KR101311313B1 - A vegitation-oriented gabion mat assembly and a method of producing the same - Google Patents

Abstract

PURPOSE: An environmentally-friendly gabion wire mesh assembly and a manufacturing method thereof are provided to prevent natural environment from being damaged by filling surrounding soil because the filler does not go out from a wire mesh. CONSTITUTION: An environmentally-friendly gabion wire mesh assembly (100) comprises a base wire mesh, a soil leakage preventing member (120), and a center partitioning wire mesh. The base wire mesh includes a bottom wire mesh, a front wire mesh (114), and a rear wire mesh (116) and forms a filled space unit in which filler is filled. The soil leakage preventing member is formed in order to cover the upper surface of the base wire mesh, an empty space unit of the bottom wire mesh, the front wire mesh, and the bottom wire mesh and prevent the filler from being leaked by being binding to the upper surface of the base wire mesh. The center partitioning wire mesh is installed in a parallel direction to the front wire mesh and is partitioned so that the filler is not moved.

Description

A Vegitation-oriented Gabion Mat Assembly and A Method of Producing the Same

The present invention relates to an eco-friendly Gabion wire mesh assembly and a method of manufacturing the same, and more particularly, it is possible to fill the earth and sand existing in the periphery of the construction site without putting a crushed stone in the interior of the Gabion wire mesh, the workers perform a very easy operation It relates to an environmentally friendly Gabion wire mesh assembly, and a manufacturing method capable of manufacturing the same.

Generally, streams, rivers, or river embankments form a natural environment that is closely related to human life. This natural environment is one of the soil structures which is itself full of environmentally friendly elements due to the various plants grown in the soil.

However, as the whole country went through the process of industrialization, there have been frequent cases of construction by various cement blocks, raft blocks, etc. under the influence of industrialization even in the case of streams, rivers or banks. This concrete construction method does not provide any environment for plants to grow after the construction of the embankment, etc., is incompatible with the surrounding environment, and has the disadvantage of destroying the ecosystem.

In order to improve the shortcomings of the concrete construction method is the construction method of the slope or shaft wall using the Gabion gabion. Gabion gabions are hexagonal or rectangular iron mesh panels that are made of polyhedrons and are filled with rubble and other fillers. Wire mesh Gabion is filled with natural stone, pebble, rubble, etc. inside Gabion woven into a wire mesh, and then it is cut into road cuts, embankments to prevent erosion, bridges to prevent erosion from pier, defense walls of breakwater, retaining walls and shaft walls of slopes, etc. It is widely used for a purpose.

The conventional method of building a slope using a Gabion gabion is to tear down the incision or the slope to a considerable extent, install a base of Gabion mattress in the torn down position and fill the interior of the Gabion Mattress with fillers such as crushed stone, rubble and waste-rock. Forming a wire mesh cover thereon and finishing; Or filling soil directly on the stone layer, or laying a support member capable of plant growth on the stone layer, and filling the soil thereon, forming a wire mesh cover, and finally planting the plant or tree thereon. It consists of.

However, in the conventional construction method of the slope using Gabion gabions, the Gabion gabions manufactured in a uniform form had to use fillers such as crushed stone, rubble, or waste-rock in the interior thereof. It was torn down and supplied with fillers such as crushed stone, rubble, or waste-rock.

Under such a system for supplying the filling material, it is necessary to tear down the acid and the like to obtain the filling material, so that it is inevitable to damage the natural environment.

In addition, since the conventional filling material has a heavy weight, it was necessary to transport and move the filling material and its transportation costs from the quarry such as Yasan to the construction site of the Gabion wire mesh, which caused the construction cost to rise. This was happening.

In addition, in the case of using a conventional gabion gabion, after completing the construction of the construction site, spread the non-woven fabric on the floor surface, and on the non-woven fabric, workers assemble the gabion wire mesh into a gabion mattress, the interior of the gabion mattress The construction work was performed by filling the filling material in the. In this case, since the nonwoven fabric is placed on the bottom surface which is in contact with the ground, soil, humus, etc., which were put together with the filling material through the side of the gabion mattress, were easily released after the construction work.

In addition, since the water must be carried out at the same time during the whole process, such as the installation of dialysis caps for non-woven fabric laying during the installation of gabion in the reservoir, it can lead to excessive construction costs due to the increase in the construction period and the increase in the cost of dispensing water. Climate wire nets and non-woven fabrics are implemented at one time, making it more economical because it can shorten the cost of draining water and the construction period.

For this reason, when using the conventional Gabion gabion, there is a disadvantage that the situation where the roots of planted plants can grow, and the situation in which the entire eco-friendly construction method is terminated by failure often occurs.

[Document 1] Republic of Korea Patent No. 10-0733005 "Eco-friendly embankment construction method using a quilt type mesh netting" (2007. 6. 21.); [Document 2] Korean Patent No. 10-1020400 "Eco-friendly gabion and its construction method" (2011. 2. 28.); [Document 3] Republic of Korea Patent No. 10-0671902 "Construction method of environment-friendly bank construction" (2007. 1. 15.).

The present invention is to solve the above problems of the prior art, it is possible to fill the earth and sand (soil) existing in the periphery of the construction site without putting the crushed stone, etc. in the gabion wire mesh, the workers work very easily An object of the present invention is to provide an environmentally friendly Gabion wire mesh assembly, and a manufacturing method for manufacturing the same.

The present invention in the construction of slopes, such as rivers and river banks using a Gabion mattress, to improve the efficiency and efficiency of the work and to manufacture the gabion mattress that can maintain the soil required to maintain the growth of the plant after the operation intact It relates to an environmentally friendly wire mesh assembly and a manufacturing method for manufacturing the same.

Environmentally friendly Gabion wire mesh assembly according to the present invention, the bottom wire mesh is placed corresponding to the ground of the inclined surface and formed in a rectangular shape, both ends are folded to form the first and second side wire mesh, and the length of the bottom wire mesh A front wire mesh coupled to the front side and formed in a relatively short width compared to the front width of the bottom wire mesh, and a rear wire mesh coupled to the rear side in the longitudinal direction of the bottom wire mesh and formed in a width corresponding to the front wire mesh; A base wire mesh forming a filling space in which a filling material necessary for growth of plants, such as soil, is filled; The base wire mesh is formed so as to cover an empty space formed by the difference between the width of the bottom wire mesh and the bottom wire mesh of the base wire mesh and the base wire mesh, and a part of the corner portion located in the empty space portion is cut off the base wire mesh It is formed to overlap the first and second side wire mesh portion of, the earth leakage prevention member is bound to the upper surface of the base wire mesh to prevent leakage of the filler material; The upper surface of the earth leakage preventing member may be installed in a direction parallel to the front wire mesh, it may include an intermediate partition wire mesh to partition the filler material so as not to flow in the filling space.

The base wire mesh may further include a top wire mesh covering the filling space of the base wire mesh, and may further include a binding wire for firmly fixing the filling material of the filling space by connecting and fixing the top wire mesh with the bottom wire mesh of the base wire mesh. .

In addition, the earth leakage leakage preventing member is formed of the same material, and installed to cover at least one surface of the intermediate partition wire mesh, may further include a soil leakage preventing member for the intermediate partition to prevent the filler material from moving between the wire mesh. have.

Eco-friendly Gabion wire mesh assembly according to the present invention manufacturing method, the bottom wire mesh of the same size as the front wire mesh and the front wire mesh formed in a relatively small width compared to the front width of the bottom wire mesh in the bottom wire mesh of the predetermined dimensions Manufacturing a base wire mesh to attach and couple to the front and rear surfaces of the wire mesh, respectively; The earth leakage prevention member which covers the upper surface of the base wire mesh with the earth leakage leak prevention member cut relatively larger than the length and width of the base wire mesh which prevents the leakage of the filling material for plant growth, and binds together using a fastening member. Member binding step; An intermediate partition wire mesh binding step of installing an intermediate partition wire mesh having the same material and the same dimension as the front wire mesh so as to be parallel to the front wire mesh on an upper surface of the earth leakage preventing member; Corner section notching step of notching the corner portion located in the empty space formed by the width difference between the bottom wire mesh and the front wire mesh and the back wire mesh in the soil leakage prevention member; And bending the first and second side wire meshes and the front wire mesh and the rear wire mesh of both ends of the base wire mesh upward, and bending the corner portion to overlap the earth leakage preventing member of the first and second side wire mesh. Afterwards, the first and second side wire mesh, the front wire mesh and may comprise an assembling step of binding the bonded portion of the back wire mesh.

In addition, the intermediate partition wire mesh may further include the step of attaching the earth leakage preventing member for the middle partition formed of the same material as the earth leakage preventing member on one surface thereof, by combining it with a fastening member to integrate.

In addition, after the assembling step of combining the top plate mesh to couple the top plate mesh covering the filling space formed inside the base wire mesh; And a binding wire fixing step of installing a binding wire for connecting and fixing the upper wire mesh and the bottom wire mesh of the base wire mesh.

According to the present invention, since the nonwoven fabric is positioned inside the wire mesh of the gabion mattress, when the filling material is filled into the inside of the gabion mattress, the nonwoven fabric forms a form that surrounds the filling material inside the wire mesh and prevents the filling material from falling out of the wire mesh. It has the advantage of being.

In addition, the present invention, when the non-woven fabric is also fastened to each of the intermediate partition, because the filler is unable to move through the intermediate partition, the filler does not move or exit from the original position to another position, thereby planted plants It also has the advantage of preserving the soil that can grow.

In addition, the present invention can fill the surrounding soil (stone) without necessarily filling the crushed stone and rubble, it does not need a quarry for obtaining crushed stone or rubble, it is necessary to collect and use the gravel stones of the river, etc. There is also an advantage that does not damage the natural environment.

In addition, the corner portion has the advantage of further improving the performance of the Gabion wire mesh assembly by preventing leakage between the front and rear wire mesh and the first and second side wire mesh.

In addition, the binding wire can firmly fix the upper wire mesh and the base wire mesh to reduce damage to the Gabion wire mesh assembly by external force, reducing the cost of maintenance and also extends the life of the product.

1 is a schematic diagram before coupling showing the coupling relationship between the bottom wire mesh and the front wire mesh and the back wire mesh,
Figure 2 is a schematic diagram after the coupling showing the relationship between the bottom wire mesh and the front wire mesh and the back wire mesh,
3 is a schematic diagram showing a state before the earth leakage preventing member is coupled to the base wire mesh;
Figure 4 is a schematic diagram showing a state before fastening the intermediate partition wire mesh to the combination of the integrated base wire mesh and the earth leakage preventing member,
Figure 5 is a schematic diagram showing a state before the fastening the earth leakage preventing member for the middle partition to the middle partition wire mesh,
Figure 6a is a state of overlapping the earth leakage preventing member for the middle partition in a state in which the middle partition wire mesh is formed through the step of FIG.
6B is a schematic view showing a state in which the earth leakage preventing member for the middle partition is integrated and coupled to the bottom wire mesh;
Figure 7 is an exploded perspective view showing the configuration of an eco-friendly gabion wire mesh assembly according to the present invention,
8 is an image data of the completed state of the Gabion mattress product using the eco-friendly Gabion wire mesh assembly of the present invention.

The present invention provides an eco-friendly Gabion wire mesh assembly 100 to increase the efficiency and efficiency of the work in the construction of slopes such as rivers and riverside banks, and to maintain the soil required to maintain the growth of plants after the work. .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings are only intended to describe the technical spirit of the present invention in more detail, the technical spirit of the present invention is not limited thereto, and various modifications are possible in advance.

Eco-friendly gabion wire mesh assembly 100 according to the present invention includes a base wire mesh 110 which is placed corresponding to the ground of the inclined surface.

The base wire mesh 110 includes a bottom wire mesh 112 which is also disposed corresponding to the ground of the inclined surface and forms a rectangular shape. The bottom wire mesh 112 is formed in a mesh shape in which polygonal wires share one surface with each other, and two wire wires may be formed by twisting each other in a double manner. The bottom wire mesh 112 is cut by adjusting the length of the wire mesh manufacturing apparatus (not shown) in the process of manufacturing the wire mesh appropriately. Typically, the width of the bottom wire mesh 112 is about 1.5 meters to about 2.5 meters, the length thereof may be cut to form about 4 to 6 meters, but may be variously cut and used according to the specifications of the applied part. .

The base wire mesh 110 includes a front wire mesh 114 coupled to the front of the bottom wire mesh 112 in the longitudinal direction. The front wire mesh 114 preferably uses the same wire mesh as the bottom wire mesh 112, and is formed to have a smaller width than the front width of the bottom wire mesh 112, and is shortly formed to about 20 centimeters to 50 centimeters. It is desirable to have. Herein, the front surface refers to a surface formed with a relatively short length in the base wire mesh 110. Of course, it is apparent that the base wire mesh 110, rather than the front surface, has a relatively long length formed on the front surface.

In addition, the base wire mesh 110 includes a back wire mesh 116 coupled to the rear of the longitudinal direction of the bottom wire mesh 112. The back wire mesh 116 is also preferably using the same wire mesh as the bottom wire mesh 112, is also formed in a smaller width than the back width of the bottom wire mesh 112, about 20 centimeters to about 50 centimeters It is preferable that it is formed short. Here, the rear surface refers to the surface corresponding to the front surface.

The front wire mesh 114 and the rear wire mesh 116 are respectively coupled to the center portion of the front and rear of the bottom wire mesh 112 to face each other.

In the coupled state, the base wire mesh 110 is the bottom wire mesh 112 is present in the center, the front wire mesh 114 and the rear wire mesh 116 at both ends thereof, respectively. It is present in the fully extended state on the bottom with respect to the coupling part. At this time, the front wire mesh 114 and the rear wire mesh 116 do not reach the four corner portions of the bottom wire mesh 112, the empty space 21 is left, and the front wire mesh 114 and at a later construction site The bottom wire mesh 112 is folded along the fold line 23 connecting the ends of the back wire mesh 116. The fold line 23 is not present in the bottom wire mesh 112, but it is shown for convenience of explanation, and later, when workers are folded at both ends of the bottom wire mesh 112 at a construction site, they are bent upwards. A part that is folded is made.

The base wire mesh 110 forms a skeleton of the eco-friendly gabion wire mesh assembly 100, and forms a filling space in which a filler may be filled.

Eco-friendly Gabion wire mesh assembly 100 according to the present invention includes a soil leakage preventing member 120 overlapping on the base wire mesh (110).

The earth leakage preventing member 120 is completely overlapped on the base wire mesh (110). The earth leakage leakage member 120 is completely covered and overlaps the bottom wire mesh 112, the front wire mesh 114, and the rear wire mesh 116 as well as the empty space portion 21. It means to lose.

The earth leakage preventing member 120 is bound to a plurality of fastening members (not shown) with respect to the base wire mesh (110). This means that the earth leakage preventing member 120 and the base wire mesh 110 are integrally coupled in the manufacturing step of the Gabion mattress product, and the earth leakage preventing member 120 is connected to the base wire mesh ( By joining directly above 110, it means that the filler can be prevented from escaping into the gap of the wire mesh. Since the fastening member is a conventional one, the drawings do not indicate this.

On the other hand, the earth and sand leakage preventing member 120 prevents the leakage of humus, soil, sand, organic manure, gravel stones necessary for the growth of plants such as soil, but has a fine pore can discharge groundwater or rainwater Use a material made up of Therefore, when the Gabion mattress product is made using the Gabion wire mesh assembly 100 according to the present invention, and the slope surface is used using the Gabion wire mesh assembly 100, the filling material (for example, soil, humus, organic matter, etc.) filled in the mattress after construction is used. ) Retains its original position and original fill, and allows the inside moisture to move without accumulation, thus keeping planted plants unobstructed from growing in that state. On the other hand, in the case of the conventional Gabion mattress, the non-woven fabric is simply laid on the ground, so that the fine filling material cannot be prevented from escaping to the outside through the side of the Gabion mattress, and thus the planted plants are needed to grow. There was a disadvantage that the humus and organics are lost.

As described above, in the state where the base wire mesh 110 and the earth leakage preventing member 120 are coupled to and integrated with each other, only the earth leakage leakage preventing member 120 is used alone in the empty space 21. It just exists. The corner portion 121 of the soil leakage preventing member 120 existing in the portion is overlapped with each other in the wire mesh when the gabion mattress is assembled, and the double portion exists. The corner portion 121 may be removed by cutting, but only a portion of the corner portion 121 may be cut out so that the corner portion 121 is positioned inside the filling space to prevent the filling material from flowing out.

Referring to FIG. 5, reference numerals 121a and 121b of FIG. 5 illustrate cutouts that may be cut in the corner portion 121. When one of the cutouts 121a and 121b is bent and the corner portion 121 is bent to be positioned inside the filling space, the front wire mesh 114 and the first and The risk of leakage between the second side wire meshes 132 and 134 and the back wire mesh 116 and the first and second side wire meshes 132 and 134 is reduced. Details will be described later.

Eco-friendly Gabion wire mesh assembly 100 according to the present invention includes a plurality of intermediate partition wire mesh 130 is located above the earth leakage preventing member 120 and coupled to the base wire mesh 110.

The intermediate partition wire mesh 130 is formed in the central portion of the earth leakage preventing member 120, and is fastened to the base wire mesh 110 by a fastening member penetrating through the earth leakage preventing member 120. have. The intermediate partition wire mesh 130 is coupled to the base wire mesh 110 to serve to divide the filling space.

On the other hand, the intermediate partition wire mesh 130 is one end thereof is coupled to the base wire mesh 110, but after the assembly is completed, the first side wire mesh 132 to be formed to stand on both sides of the base wire mesh 110 And both ends of the second side wire mesh 134 are combined.

In the present invention, the middle partition wire mesh 130 is attached to at least one surface of the ground leakage preventing member 122 for the middle partition formed of the same material as the earth leakage preventing member 120, and coupled to the fastening member It is preferable to make it integrated. When the intermediate partition wire mesh 130 is integrated with the earth leakage preventing member 122 for the intermediate partition, the filling material filled in the filling space may be prevented from moving to another part therein. have.

As shown in FIG. 7, the upper plate mesh 140 may be coupled to an upper surface of the base wire mesh 110. The upper wire mesh 140 is an upper surface of the base wire mesh 110, more specifically, when the base wire mesh 110 is assembled, the front and rear wire mesh 114, 116 and the first and second side surfaces It is coupled to the upper end of the wire mesh (132, 134) to prevent the filler located in the filling space is separated by external force.

The upper wire mesh 140 has a circumference of the upper and rear wire meshes 114 and 116 and the first and second side wire meshes 132 and 134 are fastened by a fastening member.

The binding wire 142 may be provided to further strengthen the fixing force of the upper wire mesh 140. The binding wire 142 is one end is fastened to the upper wire mesh, the other end is fastened to the bottom wire mesh 120, respectively, to add a fixing force of the upper wire mesh.

The present invention provides a method for producing the eco-friendly gabion wire mesh assembly 100.

The manufacturing method of the eco-friendly Gabion wire mesh assembly 100 according to the present invention is the front wire mesh 114 and the width formed in a relatively small width compared to the front width of the bottom wire mesh 112 in the bottom wire mesh 112 of a predetermined dimension A step of manufacturing the base wire mesh 110 for attaching and coupling the rear wire mesh 116 having the same dimensions as the front wire mesh 114 to the front and rear surfaces of the bottom wire mesh 112, respectively;

Covering the upper surface of the base wire mesh 110, the earth leakage preventing member 120 cut relatively larger than the length and width of the base wire mesh 110 to prevent the leakage of the filling material for the growth of the plant, the fastening member Bonding the earth leakage leakage preventing member 120 to bind together using a;

Bonding the intermediate partition wire mesh 130 for installing the intermediate partition wire mesh 130 having the same material and the same dimension as the front wire mesh 114 so as to be parallel to the front wire mesh 114 on the top surface of the soil leakage preventing member 120. step;

Cutting the corner portion 121 located in the empty space portion 21 formed by the width difference between the bottom wire mesh 112 and the front wire mesh 114 and the back wire mesh 116 in the soil leakage prevention member 120. Corner portion 121 cutting step; And

The first and second side wire meshes 132 and 134 at both ends of the base wire mesh, the front wire mesh 114 and the rear wire mesh 116 are bent upward, and the corner portion 121 is bent into the first and second wire meshes. The first and second side wire meshes 132 and 134, the front wire mesh 114, and the rear wire mesh 116 are installed after bending to overlap the earth leakage leakage preventing member 120 of the side wire meshes 132 and 134. An assembly step of binding the bonded portion of the may include.

The manufacturing method of the eco-friendly Gabion wire mesh assembly 100 according to the present invention includes a manufacturing step of the base wire mesh 110 is placed on the floor surface of the construction site to form a basic base.

1 is a schematic diagram showing a coupling relationship between the bottom wire mesh 112, the front wire mesh 114 and the back wire mesh 116,

2 is a schematic view after coupling showing the coupling relationship between the bottom wire mesh 112, the front wire mesh 114 and the back wire mesh 116.

In the manufacturing step of the base wire mesh 110, a plurality of wire meshes are manufactured by twisting two wires paired with each other in a wire mesh manufacturing apparatus, and then cutting them to a predetermined dimension to make a bottom wire mesh 112. The bottom wire mesh 112 finishes the cut surface by a finishing machine, and cuts a rectangular shape having a length of 4 to 6 meters X 1.5 to 2 meters in a length of approximately X length. In addition, the front wire mesh 114 and the rear wire mesh 116 formed in a shorter than the width of the bottom wire mesh 112 in the same manner, and then the front wire mesh 114 to the front of the bottom wire mesh 112 Attach and combine. In general, the coupling of the wire mesh with the wire mesh uses a fastening member, which can be carried out in a conventional manner. Of course, it is apparent that the floor wire mesh 112 can be cut to different values according to needs.

The manufacturing method of the eco-friendly Gabion wire mesh assembly 100 according to the present invention may include a step of binding the earth leakage leakage preventing member 120 to bind the earth leakage leakage preventing member 120 to prevent leakage of the filling material for plant growth. .

3 is a schematic view showing a state before the earth leakage preventing member 120 is coupled to the base wire mesh 110.

The step of binding the soil leakage preventing member 120 is embodied by combining the soil leakage preventing member 120 to prevent the leakage of the filler material to the base wire mesh 110 to integrate them as one member. As described above, the earth leakage preventing member 120 prevents leakage of humus, soil, sand, organic manure, and gravel stones necessary for the growth of plants such as earth and sand, but has fine pores to discharge groundwater or rainwater. Use materials made of materials that can be made.

The earth leakage preventing member 120 is cut slightly larger than the length and width of the base wire mesh 110, and then completely covers the soil leakage preventing member 120 on the base wire mesh 110. In this state, the earth leakage preventing member 120 and the base wire mesh 110 is bound to each other by a fastening member.

As such, when the soil leakage preventing member 120 is bound to the base wire mesh 110, the base wire mesh 110 prevents the filling material such as corrosive soil, soil, and sand from escaping to the outside. In this regard, selective permeation performance can be exhibited by allowing the product to escape to the outside. In particular, this point is a conventional product in that the filler material does not escape to the outside by the first side wire mesh 132 and the second side wire mesh 134 to be formed on the wings of both sides of the bottom wire mesh 112 It is very different from.

The manufacturing method of the eco-friendly gabion wire mesh assembly 100 according to the present invention includes the step of binding the intermediate partition wire mesh 130 to fasten the intermediate partition wire mesh 130 to the base wire mesh 110.

4 is a schematic view showing a state before the intermediate partition wire mesh 130 is fastened to the combination of the base wire mesh 110 and the earth leakage preventing member 120 integrated,

5 is a schematic view showing a state before the fastening of the intermediate partition earth leakage preventing member 122 to the intermediate partition wire mesh 130.

The binding step of the intermediate partition wire mesh 130 is cut to the same material and the same dimensions as the front wire mesh 114. The intermediate partition wire mesh 130 is disposed at the center of the bottom wire mesh 112, and one end of the intermediate partition wire mesh 130 is disposed above the earth leakage preventing member 120, and the earth leakage preventing member 120 is disposed. ) To be fastened to the base wire mesh 110 by a fastening member.

The manufacturing method of the eco-friendly gabion wire mesh assembly 100 according to the present invention may include a step of cutting corners 121 to cut corners 121 located in the empty space 21.

The corner portion 121 is a portion located in the empty space portion 21 formed by the difference in the width of the bottom wire mesh 112 and the front wire mesh 114 and the back wire mesh 116 in the soil leakage prevention member 120 May be completely removed and not used. However, by placing the corner portion 121 in contact with the inner surface of the first side wire mesh 132 or the second side wire mesh 134 without cutting off, the effect of preventing leakage can be further increased.

For example, the corner portion 121 adjacent to the front wire mesh 114 of the four corner portions 121 may be a portion adjacent to the boundary of the front wire mesh 114 at the corner portion 121. Cut to parallel with the wire mesh (114). Then, one end is coupled to the soil leakage preventing member 120 corresponding to the bottom wire mesh 112, and in this state, the corner portion 121 is positioned inside the first side wire mesh 132. It is bent to assemble. In this case, the leakage is reinforced to the portion corresponding to the boundary between the first side wire mesh 132 and the front wire mesh 114 is to increase the effect of preventing leakage.

Of course, it is also possible to cut not the portion adjacent to the boundary of the bottom wire mesh 112 but the front wire mesh 114.

Method for manufacturing an eco-friendly gabion wire mesh assembly 100 according to the present invention is the first and second side wire mesh 132, 134 and the front wire mesh 114 and the rear wire mesh 116 of both ends of the base wire mesh bent upwards The corner portion 121 is bent and installed to overlap the earth leakage preventing member 120 of the first and second side wire meshes 132 and 134 and the first and second side wire meshes 132 and 134. ), And may include an assembling step of binding the joined portions of the front wire mesh 114 and the back wire mesh 116.

As the first and second side wire meshes 132 and 134 and the front wire mesh 114 and the rear wire mesh are bound, a filling space is formed therein, and a filling material may be filled in the filling space.

As a preferred embodiment of the present invention, it is preferable that the intermediate partition wire mesh 130 is further integrated with the intermediate partition earth leakage preventing member 122 by fastening. In this case, the fillers in the interior of the Gabion mattress product are prevented from moving from one place to another in the interior, thereby fundamentally preventing the fillers from partially exiting or disappearing.

Figure 6a is a state that overlaps the earth leakage leakage preventing member 122 for the middle partition in a state in which the middle partition wire mesh 130 is formed through the step of FIG.

6B is a schematic diagram showing a state in which the earth leakage leakage preventing member 122 for the middle partition is integrated with the bottom wire mesh 112.

The present invention is a coupling step of the upper plate mesh net 140 to combine the upper plate wire mesh 140 covering the filling space formed in the base wire mesh after the assembly step as a preferred embodiment; And

A binding wire 142 fixing step of installing a binding wire 142 for connecting and fixing the upper wire mesh 140 and the bottom wire mesh 112 of the base wire mesh may be further included.

The upper plate mesh 140 is to cover the filling space formed by the base wire mesh 110 to more firmly fixed so that the filling material does not leak to the outside. In this case, the binding wire 142 is used to fix the upper wire mesh 140 to the base wire mesh more firmly. The binding wire 142 is one end is coupled to the upper plate mesh 140, the other end is coupled to the base wire mesh 110, the upper wire mesh 140 is an external force such as excellent in the base wire mesh 110 To prevent separation. Of course, the upper wire mesh 140 couples the circumference to the front wire mesh 114, the rear wire mesh 116, and the first and second side wire meshes 132 and 134 of the base wire mesh 110. However, when the inner filling material is made of a material having a specific gravity such as stone, the binding force is insufficient only by binding the circumference thereof.

Therefore, the binding of the upper wire mesh 140 and the base wire mesh 110 through the binding wire 142 is to be more firm.

The eco-friendly Gabion wire mesh assembly 100 configured as described above may be made of a finished product in a factory and shipped, and may be transported from a factory to a construction site. When carrying the eco-friendly Gabion wire mesh assembly 100, there is also an advantage to save the transport cost because they can be loaded in a unfolded state.

In the construction site, workers do not need to lay a separate non-woven fabric on the ground, it is sufficient to assemble the environment-friendly Gabion wire mesh assembly 100 in place to use. In other words, the worker folds up the wing portions on both sides of the bottom wire mesh 112 to form a first side wire mesh 132 and a second side wire mesh 134, the front wire mesh 114 and the rear wire mesh ( 116 is raised up to form a front wall and a back wall, which are then coupled to the first side mesh 132 and the second side mesh 134 again. When this is done, a rectangular structure with an empty interior is formed.

After that, the workers raise the intermediate partition mesh 130 above, and couple both sides to the first side mesh 132 and the second side mesh 134 again. In this state, the rectangular structure forms a structure in which the inside is divided into a plurality of intermediate partition wire mesh 130.

After that, workers insert the filling material into the gabion mattress in the usual way, and plant the plant as needed.

The present invention, as already described above, through the first side wire mesh 132 and the second side wire mesh 134 constituting its side in the finished mattress gabion product, the filling material such as humus soil, sand, sand out to the outside While preventing it from going out, groundwater and rainwater can be escaped to the outside. By preserving the filling material, it has the advantage of preserving the roots of planted plants and their nutrients after construction. There is also an advantage to ensure smooth circulation and preservation.

In addition, the corner portion 121 to prevent the leakage between the front wire mesh 114 and the rear wire mesh 116 and the first and second side wire mesh 132, 134 of the Gabion wire mesh assembly 100 It also has the advantage of further improving performance.

In addition, the binding wire 142 can firmly fix the upper wire mesh 140 and the base wire mesh 110, the damage of the Gabion wire mesh assembly 100 by external force is reduced, the cost of maintenance It also has the effect of shortening and extending the life of the product.

In the above, the eco-friendly gabion wire mesh assembly 100 according to the present invention and a manufacturing method thereof have been described in detail, but this is only for describing the most preferred embodiments of the present invention, and the present invention is not limited thereto. The range is determined and defined by the range.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

100: Eco-friendly Gabion Wire Mesh Assembly
110: base wire mesh 112: floor wire mesh
114: front wire mesh 116: rear wire mesh
120: earth leakage prevention member 130: the middle partition wire mesh
132: first side wire mesh 134: second side wire mesh

Claims (6)

A bottom wire mesh that is placed in correspondence with the ground of the inclined surface and is formed in a rectangular shape and is folded at both ends to form first and second side wire meshes, and is coupled to a front surface in the longitudinal direction of the bottom wire mesh, and the front of the bottom wire mesh Filler material including a front wire mesh formed in a relatively short width compared to the width, and a rear wire mesh coupled to the rear in the longitudinal direction of the bottom wire mesh and formed in a width corresponding to the front wire mesh, therein required for the growth of plants such as earth and sand Base wire mesh to form a filling space is filled;
The base wire mesh is formed so as to cover an empty space formed by the difference between the width of the bottom wire mesh and the bottom wire mesh of the base wire mesh and the base wire mesh, and a part of the corner portion located in the empty space portion is cut off the base wire mesh It is formed to overlap the first and second side wire mesh portion of, the earth leakage prevention member is bound to the upper surface of the base wire mesh to prevent leakage of the filler material;
It is installed in the direction parallel to the front wire mesh on the top surface of the earth leakage preventing member, and comprises a middle partition wire mesh to partition the filler material so as not to flow in the filling space,
It is formed of the same material as the earth leakage preventing member, and is installed to cover at least one surface of the middle partition wire mesh, eco-friendly Gabion wire mesh further comprising the earth leakage preventing member for the middle partition to prevent the filler material from moving between the wire mesh Assembly.
The method of claim 1,
An eco-friendly Gabion wire mesh assembly further comprising a top wire mesh covering the filling space of the base wire mesh, and further comprising a binding wire for firmly fixing the filling material of the filling space by connecting and fixing the top wire mesh with the bottom wire mesh of the base wire mesh. .
delete A base for attaching a front wire mesh formed of a smaller width than the front wire mesh of the bottom wire mesh and a back wire mesh having the same dimensions as the front wire mesh to the front and rear surfaces of the bottom wire mesh, respectively. Manufacturing the wire mesh 110;
The earth leakage prevention member which covers the upper surface of the base wire mesh with the earth leakage leak prevention member cut relatively larger than the length and width of the base wire mesh which prevents the leakage of the filling material for plant growth, and binds together using a fastening member. Member binding step;
An intermediate partition wire mesh binding step of installing an intermediate partition wire mesh having the same material and the same dimension as the front wire mesh so as to be parallel to the front wire mesh on an upper surface of the earth leakage preventing member;
Corner section notching step of notching the corner portion located in the empty space formed by the width difference between the bottom wire mesh and the front wire mesh and the back wire mesh in the soil leakage prevention member; And
Bending the first and second side wire meshes, the front wire mesh and the rear wire mesh of both ends of the base wire mesh upward, and bending the corner portion to overlap the earth leakage preventing member of the first and second side wire mesh. And an assembling step of binding the joined portions of the first and second side wire meshes, the front wire mesh and the back wire mesh,
The intermediate partition wire mesh is an eco-friendly gabion further comprising the step of attaching the earth leakage prevention member for the middle partition formed of the same material as the earth leakage prevention member on one surface thereof, by combining it with a fastening member to integrate. Method of manufacturing wire mesh assembly.
delete 5. The method of claim 4,
Joining the top plate mesh to couple the top plate mesh covering the filling space formed inside the base wire mesh after the assembling step; And a binding wire fixing step of installing a binding wire for connecting and fixing the top wire mesh and the bottom wire mesh of the base wire mesh.

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