KR20060026098A - Retaining wall block structure - Google Patents

Abstract

The present invention relates to a retaining wall block, and more particularly, to a retaining wall block structure capable of combining various reinforcing materials without a separate fastening member.

The retaining wall block structure according to the present invention is a block for constructing a retaining wall having a predetermined height by stacking a plurality of blocks in layers, wherein at least one anchor is protruded on one side of the block, and the anchor is opposite to the anchor. The anchor seating groove is formed is formed, the upper side of the block is characterized in that at least one seating portion in which a predetermined portion of the grid reinforcement is seated is formed.

According to the present invention there is an effect that the grid reinforcement can be coupled to the block without a separate fastening member, there is an effect that can be in close contact between the upper and lower blocks.

Retaining wall, block, reinforcement

Description

Retaining wall block structure

1 is a perspective view of a retaining wall block according to the spirit of the present invention;

2 is a bottom perspective view of the block;

3 is a sectional view of the block;

4 is a plan view of the block;

5 is a view showing a state in which a rigid grid is disposed between the upper and lower blocks.

6 is a view showing a state in which a steel bar type reinforcement is disposed on the block.

<Explanation of symbols for the main parts of the drawings>

1: Block 10: Anchor

12: anchor seating groove 22: upper seating portion

24: lower seating portion 26: pin insertion groove

32: first coupling groove 33: second coupling groove

The present invention relates to a retaining wall block, and more particularly, to a retaining wall block structure capable of combining various reinforcing materials without a separate fastening member.

Generally, the retaining wall refers to a wall structure for preventing the collapse of soil by resisting soil pressure, and is widely used for efficient use of land in mountainous lands and high land prices.

In other words, it is used to pile up soil, cut down mountains, or fill up the coast. In order to prevent the collapse of soil, it is common to build retaining walls using blocks made of stone or concrete, such as embankments and road side walls.

However, since the concrete retaining wall is installed close to the surface of the soil to be reinforced, it is vulnerable to cracks from the inside, and there are problems such as height limitation, excessive treatment cost, and difficulty in construction and winter construction. .

On the other hand, in the case of steel structures, the stability of the retaining wall was weak in shear resistance from the soil.

As an alternative to solve this problem, the construction of reinforcement soil retaining wall using the reinforcement to increase the economical efficiency, free shape of the front wall, shortening the construction period, the earthquake-resistant structure has increased.

The reinforcement soil retaining wall is a horizontally placed reinforcement material having a high tensile strength and good frictional force in the backfilling soil of sandy soil to suppress the lateral displacement of the soil, thereby to stabilize the soil, and as a block, reinforcement, backfilling reinforcement soil, etc. It is composed.

Further, in order to form the reinforced earth retaining wall, a plurality of blocks are stacked in layers. As a method of joining the blocks, anchors or pins are generally used.

As the reinforcing material, a rigid grid, a flexible grid, a steel bar, and the like are generally used. When the rigid grid is used as the reinforcing material, the blocks are joined by pins, and when the flexible grid is used, the blocks are generally joined by anchors.

Referring to the process of constructing the retaining wall by the above-described configuration, the site boundary and the soft ground are piled up to a certain height with blocks, and after that, the soil is filled and laid and compacted. And, if the pile is piled up to a certain height and the grid reinforcement or steel bar reinforcement on the laid and compacted fillet is sequentially repeated to the planned height, and the block, the reinforcement and the piled soil are integrated into the retaining wall Will be.

By the way, according to the conventional block for forming the retaining wall, there are the following problems.

First, when the rigid grid is used as the reinforcing material, the block is joined by a pin, and when the flexible grid is used, the block is configured by the anchor, in this case, the block according to the type of the reinforcing material The shapes of the different from each other, there is a problem that each of the blocks of different shapes to be manufactured.

In addition, even when a steel bar is used as the reinforcing material, there is a problem that the block must be manufactured in a separate shape to which the steel bar can be coupled.

Secondly, the rigid grid has ribs of a predetermined thickness before and after, and in the case of the conventional block is formed in a structure not considering the rib thickness, when the rigid grid is disposed between the blocks by the ribs block There is a problem in that the retaining wall is not firmly constructed because it does not adhere to the liver.

The present invention has been proposed to solve the problems as described above, and also, it is possible to combine the various types of reinforcement in a single shape of the block, the retaining wall block structure that can be in close contact between the upper and lower blocks even when the reinforcement is combined It is for the purpose of suggestion.

In addition, an object of the present invention is to propose a retaining wall block structure that enables the reinforcement to be coupled without a separate fastening member.

Retaining wall block structure according to the present invention for achieving the object as described above is a block for constructing a retaining wall of a predetermined height made by stacking a plurality of blocks in a layer, at least one anchor protruded on one side of the block An anchor seating groove in which the anchor is seated is formed on the opposite side of the anchor, and at least one seating part in which a predetermined portion of the grid reinforcement is seated is formed on an upper side of the block.

Retaining wall block structure according to another aspect of the present invention is made by stacking a plurality of blocks in a layer, the block for constructing a retaining wall of a certain height, the reinforcement is coupled between the blocks, the grid on the upper side of the block The seating portion to be coupled to the reinforcement is formed long left and right, the upper surface rear side of the block is characterized in that the coupling groove is formed to be coupled to the steel-bar (steel-bar) type of reinforcement.

According to the present invention as proposed, there is an effect that the grid reinforcement can be coupled to the block without a separate fastening member.

That is, it is possible to fix the rigid grid simply by having the ribs of the rigid grid seated in the seating grooves without using a pin for joining the rigid grid.

In addition, the rib of the rigid grid is configured to be seated in the seating groove, there is an effect that can be in close contact with each other between the upper and lower blocks.

In addition, the coupling groove is formed on the rear side of the block, steel bar reinforcement may be further coupled to the reinforcement in addition to the grid reinforcement.

In other words, various types of reinforcement may be coupled to a single block.

Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the embodiments presented, and those skilled in the art who understand the spirit of the present invention can easily suggest other embodiments within the scope of the same idea.

1 is a perspective view of a retaining wall block according to the spirit of the present invention, FIG. 2 is a bottom perspective view of the block, FIG. 3 is a sectional view of the block, and FIG. 4 is a plan view of the block.

1 to 4, the retaining wall block 1 according to the spirit of the present invention is the front (2) and rear (3) defining the length of the block (1), which defines the thickness of the block (1) It has an upper surface 4 and a lower surface 5 and left and right side surfaces 6 and 7 which define the width of the block 1.

In detail, the block 1, the anchor 10 is protruded upwardly formed in the upper front end portion to enable the position fixing between the blocks (1) arranged up and down, and anchor seating the anchor is seated on the lower front end portion The groove 12 is formed long left and right.

In addition, the anchors 10 are formed in a substantially square shape, and are formed to be symmetrical with each other on the upper side of the block 1. In addition, the width of the anchor seating groove 12 is formed to a size corresponding to the width of the anchor (10).

Here, the anchor 10 may be formed in a rectangle having a larger area than a square so that the position fixing between the upper and lower blocks is effectively made.

In addition, in this embodiment, the anchor seating groove 12 is formed in the lower side of the block 1, the anchor 10 is formed on the upper side of the block 1, on the contrary, the lower side of the block 1 The anchor 10 may be formed, and the anchor seating groove 12 may be formed above the block 1.

In addition, when the rigid grid of the reinforcing material is coupled to the block 1, a recessed portion in which a rib having a predetermined thickness formed on the rigid grid is seated is recessed to a predetermined depth.

Here, as shown in FIG. 5, the rigid grid 40 is provided with ribs 42 having a predetermined thickness up and down, and the ribs 42 have a plurality of connecting members 44 thinner than the thickness of the ribs 42. Connected by). In addition, the rigid grid 40 having such a shape is generally fixed to the block by pins.

However, in the case of the conventional block, the upper and lower blocks are not closely adhered to each other by the ribs 42 when the rigid grid 40 is coupled, so that there is a problem that the coupling between the blocks is not firm, and to fix the rigid grid. There was a problem in that it should be fixed using a separate fastening member, such as a pin.

Thus, in the present invention, when the rigid grid is disposed in the block (1), the rib portion 42 of the rigid grid 40 to form a seating portion to be seated in the block (1), the rib The space between the upper and lower blocks 1 is prevented by the 42, and the rigid grid 40 can be fixed to the block 1 without a separate fastening member.

In addition, the seating portion includes an upper seating portion 22 and a lower seating portion 24 to allow the upper and lower ribs of the rigid grid 40 to be seated.

In detail, the upper seating portion 22 allows the upper ribs of the rigid grid 40 to be seated, and is recessed and molded to a predetermined depth in the upper middle portion of the block 1.

In addition, the lower seating part 24 allows the lower rib of the rigid grid to be seated, and is recessed and molded to a predetermined depth from the left and right upper ends of the block.

Here, the distance between the upper seating portion 22 and the lower seating portion 24 is preferably formed equal to the distance between the upper and lower ribs of the rigid grid 40.

In addition, the upper seating portion 22 is formed with a pin insertion groove 26 into which pins for selectively securing the rigid grid can be inserted.

Accordingly, the ribs 42 of the rigid grid 40 are seated on the seating parts 22 and 24, so that the rigid grid 40 is fixed to the block 1 without a separate fastening member and at the same time, the upper and lower blocks ( 1) close contact with each other becomes possible.

In this case, when the pin is selectively inserted into the pin insertion groove 26, the rigid grid 40 may be firmly fixed to the block.

Therefore, according to this embodiment, the block 1 is configured to be coupled by the anchor 10 and the anchor seating groove 12, so that a flexible grid can be used as the reinforcement, and the seating portions 22 and 24 The rib 42 of the rigid grid 40 is configured to be seated in the crankshaft, so that the rigid grid 40 can be used as a reinforcing material. In other words, it is possible to mix and use a rigid grid and a flexible grid as a reinforcing material.

In addition, the block 1 is filled with gravel, and the filling hole 20 is formed to penetrate up and down to increase the binding force and strength of the retaining wall blocks constructed.

In addition, the rear side of the block 1 is formed with a coupling groove that can be coupled to the steel-bar (steel-bar) type of reinforcement in addition to the rigid grid and the flexible grid as the reinforcement.

In detail, the first coupling groove 32 is recessed to a predetermined depth in the vertical direction at the center of the upper surface of the block 1. In addition, one end of the first coupling groove 32 is positioned at the rear end of the block 1, and the other end thereof is connected to the filling hole 20.

The second coupling grooves 33 are formed on both sides of the first coupling groove 32 to be symmetrical with each other. In addition, the second coupling groove 33 includes an upper coupling groove 34 formed on the upper surface of the block 1 and a side coupling groove 35 formed on the side of the block 1.

The first coupling groove 32 and the second coupling groove 33 are formed in a semi-circular cross section, and are formed in the vertical direction of the block 1 like the first coupling groove 32.

Therefore, the coupling grooves 32 and 33 are formed in the block 1, so that a steel bar type reinforcement may be further used as the reinforcing material in addition to the rigid grid and the flexible grid, and the coupling groove may be the first coupling groove 32. ) And the second coupling groove 33, there is an advantage that can be combined with various types of steel bar.

Hereinafter, the process of constructing the retaining wall by the block 1 constituting the above-described configuration will be described.

FIG. 5 is a view showing a state where a rigid grid is disposed between upper and lower blocks, and FIG. 6 is a view showing a state where a steel bar type reinforcement is disposed on the block.

5 and 6, first, the site of the retaining wall to be constructed is selected, and a plurality of blocks 1 are prepared in consideration of the height and size of the retaining wall.

Then, the base trench is dug at the retaining wall installation point to secure the space necessary for backfilling the block. Next, build the first stage to be the base of the retaining wall. In detail, a plurality of the blocks are arranged in the horizontal direction.

Then, the next block is stacked above the arranged block (1). In this process, the anchor 10 is inserted into the anchor seating groove 12 to be mutually coupled between the blocks (1).

Then, after stacking the blocks 1 to a predetermined height, the soil is filled and laid and compacted to fill it.

Then, a grid reinforcement or steel bar reinforcement is laid on the blocks 1 and the laid and compacted fills stacked to a certain height.

In detail, when a flexible grid (not shown) is used as the reinforcing material, the flexible grid is disposed between the top and bottom of the block 1 without any fastening member.

And, when a rigid grid is used as the reinforcing material, the rib portion of the rigid grid is to be seated on the upper and lower seating portions 22, 24.

Then, as shown in FIG. 5, not only the rigid grid 40 can be fixed to the block 1 without a separate fastening member, but also the rib of the rigid grid 40 to the seating part 22. By mounting 42, the upper and lower blocks 1 can be in close contact with each other.

In this case, when a rigid fixing of the rigid grid 40 is required, a pin may be inserted into the pin insertion groove 26.

In addition, when using a steel bar in addition to the flexible grid or rigid grid as a reinforcing material, as shown in Figure 6, the steel bar is seated in the first coupling groove 32 or the second coupling groove (33).

After the reinforcement is placed, the filling soil is laid and compacted.

The retaining wall is constructed by repeating the process of stacking the blocks 1 one by one in the manner described above.

According to the present invention as proposed, there is an effect that the grid reinforcement can be coupled to the block without a separate fastening member.

That is, it is possible to fix the rigid grid simply by having the ribs of the rigid grid seated in the seating grooves without using a pin for joining the rigid grid.

In addition, the rib of the rigid grid is configured to be seated in the seating groove, there is an effect that can be in close contact with each other between the upper and lower blocks.

In addition, the coupling groove is formed on the rear side of the block, steel bar reinforcement may be further coupled to the reinforcement in addition to the grid reinforcement.

In other words, various types of reinforcement may be coupled to a single block.

Claims (11)

In the block for constructing a retaining wall of a certain height made by stacking a plurality of blocks in layers, At least one anchor is protruded on one side of the block, An anchor seating groove is formed on the opposite side of the anchor is seated, Retaining wall block structure, characterized in that at least one seating portion is formed on the upper side of the block on which a predetermined portion of the grid reinforcement is seated. The method of claim 1, The seating portion and the upper seating portion formed in the central portion of the block, Retaining wall block structure characterized in that it comprises a lower seating portion formed in the rear end of the block. The method of claim 2, Retaining wall block structure, characterized in that the distance between the upper seating portion and the lower seating portion is equal to the vertical length of the grid reinforcement. The method of claim 1, Retaining wall block structure, characterized in that the pin is formed with a pin insertion groove is inserted into the seat to secure the seated grid reinforcement firmly. The method of claim 1, Retaining wall block structure characterized in that the seating portion is formed long left and right. The method of claim 1, Retaining wall block structure, characterized in that the coupling groove is formed to the steel bar (steel-bar) type of reinforcement can be coupled to the rear side of the upper surface. The method of claim 6, The coupling groove is a first coupling groove formed in the center of the upper surface of the block, A retaining wall block structure, characterized in that second coupling grooves are formed on both sides of the first coupling groove to be symmetrical with each other. In the block for constructing a retaining wall of a certain height, which is made by stacking a plurality of blocks in a layer, the reinforcement is coupled between the blocks, On the upper side of the block is formed a seating unit for the grid reinforcement is coupled to the left and right, Retaining wall block structure, characterized in that the coupling groove is formed in the rear of the upper surface of the block to be coupled to the steel bar (steel-bar) type of reinforcement. The method of claim 8, Retaining wall block structure comprising the upper and lower seating portion spaced apart by the same distance as the vertical length of the grid reinforcement. The method of claim 8, Retaining wall block structure characterized in that the coupling groove is formed in the vertical direction on the rear side of the upper surface of the block. The method of claim 8, Retaining wall block structure, characterized in that the coupling groove is formed so that the pair is symmetric with each other on the rear side of the upper surface of the block.

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