KR20100044408A - Landslip preventing structure - Google Patents

Abstract

PURPOSE: A landslip prevention structure is provided to securely maintain a stable slope without using a cement concrete block, and to form an environment-friendly exterior. CONSTITUTION: A landslip prevention structure comprises a grid(12), a soil layer, a supporter(11), and multiple layers(10). The grid is flatly placed. The soil layer is formed by stamping soil placed on the grid. The supporter covers the front surface of the soil layer so that the soil can't flow out. The layers have anchors(15) which are stuck in the grid through the soil layer.

Description

Landslide preventing structure

The present invention relates to an avalanche structure.

Naturally generated soil slopes and slopes formed by artificial incisions are made of landslides to prevent accidents.

The landslide construction is usually done by multi-layered gravity retaining wall blocks or building blocks.

However, the construction method of building such blocks in multiple layers did not fit well with the surrounding environment where the exhausted vegetation was made, and only the artificial image made of cement concrete was emphasized, causing the natural landscape to be damaged.

Of course, techniques for planting various vegetation in blocks have been developed and researched to solve the above problems, and such construction methods are widely used. However, planting vegetation on blocks made of cement concrete is not sufficient to complement the artificial image of the block, and as composites such as cement concrete are absorbed into the ground, it may adversely affect the natural ecosystem, thus replacing the conventional landslides. Skills were urgently needed.

Therefore, the present invention has been devised to solve the above problems, it is possible to complete the structure of the stable and stable surface without the application of blocks made of cement concrete material, so as to have a natural-friendly appearance to match the surrounding landscape It is a technical problem to provide the aberration structure to be made.

According to an aspect of the present invention,

The mesh-shaped grid connected to the foundation structure and fixed horizontally, the earth and sand layer formed by compacting the earth and sand laid on the grid, the prosthetic bar to surround the front of the earth and sand layer, and to prevent the soil from leaking out, The landslide structure is formed by sequentially stacking a plurality of layers each having anchors penetrating through the soil layer while supporting the ends of the surrounding grid not to be released by the pressure of the soil.

Since the present invention does not apply a block of cement concrete material, so as not to affect the eco-friendly appearance as well as the surrounding ecology, and to maintain a stable and stable slope, artificial structures and natural ecology can be harmonized.

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

1 is a perspective view showing a cross-section of the surface of the landslide structure is applied according to the present invention including a cross-section, will be described with reference to this.

The avalanche structure according to the present invention includes a grid 12 which is settled flat, and an earth and sand layer S, which is formed by being ground and ground on the grid 12 to form a layer and covers the entire surface of the soil layer S. Comprising a prosthetic stand 11, the end of the grid (12) pulled forward wraps the front surface of the prosthesis 11, covering the soil layer (S) in the form of a sandwich, one layer (10, 10 ') To achieve.

Each of the layers 10 and 10 'formed as described above is stacked to form one layer to support the slope. Here, the grid 12 is connected to and fixed to the underlying structure (not shown) embedded therein, so that the earth and sand layer (S) formed on the grid 12, as well as the other layers 10 and 10 'stacked without collapse Supported.

For reference, the foundation structure serves as an anchor to hold the block to cover the slope so as not to tilt or collapse forward, which is a well-known technique commonly used in construction, so the description thereof is omitted here. On the other hand, since the aberration structure according to the present invention can be applied to various forms of the foundation structure for supporting the grid 12, various foundation structures may be applied within the scope of the following claims.

2 is an exploded perspective view showing the components of the avalanche structure according to the present invention, Figure 3 is a cross-sectional view showing a state of the layer according to the present invention, will be described with reference to this.

As described above, the landslide structure according to the present invention is composed of a grid 12 and a plurality of layers (10, 10 ') of the prosthetic stand (11), each layer (10, 10') The earth and sand layer (S) on which a certain amount of soil is deposited is formed.

The earth and sand layer (S) is made on the grid 12 while being compacted, the front portion is finished by the prosthetic stand (11).

As is widely known, the grid 12 forms a mesh so that the soil is easily penetrated and has water permeability, so that the soil is penetrated through the grid 12 if the grid 12 surrounds the front part of the soil layer S. May spill. Therefore, the front part of the earth and sand layer S is wrapped with the prosthetic support 11 having a structure that is relatively dense compared to the grid 12 so that the earth and sand constituting the earth and sand layer S do not flow out through the grid 12. Restrict.

Here, the prosthetic stand 11 may be a solid concrete structure, a synthetic resin structure, may be a mat.

The prosthetic stand 11 made of a concrete structure and a synthetic resin structure may completely cover the front end portion of the soil layer S while forming a curved shape as shown, and may prevent soil leakage to the front.

On the other hand, the mat prosthetic stand 11 has an envelope shape in which fillers such as earth and sand, tree trunks, and compost are injected into the inside so that the roots of the vegetation can grow in the mat (prosthetic stand), Allow the stem to grow through the mat. Therefore, the mat prosthetic stand requires a space for penetrating the stem, and it is preferable to form a network structure for this purpose. Of course, the mat (prosthetic brace) will have a more dense structure compared to the tissue formed by the grid 12, in order to minimize the outflow of soil.

When the prosthetic stand 11 is disposed, the end of the grid 12 drawn out in front of the prosthetic stand 11 is covered as if covering the front surface of the prosthetic stand 11 so that the prosthetic stand 11 does not tilt or fall forward. Fix it.

Subsequently, the grid 12 surrounding the prosthetic stand 11 to cover the soil layer S in the form of a sandwich has its ends connected to the center of the grid 12 and the anchor 15 by means of the prosthetic stand 11 and To cover and support the front of the soil layer (S). That is, the soil layer S seated on the grid 12 may form one layer 10 and 10 'while maintaining the current state.

On the other hand, in order to increase the binding force of the grid 12 via the anchor 15, the anchor 15 is connected to the grid 12 via the distal holder 13 and / or the central holder (14).

The end holder 13 is fixedly disposed at the distal end of the grid 12, and the center holder 14 is fixedly disposed at one point of the grid 12 facing up and down with the end holder 13. Both ends are firmly fastened to the end holder 13 and the center holder 14, respectively, through which the grid 12 has a fixing to maintain the appearance of the soil layer (S) and the prosthetic support (11).

As shown in FIG. 2, the end holder 13 and the center holder 14 have a flat plate shape that can be in contact with the grid 12, and have a plurality of holes through which the pin-shaped anchor 15 can be fixed. Can be equipped.

Meanwhile, as shown in FIG. 3, the end holder 13 ′ may have a “c” shape that may wrap the ends of the grid 12 up and down, and the center holder 14 ′ may be formed of the grid 12. The center portion can be stacked up and down to have a two-layer structure. The end holder 13 'and the center holder 14' having such a structure are intended to form a stable and solid binding structure with the grid 12, and the end holders 13 and 13 'and the center holder 14 and 14'. Form of the present invention is not limited to the above embodiments, and various modifications may be made without departing from the scope of the following claims.

Subsequently, vegetation mat 16 may be reinforced in each layer 10, 10 ′ of the avalanche structure according to the present invention.

The vegetation mat 16, as described above with respect to the prosthetic stand 11, provides a space for planting and growing vegetation, and the prosthetic stand 11 is provided to increase the rigidity of the layers 10 and 10 ′. If it is made of a concrete structure or synthetic resin structure, a separate vegetation mat 16 may be reinforced to secure a planting space.

The vegetation mat 16 is disposed to cover the front surface of the prosthetic stand 11 between the grid 12 and the prosthetic stand 11.

Figure 4 is a cross-sectional view showing another aspect of the layer formed according to the avalanche structure according to the present invention, it will be described with reference to this.

As described above, in the avalanche structure according to the present invention, a plurality of layers 10 and 10 'including a grid 12 and a prosthetic stand 11 are sequentially stacked, and a layer 10 layering up and down is formed. ) And the layer 10 ′ form an independent form of each other. Of course, the foundation supporting the grid 12 may have a connection between the layers 10 and 10 'while supporting the plurality of grids 12, but the layers 10 and 10' via the foundation may be connected. The connection between) may not be enough to maintain the structure. That is, in case of emergency, the collapse of the slope can be accelerated, and since it does not have a dispersing capacity for the collapse concentrated at one point, it may not be able to function as an aggressor.

Thus, first and second locking portions 13a and 14a are formed on the end holder 13 "and the center holder 14" by forming annular first locking portions 13a and second locking portions 14a, respectively. Promote unity of the liver.

In more detail, the first catching portion 13a is formed on the upper surface of the rear end of the end holder 13 ", and the second catching portion 14a is formed on the bottom bottom of the front end of the center holder 14". The first catching portion 13a of the layer 10 forming the upper portion and the second catching portion 14a of the layer 10 'forming the upper layer are engaged. At this time, it is preferable to form a structure in which the first catching portion 13a is pulled backward by the second catching portion 14a so that the end of the grid 12 of the lower layer 10 is not drawn out forward.

5 is a cross-sectional view showing another aspect of a layer formed according to the structure of the avalanche according to the present invention, Figure 6 is a perspective view showing the anchor shown in Figure 5, it will be described with reference to this.

Since the avalanche structure according to the present invention is a structure in which the grid 12 of a wide planar shape having a mesh shape supports the soil layer S, sufficient supporting force is required for the grid 12.

Therefore, the rigidity of the material constituting the grid 12 is required as well as sufficient binding between the grid 12 and the anchor 15 '. That is, if the anchor is partially connected to the grid 12, the tension received by the grid 12 is concentrated only at one point in engagement with the anchor, so that the grid 12 can be easily broken, and eventually the avalanche structure collapses not too long. You can do it.

The avalanche structure according to the present invention maximizes the connection surface between the anchor 15 'and the grid 12 to disperse the tension received by the grid 12 as much as possible, thereby maintaining the supporting force of the grid 12. Make sure To this end, the anchor 15 'has a shape of a cube, and a seating groove 15a is cut along the longitudinal direction of the rear surface where the grid 12 is in contact, and the bottom surface of the anchor 15' is located at the top of the anchor 15 " The engaging groove forms an insertion groove 15d. Meanwhile, first and second fixing bars 15b and 15c which are inserted into and engaged with the seating groove 15a are further provided to penetrate the anchors 15 'and 15 ". A plurality of through holes 15e are formed.

In more detail, the ends of the grid 12 surrounding the front surface of the soil layer S and the prosthetic stand 11 are introduced into the rear surface through the upper surfaces of the anchors 15 'and 15 ", as shown, and then settled. The second fixing bar 15c positioned at a lower portion of the first and second fixing bars 15b and 15c inserted side by side along the groove 15a is wrapped, and then, the first and second fixing bars 15b and 15c are disposed between the first and second fixing bars 15b and 15c. Passed out to the outside, it is located between the back of the anchors 15 ′, 15 ″ and the grid 12.

The grid 12 positioned as described above is tightly engaged with the first and second fixing bars 15b and 15c in the seating groove 15a by the pressurization of the soil layer S located at the rear.

As a result, the fixing between the ends of the grid 12 and the anchors 15 ′, 15 ″ is not the binding at one point of the grid 12, but of the grid 12 in contact with the first and second fixing bars 15b, 15c. Since it is made for the entire surface, the dispersion efficiency with respect to the tension received by the grid 12 is increased.

Subsequently, the anchors 15 'and 15 "according to the present invention arrange the grids 12 and 12' provided in each of the layers 10 and 10 'so as to be in contact with each other. A high pressure is applied to the surface to increase the rigidity of the structure.

To this end, the bottoms of the anchors 15 'and 15 "are formed with insertion grooves 15d into which the upper ends of the anchors 15" of the lower layer 10' are engaged, and the anchors 15 'and the anchors 15 "are formed. The grid 12 'of the lower layer 10' and the grid 12 of the upper layer 10 pass between each other, so that each layer 10, 10 'is between the anchor 15' and the anchor 15 ". ) Grids 12, 12 'are meshed and fixed.

As a result, the grids 12 and 12 'are subjected to a high pressure at a wide point of the surface unit where the anchors 15' and 15 "of each of the lower layer 10 'and the upper layer 10 come into contact with each other. , 12 ') is greatly improved along with the bearing capacity of the first and second fixing bars 15b and 15c.

The anchor 15 ', 15 "according to the invention may further comprise a separate support means 18 connected with the foundation.

As described above, each of the layers 10, 10 'is not sufficient for the avalanche because the holding force is maintained only through the grids 12, 12' connected to the foundation. Thus, by connecting the support means 18 connected to the foundation structures to the anchors 15 'and 15 ", the loads concentrated in the grids 12 and 12' are dispersed and supplemented.

Support means 18 may be applied to a variety of materials, such as ropes, linkers and various metal frames, this embodiment describes the support means 18 that can be applied to the anchor (15 ', 15 ").

The support means 18 has a clasp 18a connected to each other through the through holes 15e formed in the anchors 15 'and 15 ", and a separate rope connected to the base structure while being connected to the clasp 18a. Shown) consists of a subsequent hinge 18b.

As a result, the avalanche structure according to the present invention can perform a stable and stable avalanche construction without applying a gravity block made of Simenk concrete, thereby forming a natural friendly artificial structure.

1 is a perspective view including a cross-section of the slope of the landslide structure is applied according to the present invention,

2 is an exploded perspective view showing the components of the avalanche structure according to the present invention;

3 is a cross-sectional view showing a state of a layer according to the present invention;

Figure 4 is a cross-sectional view showing another appearance of the layer formed according to the avalanche structure according to the present invention,

5 is a cross-sectional view showing another aspect of the layer formed according to the avalanche structure according to the present invention,

6 is a perspective view of the anchor shown in FIG. 5.

-Explanation of terms for main parts of attached drawings-

10, 10 '; Layer 11; Prosthetic

12, 12 '; Grid 13, 13 '; End clamp

14, 14 '; Center fixture 15, 15 ', 15 "; anchor

16; Vegetation mat S; Earth and sand

Claims (6)

The soil-like layer 12 connected to the foundation structure and fixed and horizontally seated, the earth and sand layer S formed by the compacted earth and sand laid on the grid 12, and the earth and sand spilled while covering the front surface of the earth and sand layer S. Prosthetic support stand 11 to prevent it from being supported, and the anchor 15 is penetrated through the soil layer (S) while supporting the end of the grid 12 surrounding the front surface of the prosthetic stand 11 so as not to be released by the pressure of the earth. A landslide structure, characterized in that a plurality of layers (10, 10 ') are stacked. The method of claim 1, The prosthetic stand (11) is a mating structure, characterized in that the filling is filled with a material for planting, the mat is formed with a hole through which the stem to grow. The method according to claim 1 or 2, An end holder 13 fixedly disposed at an end of the grid 12 positioned parallel to the center of the grid 12 while surrounding the front surface of the prosthetic stand 11 and connected to an upper end of the anchor 15; And A center holder 14 fixedly disposed at the center of the grid 12, which is a position facing the end holder 13, and connected to a lower end of the anchor 15; Avalanche structure, characterized in that it further comprises. The method of claim 3, wherein The end holder 13 has a ring-shaped first catching portion 13a protruding upward, and the center holder 14 is engaged with and connected to the first catching portion 13a of another layer located below. An avalanche structure, comprising a locking portion 14a. The method of claim 3, wherein The anchor 15 is in the shape of a cube having a through hole 15e penetrating back and forth, the rear surface is formed with a seating groove (15a) is the end of the grid 12 is wrapped around the front of the prosthetic stand (11), On the bottom, the upper part of the anchor of the other layer located on the lower floor is engaged, and between the anchors of the upper layer and the lower layer, an insertion groove 15d through which the grid of the upper layer and the lower layer passes is formed. It includes a first and second fixing bar (15b, 15c) arranged side by side along the mounting groove (15a) to hold the grid 12 while being wrapped around the end of the grid (12) seated in the) Landslide structure. The method of claim 3, wherein It is characterized in that it further comprises a vegetation mat 16 is disposed between the front of the prosthetic stand 11 and the grid 12, the filling material for planting is filled therein, the hole through which the stem to grow is formed. Landslide structure.

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