KR101185940B1 - Metal strip reinforce member for construct reinforced earth retaining wall and construction method thereof - Google Patents

Abstract

The present invention relates to a metal strip reinforcing member embedded in the reinforcement soil to support the retaining wall when the reinforcing soil retaining wall is constructed, the production process is simple and in its own form or in the installation of a separate passive resistor in the state embedded in the reinforcing soil. By improving passive resistance, the length of the metal strip reinforcement is shortened, so that the front end of the retaining wall is coupled to the front end of the retaining wall so that even when the backfill section is short, the end portion is coupled to the reinforcement soil behind the wall 10. A metal strip reinforcement 100 embedded in the sieve 20 to support the wall 10, wherein the metal strip reinforcement 100 has an anchor portion 110 coupled to the wall 10 at a tip thereof. An incision line 120 (or a hole) is formed in a portion embedded in the reinforcement soil 20 along one or both of the left and right sides of the incision line 120 (or the hole). By forming the protrusions 122 and 124 by pressing, coupling holes 126 into which the passive resistor 130 for adding passive resistance at the side of the metal strip reinforcement 100 are fitted are formed.

Description

Metal strip reinforcement for constructing retaining wall retaining wall and its construction method {Metal strip reinforce member for construct reinforced earth retaining wall and construction method

The present invention relates to a metal strip reinforcing member embedded in the reinforcement soil to support the retaining wall when constructing the retaining soil retaining wall and its construction method, the production process is simple and its own form or separate manual in the state embedded in the reinforcement soil By improving the passive resistance by installing a resistor, the length of the metal strip reinforcement can be shortened, so that a strong retaining wall can be constructed even in a short backfill section.

The prior art related to the present invention is a block prefabricated earth retaining wall using the metal strip reinforcement of the applicant's patent application No. 2009-0055673, which is a block forming the front surface of the retaining wall as shown in FIG. 1) and a metal strip-shaped reinforcement 3 which is embedded in the reinforcement soil 2 behind the block 1 and whose tip is anchored to the block 1 to support the block 1. 1) is a protrusion is formed on the left and right sides so as to interlock the up and down adjacent to each other, and the recess is formed in the left and right side is inserted into the protrusion, the metal strip-shaped reinforcement (3) between the protrusions on the left and right sides of the upper surface portion (3) The reinforcing member insertion groove is inserted into the front end of the reinforcement insert is fixed to the rear side, the metal strip-shaped reinforcement (3) has an anchor portion (4) coupled to the block (1) is formed at its front end, the metal strip type After the steel material (3) end portion, and consists of a metal strip reinforcement (3) the connecting member 5 is bonded engagement holes (6) structure in which a perforation is to add the passive resistance to the connection between the adjacent right and left.

On the other hand, the conventional metal strip-like reinforcement as described above is formed in a simple thin plate shape when the force is received in the state embedded in the reinforcement soil is weak passive resistance with the soil, the coupling hole for anchor pin coupling and There was a problem in that the productivity was reduced by drilling the coupling holes for coupling the connection member (passive resistor) by drilling, and the bending work was performed so that both ends of the connection member 5 were perpendicular to the downward direction. In addition to the increase in cost, there was an inconvenience in that the lengths of the connecting members should be made differently each time the right and left installation intervals of the reinforcement were different.

In addition, in order to increase the passive resistance, it is proposed that the form of protrusions formed on the upper and lower surfaces of the metal strip-shaped reinforcement or the protrusions formed on the side of the reinforcement is used, but the productivity is lowered and the manufacturing cost is high, thereby increasing the cost. There was a problem that caused an increase in cost.

The present invention has been made to solve the above-mentioned conventional problems, the object of the present invention is to simplify the production process of the strip reinforcement material by the installation of its own form or a separate passive resistor in the state embedded in the reinforcement soil. The present invention provides a metal strip and a method of constructing the same, so that the construction cost can be reduced and the length of the metal strip reinforcement can be shortened so that a strong retaining wall can be constructed even in a short backfill section.

In order to achieve the above object, the present invention provides a metal strip reinforcing member having a front end coupled to a wall forming a front surface of a retaining wall and embedded in a reinforcement soil behind the wall to support the wall; The metal strip reinforcement has an anchor portion coupled to the wall at its distal end, and an incision line or a hole is formed in a portion embedded in the reinforcement soil in the longitudinal direction, and either one of the left and right sides of the incision line or the hole is used for press work. It provides a metal strip reinforcement formed with a coupling hole in which a passive resistor for fitting the passive resistance at the side of the metal strip reinforcement is formed by forming a protrusion toward the top or bottom or staggered both sides up and down.

In the present invention, the anchor portion may be formed in the same form as a known pin hole penetrated up and down or a coupling hole in which the passive resistor is fitted.

In the preferred embodiment of the present invention, the coupling holes are formed in plural at regular intervals along the longitudinal direction of the reinforcing material so as to impart suitable passive resistance to the construction site.

In another embodiment of the present invention, a plurality of incisions or slits are formed along the length direction and the protrusions are pressed upward and downward to equalize the width of the reinforcing material.

In the present invention, the coupling hole may be formed in a circle or polygon.

The construction method of the present invention is to secure the anchor portion of the front end to the front wall to form the front of the retaining wall, the rear end is spread over the reinforcement earth body, and then various passive resistors such as reinforcing bars, steel bars or wires in the coupling hole formed in the rear of the metal strip reinforcement Inserted from the side to connect with adjacent metal strip reinforcements or cover and reinforce the reinforcement bodies in separate installations so as to provide passive resistance to the metal strip reinforcements.

The metal strip reinforcement of the present invention can simplify the production process because the coupling hole through which the passive resistor can be coupled by pressing the projections up and down while forming cut lines or holes in the production of the reinforcement. Since the passive resistance can be improved by the protrusions that are alternately projected up and down or embedded in the coupling holes in the state of being embedded in the reinforcement soil, the length of the metal strip reinforcement can be shortened so that the backfilling section is short. It has a useful effect such as the construction of the retaining wall.

1 is a perspective view of a construction state of a strip reinforcement according to an embodiment of the present invention,
2 is an enlarged view of a portion A of FIG. 1;
3 is a cross-sectional view of the construction state of the strip reinforcement according to an embodiment of the present invention,
4 is a process of forming a coupling hole by pressing after forming the incision line,
Figure 5 is a process of forming a coupling hole by pressing after the formation of the hole,
6 is a perspective view of a construction state of the strip reinforcement according to another embodiment of the present invention,
7 is an enlarged view of a portion B of FIG. 6;
8 is a perspective view of a strip reinforcement according to another embodiment of the present invention,
9 is a plan view of the reinforcing material shown in FIG.
10 is a plan view showing various examples of installing a passive resistor (rebar) in the reinforcement of the present invention,
11 is a state diagram of the construction of the metal strip reinforcement according to the prior art.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 to 3 illustrate a metal strip reinforcement and a construction state thereof according to the first embodiment of the present invention. In this embodiment, a tip is coupled to a wall 10 forming a front surface of the retaining wall, and the wall 10 ) A metal strip reinforcement 100 embedded in the rear reinforcement soil 20 to support the wall 10, and the metal strip reinforcement 100 is anchored to the wall 10 at an end thereof. Is formed, and the incision line 120 is formed along the longitudinal direction at the portion embedded in the reinforcement soil 20, and the left and right portions of the incision line 120 is formed by the protrusions 122 and 124 alternately up and down by pressing. At the side of the metal strip reinforcing material 100, a coupling hole 126 to which the passive resistor 130 for adding passive resistance is fitted is formed.

In the present invention, the metal strip reinforcement 100 means various metals including galvanized steel sheet, and the anchor portion 110 at the tip of the strip reinforcement 100 is formed of a conventional pin hole to which the anchor pin 30 is coupled. have.

On the other hand, in the present invention, the anchor portion 110 is not limited to the pin hole shape, it can be made of the same form as the coupling hole 126 formed in the rear end of the strip reinforcement 100, of course, another embodiment An example will be described.

In the present embodiment, the coupling holes 126 into which the passive resistor 130 is inserted are formed in plural (five in the drawing) at regular intervals along the longitudinal direction of the strip reinforcement 110 as shown in the drawing. The interval between the coupling holes 126 is longer than the front and rear widths of the coupling holes, preferably about 2 to 3 times the width of the front and rear coupling holes so that sufficient passive resistance can be exerted.

In the present embodiment, the coupling hole 126 is a cut line 120 or a hole 120 at the center portion, which is a position that divides the width d of the strip reinforcement 100 in half, as shown in FIGS. 4 and 5. ') Is formed along the longitudinal direction, and subsequently, the left and right sides of the incision line 120 or the hole 120' are pressed to stagger the protrusions 122 and 124 up and down, respectively, by pressing a side portion of the strip reinforcement 100. It is formed to open toward.
In the present embodiment, the protrusions 122 and 124 protrude upward and downward of the strip reinforcement 100, respectively, but the present invention is not limited thereto. Only one of the two protrusions 122 or 124 protrudes upward or downward. Of course, it can also be formed.

In this embodiment, the cut line 120 or the protrusions 122 and 124 on the right and left sides of the upper and lower staggered presses are formed in an arc shape. However, the present invention is not limited thereto, but the press-processing form of the protrusions 122 and 124, that is, the shape of the coupling hole 126 may be formed in a polygon such as a quadrangle or a triangle rather than a circle.

However, since the strip reinforcement 100 needs to be formed in a mutually overlapping form so that the strip reinforcement 100 may be stacked, it is necessary to form the shape of the coupling hole 126 in a circle, trapezoid, or rhombus.

In the present invention, since the protrusions 122 and 124 at the left and right sides of the incision line 120 are formed to be alternately arranged in an arc shape such that they are staggered up and down by press working, the protrusions 122 and 124 themselves have a passive resistance force in a state embedded in the reinforcement soil. It can be exerted to improve the pull resistance of the strip reinforcement, and the passive resistor 130 is inserted into the coupling hole 126 formed laterally by the protrusions 122 and 124, so that the passive resistor in the construction area having a short backfill length By embedding the 130 in the interior of the reinforcement soil can be sufficiently reinforced the pull resistance.

In the present invention, the passive resistor 130 that can be inserted into the coupling hole 126 may use a rod, pipe or wire of a general steel bar or steel sheet or various other materials as well as a conventional rebar as shown in the drawing. .

In addition, the passive resistor 130 is not limited to the manner of connecting through the adjacent strip reinforcement (100).

6 to 9 illustrate another embodiment of the present invention. In the present embodiment, a plurality of incision lines 120 or slits are formed along the length direction so as to equalize the width of the strip reinforcement 100. The protrusions 122 and 124 are formed to be staggered up and down on the left and right sides of the improvement 120. In this embodiment, there is one protrusion 122 protruding upward, and the protrusion 122 lowers to the left and right of the protrusion 122. Two protruding portions 124 protruding are formed.

In addition, in the present embodiment, the anchor portion 110 formed at the front end portion of the strip reinforcement 100 also has the same shape as the coupling hole 126 formed at the rear portion of the strip reinforcement 100, so that the panel-shaped wall 10 It is connected to the anchor bracket 40 protruding from the rear surface by the anchor pin 30.

In the present invention, the wall 10 may be applied to a wall made of a perforated steel sheet or a mesh in addition to the block or panel as shown in the drawing.

In addition, in the present embodiment, since a plurality of incision lines 120 or holes 120 'are formed, the tensile force concentrated at the rear end of the incision line is dispersed in the plurality of incision lines when embedded in the reinforcement soil and subjected to drawing resistance. The durability afterwards can be further improved.

10 illustrates various ways of connecting the passive resistor to the strip reinforcement of the present invention. In the present invention, the passive resistor 130 fitted into the coupling hole 126 has a straight line between several adjacent reinforcements 100. It may be a long reinforcing bar or steel bar or wire, or may be a relatively short reinforcing bar or steel bar connecting only two adjacent reinforcement (100), each independently of the adjacent reinforcement (100) It may be a passive resistor in the form of a piece fitted only to the reinforcement 100 of the.

10: retaining wall wall 20: reinforced earth
30: anchor pin 40: anchor bracket
100: strip reinforcement 110: anchor portion
120: incision 120 ': hole
122,124: protrusion 126: coupling hole
130: passive resistor

Claims (9)

In the metal strip reinforcement for supporting the wall is a front end coupled to the wall forming the front surface of the retaining wall and embedded in the reinforcement soil behind the wall,
The metal strip reinforcement has an anchor portion coupled to the wall at its tip, and an incision line or a hole is formed in a portion embedded in the reinforcement soil along a longitudinal direction, and either one of the left and right sides of the incision line or the hole is above or below. Reinforcing earth retaining wall metal strip reinforcement, characterized in that the coupling hole is formed by fitting the passive resistor for adding the passive resistance on the side of the metal strip reinforcement by forming a protruding portion facing. In the metal strip reinforcement for supporting the wall is a front end coupled to the wall forming the front surface of the retaining wall and embedded in the reinforcement soil behind the wall,
The metal strip reinforcement is formed at the distal end of the anchor portion is coupled to the wall, the portion embedded in the reinforcement soil is formed with a cut line or a hole along the longitudinal direction and the left and right sides of the cut line or hole toward the upper and lower, respectively A metal strip reinforcement for reinforcing earth retaining wall construction, characterized in that a coupling hole is formed by fitting a passive resistor for adding passive resistance on the side of the metal strip reinforcement. The method according to claim 1 or 2,
Reinforcement earth retaining wall metal strip reinforcement, characterized in that the anchor portion is a pin hole. The method according to claim 1 or 2,
Reinforcement earth retaining wall metal strip reinforcement, characterized in that the anchor portion is made of the same shape as the coupling hole in which the passive resistor is fitted. The method according to claim 1 or 2,
Reinforcing earth retaining wall metal strip reinforcement, characterized in that the plurality of coupling holes are formed at a predetermined interval along the longitudinal direction of the reinforcement. The method according to claim 1 or 2,
Reinforcing earth retaining wall metal strip reinforcement, characterized in that the coupling hole is formed in plural to equalize the width of the reinforcement. The method according to claim 1 or 2,
Reinforcing earth retaining wall metal strip reinforcement, characterized in that the coupling hole is formed in a circular or polygonal. A method of constructing a metal strip reinforcement according to claim 1 or 2;
Fix the anchor part of the tip of the metal strip reinforcement to the front wall forming the front of the retaining wall, spread the rear part of the metal strip reinforcement on the reinforcement earth, and then add reinforcing bars, steel bars or steel sheets or wires to the joining holes formed in the rear part of the metal strip reinforcement. A method of constructing a metal strip reinforcement for reinforcement earth retaining wall support, characterized in that the passive resistance is added to the metal strip reinforcement by embedding a passive resistor comprising a side and covering the reinforcement soil thereon. The method according to claim 8,
The passive resistor is a construction method of the reinforced metal retaining wall support metal strip reinforcement, characterized in that coupled to the adjacent metal strip reinforcement.

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