KR20130102961A - Anti-scour blocks for river bed - Google Patents

Abstract

PURPOSE: An anti-scour block for a river bed is provided to maintain the ecosystem of a river by providing habitats for various water plants, fishes, and birds without being washed and broken away. CONSTITUTION: An anti-scour block (100) for a river bed is formed with a passage part with an opened lateral side on the bottom part and an opened through-groove (130) connected to the passage part on the flat part (110). A plurality of passage parts is alternated with each other. The surface of the anti-scour block is formed with a plurality of protrusion parts (120). A lateral side part (140) is formed with a guide groove. The guide groove is inserted with a joint part. The joint part is fixed with a spring.

Description

Anti-scour blocks for river bed

The present invention relates to a scour prevention block for a river bed, and more particularly, to a scour prevention block for a river bed, and more particularly to a scour prevention block for a river bed, The present invention relates to an anti-scouring block.

In general, when water flows into rivers due to natural phenomena such as floods or rainy seasons, the flow rate of the river water is rapidly accelerated, and the sediments of the river bed are swept away by the rapids. Therefore, aquatic plants and fishes living in rivers can not be inhabited, and it can become even more serious if concrete walls are installed on the river bank in the above situation.

In the past, it was about to lay gravel or rubble on the riverbed, but it was not affected much by the rapid rains due to heavy rains or rainy season.

Generally, as the scour phenomenon progresses gradually over a long period from a flood or a stream with a high flow velocity, an underwater structure such as a pier or a shore is subducted or conducted to cause a collapse of an underwater structure. This phenomenon is caused by a breakwater, , It is difficult to observe the naked eye. Therefore, periodical management is needed.

In severe cases, when floods or heavy snowfall occur due to rainfall, a large amount of soil is leaked at one time, so that the ground is collapsed and not only the water and water quality functions can be performed, but also the surrounding natural environment and scenery are damaged.

In order to solve these problems, various types of scour prevention blocks are installed on slopes of rivers, slopes or various slopes so as to prevent forced loss due to external pressure such as rainfall and snowfall due to natural loss of slope and rainfall, And the dimensional effect can be maintained.

However, since the conventional scour prevention block is made of a smooth concrete material having a closed surface, its own weight is heavy and cyclic loads are generated on the surface of the block by repeated accumulation of deposits on the change of the flow rate as the flow rate of the river water increases. The block is lost or deformed, and the original excuse can not be obtained.

In addition, there is a disadvantage in that it is not environmentally friendly because it is difficult to grow microorganisms, insects and algae as well as destroys an ecosystem around a water surface or a river bank due to the above-mentioned scour prevention block which can not grow vegetation.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for reducing the weight of a structure due to a flow rate of a river that is rapidly generated due to natural phenomena such as flood or heavy snow, And to provide a scour prevention block for a river bed which is capable of maintaining an ecosystem of aquatic organisms and having an environmentally friendly function.

According to an aspect of the present invention,

The scar prevention block for a floor according to claim 1, wherein a passage portion And a through-hole formed in the flat portion of the scour prevention block so as to communicate with the passage portion; And a plurality of protrusions formed in the circumferential direction.

According to the present invention having the above-described structure, the projection body of the floor scour prevention block plane forms a geometric beauty pipe, and protects the flat surface of the structure from the water pressure and the load due to the accumulated sediment.

In addition, the through grooves formed in the scour prevention block and the opening holes are connected to each other through a passage portion in the inside thereof, so that sediments are piled up at the passage portion of the block at the time of flood and at a normal flow rate, And it prevents the loss of the self structure due to the sudden change of surrounding environment. Therefore, it is necessary to protect the aquatic organisms living in the passages and to maintain the surrounding ecosystem. There is a big effect.

1 is a perspective view showing a scour prevention block according to the present invention,
2 is a cross-sectional view taken along the line AA 'of the scour prevention block according to the present invention,
FIG. 3 is a plan view showing a proper engagement state of the scour prevention block according to the present invention,
Fig. 4 (a) is a view showing an example of construction of a scraping prevention block according to the present invention,
4 (b) is a state diagram showing a change in the vicinity of the anti-scouring block constructed by the present invention at the time of a flow rate increase (flood)
4 (c) is a view showing the vicinity of the scour prevention block constructed by the present invention when the flow rate is reduced (normally)
5 is a perspective view showing a state in which the scraping prevention blocks of another embodiment according to the present invention are connected to each other,
Fig. 6 is a side view sequentially showing the installation of the anti-slush block shown in Fig. 5,
FIG. 7 is a state diagram sequentially illustrating the principle of the scour prevention block of another embodiment according to the present invention during scouring.

The features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, There will be. The invention is capable of various modifications and may take various forms, and specific embodiments are shown in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

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

FIG. 1 is a perspective view showing a scour prevention block according to the present invention, FIG. 2 is a sectional view taken along line AA 'of a scour prevention block according to the present invention, and FIG. 3 is a view showing a proper engagement state of a scour prevention block according to the present invention 4 (a) is a view showing a construction immediately after construction of a scour prevention block according to the present invention, and FIG. 4 (b) is a view showing a construction of a scour prevention block according to the present invention FIG. 4C is a state diagram showing the vicinity of the anti-scouring block constructed by the present invention when the flow rate is reduced (normal). FIG.

5 is a perspective view showing a state in which the anti-scraping blocks of another embodiment according to the present invention are connected to each other, FIG. 6 is a side view sequentially showing an installation state of the anti-slip block shown in FIG. 5, FIG. 8 is a view showing a principle of the scour prevention block of another embodiment according to the present invention in operation at the time of scouring.

The floor scour prevention block 100 according to the present invention is made of concrete and is completed in its entirety. The bottom surface of the bottom scour prevention block 100 is horizontally positioned in a flat shape so as to be adhered on the base surface of the bottom 30, And a through hole 130 is formed in the center of the flat surface portion 110. A geometric aesthetic pipe is formed in the vicinity of the through hole 130 by a protrusion body portion 120, The present invention relates to a scour prevention block (100) for a bed (30) designed in an integrated structure.

Referring to FIGS. 1 and 2, the anti-scavenging block 100 has a polygonal structure. The four corner edges of the flat portion 110 are formed as inclined corner faces 150 And the passage portion 160 formed in the bottom portion has a space in the shape of a cross so that the space is communicated with the through hole 143 of the side portion 140 and the through groove 130 of the plane portion 110, And four protruding body parts 120 are arranged on the four sides of the through hole 130 of the plane part 110 to be integrated with the entire body.

The shape of the through-hole 130 formed at the center of the flat surface 110 is tapered so that the width of the through-hole 130 becomes narrower as it penetrates into the inside of the scour prevention block 100, So that the through-hole 130 can be easily separated and separated from the form at the time of manufacturing.

The protrusion body 120 formed on the flat portion 110 of the scour prevention block 100 and formed in the through hole 130 of the flat portion 110 is in harmony with the periphery of the construction site, 110), and it is possible to reduce the load that can be generated on the flat surface portion 110 of the scour prevention block 100 due to the high water pressure at the time of the flood where the flow rate is increased, And natural aggregates such as sand and small gravels inevitably moving in a situation where the flow rate and the flow rate of flood and heavy snow increase, are formed on the surface of the flat part 110 And is guided to be guided well into the through groove 130 formed at the center.

Meanwhile, in the passage portion 160 of the scour prevention block 100, the passage portion 160 opened in the bottom portion of the main structure may have only one shape or a plurality of passage spaces, It would be undesirable to limit it to a particular form.

In order to neutralize the toxicity of cement, which is a main material of the scour prevention block 100, the river may be polluted and harmful to the form of aquatic organisms. In order to neutralize the toxicity, minerals such as gallstone, have.

Since the minerals such as plagioclase, ilite and the like have an effect of adsorbing particulate matter, they can neutralize the strong toxicity of the cement and neutralize the alkaline toxicity of the cement. Therefore, the contamination of the river with the scour prevention block 100 To improve the quality of water environment, to create an optimal environment for habitat of fishery products, to effectively prevent the whitening phenomenon in cement, and to improve the durability by delaying the corrosion of the steel frame of this structure There is an advantage to be able to.

The protrusion body 120 of the flat surface portion 110 can be positioned on the four sides of the four corners of the surface portion 110 as well as various natural texture, The protrusion body 120 can be formed in place of the protrusion body 120. The shape and size of the protrusion body 120 can be optionally selected depending on the shape of the whole structure.

In addition, since the lower portion of the shrinkage prevention block 100 except for the upper portion is made of impermeable concrete, the base portion in contact with the lower surface 30 can maintain durable durability.

When holes having a predetermined depth are formed in the center of the protruding body portion 120 or the upper portion of the protruding body portion 120 is divided into porous concrete and integrated with each other, It is possible to obtain an aeration effect in which oxygen is supplied artificially in the water and the roots of the aquatic plants penetrate smoothly into the holes and voids and thus can be a great help to the aquatic ecosystem.

3, in order to form the guide groove 190, four main structures are provided as a pair, and the scour prevention block 100 (see FIG. 3) And the four main structures are connected to the linker 180 in all directions and installed on the bed.

With the proper coupling between the ring 170 and the linker 180, there is an effect of preventing separation, separation, and sliding phenomenon between the scour prevention blocks 100 installed in a situation where the flow velocity and flow rate suddenly increase such as flood, heavy snow, , And integrate the entire structure so as to have a weight enough to withstand the resistance of the river runoff.

Needless to say, the ring 170 and the linker 180 can be replaced with various kinds of connectors and chains.

4 (a), the scour prevention block 100 is applied to the base portion of the flat bed 30, and the ring 170 located on the inclined corner face 150 of the present structure is connected to the linker 180 And one of the linkers 180 is fixed horizontally on the bed 30 while forming a pair of four anti-scouring blocks 100.

4 (b), when the flow velocity and the flow rate are rapidly increased, a vortex flow in the bed 30 is applied to the peripheral edge portion 50a and the tail portion 50b of the scour prevention block 100 In addition, there will be a scour (50) phenomenon that will cause damage to the ecosystem and damage to the human life due to soil erosion.

At this time, the scour prevention block 100, which is connected to the linker 180 and is installed on the four sides of the body, has a property of coping with the change of the ground due to its own weight and the scour (50) phenomenon , flexibility, and so on, so that they are in contact with each other to form a single structure, and the separation, separation, and sliding phenomenon due to the suddenly changing ambient environment of the entire body can be prevented.

The ring 170 located at the inclined corner face 150 of the scour prevention block 100 may be provided at a central portion of the lateral side of the structure to couple two bodies to one linker 180, Two bodies of the present invention having a body 170 and a ring 170 on a slanting corner face 150 are prepared and connected to one linker 180 by a pair of the above- Of course, can be efficiently configured.

4C is a view of a normal river after the scour prevention block 100 is installed and the flow rate and the flow rate are rapidly increased. The flow rate increase and decrease are repeatedly performed around the river bed 30 where the structure is installed Natural aggregates and the like are accumulated on the front end scour 50a and the rear end scour 50b to form the front end sediments 55a and the rear end sediments 55b while alternately rising and falling, The sediment 55 is caught by the slag so that the scaffold 50 for the bed 30 can be stabilized and fixed.

In the course of repeating the increase and decrease of the flow rate, the sediments 55 such as sand and small gravel introduced into the through holes 130 and the opening holes 143 of the main structure, The through hole 130 and the opening hole 143 are connected to each other in the interior of the main structure so that the main body 100 can sufficiently bear the resistance of the flowing water, The passage portion 160 that forms a space can provide a spawning place and a shelter to aquatic organisms such as plants and fisheries living in rivers and the like and can play a role of protecting aquatic ecosystem.

5 is a cross-sectional view of the anti-scraping block 100 according to another embodiment of the present invention, wherein the joint 145 of the anti-scrape block 100 is formed in a sliding form And it is possible to prevent the phenomenon of being easily separated in an undesired direction in the present structure by providing a concave-convex shape. Due to the connection structure of the joint part 145, It is possible to expect that the anti-scraping blocks 100 have more durability.

A feldspath is inserted into the hollow 115 formed at both corners of the flat surface portion 110 where the projection body portion 120 is not provided in the scour prevention block 100 to control the joint portion 145, As well as the position of the groove 147 formed at the top of the portion 145.

6, which is a side view sequentially illustrating the installation of the anti-slip block 100 shown in FIG. 5, the anti-slip block 100 further includes a joint 145 inside the body As shown in FIG. 6 (a), it is possible to move to a construction site while maintaining the shape integrated with the present structure at normal times. In the construction site as shown in FIG. 6 (b) 6 (c) and 6 (d), the spring 200 is attached to one end of the joint portion 145, which is advanced and slid upon completion of the stamping operation, . The convex portion 300t and the concave portion 300y are formed through the pressing operation of the joint portion 145. The concave portion 300y is provided with a next adjacent shroudproof block 100 joint 145 The spring 200 will be in a condensed state.

In the structure of the scour prevention block 100 according to another embodiment of the present invention as shown in FIGS. 5 and 6, the scour 50 phenomenon occurs, A feldspar or the like properly coupled to the hollow 115 formed at both corners of the flat surface portion 110 of the scour prevention block 100 is formed in the groove 147 The position of the anti-slip block 100 is changed in the erosion space of the bottom 30 caused by the phenomenon of the scour 50, and the joint 145 is completely separated from the main body of the structure And the fixing force between the scour prevention blocks 100 can be maintained.

In the anti-slush block 100 having the above-described structure, as shown in FIG. 5, various types of connectors and chains may be provided on the inclined corner face 150 between adjacent anti-slip blocks 100, The spring 200 positioned between the joints 145 of the adjacent anti-scarring block 100 may be positioned at the joint portion 145 formed by the occurrence of the scour 50 phenomenon The convex portion 300t of the joint portion 145 located next to the spring 200 due to the relaxation action of the spring 200 can be prevented from being deformed due to the reaction of the spring 200 in the condensed state, May be separated from the recess 300y to a predetermined position outside the scraping prevention block 100 so that the joints 145 can be properly fixed to each other through the connecting device such as a connector and a chain.

7 is a side view sequentially illustrating the principle that the scour prevention block 100 of another embodiment of the present invention acts upon the development of the scour 50, and FIG. The convex portion 300t and the concave portion 300y are properly coupled with each other in the normally adjacent portions of the scour prevention blocks 100 connected to each other due to the joint portion 145 provided in the guide groove in the structure body, 50), there is a great possibility that the convex portion 300t and the concave portion 300y are damaged due to insufficient rigidity in the self-structure.

In order to solve the above-described problem, the spring 200 is disposed between one end of the joint 145 and the other end of the spring 200. The spring 200, as shown in FIG. 7 (a) 7 (b), the scour prevention block 100 is inclined to the erosion space of the bed 30 where the scour 50 is generated, The convex portion 300t of the shroud prevention block 100 is separated and the spring 200 that has been condensed between the one end and the other end of the joint 145 gradually moves As it loosens, self-emotional power becomes stronger. The convex portion 300t of the joint portion 145 is completely separated from the concave portion 300y by the elastic force of the spring 200 and is exposed to the outside of the body of the structure as shown in FIG. And the scour prevention block 100 connected to the scour prevention block 100 is securely positioned with respect to the bottom 30 where the scour 50 is generated.

While the invention has been described in connection with what is presently considered to be practical exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, 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.

30; Bottom 50; Scour
55; Sediment 100; Scraping Block
110; Plane portion 115; Hollow
120; A protruding body portion 130; Through groove
140; Side portions 143; Opening hole
145; Joint 147; Binding groove
150; Inclined edge face 160; The passage portion
170; Ring 180; Linker
190; Guide grooves 200; spring
300t; Convex portion 300y; Concave portion

Claims (4)

In the scour prevention block for a floor,
The bottom portion of the scour prevention block is formed with a passage portion which is opened to the side portion, the flat scrubbing block of the bottom scrubbing block, characterized in that the through-hole is formed in communication with the passage portion formed. The method of claim 1,
Further comprising a plurality of passage portions formed to cross each other. The method of claim 1,
The surface scour prevention block for the riverbed, characterized in that a plurality of protrusions projecting. The method of claim 1,
A guide groove is formed in each of the side portions, the guide groove being opened to both sides of the guide groove;
One end and the other end connected to the guide groove so as to form a convex part and a concave part while being drawn out to one side and the other side of the both sides; Wow
A spring fixed to one end or the other end of the joint part; Wherein the slant prevention block comprises:

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