KR20140089735A - Reinforcing metal strip for retaining wall - Google Patents

Abstract

Disclosed is a metal strip reinforcing material in which a front end portion is coupled to a wall body which forms an entire surface of a retaining wall, and which is buried in a reinforced earth body of the back of the wall body to support the wall body. An anchor part structure at the front end of metal strip reinforcing material is improved to easily and firmly anchor to a panel or a block which forms an entire surface of a reinforced earth retaining wall, and a resistor coupling part for coupling a manual resistor is formed also at a rear part of reinforced earth body, wherein the structure of the resistor coupling part also becomes stable when tensile force is applied to be able to construct a firm reinforced earth retaining wall. The metal strip reinforcing material (10) comprises an anchor part (20) coupled to a wall body (1) at a front end; and a manual resistor coupling part (30) to which a manual resistor (4) is coupled at an area buried in a reinforced earth body, wherein the anchor part (20) has a hole (22) perforated inside, and a portion where the hole (22) is perforated can be erected or bent to fasten an anchor (3) from a side direction by a convexly formed groove.

Description

Technical Field [0001] The present invention relates to a reinforcing metal strip for retaining walls,

The present invention relates to a metal strip reinforcement to be embedded in a reinforcing earth retaining wall when a reinforcing earth retaining wall is constructed, and an anchor structure of a metal strip reinforcement front end is improved so that anchoring to a wall block or a paddle, And a passive resistor connection part for connecting a passive resistor is formed at the rear part of the reinforcing material. The structure of the passive resistor connection part is also structurally stable when a tensile force is applied, so that a more rigid reinforced earth retaining wall can be constructed.

The prior art related to the present invention includes a metal strip reinforcement material for reinforcing earth retaining wall construction disclosed in Japanese Patent No. 1185940 and a construction method thereof, a block-assembled reinforced earth retaining wall using a steel strip of patent No. 110737 as a reinforcing material, Anchor type galvanized steel plate for supporting a reinforced earth retaining wall, a reinforcing mesh of a construction strip for the construction of Patent No. 519734 and a torsional structure using the same, a block assembly type reinforced earth retaining wall panel of Patent No. 495782, and a method of constructing a reinforcing earth retaining wall using the panel have.

On the other hand, the metal strip reinforcement disclosed in the above-mentioned prior art document is characterized in that a round bar for improving the manual resistance of the metal strip reinforcement is welded to the surface, a hole is formed for fitting the round bar or deformed steel bar, Or a hole in the form of a long hole, and it is possible to insert a round bar or a deformed reinforcing bar in the lateral direction by opening it up and down.

In addition, in the metal strip reinforcement disclosed in the above-mentioned prior art document, the anchor portion may be simply formed in a perforated form, or may be formed in the form of being folded up and down by pressing after forming the above-mentioned incision or long hole. And the stress is concentrated on the lines or the rear ends of the cut-outs or the long holes cut in the longitudinal direction of the stiffener when the tensile force is applied after inserting the anchor pins, whereby the cut-out is broken along the longitudinal direction of the stiffener There is a possibility that a situation in which anchoring state is released may occur.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a metal strip reinforcement which can simplify the anchoring operation to a block or a panel forming a front wall of a retaining wall, And the structure of the passive resistor coupling part is also structurally stable when a tensile force is applied, thereby providing a reinforced metal retaining wall with a more rigid reinforcing earth retaining wall.

Another object of the present invention is to provide a metal strip reinforcement capable of exhibiting a sufficient supporting force while shortening a backfill length at a construction site where a backfill length of a reinforcing soil body can not be sufficiently secured.

In order to achieve the above object, according to an embodiment of the present invention, there is provided a metal strip reinforcement having a front end joined to a wall forming a front surface of a retaining wall, the metal strip being embedded in a backing material behind the wall to support the wall; The metal strip reinforcement has an anchor portion coupled to a wall at its tip end, a passive resistor coupling portion to which a passive resistor is coupled is formed at a portion to be buried in the reinforcing metal material. The anchor portion is formed with a hole in the inside of the reinforcement, And a metal strip reinforcement for bending the reinforcing soil retaining wall for bending an anchor in a lateral direction.

In the preferred embodiment of the present invention, the anchor portion is formed by bending two holes in the inside of the stiffener in the left and right symmetry with respect to the center line of the stiffener in the longitudinal direction, bending the holes perforated with respect to the center line, And a metal strip reinforcement for reinforcing earth retaining walls for fastening an anchor through the two holes.

In this embodiment, the passive resistor coupling portion may have the same shape as the anchor portion.

According to another aspect of the present invention, there is provided a metal strip reinforcing member having a front end connected to a wall forming a front surface of a retaining wall and being embedded in a backing material behind the wall to support the wall; The metal strip reinforcement has an anchor portion coupled to a wall at its tip end, a passive resistor coupling portion to which a passive resistor is coupled is formed at a portion to be buried in the reinforcing metal, and an inner portion of the reinforcement is press- Or a protrusion protruding downward, and a hole is formed in the left and right side surfaces of the protrusion, so that the anchor can be fastened through the hole in the lateral direction of the protrusion, thereby providing a metal strip reinforcement for reinforcing earth retaining walls.

In this embodiment, the left and right outer sides of the projections of the anchor portion are pressed to protrude in the direction opposite to the projections so that they can correspond to the longitudinal shrinkage of the stiffener when the projections are formed, and further facilitate anchor insertion in the lateral direction .

In this embodiment, the passive resistor coupling portion has the same shape as the anchor portion.

The present invention relates to a metal strip reinforcement having a rigid structure that is resistant to the action of a tensile force and which is formed in an anchor portion formed at a front end portion of the metal strip reinforcement and / Since it is possible to anchor at the same time by using a long round bar, it is possible to shorten the time and manpower required for the anchoring work and to maximize the bonding force between the panel or the block forming the front wall and the reinforcement, And the structure of the joint portion of the passive resistor is also structurally stable when a tensile force is applied, so that it has a useful effect of constructing a more rigid reinforced earth retaining wall even at a construction site where the backfill length of the reinforcing soil can not be secured sufficiently.

1 is a perspective view of a metal strip reinforcement according to a first embodiment of the present invention,
Fig. 2 is a view showing an anchor manufacturing process of the stiffener shown in Fig. 1,
3 is a perspective view showing a state in which the metal strip reinforcement of the present embodiment is anchored to the retaining wall block,
4 is a perspective view of a metal strip reinforcement according to a second embodiment of the present invention,
5 is a view showing a process of manufacturing an anchor portion of the stiffener shown in Fig. 4,
6 is a perspective view showing a state in which the metal strip reinforcement of the present embodiment is anchored to the retaining wall block,
7 is a perspective view of a metal strip reinforcement according to a third embodiment of the present invention,
8 is a view showing a process of manufacturing an anchor portion of the stiffener shown in Fig. 7,
9 is a cross-sectional view showing a state in which the metal strip reinforcement of the present embodiment is anchored to the retaining wall block.

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

1 to 3, the metal strip reinforcement 10 according to the present embodiment has the anchor portion 20 at the tip end thereof coupled to the wall 1 forming the front surface of the retaining wall And is embedded in the reinforcing soil behind the wall 1 to support the wall 1. The hole 22 is formed in the anchor portion 20 inside the tip of the metal strip reinforcement 10, A bored part of the bare element 22 is bent so as to be able to fasten the anchor 3 in the lateral direction with the bored part thereof being raised and a passive resistor body coupling part 30 in which the passive resistor 4 is coupled is formed at the part to be buried in the reinforcingly- have.

In this embodiment, the anchor 20 is generally bent in an L-shape when viewed from the front. The anchor 20 has a vertical surface 21 bent upward and a vertical surface 21 perpendicular to the vertical surface 21 And an anchor 3 is horizontally fastened to the vertical surface 21 so as to be anchored to a block constituting the wall 1.

The method of manufacturing the anchor portion 20 can be formed by press working along the bending line L shown by the dotted line in Fig. 2, and the hole 22 ) May be formed so as to penetrate through the lower surface of the upper surface of the metal strip reinforcement 10 by a punching method by press working or a drilling method by drilling.

3, the anchor portion 20 is inserted through the stiffener insertion groove 2 formed on the upper surface of the block forming the retaining wall body 1, A plurality of metal strip reinforcing members 10 are fitted to one anchor 3 by fitting an anchor 3 in the form of a long round bar along the longitudinal direction of the block in a hole 22 formed in the anchor 20, And the blocks are stacked on the anchored blocks of the metal strip reinforcement 10, the reinforced soil is filled up to a predetermined height, and then the blocks are stacked in the same manner on the upper block By repeatedly anchoring the metal strip reinforcement, it is possible to construct a reinforced earth retaining wall having a rigid structure.

In the present embodiment, a passive resistor body coupling portion 30 is formed at a rear portion of the metal strip reinforcement 10, that is, a portion buried in the reinforcing metal body, to which the passive resistor body 4 is coupled. May be formed in the same shape as the anchor portion 20 or may be formed in the same or similar form as that of the metal strip reinforcing material for reinforcing earth retaining wall construction described in Japanese Patent No. 1185940 or the steel strip reinforcing material disclosed in Japanese Patent No. 110737 In this embodiment, the passive-resistance-coupling portion 30 is divided in the longitudinal direction, and is formed in a shape spreading upward and downward in the left and right directions.

The metal strip reinforcement 10 according to the present embodiment is not anchored only to the block-assembled wall shown in Fig. 3, but can be applied to a concrete panel-type retaining wall wall or a metal panel-type retaining wall wall having various shapes and sizes. Of course, be anchored.

4 to 6, the metal strip reinforcement 10 according to the present embodiment has an anchor portion 20 at the tip thereof coupled to a wall 1 forming a front surface of the retaining wall The reinforcing member 10 is embedded in the reinforcing member at the rear of the wall 1 to support the wall 1. The anchor 20 is disposed inside the front end of the metal strip reinforcing member 10 in the longitudinal direction of the reinforcing member 10, Two holes 22 are pierced symmetrically with respect to the center line and the hole 22 is bored so as to face the perforated portion with respect to the center line so that the anchor 3 , And a passive resistor (30) is formed at a portion to be buried in the reinforcing member, to which a passive resistor (4) is coupled.

In this embodiment, the anchor portion 20 is bent in a Λ shape when viewed from the front. The anchor portion 20 is composed of a pair of left and right side surfaces 23 bent symmetrically, The anchor 3 is horizontally fastened to the side surface 23 and is anchored to the block constituting the wall 1. [

The anchor portion 20 can be formed by press working along a Y-shaped bending line L shown by a dotted line in FIG. 4, and it is preferable that before the press working, Two holes 22 may be formed in the upper surface of the metal strip reinforcing member 10 through the lower surface thereof by a punching process or a drilling process by press working.

In the present embodiment, it is preferable that the anchor portion 20 is press-worked so that the reinforcing member can be stacked so as to be stacked vertically up and down. Thus, the cost of transportation and the cost of storing materials can be reduced.

6, the anchor portion 20 is inserted through the stiffener insertion groove 2 formed on the upper surface of the block forming the retaining wall 1, A plurality of metal strip reinforcing members 10 are fitted to one anchor 3 by fitting an anchor 3 in the form of a long round bar along the longitudinal direction of the block in a hole 22 formed in the anchor 20, The metal strip reinforcement 10 is fixed on the wall 1 and the metal strip reinforcement 10 is laid on the anchored block and then the reinforcing metal is filled and then the metal strip reinforcement is anchored to the upper block in the same manner It is possible to construct a reinforced earth retaining wall having a desired height.

In the present embodiment, a passive resistor body coupling portion 30 is formed at a rear portion of the metal strip reinforcement 10, that is, a portion buried in the reinforcing metal body, to which the passive resistor body 4 is coupled. 4 and 5, or may have the same shape as the anchor portion 20, or may have the same shape as that of the anchor portion of the first embodiment shown in Figs. 1 to 3, or may have the same shape as the anchor portion of the first embodiment shown in Figs. It may be formed in the same or similar form as that of the metal resistor strip for building or the steel strip strip reinforcement of the steel strip strip reinforcement disclosed in the Japanese Patent No. 110737 and may be formed in any form as long as the reinforcement can be stacked up and down .

The metal strip reinforcement 10 according to the present embodiment can be anchored only to the block-assembled wall shown in Fig. 6, and can be anchored to the concrete or metal panel retaining wall having various shapes and sizes, Of course.

The metal strip reinforcement according to the third embodiment of the present invention is shown in Figs. 7 to 9, wherein the metal strip reinforcement 10 according to the present embodiment has the front end joined to the wall 1 forming the front face of the retaining wall , An anchor part (20) fitted to the wall (1) is formed at the tip end thereof so as to be able to support the wall body (1) by being embedded in the reinforcing soil body behind the wall body (1) A passive resistance body coupling portion 30 to which the passive resistor 4 is coupled is formed and the anchor portion 20 is formed of a projection 25 whose inner side of the reinforcing member is protruded toward the upper And a hole 22 is formed in the left and right side surfaces of the projection 25 so as to be able to fasten an anchor 3 in the form of a round bar through the hole 22 in the lateral direction of the projection 25. [

The left and right outer sides of the projections 25 of the anchor portion 20 are pressed to protrude in an arc shape opposite to the protrusions 25 so as to protrude downwardly so that the protrusions 25 do not protrude 25 and the arc-shaped anchor 3 can be easily fastened to the hole 22. The portion 26 press-ed in the circular arc shape is formed in the projection 25, It is possible to naturally absorb the shrinkage of the front end portion of the reinforcing member 10 in the longitudinal direction.

In the present embodiment, the passive-resistance-coupling portion 30 is formed in the same shape as the anchor portion 20, and a plurality of the passive-resistance-coupling portions 30 are formed at regular intervals along the longitudinal direction of the reinforcing material, The passive resistor 4 of the form of a round bar or a deformed reinforcing bar is used in combination with the amount of the passive resistive force necessary for the condition of the passive resistor 4, The laminated reinforcing material is connected to the lattice form of the reinforcing material and the passive resistor forms the integrated lump of the toothed body, so that even when the anchoring or other earthquake occurs, a crack is not generated and a solid layer is formed.

The metal strip reinforcement shown and described in the various embodiments of the present invention described above can be stacked vertically so that it can be easily transported and stored and the number of parts required at the construction site can be reduced, It is possible to strengthen the bonding force between the wall, the reinforcing material, the reinforcing material and the passive resistor, as well as the easiness of the anchoring work.

55: Wall 2: Stiffener insertion groove
3: Anchor 4: Manual resistor
10: stiffener 20: anchor portion
21: vertical surface 22: hole
23: bottom surface 24: side surface
25: projection 26: circular arc pressing part
30: passive resistor
L: Bending line

Claims (6)

A metal strip reinforcing member having a front end connected to a wall forming a front wall of the retaining wall and being embedded in a reinforcing material behind the wall to support the wall;
The metal strip reinforcement 10 has an anchor portion 20 connected to the wall 1 at its tip end and a passive resistor body coupling portion 30 in which a passive resistor 4 is coupled to a portion buried in the reinforcing metal The anchor portion 20 is formed by bending a hole 22 in the inside of the reinforcing member 10 and bending the hole 22 so that the perforated portion can be fastened to the anchor 3 in the lateral direction Reinforced metal retaining wall reinforcing metal strip reinforcement.
The method according to claim 1,
Two holes 22 are formed in the anchor portion 20 in the left and right direction symmetrically with respect to the center line of the stiffener 10 in the longitudinal direction of the stiffener 10, So that the anchor (3) can be fastened through the two holes (22) in the lateral direction. ≪ Desc / Clms Page number 13 >
The method according to claim 1 or 2,
Wherein the passive resistance member coupling part (30) is formed in the same shape as the anchor part (20).
A metal strip reinforcing member having a front end connected to a wall forming a front wall of the retaining wall and being embedded in a reinforcing material behind the wall to support the wall;
The metal strip reinforcement 10 has an anchor portion 20 connected to the wall 1 at its tip end and a passive resistor body coupling portion 30 in which a passive resistor 4 is coupled to a portion buried in the reinforcing metal The anchor portion 20 is formed of a protrusion 25 whose inner side of the reinforcing member 10 is protruded toward the upper or lower side of the reinforcing member by press working and the hole 22 is formed on the left and right side surfaces of the protrusion 25. [ So that the anchor (3) can be fastened through the hole (22) in the lateral direction of the projection (25).
The method of claim 4,
Wherein the left and right outer sides of the projections (25) of the anchor portion (20) are press-formed in an arc shape so as to protrude in a direction opposite to the projections (25).
The method according to claim 4 or 5,
Wherein the passive resistance member coupling part (30) is formed in the same shape as the anchor part (20).

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