KR200406771Y1 - Retaining wall blocks - Google Patents

Abstract

The present invention relates to a block used in the construction of the retaining wall, and more particularly, in order to have a simple structure, the blocks used in the retaining wall construction can be easily loaded without fluidity to each other without additional fixing means.

In the block which is manufactured and loaded as a single object during the construction of the retaining wall, the block has a wall portion having a curved outer surface on one side thereof, and a support portion having a width smaller than the width of the wall portion and having the same height on the other side thereof. The wall portion and the support portion is integrally formed by the connection between the width of the wall portion and the width smaller than the support portion, and the retaining wall block, characterized in that the flow barrier is formed in the upper portion between the connection.

Retaining wall, block, wall, support, connection

Description

Block for retaining wall

1 is a perspective view schematically showing the main part of the present invention.

Figure 2 is an exploded perspective view of the main portion schematically showing the construction state of the present invention.

3a is a schematic longitudinal cross-sectional view according to FIG. 2;

3b shows a schematic plan view of the main part according to FIG. 3a;

Figure 4a is a perspective view of the main portion schematically showing another embodiment of the present invention.

4B is a schematic front view of the main portion of the constructed state according to FIG. 4A;

Figure 5 is a main view schematically showing another embodiment of the present invention the construction.

Explanation of symbols for the main parts of the drawings

10: block

   12 wall portion 12a inclined surface

   14: support portion 16: between connections

   16a: flow prevention jaw

110: floor support 120: upper support

The present invention relates to a block used when constructing a retaining wall. More specifically, the retaining wall block has a simple structure and is loaded on a retaining wall block so that the construction can be easily carried out without fluidity. It is about.

Generally, retaining wall refers to a wall that resists earth pressure and prevents soil from collapsing, that is, a steeper slope of a stable slope of the ground surface. It refers to the structure made to prevent the ground collapse that occurs when.

Such a retaining wall is mainly needed for stacking soil, cutting down mountains, filling shores, etc., and the shaft wall, which is widely used since ancient times, belongs to this, and many concrete blocks are currently used.

As such, the conventional concrete block used in the construction of the retaining wall is a method of forming a retaining wall by constructing a block made of a single object mostly, that is, mortar and fixing the block and the block to each other.

However, such a construction method has a problem that not only the work is quite cumbersome but also takes a long time as the concrete blocks are fixed by mortar.

In addition, as the mortar is hardened between the block and the block, it takes a certain time until the hardening time does not serve as a retaining wall, and the construction time is also long.

On the other hand, in recent years, a method of filling the soil while loading several blocks instead of fixing by mortar has been proposed, but in the case of such a retaining wall block, its structure is not only complicated, but also difficult to manufacture accordingly. Had

In addition, the biggest problem in the above-described conventional retaining wall has a problem that a separate drainage means must also be provided inevitably due to the problem that the retaining wall is overturned when the earth pressure is generated by rainwater after construction of the retaining wall using a plurality of blocks.

Accordingly, the present invention has been made to solve the conventional problems as described above, the purpose is to have a simple structure of the block used during the construction of the retaining wall, so that the construction can be easily installed without fluidity with each other without a separate fixing means There is.

Another object of the present invention is to ensure that the drainage is also smooth.

The present invention for achieving the above object, in the block to be manufactured and loaded as a single object during the construction of the retaining wall, the block is formed on one side of the wall forming the outer surface curved surface, the other side is smaller than the width of the wall portion A support portion having a width and having the same height is formed, and the wall portion and the support portion are integrally formed by a connection between the width of the wall portion and the support portion smaller than the width, and a flow barrier is formed between the connections. It is done.

The flow preventing jaw is formed to protrude more than the upper surface of the wall portion and the support portion in the same width on the upper surface between the connection.

The chamfered inclined surface is formed on both sides of the upper end of the wall portion.

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

1 is a perspective view schematically illustrating main parts of the present invention.

As shown in the block () used in the construction of the retaining wall that forms a wall that resists earth pressure and prevents soil from collapsing,

The present invention, in order to have a simpler structure and can be easily made by loading without fluidity to each other without a separate fixing means,

The block 10 has a wall portion 12 formed to form a wall of the retaining wall to form a curved surface on one side, the other side has a width (W2) smaller than the width (W1) of the wall portion 12 It is formed at the same height and the support portion 14 is formed to be embedded like the connection described later by the soil, etc., The wall portion 12 and the support portion 14 is the width of the wall portion 12 and the support portion 14 ( W1) (W2) is formed integrally connected by the connecting portion 16 of the width (W3) smaller than the connection between the connection between the connection and the connection of the block when loading the block to minimize fluidity It is shown that the flow prevention jaw (16a) is formed.

The flow preventing jaw (16a) is preferably formed to protrude more than the upper surface of the wall portion 12 and the support portion 14 in the same width on the upper surface between the connection (16).

2 is a perspective exploded perspective view schematically showing a construction state of the present invention, Figure 3a is a schematic longitudinal section of the main part according to Figure 2, Figure 3b is a schematic plan view of the main part according to Figure 3a.

As shown in the configuration as shown, first, the wall portion 12 is stacked on the bottom surface to be located in the place to be constructed, and then the flow stopper (16a) formed on the upper surface of the connecting rod 16 is Stack to the top.

Then, the flow prevention jaw formed on the upper surface of the connecting rod 16 of the bottom block 10 while loading the wall parts 12 alternately positioned, that is, shifted to the top of the block 10 stacked on the bottom surface. The stack is placed so that the space between the connecting rods 16a of the block 10 stacked above the stack 16a is located.

In addition, as described above, in the space between the support portion 14 and the connecting rod 16 on the rear side of the block, the earth is loaded with the block 10 and the like while being loaded.

Accordingly, when the block and the block according to the construction of the retaining wall are simply connected and fixed without a separate fixing means, the loading is made, and the wall part of the front forms the retaining wall.

Therefore, using a block having a simple structure, it is possible to have a condition for constructing a retaining wall without a cumbersome fixing means and without flow.

Figure 4a is a perspective view of the main part schematically showing another embodiment of the present invention, Figure 4b is a schematic main front view of the constructed state according to Figure 4a.

In the above configuration as shown, in order to prevent the earth and sand pressure to be generated by the smooth drainage by rain water in the state of the block of the present invention is constructed as a retaining wall,

It is shown that the chamfered inclined surface (12a) is formed on both sides of the upper end of the wall portion (12).

Accordingly, as described above, after constructing the retaining wall with a plurality of blocks, a drainage hole is formed between the wall part and the wall part due to the chamfered inclined surface of the wall part, so that water due to rain water is smoothly drained. In accordance with the earthquake pressure due to rain, etc. will also have a condition to prevent the retaining wall overturning.

Figure 5 is a principal view schematically showing another embodiment of the present invention construction.

As shown in the present invention as described above, the block 10 can be stacked to form a vertical plane when loading the block 10, as well as the way to load the block in the manner as described above in the inclined area while loading The block is mounted in the manner described above on the bottom pedestal 110 and the pedestal that is installed inclined even when the retaining wall is installed, and by using the upper support 120 to fix the stacked block so as not to overturn In addition, it shows that construction is simple and easy even in inclined areas.

As described above, the present invention has a simple structure for the construction of the retaining wall, so that the construction can be easily carried out without fluidity, without additional fixing means. It will have an effect that can significantly shorten the period.

In addition, since the drainage is smoothly made due to the inclined surfaces chamfered on both sides of the upper end of the wall portion, the retaining wall constructed by rainwater or the like also has an effect of preventing overturning due to soil pressure.

Claims (3)

In the block that is manufactured and stacked as a single object during construction of the retaining wall, The block 10 has a wall portion 12 having a curved outer surface on one side thereof, and a supporting portion 14 having a width W2 smaller than the width W1 of the wall portion and having the same height on the other side thereof. The wall portion and the supporting portion are integrally connected by the connecting portion 16 having a width W3 smaller than the width W1 and W2 of the wall portion 12 and the supporting portion 14, and the connecting portion 16 Retaining wall block, characterized in that the flow prevention jaw (16a) is formed on the top. The retaining wall block according to claim 1, wherein the flow preventing jaw (16a) is formed to protrude more than the upper surface of the wall portion and the support portion with the same width on the upper surface between the connections. The retaining wall block according to claim 1 or 2, wherein the chamfered inclined surface (12a) is formed on both sides of the upper end of the wall portion (12).

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