KR100721875B1 - Joint unit of steel cell front block - Google Patents

Abstract

The present invention relates to a thin cell type front block connecting device, and provides a thin cell type front block connecting device which can effectively connect a steel cell type structure having flexibility and rigidity and an aesthetically superior block type front part. The present invention for this purpose is characterized in that in the joining of the steel cell structure and the block-type front portion, the steel cell connection is buried in one side of the front stone block for restraining the steel cell structure. According to the above configuration, the present invention can more effectively secure earth pressure resistance and design an excellent retaining wall structure.

Steel Cell, Front Block, Connector, Filler

Description

Joint unit of steel cell front block

1 is a cross-sectional plan view of a thin cell type front block connection device according to an embodiment of the present invention.

Figure 2 is a cross-sectional plan view of the assembled cell-type front block connecting device of Figure 1 assembled state.

Figure 3 is a cross-sectional plan view of the combination of the cell cell type front block connection device and the steel cell structure assembled as shown in FIG.

4 is a plan view of a conventional block type front part.

5 is a plan view of a conventional steel cell structure.

Explanation of symbols on the main parts of the drawings

100: thin cell type front block connection device 110: front stone block

112: connection hole 120: steel cell connection

122a, 122b: hook 124: through hole

The present invention relates to a thin cell type front block connecting device, and a thin cell type front block connecting device which can effectively connect a steel cell type structure having flexibility and rigidity and an aesthetically superior block type front part.

The existing earth pressure resistant steel structure has a structure using the composite behavior of soil and fiber reinforcement, and the steel frame structure has used the composite behavior of the steel structure and the internal filling material made of sandstone.

The soil and cell type fiber reinforcement used under the name of geoweb had disadvantages in terms of shape retention. In the case of steel frame structure, the overall behavior was severely changed according to the properties of the inner filling material, which caused limitations depending on the application area.

On the other hand, Figures 4 and 5 show another structure used for the retaining wall structure.

4 is a plan view of a conventional block type front part.

Block-type front portion 410 is made of a thick "H" shape and the coupling through-holes 412 for coupling between the block-type front portion 410 is formed at both ends.

The block type front part 410 is evaluated as a preferred form from the user because of its excellent aesthetics such as a vegetation retaining wall.

5 is a plan view of a conventional steel cell structure.

The steel cell structure 500 is composed of a fastener 520 for coupling between the steel 510 and the steel 510 of the corrugated structure, which forms the shape of the waveform and combines them to satisfy various types of curved linearity It can be made in the form of composite of earth body and steel corrugated structure and provides structure resisting earth pressure.

The steel cell structure 500 is advantageous in terms of shape maintenance at the time of installation due to the inherent rigidity of the steel, and has an advantage in terms of shape maintenance after construction.

In addition, the rigidity of the steel can be more freely compared to the ground reinforcing fiber in terms of the interior filling material, so that it can be applied even when the soil is not good, improved applicability.

Although the fiber reinforced ground structure of flexible structure was disadvantageous in terms of maintaining the shape of the structure, the role of fiber reinforcement was changed to the steel structure and the scale was increased to achieve a significant improvement in shape maintenance, rigidity and workability.

In the design of the retaining wall using the steel cell structure 500 having the above-mentioned advantages, the reinforcing cell is formed by using the flexible yet rigid steel, and the filling material is introduced into the reinforcing lattice of the corrugated wave to resist earth pressure. And could maintain its own weight.

Here, the steel in the form of a cell is connected to each other to form a layer to resist transverse earth pressure.

In addition, the retaining wall using the steel cell structure 500 is generally used in the form of a vegetation-type retaining wall, in order to improve the aesthetics, planting annual or perennial plants in the stepped portion formed at one end thereof.

However, such a vegetation-type retaining wall is difficult to manage the plant continuously, contrary to the original purpose, there is a problem that spoils the beauty.

The present invention has been proposed to solve the above problems, and an object of the present invention is to provide a thin cell type front block connecting device that can effectively connect the steel cell type structure having a flexible and rigid and aesthetically excellent block type front part.

The present invention for achieving the above object is characterized in that in the joining of the steel cell structure and the block-type front portion, the steel cell connection is buried in one side of the front stone block for restraining the steel cell structure.

Preferably, the steel cell connecting portion may have a hook having a shape that is engaged with each other on one side and the other side.

Preferably, the hook may have a through hole penetrating the inside thereof.

Preferably, the steel cell connection portion may be connected to the steel cell structure through a fastener.

Preferably, the steel cell connection portion may be connected to the steel cell structure by bolts or rivets.

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

1 is a plan cross-sectional view of a thin cell type front block connection device according to an embodiment of the present invention.

The thin cell type front block connection device 100 includes a steel cell connection part 120 embedded at one side of the front stone block 110 that restrains the steel cell structure 500. The steel cell connection part 120 prepared before curing is disposed by curing as shown in FIG. 1.

The front stone block 110 is made of a thick "H" shape and the connection hole 112 for coupling between the front stone block 110 is formed at both ends thereof.

Steel cell connection portion 120 is formed in a waveform of a shape suitable for coupling with the steel cell structure 500 as described later, one side for the connection between the thin cell type front block connection device 100 as described below On the other side and the hooks 122a and 122b are formed to engage with each other.

In addition, the steel cell connection portion 120 is formed with a through-hole penetrating the inside of the hook (122a, 122b) for coupling with the steel cell structure 500 as described later.

2 is a cross-sectional plan view of the thin cell type front block connecting device of FIG.

The thin cell type front block connection device 100 is connected to each other through the steel cell connection part 120, which is illustrated by the hooks 122a and 122b provided at both sides of the steel cell connection part 120. Is achieved.

That is, the adjacent thin cell type front block connecting device 100 is connected to the hook 122a of the one thin cell type front block connecting device 100 and the other adjacent thin cell type front block connecting device 100. Hooks 122b are engaged with each other.

In this case, in order to secure the connection between the thin cell type front block connecting device 100, fasteners such as bolts or rivets may be inserted into the through holes 124a and 124b formed in the hooks 122a and 122b. .

FIG. 3 is a cross-sectional plan view of a thin cell type front block connecting device assembled as shown in FIG. 2 and a steel cell structure. FIG.

As shown in FIG. 2, the thin cell type front block connection device 200 connected to each other adjacent to each other is connected to the steel cell structure 500 through a fastener 310 to form a single structure 300. To form.

Here, the fastener 310 includes a bolt or rivet, and also includes a fastener 510 used in the conventional steel cell structure 500.

By forming a plurality of stages using such a structure 300, and injecting a filling material such as soil, it is possible to resist the transverse earth pressure by maintaining the proper lateral support and self-weight, and to form an aesthetically excellent retaining wall structure. .

As described above, the thin cell type front block connecting device according to the present invention is flexible by embedding the steel cell connecting portion on one side of the front stone block that constrains the steel cell structure in joining the steel cell structure and the block type front part. It is possible to connect the block-type front part which is evaluated as the preferred form by the users because it has excellent aesthetics such as steel cell type structure and vegetation retaining wall with over rigidity, so it is possible to design earth retaining wall structure more effectively while securing earth pressure resistance. Can be.

Claims (5)

In the joining of the steel cell structure constituting the retaining wall structure and the front stone block, The thin cell type front block connecting device, characterized in that the steel cell connecting portion is embedded in one side of the front stone block for restraining the steel cell structure. The method of claim 1, The steel cell connection unit is a thin cell type front block connection device, characterized in that the hook is formed on one side and the other side of the shape is engaged with each other. The method of claim 2, The hook cell-type front block connecting device, characterized in that the through-hole is formed penetrating the inside thereof. The method of claim 2, The steel cell connection unit is a thin cell type front block connection device, characterized in that connected to the steel cell structure through a fastener. The method of claim 3, wherein The steel cell connection unit of the thin cell type front block connecting device, characterized in that connected to the steel cell structure by a bolt or rivet.

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