KR101025260B1 - Slope stabilization method using prefabricated revetment block and coir mat - Google Patents

Abstract

The present invention provides a natural vegetation space, such as grassland, while the simple construction of the raft block in a prefabricated structure, and a natural vegetation space such as grassland, and the root of the plant is entangled in the coir mat installed on the top of the raft block and at the same time It relates to a slope stabilization method using a prefabricated revetment block and coir mat to facilitate the prevention of the loss and growth of the plant while smoothly slid to the slope, and to achieve a natural-friendly stabilization of the slope easily.
The present invention makes it easy to assemble and construct a natural eco-friendly revetment block having a wide vegetation space by using a plurality of frame blocks and connecting blocks, and reinforced steel anchors on the support grout placed in the ground through the connecting blocks. It is to be integrally embedded to improve the ground fixing force of the prefabricated revetment block, and to make the roots of the plant in the coir mat installed on the prefabricated revetment block smoothly and slid smoothly. .

Description

Slope stabilization method which uses prefabricated shore protection block and coir mat}

The present invention relates to a slope stabilization for the purpose of protecting the slopes and at the same time to provide a growth environment for plants to prevent inundation and greening by rainwater. To create a natural greening space, such as the coir mats installed on the top of the revetment block, while the roots of the plant is tangled and at the same time smoothly lubricating the vegetation space and slope of the revetment block to promote the loss and growth of the plant And, it relates to a technology to easily achieve the natural-friendly stabilization of the slope.

Generally, places such as cut slopes on rivers or banks or incisions created by construction of dams or reservoirs (hereafter referred to as 'slopes') are piled up on the original ground due to the slope of the slopes if left unattended. In the case of heavy rain and in severe cases, a large amount of soil is discharged at the time of flooding or heavy snowfall, causing the ground to collapse and not be able to perform water and flooding functions, as well as the surrounding natural environment and landscape. Hurt.

Therefore, by installing various types of revetment blocks on the slopes of rivers or banks, it is possible to prevent forced loss due to external pressure such as heavy rain and snowfall due to natural loss of soil and rainfall, thereby maintaining the completion and dimensional effect.

However, since the entire surface of the revetment block is made of concrete, it is impossible to grow vegetation, which not only destroys the ecosystem around the water surface or river banks, but also makes it difficult to inhabit microorganisms, insects and algae. There are disadvantages.

In order to solve such a conventional problem, "Patent Vegetation Protection Block excellent in ground registration force of patent registration No. 947845", which has been filed by the applicant of the present invention and granted a patent decision, has been proposed.

However, the pre-registration of the protection block of the present invention provides a useful effect, while the surface area of the concrete exposed to the outside is very large, while the vegetation area is filled with a very small vegetation area can be planted with a large amount of plants It cannot grow and is not eco-friendly, and the growth environment of plants is lowered.

In addition, when only the revetment of the pre-registered invention on the slope alone, the sticking power of the plant is lowered, the plant easily dies, there is a high risk of loss during the rainy season, in particular, there is a high possibility that the slope will collapse due to spilled soil to be.

The present invention is to actively solve some of the improvements of the prior art and at the same time to implement the slope stability more easily, by using a plurality of frame blocks and connecting blocks natural eco-friendly revetment block having a wide vegetation space To easily assemble and construct, and to reinforce the anchor anchor in the support grout placed in the ground in the state penetrating the connecting block to improve the ground fixing force of the prefabricated revetment block, the upper part of the prefabricated revetment block In the coir mat installed in the plant to make the roots of the root tangling and sliding smoothly to be the object of the invention.

The present invention is a prefabricated structure having a wide area vegetation space in a lattice form by laying a leak prevention material on the slope as a means for solving the above problems, and connecting a plurality of frame blocks in all directions of the connection block on the upper side of the leak prevention material. A revetment block is installed, and a supporting grout is placed in the lower ground of the connecting block by using a grouting injector. Form a cover layer on the top of the prefabricated revetment block at the same time as filling, install a root-entangled coir mat on the top of the cover layer, and devise a slope stabilization method for laying composite soil containing seeds, fertilizers, and moisturizers thereon. do.

In addition, the present invention is formed by recessing the connecting groove in the corners of the connection block of the rectangular body, the center hole penetrates up and down in the center, and the assembling protrusions fitted in the connecting groove in the front end of both sides of the frame block. The present invention seeks a technique for forming a prefabricated revetment block by integrally protruding.

According to the present invention, by easily assembling and constructing a nature-friendly lake bank having a wide vegetation space using a plurality of frame blocks and connecting blocks, the vegetation space is very wide, making it possible to create a natural recording space such as grassland. It improves workability and significantly shortens the air, and the reinforcement anchor penetrating the connecting block is embedded in the supporting grout in the ground, thereby providing an excellent ground fixation force of the prefabricated revetment block to prevent loss of the revetment block.

In addition, the root entangled coir mat is installed in the soil layer formed on the top of the prefabricated revetment block, while the roots of the plant are entangled and smoothly lubricated in the wide-area vegetation space and slope of the revetment block, preventing plant growth and growth. It provides a useful effect to easily implement more natural friendly slope stabilization by promoting.

Figure 1 is a side cross-sectional view of the construction state applied the slope stabilization method of the present invention
Figure 2 is an enlarged cross-sectional view of the installation state of the prefabricated revetment block and root entangled coir mat of the present invention
Figure 3 is an exploded perspective view of the prefabricated revetment block of the present invention
Figure 4 is a plan view of the installation state of the present invention prefabricated revetment block
Figure 5 is a longitudinal sectional view of the frame block of the present invention assembled to the connection block
Figure 6 is a longitudinal cross-sectional view of the grouting injector of the present invention seized in the ground
7 is a longitudinal sectional view of the grouting injector of the present invention ejecting grouting into the ground;
8 is a longitudinal cross-sectional view of a state in which the reinforced anchor of the present invention is embedded in a support grout;
Figure 9 is a longitudinal cross-sectional view of the state in which the root entangled coir mat is installed in the cover layer of the present invention;
Figure 10 is a longitudinal cross-sectional view of a state in which the composite earth and sand installed on the root of the present invention entangled coir mat
Figure 11 is an illustration of a state in which the anti-roll projection is installed on the bottom of the connection block of the present invention
12 is a block diagram sequentially showing the slope stabilization method of the present invention

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

Referring to the slope stabilization method according to the preferred embodiment of the present invention according to the accompanying drawings schematically, the anti-suction material installation step (S100) to install the anti-suction material 40 on the slope (1); A revetment block installation process (S200) for assembling and installing a prefabricated revetment block (B) in which a plurality of light area vegetation spaces (30) are formed in a lattice form on the anti-spill material (40); A support grout placing step (S300) of placing a support grout 60 on the lower ground 2 of the connection block 10 by using a grouting injector 50; After pouring the support grout 60, the grouting injector 50 is removed to the outside, and the reinforcing anchor 70 is integrated into the support grout 60 by penetrating the anchor hole 11 of the connection block 10. Reinforcing bar anchoring process (S400); A soil filling process (S500) for filling the wide vegetation space 30 with vegetation-based soil; Coir mat installation step (S700) for installing the root entangled coir mat 80 on top of the prefabricated revetment block (B) filled with soil in the wide area vegetation space (30); It can be seen that the soil entanglement coarse mat 80 is made of the earth and sand laying process (S800) for laying the composite soil 100 on top.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

1) Suction prevention material installation process (S100)

This process is a pretreatment process performed before installing the prefabricated revetment block (B), the germination and growth of seeds by preventing the soil filled in the wide area vegetation space 30 of the prefabricated revetment block (B) by the flow rate Promote the environment.

In the present invention, the anti-suction material 40 is applied to the fiber net having an appropriate pore to prevent the outflow of the soil while excellent drainage.

2) Shore block installation process (S200)

The prefabricated revetment block B having a plurality of light region vegetation spaces 30 formed in a lattice form using a plurality of connection blocks 10 and a frame block 20 on the upper portion of the anti-bleeding material 40 in a simple manner. Assemble and construct.

To this end, a plurality of connection blocks 10 are arranged in a lattice shape as shown in FIG. 4 on the upper portion of the anti-bleeding material 40, and the frame blocks 20 are integrally connected between the connection blocks 10, respectively. When assembled, a rectangular light region vegetation space 30 is formed in a lattice shape.

That is, the assembly protrusions 21 formed at both ends of the frame block 20 are fitted into the connecting recesses 12 of the connection blocks 10 facing each other in a seated state, respectively, to maintain integrity and, in particular, the assembly protrusions 21. Insertion support protrusion 23 protruding on the bottom of the) is inserted into the insertion support groove 13 formed on the bottom surface of the connection groove 12, thereby providing an effect of maintaining an excellent integrity.

Therefore, the prefabricated revetment block (B) is very simple in construction, but the occupied area of the connection block 10 and the frame block 20 made of concrete is very narrow, so that a wide area for planting plants in all wide areas except this By providing the vegetation space 30 provides an effect that can create a natural greening space, such as grassland.

3) Support grout pouring process (S300)

When the installation of the prefabricated revetment block (B) is completed, the grouting injector 50 in the ground (2) through the anchor hole (11) formed in the center of the connection block 10 in the sewn state as shown in FIG. When grouting is injected into the inlet 51 using gravity or a pump, grouting may be poured into the ground 2 through the outlet 52, and the support grout 60 may be poured into the ground 2.

4) Rebar anchoring process (S400)

After pouring the support grout 60, the grouting injector 50 is separated and removed to the outside, and sequentially before the support grout 60 is completely cured, as shown in FIG. The reinforced anchor 70 is integrally embedded in the support grout 60 through the anchor hole 11.

Therefore, the reinforcing anchor 70 is fixed to the head portion 71 formed at the top by pressing the connecting block 10 to the bottom and at the same time the protrusions 72 protruding in the upper and lower equal intervals on the outer periphery of the support grout 60 By being embedded in the through-hardening while being inserted into the coupling block 10, the connection block 10 is effectively prevented from being lost even during the rainy season due to the improved ground fixing force.

5) Soil filling process (S500)

This process creates a basic growth environment of the plant by filling the high-quality vegetation space (30) formed by assembling the prefabricated revetment block (B), the soil of good quality that is the basis for the growth of the plant.

6) Earth and sand layer cover process (S600)

In the process of filling the soil in the wide-area vegetation space 30, the present invention, when the soil is completely filled at the same time to cover the soil of about 5 to 10 cm on the top of the prefabricated revetment block (B) the prefabricated revetment block (B) Between the surface of the) and the root entangled coir mat 80 further forms a soil layer 90 through which the plant can grow.

Here, the reason for further forming the soil layer 90 is that when the root entangled coir mat 80 is directly installed on the prefabricated revetment block B, the surface of the prefabricated revetment block B made of concrete is unknown. This problem is to solve even such a weak problem as the problem that the plant remains a blind spot that can not grow.

7) Coir Mat Installation Process (S700)

When the process of covering the earth and sand layer 90 is performed, a root-entangled coir mat 80 having a configuration in which a plurality of entangled rings 81 is formed on the earth and sand layer 90 is provided, and the If the cover process is omitted, the root entangled coir mat 80 is directly installed on the top of the prefabricated revetment block B filled with soil.

Therefore, the roots of the plant are rooted to reach the wide vegetation space 30 and the ground 2 through the root entangled coir mat 80 while maintaining the entangled state in the tangle ring 81 during the growth process. By excellence it is possible to drastically improve the sticking power to prevent the loss of plants.

8) Earth and sand laying process (S800)

The root entangled coir mat (80) on top of the seeds, fertilizers, moisturizers such as evenly mixed composite soil (100) by applying a separate seed or spraying fertilizer without additional work to perform one-stop The germination and growth of the plant is made smoothly it is possible to stabilize the slope very easily.

Next, the technical configuration of the preferred prefabricated revetment block (B) of the present invention applied to the slope stabilization method described above will be described in detail.

First of all, the prefabricated revetment block (B) of the present invention is composed of an organic coupling structure of a plurality of connection blocks 10 and frame blocks 20 formed using porous water-permeable concrete as raw materials. 10, an anchor hole 11 penetrating up and down is formed in the center as shown in FIG. 3, and the connecting groove 12 is recessed in all four corners.

And the frame block 20 is connected to the four sides of the connecting block 10 is formed in each of the connecting grooves 12, the assembling protrusions 21 to be fitted into the protruding integrally formed at both ends of the connecting block (10). ) And the frame blocks 20 are connected to each other between adjacent connection blocks 10 in a lattice-shaped state, and thus a plurality of light region vegetation spaces 30 having a quadrangular shape are formed as shown in FIG. 4. It can be formed in a lattice shape.

Herein, the assembly protrusion 21 is not limited to being fitted into the connecting groove 12 in a seated state, and the present invention further includes an insertion support groove 13 further recessed in the bottom surface of the connecting groove 12. Is formed, the insertion support protrusion 23 is supported in the insertion support groove 13 in the inserted state is formed to protrude integrally on the bottom surface of the assembling protrusion 21 provides a more robust and integrated effect of maintaining the integrated state. .

In addition, the aquatic organisms 24 are formed on the bottom of the frame block 20 to connect the plurality of light area vegetation spaces 30 to communicate with each other even after the prefabricated revetment block B is constructed. Through the passage 24, the wide-area vegetation space 30 forms a single space integrated with each other to create an ecological environment in which various beneficial aquatic creatures can freely travel and inhabit.

In addition, according to the present invention, a plurality of anti-rolling protrusions 15 protrude radially around the anchor hole 11 on the bottom surface of the connection block 10 to increase the contact area when contacting the slope 1. It is possible to prevent the loss of the prefabricated revetment block (B) by effectively preventing the jungle while engaging.

B: prefabricated revetment block 1: slope
10: connecting block 11: anchor hole
12: Connecting groove 13: Insertion supporting groove
15: anti-rolling protrusion 20: frame block
21: Assembly protrusion 23: Insertion support protrusion
24: Aquatic Pathway 30: Large Area Vegetation Space
40: anti-exhaust material 50: grouting injector
60: support grout 70: rebar anchor
72: burial protrusion 80: root entangled coir mat
90: soil layer 100: composite soil

Claims (7)

An anti-suction material installation process (S100) for laying down the anti-suction material 40 for smoothly draining the slope 1 and preventing earth leakage;
After placing the plurality of connection blocks 10 in a lattice shape on the upper part of the anti-bleeding material 40, the frame blocks 20 are integrally connected and assembled to each other between the connection blocks 10 to form a plurality of grids. And rafting block installation process (S200) for assembling and installing the prefabricated rafting block (B) formed a wide area vegetation space (30) of the;
The grouting injector 50 is sewn into the ground 2 by penetrating the anchor hole 11 formed in the connection block 10, and then the grouting is injected into the inlet 51 of the grouting injector 50 to eject the outlet 52. A support grout placing process (S300) for pouring the support grout 60 into the ground (2) using grouting sprayed through;
After pouring the support grout 60, the grouting injector 50 is removed to the outside, and a plurality of buried protrusions are formed inside the support grout 60 by sequentially passing through the anchor hole 11 of the connection block 10 ( A reinforcing anchor embedding process (S400) of integrally embedding the reinforcing anchor anchor 70 formed thereon;
A soil filling process (S500) for filling the soil in which the plant is grown in the wide-area vegetation space 30;
Fill the soil in the wide area vegetation space 30, and then cover the soil on the top of the prefabricated revetment block (B) sequentially plant between the surface of the prefabricated revetment block (B) and the root entangled coir mat (80) A soil layer covering process (S600) for forming the soil layer 90 that can grow;
A coir mat installation process (S700) for installing a root entangled coir mat (80) having a configuration in which a plurality of entangled rings (81) are formed on the soil layer (90);
To include the earth and sand laying step (S800) for laying a composite soil 100 containing seeds, fertilizers, moisturizers on the root entangled coir mat 80;
The anti-spill material 40 is a slope stabilization method using a prefabricated revetment block and coir mats, characterized in that made of a fiber net having a function of preventing the outflow of soil while having excellent drainage. delete delete delete delete delete delete

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