KR20090087173A - Wall using steel bar - Google Patents

Abstract

A vertical retaining wall structure with natural stones having a block shape is provided to construct a high vertical retaining wall by using a conduction preventing wire and a conduction preventing strut. A vertical retaining wall structure with natural stones comprises a natural stone block(10), a hilti anchor(20), a link bar(30), a nut connector(40), an S-shaped linkage(50), a conduction preventing wire(60) and a conduction preventing vertical strut(70). The natural stone block is formed in the form of a retaining wall(2). The natural stone block is laminated between pitch rubber plates(12). The anchor hole is formed at the back side center of the natural stone block. The hilti anchor is inserted and fixed on each anchor hole. The link bar is connected between each hilti anchor. The link bar fastens the natural stone blocks. The front side of the nut connector is made of a nut(42). The rear side of the nut connector between is made of a loop(44). The nut connector prevents the separation of the link bar. The linkage is made of the loop shape. The conduction preventing wire is connected behind the link loop. The conduction preventing wire connects a plurality of stoppers. The conduction preventing vertical strut is vertically located to the inner side of the retaining wall.

Description

Vertical retaining wall installation structure using natural stone {WALL USING STEEL BAR}

The present invention relates to a vertical retaining wall installation structure using natural stones, and more particularly, to a vertical retaining wall installation structure using natural stones to quickly implement a solid vertical retaining wall using a natural stone block made of blocks. will be.

In general, the retaining wall is mainly constructed by stacking concrete blocks in multiple stages in order to prevent collapse when the slope of the ground is steep, and various methods for constructing the retaining wall are provided.

Such a retaining wall is a civil structure that is constructed to stabilize the slope by supporting the soil of the back while reducing the amount of soil when limiting the land in creating roads, railroads, rivers, etc. in the cut soil. After the construction of the wall and retaining wall, the construction is considered in consideration of the factors acting on the retaining wall.Typically, formwork is formed to cut soils in the construction area or fill the valleys and lower areas of the mountain area, and cast concrete. After curing, it is common to build the soil and crushed stone on the back of the concrete structure.

These reinforced concrete retaining walls are not desirable due to the cost of the construction and the long construction period because they are molded on site, and it is often difficult to secure the permissible mechanical stresses. Since it is installed, there is a problem that does not match with the surrounding environment and also provides an environment in which plants or algae, etc. do not inhabit the shaft wall itself, greatly harming the surrounding environment.

In order to solve the problems of the concrete retaining wall, a concrete block that can be stacked to a certain height is prepared in advance, and then the concrete blocks are transported to a place for building the retaining wall and laminated to each other, thereby reducing costs and construction period. There is a suggested way to do this.

However, the retaining wall by the concrete block has a problem of conduction safety due to the characteristics of the retaining wall formed by connecting and constructing the block. There is a problem in that deformation such as cracking is caused at the block connection part.

In addition, there is a problem such as being formed of a concrete structure of a simple shape, greatly hindering the surrounding aesthetics, impairing the comfort of the living environment.

Therefore, in recent years, as described above, a retaining wall having a predetermined height is manufactured by using a concrete block prepared in advance, and then a natural stone having a predetermined thickness is attached to the front surface of each concrete block constituting the retaining wall by using mortar. A method of stripping the concrete retaining wall structure has been proposed.

However, this is also a retaining wall structure made by connecting and constructing concrete blocks, so there is a problem in conduction safety. Therefore, there is a limited problem in application that only a relatively low vertical retaining wall can be constructed. There was a problem that the same deformation is caused.

In addition, after creating a retaining wall of a certain height through concrete blocks, natural stone must be added to the front of each concrete block through mortar, which causes air delay due to work delay and added natural stone after a certain period of time. There were problems such as whitening phenomenon.

The present invention has been made in view of the problems of the conventional retaining wall, the object is to install a vertical retaining wall using a natural stone to quickly and easily implement an environmentally friendly and solid vertical retaining wall using a natural stone block in the form of blocks (block) To provide structure.

Means for achieving the object of the present invention

A natural stone block in which a perforated rubber plate is laminated and connected to each other so as to form a retaining wall at a predetermined distance from the incision, and the anchor hole having a predetermined depth is formed at the rear center;

A Hilti anchor that is fitted and fixed to each anchor hole of the natural stone block that is stacked and connected to form the retaining wall;

A vertical link bar connected between each of the Hilti anchors to form a bond between natural stone blocks forming a retaining wall;

The front is made of a nut shape that can be fastened to the rear of the Hilti anchor, the rear is made of a ring shape, which is fastened to the rear of each Hilti anchor to prevent the separation of the link bar connected between the Hilti anchor Nut connector;

Consists of a ring shape that can make a connection in the front and rear, the front end is connected to the ring portion formed in the rear of each nut connector "S" type connecting ring;

An anti-conduction wire connected to the rear of each of the “S” -type connecting rings, wherein the anti-conduction wire is connected to and fixed to a plurality of stoppers to form a bond with the ground in the longitudinal direction to achieve an anti-conduction;

It is located vertically inside the retaining wall made of natural stone blocks, characterized in that it is configured to include an integrated vertical fall prevention strut connected to the "S" type connecting ring located at the rear of each natural stone block to form a bond. .

According to the present invention, it is possible to construct a vertical retaining wall that is environmentally friendly and has excellent appearance using natural stones.

In addition, despite the retaining wall structure formed by connecting and constructing the block-shaped natural stone, the fall prevention wire and the fall prevention vertical support are used, so the fall safety is excellent, so that the construction of the relatively high vertical retaining wall is possible, so that it is not limited to construction. It is effective for construction convenience.

In addition, the retaining wall is constructed by using the block-type natural stone, and perforated rubber plates are placed between each block-type natural stone to prevent the problem of deformation such as cracks in the laminated block connection part caused by self-weight and earth pressure when used for a certain period of time. It has the effect of prolonging the lifespan.

Hereinafter, the configuration of the present invention in detail with reference to the drawings.

1 is an exploded perspective view showing the required configuration of the vertical retaining wall installation structure using the natural stone of the present invention, Figure 2 is a side cross-sectional view showing the installation state of the vertical retaining wall installation structure using the natural stone of the present invention, Figure 3 is the present inventor 4 is a front view showing the installation state of the vertical retaining wall installation structure using natural stone, Figure 4 is a rear view showing the installation state of the vertical retaining wall installation structure using the natural stone of the present invention.

For reference, in describing the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the gist of the present invention, the detailed description thereof is omitted.

In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators.

Therefore, the definition should be made based on the contents throughout the specification.

As shown, the perforated rubber plate 12 is interposed between the incision 1 and the back filled ground 2 so as to form a retaining wall 4, and the anchor hole 14 has a predetermined depth at the center of the rear side. Hilti anchor 20 is fitted to each anchor hole (14) of the natural stone block 10 is laminated to form a retaining wall (4) is formed to form a retaining wall (4) is formed The link bar 30 is connected between each of the Hilti anchors 20 to form a binding between the natural stone blocks 10 forming the retaining wall 4.

And, the rear of each of the Hilti anchor 20, the front is formed with a nut 42 that can be fastened to the rear of the Hilti anchor 20, the rear is a nut connector (ring 44 is formed) 40 is connected to prevent the separation of the link bar 30 is connected between the Hilti anchor 20, the front and rear connection is provided in the ring 44 formed in the rear of the nut connector (40) The "S" -type connecting ring 50, which is formed integrally with the ring 52 at the front and the rear, is connected by using the ring 52 formed at the front, and each "S" -type connecting is possible. The back ring 52 of the ring 50 has a fall prevention wire 60 that connects and fixes a plurality of stoppers 62 to achieve fall prevention by increasing friction resistance with the backfilled ground 2 over the longitudinal direction. ) Is connected and installed.

In addition, in the back-filled ground 2 located behind the retaining wall 4 made of the natural stone block 10, the rear of the " S " type connecting ring 50 connected to the rear of each natural stone block 10 is located. Is vertically inserted and connected to the vertically formed anti-fall vertical strut 70 to achieve a fall prevention function by increasing the frictional resistance with the back ground (2) is configured.

The following describes the operational effects of the present invention with reference to the above technical components.

First, the construction method is briefly described to help understanding as follows.

At the time of construction, first, a scaffold (not shown) is installed on a flat surface adjacent to the incision 1, and then the natural stone block 10 formed at a predetermined size with a predetermined interval with the incision 1 along the scaffold has a predetermined height. The retaining wall 4 may be formed by building as much as possible.

At this time, the perforated rubber plate 12 is all placed on the surface between the natural stone blocks 10 to be built one by one, and the Hilti anchor (14) to the anchor hole 14 exposed to the rear of each natural stone block 10 constructed by a certain height Insert and fix all 20).

Subsequently, the link bar 30 is positioned between the Hilti anchors 20 positioned behind the retaining wall 4, and then the nut bar 40 is fastened to the rear of the Hilti anchor 20 to link the link bar 30. ) Is prevented from being separated and a solid bond between the natural stone blocks 10 forming the retaining wall 4 is achieved.

Then, the front ring 52 of the “S” -type connecting ring 50 is engaged with the ring 44 positioned behind the nut connector 40 located inside the retaining wall 4, The rear ring 52 is connected to the fall prevention wire 60 in which several stoppers 62 are connected to the rear ring 52 in the longitudinal direction, and is located at the rear of the “S” type ring 50. There is a vertical standing 70 to prevent the fall vertically inserted into the vertical standing state, and after the soil filling the space between the incision (1) and the retaining wall (4) to compact the construction is completed.

On the other hand, the backfilled soil is made of a mixture of soil cement or recycled aggregate and 3 to 4 bags of cement per 1m 3 in a 3: 1 ratio.

In this case, the back filling step is preferably performed sequentially after the above-described process from the inner bottom of the retaining wall 4.

The present invention, which can be assembled and used in practice, enables the construction of the vertical retaining wall 4 which is environmentally friendly and excellent in appearance by using natural stones and at the same time can be easily achieved.

In addition, as described above, the assembly and construction can be achieved through a relatively simple process, and although the retaining wall 4 structure is formed by connecting and constructing a block-shaped natural stone, the fall prevention wire 60 and the fall prevention vertical support 70 are provided. By using this, it is possible to construct a relatively high vertical retaining wall 4 having excellent conduction safety.

Then, the retaining wall 4 is constructed by using the natural stone block 10, but the perforated rubber plate 12 is placed between each natural stone block 10 so that cracks may be formed at the connection points of the laminated block due to self-weight and earth pressure when used for a certain period of time. It is possible to prolong the life by preventing the problem that the deformation is caused in advance.

In addition, as described above, the soil is not simply backfilled using ordinary soil, but is constructed using soil cement mixed with 2-3 bags of cement per 1㎥ or soil mixed with recycled aggregate and general soil in a 1: 3 ratio. Therefore, it is possible to further strengthen the strength of the backfilled soil.

For reference, the present invention may be variously modified and may take various forms. However, in the detailed description of the present invention, only specific embodiments thereof are described.

Therefore, it is to be understood that the invention is not to be limited to the specific forms referred to in the description, but rather to include all modifications, equivalents and alternatives falling within the spirit and scope of the invention as defined by the appended claims. It must be understood.

Figure 1 is an exploded perspective view showing the required configuration of the vertical retaining wall installation structure using the present inventors natural stone,

Figure 2 is a side cross-sectional view showing the installation state of the vertical retaining wall installation structure using the natural stone of the present invention,

3 is a front view showing the installation state of the vertical retaining wall installation structure using the present inventors natural stone,

Figure 4 is a rear view showing the installation state of the vertical retaining wall installation structure using the natural stone of the present invention.

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

1: incision 2: retaining wall

4: backfill ground

10 natural stone block 12 perforated rubber sheet

14: anchor ball

20: Hilti Anchor

30: link bar

40: nut connector 42: nut

44: ring

50: "S" type ring 52: ring

60: fall prevention wire 62: stopper

Claims (2)

The natural stone block 10 is formed by connecting the perforated rubber plate 12 so as to form a retaining wall 2 at a predetermined distance from the incision 1, and having an anchor hole 14 having a predetermined depth in the rear center. and; Hilti anchor 20 which is fitted to each anchor hole 14 of the natural stone block 10 is laminated to form the retaining wall (2); A link bar 30 connected between the Hilti anchors 20 to form a binding between the natural stone blocks 10 forming the retaining wall 2; The front is made of a nut 42 that can be fastened to the rear of the Hilti anchor 20, the rear is made of a ring 44, is fastened to the rear of each Hilti anchor 20 is the Hilti anchor 20 Nut connector 40 to prevent the separation of the link bar 30 is connected between; Consists of the shape of the ring 52 that can make a connection in the front and rear, "S" type connecting ring 50 is connected to the front of the ring 44 formed in the rear of each nut connector 40; Connected to the rear of each of the "S" type connecting ring 50, the coupling is fixed to a plurality of stoppers 62 to form a bond with the back-filled ground over the longitudinal direction to achieve fall prevention Prevention wire 60; Is located vertically inside the retaining wall (2) made of the natural stone block 10, is connected to the "S" type connecting ring 50 is located in the rear of each natural stone block 10 is connected to form a binding Vertical retaining wall installation structure using a natural stone, characterized in that it comprises an integral vertical support (70). According to claim 1, Soil cement or recycled aggregate mixed with 2-3 bags of cement per cubic meter of earth and sand is located between the incision 1 and the retaining wall (2) made of natural stone blocks (1) at regular intervals Vertical retaining wall installation structure using natural stone, characterized in that by mixing the 1: 1: ratio with the general soil.

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