KR102733255B1 - the improved vegetation form the slop vegetation stabilization method using the same - Google Patents

Abstract

The present invention comprises a plurality of vegetation sections (110) formed in a single layer in cross-section and spaced apart from each other at a certain distance in the upper, lower, left, and right directions on a plane;
A mortar filling part (130) formed as two layers in cross section between the above-mentioned multiple vegetation parts (110);
It is characterized by including a fixing part (150) formed as a single layer in cross section at a part where the vertices of four adjacent vegetation parts (110) are diagonally connected in the above mortar filling part (130);
An improved vegetation formwork (100) is provided, characterized in that the mortar filling part (130) is filled with mortar (M) and the fixing part (150) has a fixing member (200) installed on an inclined surface (S).
In addition, an improved formwork (100) was used.
(1) Formwork installation step of installing the improved vegetation formwork (100) on the slope (S);
(2) Mortar filling step of filling the mortar filling part (130) by spraying mortar (M);
(3) Fixture installation step of installing the fixing member (200) on the fixing member (150) so that the end is fixed to the inclined surface (S);
(4) Vegetation cutting step for cutting the above vegetation part (110):
A slope stabilization method using an improved vegetation formwork characterized by including a configuration is provided.

Description

{the improved vegetation form the slop vegetation stabilization method using the same}

The present invention relates to an improved type of vegetation formwork and a slope stabilization method using the same, which secures a simpler structure than in the prior art, thereby increasing structural stability and enabling even unskilled workers to easily construct the formwork with a predetermined quality.

In general, in areas where various roads or railways, embankments, dams or lakes, reservoirs, tunnel entrances and exits, and other apartment complexes near cities are being constructed, there are cut slopes or fill slopes. In such areas, there has been a demand for an environmentally friendly slope reinforcement method that prevents the sliding and erosion of cut and fill slopes while being in harmony with the natural environment.

Conventional slope reinforcement methods are complicated in that they require the use of concrete blocks to reinforce the slope, and then the concrete blocks must be moved to the slope and installed. In particular, since drainage ditches and other connecting structures are not integrated, they are easily washed away by heavy rain, and landslides frequently occur, causing disasters such as loss of life.

In addition, the soil nail that has been used as a slope reinforcement method so far is used in the method of treating the entire slope with shotcrete. The use of soil nails is not only very unsightly and difficult to treat water on the rear surface, but there is also a constant risk of safety accidents as the wire mesh corrodes and the shotcrete surface cracks form, forming a very poor construction surface.

Another slope reinforcement method that has been widely used is reinforced concrete retaining walls, but this has the disadvantage of requiring enormous costs and time for forming and curing reinforced concrete structures, as well as enormous construction costs for excavation and filling work.

A technology is being implemented to build a retaining wall by filling in the anchor bolt area with soil while building a structure with an integral anchor bolt. However, this reinforcement method also has the disadvantage of requiring a lot of cost for excavation and filling work, and also making the overall structure larger.

Meanwhile, in the case of protecting the slope using fiber formwork among the above-mentioned slope protection methods, it is evaluated to have many advantages such as easy construction not only on land but also underwater, easy construction even on slopes with complex structures, reduction in construction period and cost, rapid hardening and increasing effect of concrete, and very neat appearance. However, when injecting cement mortar, the fiber structure is not sufficiently dense or strong, so that water or cement components contained in water excessively leak out, causing problems with the strength of the concrete. In addition, when constructing using formwork fabric, there is insufficient space for planting plants, and the planted plants do not take root well, etc. In addition, since only fiber formwork is loaded and finished on the slope, if the revetment overflows, it is swept away by the current, etc.

Therefore, it is urgent to develop slope reinforcement materials that can prevent erosion or loss of soil from mountain slopes during rainy seasons or floods and can be constructed while preserving the natural ecosystem.

Figure 1 shows the appearance of existing vegetation formwork laid on a slope.

Figure 2 illustrates the appearance of mortar being filled into the mortar filling section after the process of Figure 1.

And Figures 3 and 4 illustrate the appearance of cutting the vegetation part after the process of Figure 2 and anchoring it using a pressure plate at the cut position.

As shown,

The conventional vegetation formwork (10) is composed of a vegetation section (11) that is one layer in cross-section and a mortar filling section (13) that is filled with mortar (M) in two layers in cross-section.

In the conventional vegetation formwork (10), mortar (M) is filled into the mortar filling portion (13) on the slope, the vegetation portion (11) is cut, and after installation, in order to prevent sliding due to self-weight, etc., reinforcing bars with a diameter of 19 to 25 mm are driven into the cut portion on the slope, and nuts are fastened using a pressure plate (20).

Accordingly, not only do the components such as the large pressure plate (20) protrude and spoil the appearance, but the vegetation formwork (10) is not firmly fixed, but rather the vegetation formwork (10) slips under the pressure plate (20), making it structurally unstable, and the corners of the pressure plate (20) tear and damage the vegetation formwork (10), etc. have been pointed out as problems.

[Document 1] Republic of Korea Publication Patent No. 10-2009-0099746 'Vegetation formwork and revetment slope vegetation-stabilization method using the same', September 23, 2009 [Document 2] Republic of Korea Patent No. 10-0795036, ‘Fiber formwork for slope reinforcement and eco-friendly slope reinforcement method using the same’, January 9, 2008

The present invention is proposed to solve the above-mentioned problems of the related art. The purpose is to provide an improved type of vegetation formwork and a slope stabilization method using the same, which secures a simpler structure than the related art, thereby increasing structural stability and enabling easy construction with a certain quality even by unskilled workers.

In order to solve the above-mentioned technical problem, the present invention comprises a plurality of vegetation sections (110) formed in a single layer in cross-section and spaced apart from each other at a certain distance in the upper, lower, left, and right directions on a plane;

A mortar filling part (130) formed as two layers in cross section between the above-mentioned multiple vegetation parts (110);

It is characterized by including a fixing part (150) formed as a single layer in cross section at a part where the vertices of four adjacent vegetation parts (110) are diagonally connected in the above mortar filling part (130);

An improved vegetation formwork (100) is provided, characterized in that the mortar filling part (130) is filled with mortar (M) and the fixing part (150) has a fixing member (200) installed on an inclined surface (S).

In addition, an improved formwork (100) was used.

(1) Formwork installation step of installing the improved vegetation formwork (100) on the slope (S);

(2) Mortar filling step of filling the mortar filling part (130) by spraying mortar (M);

(3) Fixture installation step of installing the fixing member (200) on the fixing member (150) so that the end is fixed to the inclined surface (S);

(4) Vegetation cutting step for cutting the above vegetation part (110):

A slope stabilization method using an improved vegetation formwork characterized by including a configuration is provided.

According to the present invention, in a slope stabilization method using a vegetation formwork, an improved vegetation formwork and a slope stabilization method using the same are provided, which secure a simpler structure than in the past, thereby increasing structural stability and enabling even unskilled workers to easily construct the formwork with a predetermined quality.

Figure 1 illustrates the appearance of existing vegetation formwork installed on a slope.
Figure 2 illustrates the appearance of mortar being filled into the mortar filling section after the process of Figure 1.
Figures 3 and 4 illustrate the appearance of cutting the vegetation part after the process of Figure 2 and anchoring it using a pressure plate at the cut position.
Figure 5 illustrates the appearance of an improved formwork of the present invention laid out.
Figures 6 and 7 illustrate scenes of test construction of a slope stabilization method using an improved formwork of the present invention.
FIG. 8 illustrates a fixing part in which the fixing device used in the present invention in FIGS. 6 to 7 is installed.
Figure 9 illustrates the concept of installing a fixture in the present invention in sequence.
Figures 10 to 12 illustrate examples of reinforcing members for reinforcing a fixture in the present invention.

The present invention will be described in more detail through embodiments in which the concept of the present invention is preferably implemented, together with the attached drawings.

Figure 5 illustrates the appearance of the improved formwork of the present invention.

Figures 6 and 7 illustrate scenes of test construction of a slope stabilization method using an improved formwork of the present invention.

The improved vegetation formwork (100) of the present invention is

A plurality of vegetation sections (110) formed in a single layer in cross-section and spaced apart from each other at equal intervals in the upper, lower, left, and right directions on the plane;

A mortar filling part (130) formed as two layers in cross section between the above-mentioned multiple vegetation parts (110);

A fixing part (150) formed as a single layer in cross section at a portion where the vertices of four adjacent vegetation parts (110) are diagonally connected in the above mortar filling part (130);

It is characterized by comprising:

And, it is characterized in that the mortar filling part (130) is filled with mortar (M) and the fixing part (150) has a fixing member (200) installed on an inclined surface (S).

In addition, the slope stabilization method using the improved vegetation formwork of the present invention is

By using the above improved formwork (100),

(1) Formwork installation step of installing the improved vegetation formwork (100) on the slope (S);

(2) Mortar filling step of filling the mortar filling part (130) by spraying mortar (M);

(3) Fixture installation step of installing the fixing member (200) on the fixing member (150) so that the end is fixed to the inclined surface (S);

(4) Vegetation cutting step for cutting the above vegetation part (110):

It is characterized by comprising:

In addition, in some cases, the order of steps (2) and (3) above may be changed, and only some steps (2) above may be performed, step (3) above may be performed, and then the remaining steps (2) above may be performed.

Figures 6 and 7 illustrate scenes of test construction of a slope stabilization method using an improved formwork of the present invention.

FIG. 8 illustrates a fixing part in which the fixing device used in the present invention in FIGS. 6 and 7 is installed.

And Figure 9 illustrates the concept of installing a fixture in the present invention in sequence.

When mortar (M) is filled into the mortar filling part (130) of the improved vegetation formwork (100) of the present invention and the vegetation part (110) is cut out, the shape becomes as shown in Fig. 8.

As shown in Fig. 8,

At the intersection of the vertical and horizontal mortar filling parts (130), a sunken fixing part (150) is automatically formed as a single layer in cross section.

At this time, four convex parts (133) that are convexly bulged are formed in a diagonal direction centered on the fixed part (150).

Accordingly, as shown in Fig. 9, when the anchor fixture (200) is installed by striking the fixed part (150), the convex part (133) is pressed against the outer surface of the fixture (200) during the striking process and is firmly fixed by applying pressure.

Figures 10 to 12 illustrate examples of reinforcing members for reinforcing a fixture in the present invention.

The above reinforcing member (300) is intended to prevent direct contact between the above fixing member (200) and the above convex portion (133), thereby increasing damage and constructability and enhancing bonding strength.

It can be composed of materials with excellent durability and weather resistance, such as steel, non-ferrous metals, and synthetic resins.

The above reinforcing member (300) has a fixing member insertion hole (310) formed vertically through which the fixing member (200) is installed, and a fixing member contact portion (150) is formed on the lower surface.

The embodiment of Fig. 10 has a cone shape with a diameter that decreases toward the bottom.

Figures 11 and 12 are examples of the reinforcing member (300) that take into consideration installation and attachment to the convex portion (133).

The embodiments of Figs. 11 and 12 are similar to the embodiment of Fig. 10 in that the reinforcing member (300) is formed with a fixing member insertion hole (310) through which the fixing member (200) is installed vertically by penetrating, and a fixing member contact portion (150) is formed on the lower surface.

A protrusion or screw thread may be formed inside the above-mentioned fixture insertion hole (310) to increase the bonding and frictional force with the above-mentioned fixture (200).

And on the outer surface of the above reinforcing member (300), four convex contact portions (350) are formed concavely in a shape corresponding to the convex portion (133).

The above convex contact portion (350) adheres to the shape of the convex portion (133) without pressure imbalance when in contact with the convex portion (133), thereby preventing breakage and increasing bonding strength.

And a support part (330) is formed between the convex contact part (350) and the convex contact part (350).

In the embodiment of Fig. 11(a), the convex contact portion (350) and the support portion (330) are formed vertically.

Figures 11(b) to 11(c) are models that have improved constructability and structural stability compared to the embodiment of Figure 11(a).

The above convex contact portion (350) and the above support portion (330) are formed to be inclined and biased toward the center as they go downward.

In particular, the embodiment of Fig. 11(c) prevents the support part (330) from being detached after installation.

In order to configure the above convex portion (133) in a form that physically bites the support portion (330),

The upper side (a) of the above support member (330) is configured to be shorter than the lower side (b).

In conclusion, the present invention provides an improved vegetative formwork and a slope stabilization method using the same, which secures a simpler structure than conventional methods, thereby increasing structural stability and enabling even unskilled workers to easily construct the formwork with a predetermined quality.

Although the present invention has been described with respect to preferred embodiments as mentioned above, various modifications and variations are possible within the scope without departing from the gist of the present invention, and it can be used in various fields.

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

M: Mortar
S: slope
10: Vegetation Formwork
11: Vegetation Department
13: Mortar filling part
20: Acupressure plate
100: Improved vegetation formwork
110: Vegetation Department
130: Mortar filling part
133: Convex part
150: Fixed part
200: Fixed
300: Reinforcement
310: Fixture insertion hole
330: Support
350: Convex contact area

Claims (3)

A plurality of vegetation sections (110) formed in a single layer in cross-section and spaced apart from each other at equal intervals in the upper, lower, left, and right directions on the plane;
A mortar filling part (130) formed as two layers in cross section between the above-mentioned multiple vegetation parts (110);
A fixing part (150) formed as a single layer in cross section at a portion where the vertices of four adjacent vegetation parts (110) are diagonally connected in the above mortar filling part (130);
Consists of including,
When mortar (M) is filled into the above mortar filling part (130),
The fixed part (150) is automatically formed as a single layer in cross section at the intersection of the vertical and horizontal mortar filling parts (130) and is sunken, and four convex parts (133) that are convexly bulged are formed in a diagonal direction centered on the fixed part (150).
An improved type of vegetation formwork (100) characterized in that when an anchor fixture (200) is installed by striking the fixed part (150), the convex part (133) is in close contact with the outer surface of the fixture (200) and applies pressure to firmly fix it during the striking process.
In paragraph 1,
A reinforcing member (300) is installed in the above fixture (200).
An improved type of vegetation formwork (100) characterized in that the reinforcing member (300) prevents direct contact between the fixing member (200) and the convex portion (133), thereby increasing breakage and constructability and enhancing bonding strength.
In paragraph 2,
The above reinforcing member (300) is
A fixture insertion hole (310) is formed through which the fixture (200) is installed vertically, and a fixture adhesion part (150) is formed on the lower surface.
On the outer surface of the above reinforcing member (300), four convex contact parts (350) are formed concavely in a shape corresponding to the convex part (133).
A support part (330) is formed between the convex contact part (350) and the convex contact part (350).
To prevent the support part (330) from coming off after installation,
An improved vegetation formwork (100) characterized in that the upper side (a) of the support part (330) is configured to be shorter than the lower side (b) so that the convex part (133) physically bites the support part (330).