KR101437107B1 - A prevention of scour blok of construction - Google Patents

Abstract

The present invention relates to a method of constructing a scour prevention block, and more specifically, to a method of constructing a scour prevention block, in which a binding force between stacked upper and lower block aggregates is improved, In addition, the response to river changes is made flexible.
A central aperture; A stone bar formed on both sides of the upper and lower edges of the bottom surface; A protrusion formed between the upper surface seal bar and formed to have a height lower than the seal bar height; A bonding contact surface corresponding to the side surface; A non-contact surface formed between the engaging contact surfaces; A plurality of normal polygonal blocks formed at the corner where the bonding close face and the non-contact face meet each other and the groove crossing the center of the close contact face are arranged in a checkerboard pattern on the floor of the water, Arranging a lower layer block aggregate in the lower layer block; Stacking an upper layer block aggregate formed by using blocks of the same type as the block above the lower layer block aggregate; In the laminating step, each of the stone rods formed on the block top surface of the lower block aggregate block is inserted into the hole in the center of the upper block aggregate block, and the stone rods of the lower block aggregate block are inserted into the holes in the center of the lower block aggregate block, The lower surface of the lower block assembly block is seated on the protrusions on the upper surface of the lower block assembly block so that the grooves formed on the non-contact surfaces of the blocks constituting the upper and lower block assemblies face each other, ; And a step of inserting a separate concrete reinforcing block having the same shape and size as the adjacent spaces in the downward direction from the upper end to the lower end of the lower reinforced concrete block, Thereby providing a scraping block construction method.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of constructing a scour prevention block,

The present invention relates to a construction method of a natural-friendly scour prevention block which is capable of facilitating construction but also ensuring the robustness after construction.

Generally, when the power of water flowing in a river or sea becomes more than the limit purging force, the rock and soil of the underwater floor are lost, and the phenomenon that the bottom falls due to this loss is called scour. If the gulls are in contact with the underwater structure, they cause the structure to collapse or sink.

In order to prevent scouring, a scour prevention block (hereinafter abbreviated as "block") is installed on the underwater floor. In the construction method, a plurality of blocks are arranged in a checkerboard shape, And a block aggregate is sequentially stacked on top of a lower block aggregate filled with clean rubble or stones in the bordering space where blocks meet and the hole in the center of the block.

However, in the construction method described above, the boundary portion of the blocks constituting the block aggregate (the boundary portion in which the side surfaces of the other blocks closely contact each other is completely adhered, so that the response to the change of the underwater floor There is a problem in that the robustness of the construction state can not be maintained constantly due to the low impact-absorbing ability of the waterproofing material, and also the non-nature-friendly problems such as the failure to exhibit the functions of the fishery and the fishing and the inhibition of the propagation of organic matter and microorganisms.

In the case of stacking block assemblies, a space is formed between the upper block and the lower block of the block by placing the block bottom of the next layer on one or more projecting rods formed on the upper surface of the lower layer block, There is a problem that flow between block assemblies occurs due to a rapid flow rate after construction because of lack of rigidity.

In order to solve this problem, the upper and lower blocks are bound using a coupling ring formed on the block. However, this coupling method causes a lot of inconvenience to the construction, and the air is wasted and the wasted manpower is large. The coupling ring is used for fixing the block and the block, but is also used as a ring for moving the block when building the block.

On the other hand, conventionally, since only the stones are filled in the boundary space of the lower-layer block aggregate (or the basic block aggregate), the blocks are flared or flowed by the gravels introduced into the adjacent space, and the aggregate robustness of the lower- .

The present invention has been made to solve the problems caused by the conventional block construction method. In the present invention, it is an object of the present invention to provide an environmentally friendly block construction method which is excellent in installation rigidity between upper and lower block aggregates, will be.

A method of constructing a block according to the present invention comprises: a central hole; A stone bar formed on both sides of the upper and lower edges of the bottom surface; A protrusion formed between the upper surface seal bar and formed to have a height lower than the seal bar height; A bonding contact surface corresponding to the side surface; A non-contact surface formed between the engaging contact surfaces; A plurality of normal polygonal blocks formed at the corner where the bonding close face and the non-contact face meet each other and the groove crossing the center of the close contact face are arranged in a checkerboard pattern on the floor of the water, Arranging a lower layer block aggregate in the lower layer block; Stacking an upper layer block aggregate formed by using blocks of the same type as the block above the lower layer block aggregate; In the laminating step, each of the stone rods formed on the block top surface of the lower block aggregate block is inserted into the hole in the center of the upper block aggregate block, and the stone rods of the lower block aggregate block are inserted into the holes in the center of the lower block aggregate block, The lower surface of the lower block assembly block is seated on the protrusions on the upper surface of the lower block assembly block so that the grooves formed on the non-contact surfaces of the blocks constituting the upper and lower block assemblies face each other, ; And a step of inserting a separate concrete reinforcing block having the same shape and size as the adjacent spaces in the downward direction from the upper end to the lower end of the lower reinforced concrete block, .

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The present invention has an effect of bonding the upper and lower block assemblies to each other when the anti-slip structure is constructed by using the block aggregate, because the loop of the block is inserted into the hole formed at the center of the upper or lower block. Can prevent the individual blocks of blocks after construction, as well as the effect of protecting stream and revetment from scour by streaming the stream in a certain direction.

Also, even if the block aggregate is stacked as described above, a space is formed between the upper and lower block aggregates, and a through hole is formed in a portion where the block side is closely contacted by the groove formed on the close contact surface of the block. The environment that enables the propagation of fishes and fishes and the environment that enables the propagation of organic matter or microorganisms) can be provided. Further, since the water is passed through the upper space and the through hole, the flow disturbance of the water flow can be minimized, It is possible to flexibly cope with the problem and to prevent the structure (flow, collapse, etc.) caused by the fast flow velocity from being damaged.

In addition, since the blocks are prevented from flowing by inserting the reinforcing blocks in the block boundary space of the lower layer block aggregate (or the basic block aggregate), the robustness of the lower layer block aggregate can be further improved and the waste of stones can be reduced There is also.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exemplary plan view of a block assembly constructed using the method of the present invention;
FIG. 2 is a cross-sectional view taken along the line AB of FIG. 1,
Fig. 3 is an exemplary sectional view taken along the direction C in Fig. 1,
4 is a plan view of a lower block aggregate,
5 is a perspective view of a scour prevention block according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described.

A method of constructing a block according to the present invention comprises a conventional polygonal block 20, that is, a central hole 21, in which at least one hollow rod 22 is formed on the upper and lower surfaces and a hole 21 is formed in the center thereof; (22) formed on both the front and rear sides of the top and bottom edges, respectively; A protrusion 23 formed between the protrusion on the upper surface and the protrusion and having a height lower than a height of the protrusion 22; A bonding contact surface 24 corresponding to the side surface; A non-contact surface (25) formed between the engaging contact surface (24); A block 20 made of a groove 243 formed at the corner where the engaging contact face 24 meets the non-contact face 25 and crosses the center of the engaging contact face 24 is used I Reference). The groove 243 is formed in each of the engaging contact surfaces 24 of the block in order to form the through hole 13 at the boundary where the block 20 and the block side meet when the block 20 is arranged laterally And the bonding adhered surface 24 may have different positions according to the shape of the block, the block exemplified in the present invention means the coupling groove 241 and the overlapping protrusion 242 formed on the block four sides.

The present invention relates to a method of manufacturing a lower block assembly (10), comprising the steps of: applying a lower block assembly (10) having a plurality of polygonal blocks arranged in a checkered pattern to the underwater floor; Stacking another block aggregate (10 ') on the lower block aggregate (10) in multiple layers; And filling the stones in the boundary space 30 where the blocks 20 of the lower block aggregate 10 meet and the center of the blocks 20. In the above, the lower layer block aggregate will be understood as a foundation block aggregate that is first arranged on the underwater floor.

When the method of the present invention is applied to the above-described construction method, the shape of the boundary space (30) is formed in the boundary space (30) between the blocks (20) generated by the contact adhering surface (24) of the blocks (20) constituting the lower block aggregate Layer block aggregate 10 joined to each other by a gravel or the like introduced into the boundary space 30 by inserting a concrete reinforcing block 40 having the same size as the lower concrete block 30 in the downward direction, Thereby preventing the block 2 of FIG.

The seal bar 22 formed on the block top edge of the lower layer block aggregate is inserted into the hole 21 formed at the center of the block of the upper block block aggregate and at the same time the seal bar 22 ' Is inserted into the hole 21 formed at the center of the lower layer block 20 so that the block bottom surface of the upper layer block aggregate is seated on the protrusion 23 formed on the upper surface edge of the lower layer block 20, The grooves 243 formed on the non-adhered surface 25 of each of the blocks constituting the lower block assembly 10 and 10 'are opposed to each other so that a through hole 13 is formed at the center of the combined boundary portion 11 of the blocks .

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The anti-scoop structure constructed by this method is structured such that the seal bar 22 'formed at the bottom edge of the block of the upper block aggregate is located in the hole 21 formed at the center of the block 20 of the lower block aggregate, Since the seal bar 22 on the top edge of the upper block 20 is located in the hole formed at the center of the block of the upper block assembly, when the anti-scarring structure is installed using the blocks, the blocks become entangled with each other, The upper block bottom surface is seated on the projection 23 on the upper surface of the lower block 20 so that the space 12 is formed between the upper block and the lower block, A tongue or the like for moving the block to the space 12 can be inserted and a pulling member (a coupling ring or the like) for block movement can be separately formed in the block 20 It lays action that does not require attachment.

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10: Lower layer block aggregate 10 ': Upper layer block aggregate
11: joint boundary portion 12: space
13: through hole 20: block
21: Hole 22, 22 ': Dolly
23: projection 24:
241: coupling groove 242: coupling projection
243: groove 25: non-contact surface
30: Border space 40: Reinforcing block

Claims (3)

delete A central hole (21); (22) formed on both the front and rear sides of the top and bottom edges, respectively; A protrusion 23 formed between the upper surface seal bars 22 and having a height lower than the height of the seal bar 22; A bonding contact surface 24 corresponding to the side surface; A non-contact surface (25) formed between the engaging contact surface (24); A plurality of normal polygonal blocks 20 formed of the grooves 243 formed at the corners where the engaging contact faces 24 meet the non-contact faces 25 and cross the center of the engaging contact faces 24, Arranging them in a checkered pattern, arranging the bonding surfaces (24) of the respective blocks so as to be in contact with each other to construct a lower block assembly (10);
Stacking an upper block aggregate 10 'on the lower block aggregate 10 using blocks of the same type as the block 20;
In the laminating step, each of the seal bars 22 formed on the upper surface of the block of the lower block aggregate 10 is inserted into the hole in the center of the upper block block 10 ', the upper block block 10' Layer block assembly 10 is inserted into the hole at the center of the block of the lower-layer block assembly 10 while the block bottom of the upper block assembly 10 'is seated on the projection 23 of the upper block assembly 10 block, The grooves 243 formed in the non-adhered surface 25 of each block constituting the aggregate 10 and 10 'are opposed to each other so that the through hole 13 is formed at the center of the combined boundary portion 11 of the blocks ;
A concrete space having a shape and size similar to that of the adjacent spaces is reinforced in the boundary space 30 between the blocks 20 generated by contacting the coupling adhering surfaces 24 of the blocks 20 constituting the lower block aggregate 10 And inserting the block (40) from the top to the bottom. delete

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