KR20110131472A - A prevention of scour blok of construction method and that blok - Google Patents

Abstract

PURPOSE: A construction method and a scour protection block of a scour protection block reducing the waste of stone are provided to protect a river bed and a bank by guiding the flowing water to a fixed direction. CONSTITUTION: The foundation block assembly(10) arranges the several block(20) in the underwater bottom to the area array type. Another block assembly(10') is laminated on the foundation block assembly. A top protruding rod(22) of the lower layer block assembly is inserted in a block center hole(21) of the upper layer. A protrusion(23) is formed in the block top surface of the lower layer. The protrusion is settled on the block bottom surface of the upper layer. A through-hole(13) is formed in a boundary of the lower and upper layer blocks.

Description

Construction method of scour prevention block and its scour prevention block {A PREVENTION OF SCOUR BLOK OF CONSTRUCTION METHOD AND THAT BLOK}

The present invention relates to a method for constructing a natural scour prevention block and to a scour prevention block that can facilitate construction and can achieve robustness after construction.

In general, when the force of the water flowing in the river or the sea exceeds the limiting flow force (限界 掃 流 力), the rock and soil of the bottom of the water is lost, the bottom dent due to this loss is called scour. If scour occurs in soils that come in contact with underwater structures, it may cause problems to knock down or sink structures.

Currently, scrubbing blocks (abbreviated as 'blocks') are usually installed on the bottom of the water to prevent scouring.In the construction method, several blocks are arranged in the form of a checkerboard, and blocks and blocks are connected to each other. Most block stacking is sequentially stacked on the border space where the block meets and the block block on top of the basic block assembly filled with clean rubble or sandstone.

However, in the above construction method, the combined boundary part of the blocks constituting the block assembly (the boundary part where the sides of other blocks are in close contact with each other are completely in close contact with each other, so that the ability to respond to changes in the bottom of the water (floor change) is low, as well as a high flow rate). There was a problem that the durability of the construction state was not maintained continuously due to the low shock-absorbing ability of, and there was also a problem of not being able to perform the functions of fish and fishery, and non-nature-friendly problems such as inhibiting the reproduction of organic matter and microorganisms.

In the case of stacking the block aggregates, a space is formed between the upper block and the lower block of the block by placing the bottom of the block of the next layer on one or more protrusions formed on the upper block of the lower block. There was a problem that the flow between the block aggregates, such as due to the high flow rate after construction apart from this.

In order to solve this problem, the upper and lower blocks are bound by using a binding loop formed in the block, but this binding method causes a lot of inconvenience in construction, and the air caused by the extension and waste of manpower was large. The binding ring may be used to fix the block and the block, but may also be used as a ring for moving the block when the block is constructed.

On the other hand, in the related art, since only the dead stones are filled in the border space of the foundation block assembly, a block is opened or flows due to the soil or sand flowing into the border space, thereby degrading the aggregate rigidity of the foundation block assembly.

The present invention has been made to solve the problems caused by the conventional block construction method in the present invention, while providing excellent construction robustness between the upper and lower block assemblies, the construction is easy to provide an eco-friendly block construction method and the block thereof It is to be done.

In the construction method of the block according to the present invention, in the construction method of constructing a basic block assembly arranged in the form of a plurality of blocks on the bottom of the water and stacking another block assembly on the base block assembly, the lower block assembly The bottom block of the upper block assembly is inserted into the hole in the center of the lower block while the top block of the block is inserted into the center hole of the upper layer, and the bottom block of the upper layer is seated on the protrusion formed on the upper surface of the block of the lower layer. The through-hole is formed in the center of the binding boundary portion of the upper and lower layer blocks, and in the construction method, characterized in that a separate reinforcing block is inserted in the lower portion of the block border space of the base block assembly.

In the block according to the present invention, at least one protrusion is formed on the upper surface and the bottom surface and a hole is formed at the center thereof, and at least one protrusion having a lower height than the protrusion is formed on the upper surface of the block. It is characterized in that a groove is formed in each of the bonding contact surface.

In the present invention, when constructing the scour prevention structure using the block assembly, the stone bar is inserted into the hole formed at the center of the block of the upper layer or the lower layer, so that the binding force between the upper and lower block assemblies stacked is excellent, and this effect is achieved It is possible to prevent individual rolling of the blocks afterwards, as well as to flow the flow of water in a certain direction to protect the riverbed and the lakeside from scour.

And even if the block assembly is stacked as above, a space is formed between the upper and lower block assemblies, and a hole is formed in a portion where the side of the block is in close contact with the groove formed in the bonding contact surface of the block. And a nature-friendly effect that can provide the role of a fishery and an environment that enables the reproduction of organic matter or microorganisms, and furthermore, the flow of water flows into the above spaces and through holes, thereby minimizing the disturbance of the flow of water and responding to changes in riverbed. In addition to this flexibility, the structure can be prevented from being damaged (flow, collapse, etc.) as much as possible due to the high velocity.

In addition, since the flow of blocks is prevented by inserting a reinforcement block into the block border space of the foundation block assembly, the robustness of the foundation block assembly can be further improved and the waste of the dead stone can be reduced.

1 is a state plan view of constructing a block assembly using the method of the present invention,
2 is a cross-sectional view of the AB line of FIG.
3 is an exemplary view taken in the direction C of FIG. 1;
4 is a plan view of the basic block assembly;
Figure 5 is a perspective view of the scour prevention block of the present invention.

Hereinafter will be described a preferred embodiment of the present invention.

The construction method of the block according to the present invention comprises the steps of: constructing a base block assembly (10) in which a plurality of blocks (20) arranged in the form of a tile on the bottom of the water; Stacking another block assembly (10 ') in multiple layers on the base block assembly (10); It is based on a known construction method that fills the center of the border space 30 and the block 20 where the blocks 20 of the foundation block assembly 10 meet and the like.

By inserting a separate concrete reinforcement block 40 at the bottom of the bordering space 30, it is possible to prevent the blocks coupled to each other by the earth and sand introduced into the bordering space 30.

The present invention in the above known construction method, so that the stone bar 22 formed on the block upper surface of the lower block assembly 10 'is inserted into the block center hole of the upper layer, and at the same time the block of the upper block assembly 10' The bottom protrusion is inserted into the hole 21 in the center of the lower block 20, but the bottom of the upper block is seated on the protrusion 23 formed on the upper surface of the lower block 20, and the upper and lower block assemblies ( The through hole 13 is formed in the center of the block coupling boundary portion 11 of 10 ′).

In the scour prevention structure constructed by this method, since the bottom protrusion of the upper block is positioned in the hole 21 of the lower block 20 and the protrusion 22 of the upper surface of the lower block 20 is located in the hole of the upper block. When constructing a scour prevention structure using blocks, blocks become entangled with each other differently from the prior art, so that even if a block is not formed in the block, the binding force of the blocks is excellent, and the upper block bottom has a lower block 20 The space 12 is formed between the upper block and the lower block by being seated on the protrusion 23 on the upper surface, and the tongs for moving the block into the space 12 can be inserted into the block 20 itself. This produces the effect of not having to separately form or attach a towing member (such as a binding ring) for block movement.

Meanwhile, the block used in the above construction method is based on a conventional block 20 having one or more protrusions 22 formed on an upper surface and a bottom surface and a hole 21 formed in the center thereof. One or more protrusions 23 having a lower height than the protrusions 22 are formed on the upper surface, and the protrusions 23 are preferably formed between the protrusions and the protrusions. In addition, when the blocks 20 are arranged horizontally and vertically by forming grooves 243 in each of the bonding contact surfaces 24 of the blocks, the through holes 13 are formed at the boundary portions where the blocks and the block sides meet. Here, the bonding contact surface 24 may vary in position depending on the shape of the block, but the block illustrated in the present invention refers to the coupling groove 241 and the overlapping protrusion 242 formed on all sides of the block.

10: basic block assembly 10 ': block assembly
11: binding boundary portion 12: space
13: through-hole 20: block
21: hole 22: stone rod
23: projection 24: bonding contact surface
241: coupling groove 242: coupling protrusion
243: groove 30: border space
40: reinforcement block

Claims (3)

In constructing the basic block assembly 10 in which several blocks 20 are arranged in the form of tiles on the bottom of the water, and in stacking another block assembly 10 'onto the base block assembly 10, the lower block assembly Block 20 of the upper block 20 is inserted into the block center hole of the upper layer while the block bottom bar of the upper block assembly is inserted into the hole 21 in the center of the block 20 of the lower layer, but the block bottom of the upper layer Scaffolding block construction method characterized in that to be seated on the projections (23) formed on the upper surface of the lower block 20, the through hole (13) is formed in the center of the combined boundary portion (11) of the upper and lower blocks.
In constructing the basic block assembly 10 arranged in the form of a checkerboard of the plurality of blocks 20 on the bottom of the water and in the stacking another block assembly 10 'on top of the base block assembly 10, the foundation Method of constructing a scour prevention block, characterized in that a separate reinforcing block 30 is inserted in the lower portion of the block border space (12) of the block assembly (10).
In a conventional block in which one or more protrusions 22 are formed on an upper surface and a bottom surface and a hole 21 is formed in the center, a protrusion 23 having a lower height than the protrusions 22 is formed on the upper surface of the block 20. And at least two grooves are formed in each of the bonding contact surfaces 24 of the block.

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