 is installed on the top of the flow rate reduction bottom block 10 to form a wall so that the river water exceeds the flow rate reduction guide 20. In this process, the flow rate of the river water is slowed down.

The flow rate reduction guide 20 is installed upright through the post 30. In addition, the flow rate reduction guide 20 is installed to be elevated and rotated on the post 30 so as not to be damaged when the flow rate of the river water is increased or the flow rate is increased.

The post 30 for this purpose is a flange 31a is formed at the lower end of the post body 31, the side of the post body 31, which is fixed to the side wall 12 of the flow rate reducing bottom block 10 through the anchor 32 The guide rail 33 formed in the vertical direction in the upper and lower ends of the guide rail 33 is composed of a key groove 34 formed in a width larger than the guide rail 33.

The guide rail 33 guides the lifting and lowering of the guide protrusion 23 to be described later, and the key groove 34 guides the rotation of the guide protrusion 23. That is, the key groove 34 should be formed larger than the long diameter of the guide protrusion 23.

The upper cover 35 is coupled to the upper portion of the post body 31 to assemble the flow rate reduction guide 20.

The flow rate reduction guide 20 protrudes on both side surfaces of the box-shaped guide main body 22 and the guide main body 22 in which the guide inclined portion 21 is formed on the lower side of the upstream side to guide the lifting and rotation of the guide main body 22. Guide protrusions 23 to be mounted on one surface of the guide body 22, the guide body 22 is composed of a weight body 24 to maintain the state standing on the post (30).

The guide inclination part 21 is a structure for raising the guide main body 22, and makes the guide main body 22 rise by the water pressure of river water.

Guide protrusion 23 is formed in an oval shape, the short diameter (width) is smaller than the width of the guide rail 33 and the long diameter (height) is formed larger than the guide rail (33).

That is, when the guide protrusion 23 is disposed on the guide rail 33, the guide main body 22 moves up and down, and when the guide protrusion 23 is disposed on the key groove 34, the guide protrusion 23 may rotate inside the key groove 34 by external force. As a result, the guide body 22 can rotate extremely parallel to the bottom of the river.

The weight body 24 may be fixed to the guide body 22 by an anchor or the like as a heavy material such as concrete.

The flow rate reduction guide 20 may be submerged in all parts of the river water, only a part of the submerged river water.

The flow rate reduction guide 20 and the post 30 may be made of synthetic resin, steel, concrete, and the like.

The flow rate reduction guide 20 is installed at regular intervals while going from upstream to downstream, as shown in FIG.

The present invention is equipped with a flow rate reduction and hiding block 40 so that fish or insects inhabiting a river can be safely inhabited and hidden.

The flow rate reduction and stealth block 40 is formed to protrude from the bottom portion 11 inside the flow rate reduction bottom block 10 as shown in FIG. 4, and the upstream side is formed in a curved shape and flows downstream for the flow of river water. The sides are formed at right angles. In this case, the stream flows along the curved upstream side of the flow rate reduction and stealth block 40, and then falls toward the downstream side of the flow rate reduction and stealth block 40, so that the stream water flows at a faster flow rate near the downstream side. Do not.

In addition, the flow rate reduction and the stealth block 40 is formed by a plurality of intervals in the flow rate reduction bottom block 10 at a predetermined interval to form a stream can slow down the flow rate of the river water.

In addition, the flow rate reduction and the stealth block 40 is provided with a hiding hole 41 formed in the inlet toward the downstream side so that fish or insects can more safely hide. Since the inlet is directed downstream, the hiding hole 41 can be safely hidden by fish or insects.

The action of the floor block facility that can maintain a constant stream flow rate according to the present invention is as follows.

1 and 2, the river water flowing along the river bottom flows along the bent portion of the flow rate reducing bottom block 10, and thus, the flow rate becomes slow. In addition, the stream water flowing along the flow rate reduction bottom block 10 is reduced in flow rate while flowing over the flow rate reduction and stealth block 40.

Then, the stream water flowing through the upper portion of the flow rate reduction bottom block 10 hits the flow rate reduction guide 20.

As shown in FIG. 3, the flow rate reduction guide 20 maintains a standing state on the post 30 by the weight and the weight 24 to form a wall.

Therefore, since the river water flows downstream beyond the flow rate reduction guide 20, the flow rate is slow in this process.

If the flow rate of the river water is increased or the flow rate is increased, the greater the pressure is applied to the flow rate reduction guide (20).

At this time, the hydraulic pressure is applied to the guide inclined portion 21 of the flow rate reduction guide 20, and when the hydraulic pressure applied to the guide inclined portion 21 increases, a force for raising the flow rate reduced guide 20 is generated. The reduction guide 20 is raised.

The flow rate reduction guide 20 rises vertically at the post 30 through the guide protrusion 23 (imaginary line in FIG. 2). The river water flows downstream through the bottom of the flow rate reduction guide 20 along the guide slope 21, and at this time, since the flow rate reduction guide 20 forms a wall to block the flow of the river water, Will slow down.

On the other hand, as shown in Figure 4, the flow rate of the river water is faster and the flow rate is increased, the guide projection 23 of the flow rate reduction guide 20 is disposed in the key groove 34 of the upper guide rail 33, the guide projection 23 Is rotatable in the key groove 34, the flow rate reduction guide 20 is rotated to prevent the flow of river water by the water pressure of the river water.

Therefore, when the water pressure of the river water is large, the flow rate reduction guide 20 is disposed so as not to be damaged. Because, if the water pressure of the river water is too large, the flow rate reduction guide 20 may be damaged, and if the flow rate reduction guide 20 is broken in this way, damage of the river or the embankment due to the fragmentation of the flow rate reduction guide 20 may occur, and reinstallation costs may occur. Because it increases.

In this state, when the flow velocity of the river water becomes slow and the flow rate decreases, the guide protrusion 23 rotates in the key groove 34 by the weight of the flow rate reducing guide 20 and the weight 24, and the guide protrusion 23. Is rotated in the key groove 334, when the short diameter coincides with the guide rail 33, the guide protrusion 23 is inserted into the guide rail 33 is lowered along the guide rail 33. As a result, the flow rate reduction guide 20 is vertically erected between the posts 30 to form a wall as shown in FIG. 3.

1 is a perspective view of some excerpts of the floor block facility that can maintain a constant stream flow rate according to the present invention.

Figure 2 is a plan view of a floor block facility that can maintain a constant stream flow rate according to the present invention.

Figure 3 is an exploded perspective view of the flow rate reduction guide applied to the floor block facilities that can maintain a constant stream flow rate according to the present invention.

4 and 5 is a state diagram of the operation of the floor block facilities that can maintain a constant stream flow rate according to the present invention,

4 is a state in which a flow rate reduction guide restrains the flow of river water,

5 is a state in which the flow rate reduction guide does not restrict the flow of the river water.

<Description of Signs for Main Parts of Drawings>

10: flow rate reduction floor block, 20: flow rate reduction guide

21: guide inclined portion, 22: guide body

23: guide protrusion, 24: weight

30: post, 31: post body

32: anchor, 33: guide rail

34: keyway, 40: flow rate reduction and hiding block

Claims (2)

It consists of a bottom portion 11 having a plurality of bent portions and side walls 12 protruding on both sides in the width direction of the bottom portion, respectively, are arranged in a line along the width direction on the bottom of the river and fixed to each other through the anchor 13 Flow rate reduction bottom block 10 so that the flow rate is slowed while flowing along the bent portion; Posts 30 are fixed to the side wall of the flow rate floor block in a line along the width direction; It is installed between the posts so as to be able to lift and lower the flow of river water, and includes a flow rate reduction guide 20 for lifting by river water, The post has a flange 31a formed at a lower end thereof, and a post main body 31 fixed to a side wall of the flow rate reducing bottom block through an anchor 32, and a guide rail formed along a vertical length of side surfaces of the post main body ( 33), the upper end of the guide rail includes a key groove 34 formed in a larger width than the guide rail, The flow rate reduction guide is formed in a box-shaped guide main body 22 having a guide inclined portion 21 formed on an upstream side surface thereof, protruding from both side surfaces of the guide main body, and having a width smaller than the guide rail and a height larger than the guide rail. The guide body is raised along the guide rail and rotates in the key groove so as to be rotated by the water pressure of the river, and is mounted on one side of the guide body, and the guide body is mounted on the post. Floor block facility that can maintain a constant stream flow rate, characterized in that it comprises a weight (24) to maintain. The method according to claim 1, wherein the upstream side is curved and the downstream side protrudes to the bottom of the flow rate reducing bottom block to maintain a right angle to the bottom portion to reduce the flow rate of the river water, there is a downstream Floor block facility that can maintain a constant stream flow rate, characterized in that it comprises a plurality of flow rate reduction and a stealth block 40 is provided with a hiding portion 41 formed toward the inlet.

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