KR100448442B1 - Retaining wall reinforcement with fixed angel iron - Google Patents

Abstract

In the reinforcing material for reinforcing the retaining wall of the present invention, an object thereof is to provide a retaining wall reinforcing material having an excellent retaining wall reinforcing effect by increasing the frictional force with the fill land deposited on the rear surface of the retaining wall.

According to the present invention, when the one or more layers of the steel frame 20 filled with the filler 80 is stacked to embed the soil retaining retaining wall 10 to be embedded in the soil 2 to prevent displacement of the steel frame 20 In the retaining wall reinforcement used as a tendon, protrusions 40 are formed at a plurality of positions on the strips 70 to provide resistance surfaces perpendicular to the longitudinal direction of the strips 70, and preferably the protrusions 40 are angled. The retaining wall reinforcement is formed by cutting angle iron and bolting it onto the strip 70, wherein the protrusion 40 protrudes from both sides of the strip 70.

Description

Retaining wall reinforcement with fixed angel iron

The present invention relates to a reinforcing material provided on a retaining wall to reinforce the retaining wall, and more particularly, to a retaining wall reinforcing material having a bolted joint steel material for increasing friction with soil.

Retaining wall refers to a wall that is built so that soil does not collapse in response to earth pressure. Generally, it is used to prevent ground collapse that occurs when the soil is piled up on a steeper slope or the mountain is cut. It is a structure made.

The conventional retaining wall types include a block retaining wall, a gravity concrete retaining wall, and a special reinforced concrete retaining wall. The first retaining wall includes a shaft wall, which is widely used since ancient times. Construct using concrete blocks.

Secondly, the gravity concrete retaining wall is a structure that prevents the collapse of the ground by the weight of the concrete itself, and is adopted when the height is relatively low. Third, the special reinforced concrete retaining wall is economical for the gravity concrete retaining wall because the retaining wall becomes larger. Or it is used when it is necessary to favor the use of paper with the wall vertically, and there are various forms such as an inverted T type and an auxiliary wall type. In addition, there is a simple retaining wall using a steel plate or a fence.

The retaining wall using the conventional concrete is the collapse of the retaining wall due to wind and water damage, which is because the rainwater penetrates the ground on the back of the retaining wall to weaken the ground, there is a risk that the retaining wall is collapsed due to the large earth pressure applied to the retaining wall.

In order to prevent the collapse of the retaining wall, the retaining wall is reinforced by fastening the reinforcing material on the back surface of the retaining wall and placing the reinforcing material inside the earth-filled soil deposited on the back wall of the retaining wall.

1 is a longitudinal cross-sectional view of a retaining wall stiffener according to the prior art.

The reinforcement 7 as shown in Figure 1 is made of a material of steel, geotextiles, or geogrid. The tip of such a reinforcement 7 is fastened to a panel or block of concrete, Is housed inside the soil 2.

However, this reinforcing material (7) has a flat shape and the extensibility of the geosynthetic fiber itself, so that the reinforcing force for reinforcing the retaining soil retaining wall is weak. Steel plates having a flat shape have a relatively low frictional force, and geotextiles have a disadvantage that their reinforcement is weakened or corroded over time due to their elongation.

Therefore, in order to improve the reinforcement of the reinforcing material (7), the width of the reinforcing material (7) should be widened. In order to do so, the unit cost of the reinforcing material increases, and the retaining wall construction cost increases. In addition, the conventional reinforcing material (7) is fixed by the angle (5) that is embedded in the concrete panel (1), because the concrete has a weak Tensile Strength (TS), the fastening portion of the ankle (5) is easily broken There is a disadvantage that the reinforcement 7 is easily separated from the concrete panel 1.

The present invention has been proposed in order to solve the problems of the prior art as described above, can be quickly and easily construction, fastened to the retaining wall using an environmentally friendly prefabricated steel frame, a large bearing capacity for supporting the retaining wall It is an object of the present invention to provide a retaining wall reinforcement having a bolted steel material.

1 is a longitudinal cross-sectional view of a retaining wall stiffener according to the prior art,

2 is a cross-sectional view of the retaining wall showing the installation relationship of the retaining wall reinforcement having a bolted steel according to an embodiment of the present invention,

3 is a longitudinal sectional view (a) and a plan view (b) of the retaining wall stiffener shown in FIG.

4 is a partial perspective view showing the retaining wall and the reinforcing material fastened to the retaining wall shown in FIG.

5 is a perspective view showing a fastening relationship between the steel frame and the reinforcement of the retaining wall shown in FIG.

FIG. 6 is an exploded perspective view illustrating a fastening relationship between the retaining wall reinforcement and the bolted joint steel shown in FIG. 2.

♠ Explanation of symbols on the main parts of the drawings.

1, 10: retaining wall 7, 70: reinforcement

20: steel frame 21: the first L-shaped steel

22: second L-shaped steel 23: strip steel sheet

29 cover 31 side screen

32: upper screen 40: bolted steel

41: angle 47: bolt

48: nut 75: fastening piece

80: filling material

According to the present invention for achieving the above object, the retaining wall reinforcement is used as a tendon to be embedded in the soil to prevent the displacement of the steel frame when installing the retaining wall for soil storage by stacking one or more layers of steel frame filled with filler In the present invention, there is provided a retaining wall reinforcement having protrusions provided at a plurality of positions on the strip, the resist surface being perpendicular to the longitudinal direction of the strip.

Further, the protrusion is preferably formed by cutting angle iron and bolting it onto the strip.

More preferably the protrusions protrude on both sides of the strip.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the retaining wall reinforcement having a bolted steel according to the present invention will be described in detail.

2 is a cross-sectional view of the retaining wall showing the installation relationship of the retaining wall reinforcement provided with a bolted steel according to an embodiment of the present invention, Figure 3 is a longitudinal sectional view (a) and a plan view of the retaining wall reinforcement shown in FIG. (b), Figure 4 is a partial perspective view showing the retaining wall and the reinforcing material fastened to the retaining wall shown in Figure 2, Figure 5 is a perspective view showing a fastening relationship between the steel frame and the reinforcement of the retaining wall shown in Figure 4, Figure 6 2 is an exploded perspective view showing a fastening relationship between the retaining wall stiffener and the bolted joint steel shown in FIG. 2.

2 and 3 (a), (b), the front end of the reinforcing material 70 is fixed to the steel frame 20 constituting the retaining wall 10, the rear end of the reinforcing material 70 Bolted steel material 40 is fixed. This reinforcing material 70 is made of a material of galvanized steel sheet. This reinforcing material 70 is located embedded in the earth and sand (2) is buried in the state fastened to the back surface of the retaining wall (10). Then, a through hole 74 is formed at the tip of the reinforcing material 70 fastened to the retaining wall 10, and fastened to the retaining wall 10 formed by stacking the steel frame 20. Then, the rear end is formed with a plurality of through holes 78 in the longitudinal direction of the reinforcing material 70, the 'a' shaped angle 41 is located on the upper surface of the through holes 78, one surface of the angle 41 The through hole 42 having the same size as the through hole 78 of the reinforcing material 70 is formed in the bolt through the through hole 78 of the reinforcing material 70 and the through hole 42 of the angle 41. The nut 48 is fastened to the end of 47 so that the angle 41 is fixed to the rear end of the reinforcing material 70.

On the other hand, as shown in Figure 4, the retaining wall 10 is a steel frame 20 of the rectangular parallelepiped, the screens 31 and 32 are installed on the side and top and bottom of the rectangular parallelepiped, and the inside of the steel frame 20 And fillers such as stones and rocks to be filled.

Steel frame 20 is the end of the twelve first L-shaped steel 21 is connected to form a rectangular parallelepiped, wherein the inner surface of the first L-shaped steel 21 to face the interior of the steel frame 20 of the rectangular parallelepiped Connected. Then, the cover portion 29 is fastened to the first L-shaped steel 21 in a state in which the cover portion 29 surrounds the connection portion of the first L-shaped steel 21 at the portion where the first L-shaped steel 21 is interconnected.

On the four side surfaces of the steel frame 20, a plurality of second L-shaped steels 22 are bolted to the upper and lower first L-shaped steels 21 on the four sides of the steel frame 20 to be parallel to the four sides. It is fixed. Here, the second L-shaped steels 22 become members of the side screen 31.

In addition, a plurality of strip steel plates 23 are disposed along the length of the steel frame 20 in the width direction of the steel frame 20 in the four first L-shaped steels 21L positioned on the upper and lower surfaces of the steel frame 20. The first L-shaped steel 21 and the strip plate 23 are fixed by bolting.

Here, the arrangement relationship of the steel frame 20 is to place the steel frame 20 on the ground on which the ground foundation work is completed to install the retaining wall (10). After the both ends of the steel frame 20 are fixed in close contact with each other, the one-stage retaining wall 10a having the length of the retaining wall 10 is formed, and the steel frame 20 of another layer is laminated on the one-stage retaining wall 10a. To form a two-stage retaining wall 10b. Thus, several stages are stacked to form the height of the final retaining wall 10.

On the other hand, as shown in Figure 5, a pair of through-holes 26 are formed in the middle portion of the second L-shaped steel 22 of the steel frame 20 located in the contact area with the filling land (1).

The L-shaped fastening piece 75 is fixed to the through hole 27 formed in the second L-shaped steel 22 located on the side of the steel frame 20. A pair of through holes 77 are formed on one surface and the other surface of the fastening piece 75, respectively, and the through holes 77 formed on one surface of the fastening piece 75 correspond to the through holes 26 formed in the second L-shaped steel 22. The bolt 90 is inserted in the state, and the nut 91 is fastened and fixed to the bolt 90. In addition, the through hole 77 formed on the other surface of the fastening piece 75 is fastened with the bolt 90 and the nut 91 in a state where a pair of through holes 74 formed at the tip of the reinforcing material 70 are correspondingly positioned. It is fixed.

And, this reinforcing material 70 is embedded in the earth and sand (2) and is fixed by the earth pressure of the earth to be compacted. Accordingly, the steel frame 20 of the retaining wall 10 against earth pressure is increased by the reinforcing material 70.

In the above, the front end of the reinforcing material 70 and the steel frame 20 are fastened by using the fastening piece 75. However, although not shown in the drawing, the reinforcing material 70 is bent at a right angle without using the fastening piece 75. ) The tip can be fastened to the steel frame 20 with bolts and nuts.

It will be described in detail with respect to the retaining wall reinforcement having a bolted steel material configured as described above.

First, in order to fill the ground, the ground on which the retaining wall 10 will be located is laid out. Thereafter, the first L-shaped steel 21, the second L-shaped steel 22, and the band steel plate 23 are assembled as described above to form the steel frame 20 on the ground, and the steel frame 20 After filling the filler (80) in the interior of the upper screen 32 to form a one-stage retaining wall (10a). And it fills with the height of the 1st reinforcement of the 1st retaining wall 10a. At this time, the reinforcement 70 is embedded in the earth and sand 2 to be filled by installing the reinforcement 70 in the steel frame 20. In this way, the height of the first retaining wall is repeated.

At this time, an angle 41 is positioned at the rear end of the reinforcing material 70, and such an angle 41 and the reinforcing material 70 are embedded in the earth and sand 2 in a fixed state by the fastening of the bolts 47 and the nut 48. do.

On the other hand, after filling the height of the first stage retaining wall 10a, the steel frame 20 is assembled on the upper surface of the first stage retaining wall 10a to form the second stage retaining wall 10b. At this time, the two-stage retaining wall 10b is assembled and arranged upright from the upper surface of the one-stage retaining wall 10a. Meanwhile, as another lamination method, as shown in FIG. 2, the two-stage retaining wall 10b may be disposed by moving in the filling direction by a predetermined distance from the upper surface of the first-stage retaining wall 10a, which is Considering the earth pressure, it is possible to maintain the safety of construction.

Thus, when the steel frame 20 of the two-stage retaining wall 10b is assembled and laminated on the upper surface of the one-stage retaining wall 10a, the fillers 80, such as stones and rocks, are placed inside the two-stage retaining wall 10b. It fills and fills up by the height of the 2nd retaining wall 10b. At this time, the reinforcing material 70 having the angle 41 fixed thereto is embedded in the earth and sand 2 laminated by fastening the steel frame 20 of the two-stage retaining wall 10b.

Repeating these steps to build the retaining wall 10 to the height to fill. Since the filling material 80, such as a stone and a rock, is filled in the inside of the steel frame 20, the retaining wall 10 can plant a plant.

On the other hand, the retaining wall 10 is subjected to earth pressure in the front direction of the retaining wall 10 by the earth-filled soil 2. Due to the earth pressure acting on the retaining wall 10, a force to move in the direction of the retaining wall 10 also acts. At this time, the bolt joint member 40 of the reinforcing material 70 controls the movement of the reinforcing material 70. Support the retaining wall while blocking it.

Meanwhile, the material of the retaining wall reinforcement is described as a galvanized steel sheet, but it can be replaced with the above-described geotextile or geogrid, and the bolt coupling steel is fixed to the upper surface of the reinforcing material, but in some cases, the upper and lower surfaces of the reinforcing material Bolted steel can be formed.

As described in detail above, the retaining wall reinforcement material of the present invention has an advantage that the force supporting the retaining wall is large because an angle repulsion force acts on the force acting in the retaining wall direction.

In addition, the retaining wall reinforcement of the present invention has the advantage that it can safely support the retaining wall because it corresponds to the force acting toward the retaining wall by the resistance of the passive earth pressure acting on the bracing plate in addition to the pull-out resistance due to simple friction with the sediment.

Although the technical idea of the retaining wall stiffener of the present invention has been described above with the accompanying drawings, this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (3)

delete In the retaining wall reinforcement used as a tendon which is embedded in the earth and sand to prevent displacement of the steel frame in laying the one or more layers of steel frame filled with fillers to install the retaining wall for soil storage, A plurality of through holes are formed along the longitudinal direction of the strip connected to the steel frame, and an angle iron protrusion is coupled to the upper and lower resistance surfaces of the strip by bolts and nuts passing through the through holes. Retaining wall reinforcement provided with bolted steel. delete