KR102458623B1 - retaining wall - Google Patents

Abstract

The retaining wall structure according to the present invention is attached to the front surface of the outermost sheet of the geocell, and includes a cover means having UV blocking properties and flame retardant properties.
The cover means is made of a mesh cover in which a polymer plastic material having UV blocking properties and flame retardant properties is coated on a mesh body made of a metal material, or a polymer plastic material having UV blocking properties and flame retardant properties is coated on a fiberglass fabric body. It may be made of a fabric cover.
The present invention is provided in the filling space of the geocell and is made in the form of horizontally dividing the filling space into a plurality of reinforcement means to strengthen the strength against the vertical load.
The reinforcing means consists of a pair of auxiliary sheets each having both ends attached to the inner surface of the geocell sheet and arranged in a bent form by attaching the central portions to each other.
The reinforcing means may be intensively disposed in the filling space adjacent to each other in all directions, arranged to be connected in a line along the adjacent collection space, or disposed only in the collection space in the outermost row.
The sheet of the geocell is made of a structure in which a metal mesh body is coated with a polymer plastic material having UV blocking properties and flame retardant properties, or a polymer plastic material having UV blocking properties and flame retardant properties on a fiberglass fabric body. It may have a coated structure.
As described above, according to the present invention, since the outermost sheet of the geocell constituting the retaining wall is prevented from being deteriorated by the ultraviolet rays of sunlight by the protection means, and is also protected against fire or external impact, the durability of the retaining wall is improved. There is an advantage to be

Description

Geocell type retaining wall structure {retaining wall}

The present invention relates to a retaining wall structure constructed using a geocell and having improved durability by preventing the deterioration of the geocell.

In general, a retaining wall is a structure to prevent the collapse of slopes such as incisions, and is mainly composed of a form of blocking the slope by laminating concrete blocks.

However, the retaining wall structure using the concrete block as described above is not environmentally friendly and has a problem in that construction is difficult due to the high weight of the concrete block.

In order to solve the problems of the prior art, a retaining wall structure using a so-called geocell has been devised.

As shown in FIG. 1 , the geocell 10 is a combination of a plurality of sheets 12 of a predetermined height having a long length and a thin thickness. A plurality of filling spaces (10a) are configured to be alternately formed in each other.

According to the method using the geocell 10 as shown in FIG. 2 , the reinforcing soil 13 is filled in the filling space 10a, and the geocell 10 filled with the reinforcing soil 13 is sequentially placed along the slope. By horizontally stacking, a retaining wall that reinforces the slope is formed.

According to the prior art of the geocell method, not only the amount of work is reduced compared to the method of constructing a retaining wall using a conventional concrete block, but also the plant seeds are planted in the reinforcing soil 13 for growth, or the vegetation is directly transplanted. It has the characteristic that eco-friendly decoration is possible by making it possible.

However, according to this geocell method, since the retaining wall is constructed in a form in which the geocells 10 are stacked up and down, in the case of the geocell 10 in the lower layer, the reinforcing soil 13 filled in the filling space 10a is placed in the upper layer. It is pressed by the load of the laminated reinforcing soil 13 .

Accordingly, it can be seen that the outermost sheet 12 (the sheet exposed to the surface of the retaining wall) of the geocell 10 is subjected to a strong expansion pressure in the horizontal direction, thereby maintaining a tense state.

On the other hand, the geocell 10 is mainly made of a high-density polyethylene (HDPE: High Density Poly Ethylene) material, and HDPE has a characteristic that its structural strength is weakened by deterioration when exposed to ultraviolet rays for a long time.

Accordingly, according to the prior art, the outermost sheet 12 of the geocell 10 exposed to sunlight by being exposed to the outside of the retaining wall in a state in which the retaining wall is built is exposed to sunlight due to the ultraviolet rays of sunlight due to the material characteristics thereof as time elapses. It deteriorates and the structural strength is weakened.

And, when an external shock is applied to the outermost sheet 12 in a state where the structural strength is weakened, it cannot withstand the expansion pressure of the reinforcing soil 13 and is ruptured, thereby causing a problem that the structure of the retaining wall is not firmly maintained.

An object of the present invention is to provide a retaining wall structure that includes a cover means for protecting the outermost sheet of a geocell so that the structure of the retaining wall is firmly maintained.

The retaining wall structure according to the present invention, which is provided to achieve the above object, is attached to the front surface of the outermost sheet of the geocell, and includes a cover means having UV blocking properties and flame retardant properties.

The cover means is made of a mesh cover in which a polymer plastic material having UV blocking properties and flame retardant properties is coated on a mesh body made of a metal material, or a polymer plastic material having UV blocking properties and flame retardant properties is coated on a fiberglass fabric body. It may be made of a fabric cover.

The present invention is provided in the filling space of the geocell and is made in the form of horizontally dividing the filling space into a plurality of reinforcement means to strengthen the strength against the vertical load.

The reinforcing means consists of a pair of auxiliary sheets each having both ends attached to the inner surface of the geocell sheet and arranged in a bent form by attaching the central portions to each other.

The reinforcing means may be intensively disposed in the filling space adjacent to each other in all directions, arranged to be connected in a line along the adjacent collection space, or disposed only in the collection space in the outermost row.

The sheet of the geocell is made of a structure in which a metal mesh body is coated with a polymer plastic material having UV blocking properties and flame retardant properties, or a polymer plastic material having UV blocking properties and flame retardant properties on a fiberglass fabric body. It may have a coated structure.

According to the present invention as described above, since the outermost sheet of the geocell constituting the retaining wall is prevented from being deteriorated by the ultraviolet rays of sunlight by the protection means, and is also protected against fire or external impact, the durability of the retaining wall is improved. It has the advantage of being improved.

Figure 1: A view showing the configuration of a general geocell
Figure 2: A view showing the configuration of a retaining wall using a conventional geocell
Figure 3a, 3b: a view showing a configuration provided with a mesh cover as a cover means in the present invention
Figure 4: A view showing a retaining wall provided with a mesh cover as a cover means in the present invention
Figure 5a, 5b: a view showing a configuration in which a fabric cover is provided as a cover means in the present invention;
Figure 6: A view showing a retaining wall provided with a fabric cover as a cover means in the present invention
Figure 7: A partially enlarged view showing the configuration of the reinforcing means according to the present invention
Figure 8a: a view showing the centralized arrangement of the reinforcing means according to the present invention;
Figure 8b: a view showing a form of arrangement in a row of the reinforcement means according to the present invention
Figure 8c: a partially enlarged view showing the configuration of the reinforcing means according to the present invention;
Figure 9: A view showing a mesh-type geocell according to the present invention
10: a view showing a fabric-type geocell according to the present invention

Hereinafter, the specific contents of the present invention will be described in detail with reference to FIGS. 3A to 10 .

The retaining wall structure according to the present invention comprises a plurality of geocells 10 stacked up and down to constitute a multi-layered ply, and a cover means for protecting the outermost sheet 121 of the geocell 10 .

The geocell 10 has a structure in which a plurality of sheets 12 are overlapped in parallel with each other and partially joined to each other at regular intervals in the longitudinal direction, as in the prior art, and expands laterally to be filled with reinforcing soil. A plurality of filling spaces (10a) that can be formed are formed.

A plurality of slits 12a are formed in the outermost sheet 121 to allow the stems of plants grown in the reinforcing soil to protrude.

As shown in FIGS. 3A and 3B , according to an exemplary embodiment of the present invention, the cover means is made of a mesh cover 20 coated with a polymer plastic material having UV blocking properties and flame retardant properties on a mesh body of a metal material.

The mesh cover 20 is flexibly curved and is attached in a form in close contact with the front surface of the outermost sheet 12 of the geocell 10 of each layer, and the mesh cover 20 also has the stems of plants vegetated. A slit 20a coincident with the slit 12a of the outermost sheet 12 of the geocell 10 is formed so as to be protruded.

The mesh cover 20 may be attached to the outermost sheet 12 of the geocell 10 by an adhesive method, heat bonding method, high frequency welding method, etc. using an adhesive, and the geocell 10 is used to construct a retaining wall. It is preferable from the viewpoint of construction workability to be attached to the outermost sheet 12 in advance prior to construction.

According to each embodiment of the present invention, as shown in FIG. 4, a mesh cover 20 coated with a polymer plastic material having UV blocking properties and flame retardant properties is attached to the outermost sheet 121 of the geocell. Due to the nature of the structure, the outermost sheet 12 of the geocell 10 constituting each layer of the retaining wall is prevented from being deteriorated by the ultraviolet rays of sunlight by blocking sunlight by the mesh cover 20 in the state in which the retaining wall is constructed. .

In addition, since the mesh cover 20 is not easily damaged even when an impact is applied from the outside due to the nature of the mesh body made of a metal material, it helps to maintain the structure of the retaining wall firmly.

In addition, since the mesh cover 20 is not easily damaged even when an impact is applied from the outside due to the nature of the mesh body made of a metal material, it helps to maintain the structure of the retaining wall firmly.

5a and 5b, according to another embodiment of the present invention, the cover means is made of a fabric cover 30 coated with a polymer plastic material having UV blocking properties and flame retardant properties on a fabric body made of glass fiber material.

The fabric cover 30 is also flexibly curved like the mesh cover 20 and is attached in a form in close contact with the front surface of the outermost sheet 121 of the geocell 10 of each layer, and the fabric cover 30 A slit 30a coincident with the slit 12a of the outermost sheet 12' of the geocell 10 is formed so that the stem of the plant vegetated in the Edo period can come out.

The fabric cover 30 may be attached to the outermost sheet 121 of the geocell 10 by an adhesive method using an adhesive, a heat sealing method, a high frequency welding method, etc., and the geocell 10 is used for the retaining wall configuration. It is preferable from the viewpoint of construction workability to be attached to the outermost sheet 12' in advance before construction.

According to another embodiment of the present invention, as shown in FIG. 6 , the fabric cover 30 coated with a polymer plastic material having UV blocking properties and flame retardant properties is the outermost sheet 121 of the geocell 10 . A phenomenon in which the outermost sheet 12 of the geocell 10 constituting each layer of the retaining wall is deteriorated by ultraviolet rays of sunlight by blocking sunlight by the fabric cover 30 in a state in which the retaining wall is constructed. This is prevented.

In addition, since the fabric cover 30 is not easily broken even when an impact is applied from the outside due to the nature of the fabric body made of strong glass fiber material, the structure of the retaining wall is strongly maintained. .

In the present invention as described above, the mesh cover 20 and the fabric cover 30 may be selectively employed depending on various conditions such as environmental characteristics according to the region where the retaining wall is configured, and the shape and size of the retaining wall. have.

And, the present invention is provided in the filling space (10a) of the geocell (10) in the form of horizontally dividing the filling space (10a) into a plurality of reinforcement means to strengthen the resistance to the vertical load by including a reinforcement means can be done

As shown in FIG. 7 , the reinforcing means is exemplarily arranged in a bent form by having both front ends 141 attached to the inner surface of the sheet 12 of the geocell 10 and the central portion 142 attached to each other. It may be formed of a pair of auxiliary sheets 141 .

Here, the reinforcing means may be of a centralized arrangement type, a line arrangement type, an outermost arrangement type, etc. as follows.

In the centralized arrangement type, the reinforcing means are intensively arranged in the filling space adjacent in all directions (see Fig. 8a), and in the line arrangement type, the reinforcing means are arranged so that the reinforcing means are arranged in a line along the collecting space adjacent to the side (Fig. 8b) refer), the outermost arrangement type is arranged only in the collection space of the outermost row (see Fig. 8c).

The arrangement form of these reinforcing means can be appropriately selected in consideration of the distribution of vertical load according to the area of the geocell 10, stacking height, etc. Other arrangements may be made depending on the location.

According to the present invention, the so-called mesh-type geocell 10' (see FIG. 9) to which a sheet 12' of a structure coated with a polymer plastic material having ultraviolet blocking properties and flame retardant properties is applied to a mesh of a metal material (see FIG. 9) or, A fabric-type geocell 10" to which a sheet 12" having a structure coated with a polymer plastic material having UV blocking properties and flame retardant properties is applied to a fabric made of glass fiber may be applied.

The mesh-type geocell 10' and the fabric-type geocell 10" of a special configuration according to the present invention have a higher manufacturing cost compared to a general synthetic resin single material geocell, but due to the characteristics of the material, durability and structural strength It can be selectively used under operating conditions such as very poor climatic environment or high load-bearing capacity is required.

10: geocell 10a: filling space
12: sheet 121: outermost sheet
20: mesh cover 30: fabric cover
14: auxiliary seat
10' Mesh Geocell 10" Fabric Geocell

Claims (10)

A geocell in which a plurality of sheets are overlapped in parallel with each other and partially joined to each other at regular intervals in the longitudinal direction, extending laterally to form a plurality of filling spaces, and stacked up and down to form a multi-layered geocell class,
a cover means attached to the front surface of the outermost sheet of the geocell and having UV blocking properties and flame retardant properties;
Reinforcing means provided in the filling space of the geocell to strengthen the resistance to vertical load by horizontally dividing the filling space into a plurality of pieces
includes,

The cover means is made of a mesh cover coated with a polymer plastic material having UV blocking properties and flame retardant properties on a mesh body of a metal material,
The reinforcing means is composed of a pair of auxiliary sheets arranged in a bent form by attaching both ends to the inner surface of the sheet of the geocell, respectively, and the central portion to each other.
A retaining wall structure characterized by
delete delete delete delete According to claim 1, wherein the reinforcing means
Concentrated and arranged in filling spaces adjacent in all directions
Retaining wall structure characterized by According to claim 1, wherein the reinforcing means
Arranged in a row along the adjacent collection space
A retaining wall structure characterized by
According to claim 1, wherein the reinforcing means
Arranged only in the collection space of the outermost row
A retaining wall structure characterized by
The method of claim 1, wherein the sheet of geocell is
Retaining wall structure made of a structure in which a metal mesh is coated with a polymer plastic material having UV blocking properties and flame retardant properties.
The method of claim 1, wherein the sheet of geocell is
A retaining wall structure composed of a structure in which a glass fiber fabric is coated with a polymer plastic material having UV blocking properties and flame retardant properties.

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