KR102338340B1 - the improved apparatus for reinforcing slope and the reinforcing slope structure using the same - Google Patents

Abstract

The present invention provides an improved slope reinforcing body (1000) comprising: an upper beam (120b), a lower beam (120a), and two edge beams (120) constituting the outer frame of a rectangular grid installed vertically; a bearing beam (110) installed in a cross shape inside the outer frame; an anchor through-hole (111) formed in the center of the bearing beam (110); and a water blocking plate (200) installed on the rear surface of the outer frame. After the other end of an anchor (A) is installed on a slope (S), the head of the anchor (A) is fixed to a fixing hole (131). In addition, the present invention provides a slope reinforcing structure using the improved slope reinforcing body (1000). The slope reinforcing structure comprises: the improved slope reinforcing body (1000) installed in front of the slope (S) to be spaced apart therefrom at a predetermined distance; the anchor (A) having the other end installed on the slope (S) and having the head fixed to the fixing hole (131); and concrete (C) filled between the slope (S) and the improved slope reinforcing body (1000). Therefore, a retaining wall structure with reduced weight and improved constructability can be provided.

Description

The improved apparatus for reinforcing slope and the reinforcing slope structure using the same}

The present invention relates to a retaining wall structure for reinforcing a cut-off site or slope, and more particularly, after installing an improved slope reinforcement body, which is a lightweight retaining wall structure prefabricated of reinforced concrete, on-site concrete between the back surface of the structure and the cut slope Since the slope is reinforced by filling and anchoring with a steel, it relates to an improved slope reinforcement body with a beautiful appearance and excellent workability and cost reduction effect, and a slope reinforcement structure using the same.

In Korea, where there are many mountainous areas, it is essential to cut a part of a mountain in various civil works such as roads, housing complexes, waterways, and embankments, and a retaining wall structure is installed to prevent collapse.

In the conventional retaining wall construction in these cuts or slopes (S), cast-in-place concrete was common,

In this case, there are many problems with the difficulty of installing and dismantling the formwork, economical efficiency and time, etc., so a construction method using a permanent anchor and a precast type retaining wall structure is often applied.

The conventional method of this method is, for example, in Patent Registration No. 10-0525156,

㉠ cut the original ground to form a slope,

㉡ Anchors are fixed by grouting by drilling buried holes in the slope at predetermined intervals,

㉢ Install a precast type retaining wall structure,

㉣ Concrete is poured between the back side of the retaining wall structure and the cut slope,

㉤ After the concrete hardens, the anchor is tensioned from the front of the retaining wall structure to prevent the retaining wall structure from collapsing by pressing the slope.

This conventional retaining wall structure is a precast structure (called Full-PC) with a structural function by itself, and it is heavy and difficult to install in the cut-out area. Although it takes a lot of volume, it is inefficient because it is only for the purpose of filling with no structural function.

In addition, the portion pressed to the slope by the retaining wall structure by tensioning the anchor is limited to the portion substantially filled with concrete, so that the upper part of the retaining wall structure (about 1/3) is excessively reinforced despite its weak structural role. have.

Therefore, it is necessary to achieve a reasonable structural form and to reduce the weight, so that the workability is economically effective technology.

[Document 1] Republic of Korea Patent No. 0372821 'Block-type manual reinforcement method of cut slope', February 06, 2003 [Document 2] Republic of Korea Patent No. 2006305 'Block structure for cut slopes and fill land retaining wall', July 26, 2019

The present invention is proposed in order to solve the various problems of the prior art as described above. The purpose is to provide an improved slope reinforcement body with improved constructability and weight reduction by improving the difficulty in installation because the conventional retaining wall structure is manufactured as a heavy precast structure (Full-PC), and a slope reinforcement structure using the same.

In order to solve the above technical problem, the present invention includes an upper beam (120b), a lower beam (120a), two edge beams (120) constituting an outer frame of a rectangular grid installed vertically;

Acupressure beam 110 installed in a cross shape inside the outer frame;

Anchor through hole 111 formed in the center of the acupressure beam 110;

a water-blocking plate 200 installed on the rear surface of the outer frame;

Consists of including,

After the other end of the anchor (A) is installed on the slope (S),

It provides an improved slope reinforcement body (1000), characterized in that the head of the anchor (A) is fixed to the fixing hole (131).

In addition, by using the improved slope reinforcement body 1000,

The improved slope reinforcement body 1000 is installed to be spaced apart a predetermined distance in front of the slope (S);

The anchor (A) having the other end installed on the slope (S) and having the head fixed to the fixing hole (131);

Concrete (C) filled between the slope (S) and the improved slope reinforcement body (1000);

It provides a slope reinforcement structure using an improved slope reinforcement body, characterized in that it comprises a.

According to the present invention, the following effects are expected.

First, the conventional retaining wall structure is a heavy precast structure (Full-PC), which is difficult to install to provide a retaining wall structure with improved light weight and improved workability.

Second, a retaining wall structure that can be economically constructed with an efficient structure is provided by using the concrete poured between the cut slope and the back of the retaining wall structure, which was treated as concrete for filling only, as a part of the structural material.

Third, it provides a self-supporting retaining wall structure by improving the inability of the existing retaining wall structure to stand on its own.

Fourth, a retaining wall structure that can provide a differentiated pattern on the front is provided.

1 is a combined perspective view of an improved slope reinforcement body of the present invention.
FIG. 2 is an exploded perspective view of FIG. 1 .
3 shows the construction sequence of the slope reinforcement structure using the improved slope reinforcement body of the present invention.
4 is a view showing the final completion of the slope reinforcement structure using the improved slope reinforcement body of the present invention.
5 is a combined perspective view of another embodiment of the improved slope reinforcement body of the present invention.
6 is an exploded perspective view of FIG. 5 .
7 and 8 are other embodiments of the improved slope reinforcement body of the present invention.

Hereinafter, the present invention will be described in more detail through embodiments in which the concept of the present invention as described above is preferably implemented in conjunction with the accompanying drawings.

1 is a combined perspective view of an improved slope reinforcement body of the present invention.

FIG. 2 is an exploded perspective view of FIG. 1 .

3 shows the construction sequence of the slope reinforcement structure using the improved slope reinforcement body of the present invention.

4 is a view showing the final completion of the slope reinforcement structure using the improved slope reinforcement body of the present invention.

5 is a combined perspective view of another embodiment of the improved slope reinforcement body of the present invention.

6 is an exploded perspective view of FIG. 5 .

7 and 8 are other embodiments of the improved slope reinforcement body of the present invention.

As shown in Figure 8,

The improved slope reinforcement body 1000 of the present invention,

The upper beam (120b), the lower beam (120a), the two edge beams (120) constituting the outer frame of the rectangular grid installed vertically;

Acupressure beam 110 installed in a cross shape inside the outer frame;

Anchor through hole 111 formed in the center of the acupressure beam 110;

a water-blocking plate 200 installed on the rear surface of the outer frame;

Consists of including,

After the other end of the anchor (A) is installed on the slope (S),

It is characterized in that the head of the anchor (A) is fixed to the fixing hole (131).

The embodiment of FIG. 8 has the same shape of the lower beam 120a and the upper beam 120b, so that a plurality of unitized improved slope reinforcement bodies 1000 may be stacked vertically and horizontally to be used.

And as shown in Figures 1 and 2,

The upper beam (120b) has a protruding earth and soil accident part (300); characterized in that it is installed.

For comparison with the soil accident part 300 , the lower part of the soil accident part 300 is called acupressure part 100 .

The acupressure beam 110 is installed in a cross shape inside the outer frame,

Specifically, the central portion of the acupressure beam 110 protrudes toward the front than the outer frame, and the acupressure beam 110 is designed in a shape that increases in area and thickness from the front to the back according to the anchor (A) installation. It is advantageous for acupressure resistance.

That is, the acupressure beam 110 has a '+' shape similar to that of a starfish, thinning from the center to the periphery, and wider at the lower part than the upper part.

And in general, since the anchor (A) is installed inclined at a predetermined angle to the slope (S),

It is preferable to additionally install a fixed jaw 113 having a different thickness and angle to correspond to the installation angle of the anchor A in the central portion of the acupressure beam 110 .

An acupressure plate 130 having a fixing hole 131 formed in the center is installed on the fixing jaw 113 .

The anchor through hole 111 formed in the center of the acupressure beam 110 is connected to the fixing hole 131 .

As shown in Figure 3,

Since the anchor (A) is filled with concrete (C) after the head of the anchor (A) is installed and fixed in the anchor through hole (111), the anchor (A), the improved slope reinforcement body (1000), and the concrete (C) are integrated There are features that are combined.

Designing the diameter of the anchor through hole 111 to increase from the front to the rear reduces the weight of the improved slope reinforcing body 1000 and increases the bonding force with the concrete C.

In order to become self-supporting or to secure installation stability when installing the improved slope reinforcement body 1000 on the ground (G),

Preferably, the lower beam 120a is designed to protrude forward as shown in FIG. 1 ,

By forming a hole 121 for preventing horizontal movement, the fixing nail 122 may be installed in parallel.

As shown in Figure 4,

In the present invention, even if the concrete (C) is poured only up to the level of the acupressure part 100, that is, the upper beam 120b, there is no problem in exhibiting the structural performance.

Therefore, the concrete (C) can be poured only up to the level of the upper beam 120b, and the soil and soil 2000 for vegetation of trees can be filled on the back surface of the soil accident part 300.

The water-blocking plate 200 is preferably an antiseptic and anti-rust treated mesh or plate, and can be any material as long as it can structurally prevent the concrete (C) from leaking to the outside.

And, as shown in FIGS. 1 and 8 , the water blocking plate 200 is exposed to the outside while filling the empty space between the acupressure beam 110 and the edge beam 120 at the front of the outer frame.

5 is a combined perspective view of another embodiment of the improved slope reinforcement body of the present invention, and FIG. 6 is an exploded perspective view of FIG. 5 .

The present embodiment is characterized in that the earth and landslide part 300 and the shroud plate 200 are designed in the shape of the plate material 200a and 300a embalmed using the fixing angle 140 .

Although the lateral pressure by the earth and sand 2000 acts on the earth and sand part 300, the height of the earth and sand 2000 is not so high,

The lateral pressure according to the fluidity of the liquid concrete (C) acts on the water-blocking plate 200, but the structural burden is insignificant because the area it bears is not large,

It is sufficient to replace the soil accident part 300 and the water blocking plate 200 with a structural material equivalent to a plate material.

Due to this, it is possible to further reduce the weight, and it is possible to provide a differentiated pattern by attaching or engraving the front surface of the improved slope reinforcement body 1000 .

Of course, the soil accident part 300 and the shroud 200 may be made of different materials or patterns.

7 is characterized in that the anchor (A) is installed in two or more places by designing a plurality of acupressure units 100 to be extended laterally in parallel.

3 is a view showing the construction sequence of the slope reinforcement structure using the improved slope reinforcement body of the present invention,

4 is a view showing the final completion of the slope reinforcement structure using the improved slope reinforcement body of the present invention.

As shown,

The slope reinforcement structure using the improved slope reinforcement body of the present invention is

By using the improved slope reinforcement body 1000,

The improved slope reinforcement body 1000 is installed to be spaced apart a predetermined distance in front of the slope (S);

The anchor (A) having the other end installed on the slope (S) and having the head fixed to the fixing hole (131);

Concrete (C) filled between the slope (S) and the improved slope reinforcement body (1000);

It is characterized in that it comprises a.

The construction method of the present invention is as shown in Figures 3 and 4,

In the state in which the anchor (A) is fixed by grouting by cutting the original ground, which is a conventional process, to form the slope (S) and drilling buried holes in the slope at predetermined intervals,

㉠ the head of the anchor (A) passes through the anchor through hole 111 of the acupressure beam 110 - the fixing hole 131 of the acupressure plate 130 in order to protrude to the front, and the improved slope reinforcement body ( 1000) horizontally aligned with the boundary line and installed;

㉡ In order to prevent the position change of the improved slope reinforcement body 1000, the fixing nail 122 passes through the hole 121 for preventing horizontal movement and is fixed to the ground (G), and the head of the anchor (A) is Temporarily fixing to the acupressure plate 130;

㉢ pouring and curing the concrete (C) as much as the level of the acupressure part (100) between the rear surface of the improved slope reinforcement body (1000) and the slope (S);

㉣ after curing the concrete (C), tensioning and fixing the anchor (A) from the front side of the acupressure plate (130) and arranging the head of the anchor (A);

It is characterized in that it comprises a.

At this time, when pouring into the liquid concrete (C), a concrete lateral pressure that cannot be ignored is generated,

In order to counter this, the lower beam 120a, which is the lower end of the improved slope reinforcement body 1000, is fixed with the fixing nail 122, and the middle portion of the main body 1000 is fixed by the temporarily fixed anchor A. do.

Although the present invention has been described in relation to the preferred embodiment as mentioned above, various modifications and variations are possible without departing from the gist of the present invention, and can be used in various fields.

Accordingly, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

C: Concrete
S: slope
G: ground
1000: improved slope reinforcement
100: acupressure part
110: acupressure
111: through hole for anchor
113: fixed jaw
120: border beam
120a: lower beam
120b: upper beam
121: hole for preventing horizontal movement
122: fixing nail
130: acupressure plate
131: fixing hole
140: angle for fixing
200: water plate
300: Tosago Government
2000: soil

Claims (3)

The upper beam (120b), the lower beam (120a), the two edge beams (120) constituting the outer frame of the rectangular grid installed vertically;
Acupressure beam 110 installed in a cross shape inside the outer frame;
Anchor through hole 111 formed in the center of the acupressure beam 110;
a water-blocking plate 200 installed on the rear surface of the outer frame;
In the central portion of the acupressure beam 110, the fixed jaw 113 is installed with a different thickness and angle to correspond to the installation angle of the anchor (A);
acupressure plate 130 having a fixing hole 131 installed in the center of the fixing jaw 113;
Consists of including,
The anchor through hole 111 formed in the center of the acupressure beam 110 is connected to the fixing hole 131,
After the other end of the anchor (A) is installed on the slope (S),
It characterized in that the head of the anchor (A) is fixed to the fixing hole (131) through the anchor through hole (111),
Since the anchor (A) is filled with concrete (C) after the head of the anchor (A) is installed and fixed in the through hole (111) for the anchor, the anchor (A) and the concrete (C) are integrally combined,
In order to increase the bonding force with the concrete (C) while reducing the weight, the diameter of the anchor through hole 111 is formed to increase from the front to the rear,
When installing on the ground (G), the lower beam 120a is formed to protrude forward in order to be self-supporting or to secure installation stability, and a hole 121 for preventing horizontal movement is formed in the lower beam 120a to ensure the horizontal movement. A fixing nail 122 is installed in parallel to the prevention hole 121,
The water plate 200 is exposed to the outside while filling the empty space between the acupressure beam 110 and the edge beam 120 in front of the outer frame,
The water blocking plate 200 is an improved slope reinforcement body 1000, characterized in that the antiseptic and rust-prevented mesh material.
delete By using the improved slope reinforcement body 1000 of claim 1,
The improved slope reinforcement body 1000 is installed to be spaced apart a predetermined distance in front of the slope (S);
The anchor (A) having the other end installed on the slope (S) and having the head fixed to the fixing hole (131);
Concrete (C) filled between the slope (S) and the improved slope reinforcement body (1000);
A slope reinforcement structure using an improved slope reinforcement body, characterized in that it comprises a.

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