KR100699707B1 - Reinforcing pin for gabion retaining wall and reinforcing structure of gabion retaining wall using the same - Google Patents

Abstract

The present invention relates to a reinforcement pin for gabion retaining wall and a retaining wall structure using the same, comprising: a pair of reinforcing bars having a predetermined length at regular intervals; And a connecting rod connected to each other at a predetermined position of the reinforcing rod to connect and support the reinforcing rod to have a predetermined distance, and inserting and fastening between the rectangular gabions constructed on the retaining wall such as a surface using a reinforcing pin formed to have an overall H shape. As a result, the Gabion can be firmly bonded to each other, thereby maintaining the retaining wall in a stable manner, thereby improving durability, and preventing the Gabion's overloading phenomenon.

Gabion, Retaining Wall, Reinforcement Pin, Reinforcement, Connecting Rod

Description

Reinforcement pin for gabion retaining wall and retaining wall structure using the same {REINFORCING PIN FOR GABION RETAINING WALL AND REINFORCING STRUCTURE OF GABION RETAINING WALL USING THE SAME}

1 is a perspective view of the reinforcement pin for gabion retaining wall according to the present invention.

Figure 2 is a view showing an embodiment of the Gabion retaining wall is applied to the H-shaped reinforcement pins according to the present invention.

Figure 3 is a view showing another embodiment of the gabion retaining wall using a reinforcement pin according to the present invention.

      Explanation of symbols on the main parts of the drawings

      10: reinforcement pin 11: reinforcement

      12: connecting rod 20: Gabion

21: wire frame 22: wire mesh

The present invention relates to a gabion retaining wall reinforcement pin and a retaining wall structure using the same, and more particularly, to a gabion retaining wall structure reinforcement by inserting the reinforcement pin having an H shape and the reinforcement pin on the connection portion between the gabion.

Conventionally, concrete blocks or retaining walls have been mainly used in riverbanks, reservoirs, banks, waterways, and roadside retaining walls.However, in order to prevent environmental pollution and protect ecosystems, the use of gabion retaining walls has recently increased. have.

Typically, Gabion is made of hexagonal or square mesh with twisted galvanized wire or PVC coated on it, and the galvanized wire has the advantages of excellent corrosion resistance, acid resistance and durability, and improvement of environment. It is known that there is.

The gabion is filled with stones such as pebbles or crushed stones having a size of about 100 to 300 mm, and is well drained due to the space between the stones filled in the gabion to prevent collapse due to internal water pressure and environmental friendliness. outstanding.

As such, gabion is superior in performance in many respects to other structures such as concrete retaining walls, and the demand for civil engineering is increasing recently.

In order to install the Gabion on a river bank, a waterway or a surface, it is necessary to first assemble and install a metal mesh made of mesh wood in the field, and then install it in order by filling a certain amount of stones or aggregates therein with manpower. .

However, the conventional Gabion retaining wall is not provided with a structure that can be integrated while only fixing the separate Gabion between adjacent Gabion using an iron wire or the like while organically connecting each Gabion.

In addition, the conventional Gabion retaining wall causes horizontal deformation due to the vertical pressure accumulated after being built, and there were various problems. In other words, the Gabion retaining wall installed on the surface of the Gabion retaining wall is forced to pressurize the Gabion's wire frame and net due to its own vertical load transmitted downwards, resulting in partial deformation of the Gabion retained wall and drastic changes in the surrounding environment due to flooding. There was even the risk of collapse on change.

In addition, in the conventional case, since the gabion retaining wall must be fixedly installed while setting the correct position, the construction is difficult and the work efficiency is lowered.

Therefore, there is an urgent need for a retaining wall structure capable of reinforcing the binding force by unifying the gabions while conveniently constructing the gabion retaining wall.

The present invention has been made in order to solve the above problems, the gabion retaining wall reinforcement pins to prevent the Gabion from causing deformation by the vertical pressure and at the same time to strengthen the binding force between the gabion to install the gabion retaining wall of a stable structure The purpose is to provide.

In addition, the present invention provides a gabion retaining wall having a natural friendly environment at the same time to improve the workability and to install a solid retaining wall by fixing and connecting the Gabion each other more efficiently when the installation of the Gabion retaining wall more efficiently, and by unifying the Gabion Its purpose is to.

Reinforcing pin for gabion retaining wall according to the present invention for achieving the above object is a pair of reinforcing rod having a predetermined length at regular intervals; And a connecting rod connected to each other at a predetermined position of the reinforcing rod to connect and support the reinforcing rod to have a predetermined distance, and thus have an H-shape as a whole.

In addition, the gabion retaining wall structure using a reinforcing pin according to the present invention is a gabion retaining wall structure made of a plurality of square gabion that is woven in a hexagonal or square iron wire and filled with a stone therein, each gabion at the contact portion of the gabion By inserting and fastening the H-shaped reinforcement pin to be coupled to accommodate the wire frame of the reinforcement so that the four Gabion is integrated with each other.

Hereinafter, a reinforcement pin for a gabion retaining wall and a retaining wall structure using the same according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the gabion retaining wall reinforcement pin 10 according to the present invention has an H-shape. That is, the reinforcement pins 10 according to the present invention are connected to each other at a predetermined position of the pair of reinforcing rods 11 having a predetermined length and at a predetermined interval, and the reinforcing rods 11 have a predetermined interval. It comprises a connecting table 12 to support the connection so as to have an H-shape as a whole.

The reinforcing pin 10, that is, the reinforcing rod 11 and the connecting rod 12 preferably have a material and a thickness sufficient to fix the retaining wall as a metal material. The reinforcing rod 11 and the connecting rod 12 is an iron wire having a diameter of 3 ~ 16mm, the cross section is appropriate, but can be applied to a square or the like, of course.

In addition, what is necessary is just to determine suitably the length of the said pair of reinforcement stand 11, and the position which connects the connection stand 12 so that they may mutually support them. That is, the length of the reinforcement stand 11 and the connection position of the connection stand 12 can be suitably adjusted as needed, such as the height of a gabion.

The spacing between the reinforcing rods 11 can also be appropriately adjusted. That is, the spacing between the reinforcing rods 11, that is, the length of the connecting rod 12 may be adjusted to have an appropriate interval within the extent that the reinforcing rod 11 can receive and fix the wire frame constituting the gabion. .

Of course, the length and spacing of the reinforcing rod 11 and the position where the connecting rod 12 is connected, etc. can be convenient in construction by standardizing to the standardized Gabion size.

Hereinafter, the process of fixing the reinforcing pin 10 according to the present invention to the retaining wall will be described in detail according to the process of constructing the retaining wall.

Gabion 20 built on the slope is usually standardized to a cube of 1m × 1m × 1m size.

The corner portion of the gabion 20 is made of a wire frame 21 having excellent rigidity, and each side is twisted to overlap the iron wire coated with a special galvanized or PVC, which is relatively thinner than the wire frame 21. It is made of a wire mesh 22 having a hexagonal or square mesh eye.

The constructed gabion is constructed on the slope, at which time the floor is first evenly and then in turn.

Conventional Gabion retaining wall was generally tied to a separate iron wire in order to build a gabion in order to strengthen the binding force with the surrounding Gabion. Therefore, there is a possibility that deformation of the gabion retaining wall or separation between the gabions may occur due to changes in the surrounding environment such as a vertical load or a flood of the conventional gabion retaining wall.

However, when the reinforcement using the H-shaped reinforcement pin 10 according to the present invention, the position between the gabion is fixed and the coupling force is maximized to keep the retaining wall stable.

2 shows a gabion retaining wall reinforced using an H-shaped reinforcement pin 10 according to the present invention.

As shown in FIG. 2, first, the first row is installed on the ground, and then the Gabion is coupled by vertically inserting a reinforcement pin 10 having an H shape according to the present invention between adjacent Gabion 20. . That is, the reinforcing bar 11 of the reinforcing pin 10 is inserted so that the gaebion 20 receives two iron wire frames 21 which are in contact with each other. The reinforcing pin 10 is preferably fitted in close contact with the front and rear corners of the gabion adjacent. Of course, the position or number of the reinforcement pin 10 can be arbitrarily selected appropriately.

As such, when the first row of gabions are installed side by side and the H-shaped reinforcement pins 10 according to the present invention are inserted to couple adjacent gabions to each other, the connecting table 12 of the reinforcement pins 10 is connected to the first row. It is located in the upper surface of the adjacent part between the installed Gabion. That is, the upper side of the reinforcing rod 11 of the reinforcing pin 10 may protrude to the upper portion of the gabion in the first row, and may be installed in order to fit the second column of gabion to the upper side of the protruding reinforcing rod 11. In this case, the reinforcing pins 10 may be formed with grooves on one side of the connecting table 12 so that the reinforcing pins 10 may be better fitted to the wire frame 21.

As described above, when the H-shaped reinforcement pin 10 is fastened to where four gabions meet, one reinforcement pin 10 is fixed at the same time four upper and lower left and right to reinforce the gabion and at the same time between the Gabion Strengthen the bond. That is, the reinforcing bar 11 of the reinforcing pin 10 is vertically disposed along the edge portion where the gaebion iron wire frame 21 is in contact with each other to reinforce and support the gabion. Here, the length of the connecting rod 12, that is, the distance between the two reinforcing rods 11 is determined according to the thickness of the wire frame, it is preferable to have a slight margin so that there is no inconvenience in installation.

In addition, after fastening the reinforcing pin 10, it is preferable to further strengthen the bonding force by tying the reinforcing rod 11 and the wire frame 21 with a separate iron wire.

Meanwhile, the reinforcement pin 10 may be first installed so that the first row is fixed to the ground, and then the first row may be constructed. In this case, the bond between the ground and the retaining wall is also strengthened.

When the retaining wall is installed while fitting the H-shaped reinforcing pin 10 according to the present invention between the gabions, the gabions are integrated with each other to maintain the strength of the retaining wall, as well as the alignment between the gabions during construction is convenient. Can improve performance and efficiency.

In addition, in many cases, when the gabion retaining wall is constructed, a nonwoven fabric (not shown) is laid in advance, and in order to connect the gabion to the nonwoven fabric, a separate connecting ring is used, and the reinforcement pin 10 is used as in the present invention. If used, the nonwoven fabric can be easily fixed to the protruding portion of the reinforcement pin 10, thereby further enhancing the convenience of work.

When using the H-shaped reinforcement pin 10 according to the present invention to fasten between the gabion 20, it is possible to reinforce the gabion and to strengthen the coupling force between the gabion and at the same time prevent the slip of the base end.

3 shows another embodiment of a gabion retaining wall according to the present invention. That is, by installing and installing the H-shaped reinforcing pin 10 on the front part of the gabion 20, it is possible to prevent horizontal deformation, that is, a full stomach phenomenon due to the vertical pressure of the gabion 20.

In addition, the H-shaped reinforcement pin 10 according to the present invention can be actively modified to apply the fastening position and number to suit the purpose and use.

The present invention has the effect of providing a reinforcement pin for the Gabion retaining wall can be easily reinforced construction of the Gabion retaining wall and to strengthen the bonding force by integrating the Gabion.

In addition, the present invention can securely maintain the retaining wall by strengthening the bonding between the gabion constituting the retaining wall to improve the durability, and prevent the gabion full load phenomenon to firmly support the gabion.

In addition, the H-shaped reinforcement pin according to the present invention can be supplied to the work site by selecting the appropriate size if necessary according to the purpose of use and use can improve the work efficiency for laminating the Gabion retaining wall have.

As described above, the present invention relates to an H-shaped gabion retaining wall reinforcement pin and a reinforced retaining wall structure, and the present invention may be variously modified and changed without departing from the technical spirit thereof.

Claims (4)

A pair of reinforcing bars having a space for accommodating two frame iron wires which are inserted so as to be vertically inserted into a portion where the left and right gabions are in contact with each other and in contact with each other to be in contact with each other. Reinforcing pins for gabion retaining wall is formed to have a H-shape comprising a connecting rod connected horizontally at a predetermined position of the reinforcement to support the reinforcement to maintain the gap. The reinforcing pin for gabion retaining wall according to claim 1, wherein the reinforcing rod and the connecting rod are made of a metal material having a diameter of 3 to 16 mm. The reinforcement pin for gabion retaining wall according to claim 1, wherein the length and the spacing of the reinforcing rod and the position where the connecting rod is connected are standardized according to the standardized Gabion retaining wall size. In the gabion retaining wall structure formed by constructing a plurality of square gabions, which are woven with hexagonal or square iron wires and filled with stone, The adjacent four by inserting and tightening the reinforcing pin for the H-shaped gabion retaining wall according to claim 1 so as to receive the iron frame of each gabion in contact with the gabion contact each other in contact with the inner side of the gabion one side in contact with each other. Gabion retaining wall structure, characterized in that the reinforcement so that the dog Gabion is integrated with each other.

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