KR200461559Y1 - Block assembly - Google Patents

Abstract

The present invention is a technology for the scour prevention block that is installed on the bottom of the river to prevent the loss of gravel or sand in the water while providing a habitat for fish, and increases the bearing capacity and fixing force of the support block on the bottom of the river to The present invention relates to a block assembly for preventing scrubbing, which effectively prevents scour caused by preventing vortices from occurring by reducing the flow resistance of the support block while minimizing the resistance of the flowing water. .
The main configuration according to the embodiment of the present invention is composed of a square shape with the inner center portion is open, the support block is formed in the upper surface corner portion of the body while the protruding jaw is implemented in the middle portion; An assembly block disposed on the seating portion of the support block and having an assembly groove formed on all sides of the bottom of the body, and having a ring formed at a corner of the bottom portion; Both ends are fastened to the ring of the assembly block, the chain to bind the support block and the assembly block with each other; is implemented.

Description

Block assembly for scour prevention {Block assembly}

The present invention is a technology related to a scour prevention block that is installed on the bottom of the river to prevent the loss of gravel or sand in the water while providing a habitat for fish, and more specifically, it is supported in a block assembly composed of a support block and an assembly block. A plurality of posts are provided at the bottom of the block, flow path grooves are formed at the upper side and the four sides, and a seating portion and a protruding jaw are formed on the upper surface, and a streamlined wave shaped protrusion is formed on the upper surface of the assembly block. By forming the grooves on all sides of the building, the support block and the fixing force of the support block are raised on the bottom of the river to prevent the flow and loss of the support block even at the strong flow rate due to the heavy rain, while minimizing the resistance of the water flow to minimize the occurrence of vortices. Scour effectively prevents scour, and scrubbing is prevented because the assembly block is seated on the support block Cell block relates to the assembly.

In general, the flow of water is rapidly accelerated due to the occurrence of a drop or bottleneck in the bottom of an underwater beam or around a bridge across a river. It can cause underwater beams or bridge breakdowns, especially when the problem is more severe during the Flood.

The scour phenomenon gradually progresses from the bottom of a flooding or high-speed river over a long period of time, causing underwater structures such as lakes and bridges to sink or fall, resulting in the collapse of underwater structures, such as breakwaters, lakes, and river banks. Regardless of the geology of the foundation soil, it is underwater, so it is difficult to observe the eyes, so periodic management is required.

In order to prevent scour occurring in the water in the past, sandstones were laid at a certain thickness on the bottom surface of rivers, etc. This is not only destroying nature but also destroying nature because rock is produced by crushing them. By simply installing on the bottom of the water in the absence of any binding, when the flow rate of the river water, such as during the rainy season, there was a problem that the dead stone is lost due to the rapid flow rate can not do the yard.

Therefore, in recent years, in order to effectively prevent scouring of gravel or sand at the bottom of a stream, Korean Registered Utility Model No. 20-0437362 (a connection structure of a scouring block for rivers) has been proposed.

Looking at the above prior art, it is composed of an individual block and a connecting block for interlocking the individual block, the individual block is formed in a square, the through-hole is drilled up and down inside the connecting block, the connecting block is adjacent In the river scour prevention block is formed in the lower edge of the bridge respectively fitted to the through-hole corner side of the individual block; A binding ring is formed at the bottom of the leg of the connection block so that a wire is inserted into the binding ring of the connection block adjacent to the lower portion of the individual block so as to prevent the connection block from being separated from the individual block.

The prior art is to prevent scour of the bottom of the river as a plurality of individual blocks placed on the bottom of the river is installed so as not to be separated by the connection block and the wire, but this prior art is installed because the individual blocks are placed on the bottom of the river Accordingly, the flow and loss are caused by the strong flow rate due to the heavy rain, and also because the resistance of the water flows to the individual block and the connection block severely vortex occurs, there was a problem to accelerate the scour phenomenon.

In other words, the prior art is that the individual blocks are installed on the bottom of the river unprotected, when the support and fixing force is poor and the flow rate is strong due to heavy rains, the flow occurs as well as even lost, and the individual blocks and connecting blocks everywhere As the side and the upper surface are severely subjected to flow resistance, vortices occur, resulting in a problem of accelerating scour.

The present invention is designed to improve the problem of accelerating the scour phenomenon because the flow velocity is strong, the flow and loss problems, and the vortices are severely received due to the resistance of the water flow is installed in the conventional scour prevention block placed unprotected on the bottom of the river. This technology improves the support and holding force of the support block at the bottom of the river to prevent the flow and loss of the support block even at the strong flow rate due to heavy rain, while minimizing the resistance of the water to minimize the occurrence of vortices, thereby effectively preventing scour. And, the assembly block is seated on the support block is provided with a plurality of posts in the bottom surface of the support block to prevent flow, the upper and four sides of the flow path grooves are formed, the seating portion and the protruding jaw on which the assembly block is placed on the upper surface On the other hand, a streamlined wave shaped protrusion is formed on the upper surface of the assembly block, and four sides of the building block are formed. It is an object to provide a scour prevention block assembly of the assembly groove being implemented.

The present invention is to realize the desired purpose as described above,

A support block formed of a rectangular shape having an inner center portion open and having a seating portion formed at a corner of an upper surface of the body, and a protruding jaw formed at a middle portion thereof; An assembly block disposed on the seating portion of the support block and having an assembly groove formed on all sides of the bottom of the body, and having a ring formed at a corner of the bottom portion; Both ends are fastened to the ring of the assembly block, the chain to bind the support block and the assembly block with each other; is implemented.

In addition, as a preferred embodiment of the present invention, the support block is formed on the four corners at the bottom of the bottom portion of the body, while the post is formed elongated downward from the support while the water resistance on the four sides and the upper surface of the body Reducing flow path grooves are characterized in that each is formed.

According to an embodiment of the present invention, a plurality of posts are provided at the bottom of the support block, the channel grooves are formed in the upper side and the four sides, and the mounting block and the protruding jaw in which the assembly block is placed are formed on the upper surface. Streamlined wave-shaped protrusions are formed on the upper surface, and assembly grooves are formed on all sides, thereby increasing the holding force and fixing force of the supporting block on the bottom of the river to prevent the flow and loss of the supporting block even at the strong flow rate caused by heavy rain. By minimizing the resistance to minimize the occurrence of vortex to effectively prevent scour phenomenon, the assembly block is mounted on the support block to provide the effect of preventing the flow.

In particular, the embodiment of the present invention is because the post formed in the bottom of the support block is embedded in the bottom surface of the river to increase the support and fixing force of the support block, even in the strong flow due to heavy rain to prevent the flow and loss of the support block body As the flow path grooves are formed on the four sides and the upper surface, the resistance of the flowing water is reduced to the minimum, thereby suppressing the occurrence of vortices, thereby providing an effect of preventing scour.

1 is an exploded perspective view of an anti-washing block assembly according to an embodiment of the present invention.
Figure 2 is a perspective view showing a support block in an embodiment of the present invention.
Figure 3 is a perspective view of the assembly block in the embodiment of the present invention.
Figure 4 is a plan view of the main portion showing the installation state in an embodiment of the present invention.
Figure 5 is a main side cross-sectional view showing an installation state in an embodiment of the present invention.
Figure 6 is a sectional view of the main part showing the installation state of the support block and the assembly block in the embodiment of the present invention.
Figure 7 is a sectional view of the main portion showing a support block in an embodiment of the present invention.
8 is an installation state of the scrubbing prevention block assembly according to an embodiment of the present invention.

In the embodiment of the present invention, the main point is to increase the bearing capacity and fixing force of the support block on the bottom of the river to prevent the flow and loss of the support block even at a strong flow rate due to heavy rain, while reducing the resistance of the water flow to minimize the occurrence of vortex It is to provide a scrubbing prevention block assembly that effectively prevents the scour phenomenon, the assembly block is seated on the support block to prevent flow.

Looking at the main configuration of the anti-washing block assembly according to an embodiment of the present invention with reference to the accompanying drawings, the inner central portion is configured in an open square shape, the seating portion 12 in the upper edge portion of the body 11 A support block 10 having a protruding jaw 13 formed in the middle portion thereof; The assembly block is placed on the seating portion 12 of the support block 10, the assembling groove 23 is formed on all sides of the bottom portion of the body 21, while the ring 24 is implemented at the corner of the bottom portion ( 20); Both ends are fastened to the ring 24 of the assembly block 20, the support block 10 and the chain 30 for binding the assembly block 20;

In the main configuration of the embodiment, the support block 10 is to be placed on the bottom of the river, the support block 10 is as shown in Figure 1 to 2, the reinforcing bar 17 is reinforced with concrete in the molding frame Cured as, the body 11 is composed of a square shape of the "□" shape of the inner center portion is open, the seating portion 12 is formed in the four corners of the upper surface.

On the other hand, the projection jaw 13 is formed in the middle portion of the four corners on the upper surface of the body 11, where the projection jaw 13 is preferably formed higher than the seating portion 12 formed in the corner portion, and also the body ( On each side surface portion and upper surface of 11, flow path grooves 16, 16a and 16b are respectively formed to reduce the resistance of the flowing water.

Protruding jaw 13 formed in the middle portion of the four corners in the above, as shown in Figure 4 to 6, the assembly block 20 is placed on the seating portion 12 formed in the four corners of the body 11 In this case, the four sides of the assembly block 20 is caught on the protruding jaw 13, the flow of the assembly block 20 is prevented.

In addition, the flow path grooves 16, 16a, 16b formed on the four sides and the upper surface of the body 11 in the above structure to reduce the resistance of the flow of water, the flow path grooves 16 on the four sides of the body 11 On the other hand, the flow path grooves 16a and 16b are formed in the seating part 12 and the protruding jaw 13 on the upper surface of the body 11 to reduce the resistance of the flowing water to a minimum.

Meanwhile, the support 14 is formed at four corners at the bottom of the body 11 on which the support block 10 is placed on the bottom of the river, and the post 15 is elongated downwardly from the support 14. Here, the post 15 is built in the reinforcement (15a) by the reinforcement work inside, as shown in Figure 7 in the drawing.

The post 15 formed in the lower portion of the support 14 is a function to support and fix the support block 10 to the bottom surface of the river, the post 15 as shown in Figure 5, the support block When installing (10) on the bottom of the river, the post 15 is deeply embedded in the bottom of the river to increase the support and fixing force of the support block 10.

In addition, in the main configuration of the embodiment, the assembly block 20 is installed on the seating portion 12 of the support block 10, the assembly block 20 is as shown in Figure 1 and 3 to 6, Cured by concrete and reinforcement steel in the mold, the body 21 is composed of a square hexahedron while a plurality of corrugated protrusions 22 are formed on the upper surface of the body (21).

The corrugated protrusion 22 formed on the upper surface of the body 21 is formed in a straight streamline in order to minimize the resistance of the flowing water, while a plurality of corrugated protrusions 22 are formed by bending up and down, where the assembly The block 20 is placed so that the corrugated protrusion 22 is disposed in the direction of flowing water in order to reduce the resistance of the flowing water.

Meanwhile, the assembling block 20 has assembly grooves 23 formed at four sides of the bottom of the body 21, respectively, and loops 24 are formed at four corners of the bottom, respectively, where the assembly grooves 23 are shown in the drawings. As shown in Figure 5, by being fitted to the mounting portion 12 of the support block 10 adjacent to each other, the flow of the support block 10 and the assembly block 20 is prevented, and the four sides of the assembly block 20 Is caught by the protruding jaw 13 of the support block 10, the flow of the assembly block 20 is prevented.

In the above, the ring 24 formed at four corners of the bottom portion of the body 21 is connected to the reinforcing bar in the interior of the body 21 is installed in the corner portion, the chain 30 is connected to the ring 24 Is fastened to bind the support block 10 and the assembly block 20 firmly to each other.

In addition, the chain 30 in the main configuration of the embodiment as a function to bind the support block 10 and the assembly block 20 mutually, the chain 30 as shown in Figure 5, the support block 10 adjacent to each other Both ends are fastened to both side hooks 24 of the assembly block 20 across the bottom of the support block 10 in a state where the assembly groove 23 of the assembly block 20 is fitted into the seating portion 12 of do.

In the above chain 30 may be fastened in the form of "□" or "형태" to the ring 24 formed on the four corners of the assembly block 20, the support block 10 and the assembly block 20 It is safe to bind each other firmly.

This embodiment of the present invention is because the post 15 formed in the bottom portion of the support block 10 is deeply embedded in the bottom surface of the river to increase the support and fixing force of the support block 10, even in a strong flow rate due to heavy rain of the support block The flow path grooves 16, 16a and 16b are formed on the four sides and the upper surface of the body 11 to prevent flow and loss, thereby minimizing the resistance of the flowing water to minimize the generation of vortices, thus effectively preventing scour. Will be prevented.

In addition, in the embodiment of the present invention, since the four sides of the assembly block 20 is caught on the protruding jaw 13 formed at the middle of the four corners of the support block 10, the assembly block 20 is prevented from flowing while the assembly block. As the corrugated protrusions 22 are formed in the upper surface of the 20 in a streamlined manner, the resistance of the flowing water is reduced to the minimum.

The preferred embodiments of the present invention have been described above with reference to the present invention, and are not limited to the above embodiments, and those skilled in the art to which the present invention pertains through the above embodiments do not depart from the gist of the present invention. Can be implemented in a variety of changes.

10: support block 11: body
12: seating portion 13: protruding jaw
14: support 15: post
16: Eurohome 17: Rebar
20: assembly block 21: body
22: corrugated protrusion 23: assembly groove
24: ring 30: chain

Claims (5)

A support block 10 formed of a rectangular shape having an inner center portion open, and having a seating portion 12 formed at a corner of the upper surface of the body 11 and a protruding jaw 13 formed at a middle portion thereof; The assembly block is placed on the seating portion 12 of the support block 10, the assembling groove 23 is formed on all sides of the bottom portion of the body 21, while the ring 24 is implemented at the corner of the bottom portion ( 20); Both ends are fastened to the ring 24 of the assembly block 20, the support block 10 and the chain 30 to bind the assembly block 20 to each other; configured to include,
The support block 10 has a support 14 formed at four corners at the bottom of the body 11, and the post 15 is elongated downwardly from the support 14 while the post 15 is formed. Reinforcement (15a) is built into the reinforcement work inside,
The support block 10 has flow path grooves 16, 16a and 16b, respectively, to reduce resistance of flowing water on the four sides and upper surfaces of the body 11,
The assembly block 20 has a plurality of waveform projections 22 are formed in a streamlined form of a straight line on the upper surface of the body 21,
Protruding jaw (13) formed in the middle portion of the upper surface of the support block 10 is characterized in that the anti-washing block assembly is formed higher than the seating portion (12) formed in the corner portion. delete delete delete delete

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