KR100522636B1 - Mesh structure - Google Patents

Abstract

The present invention relates to a network structure, in which the height of the partition 20 is formed to be lower than the height of the network body 10, both vertical frames (21a) of the partition 20 is the network structure body ( The length is extended in the upward direction by the height of 10 to form the outer shape holding portion (21a '), the left and right sides (10d, 10e) of the network structure body 10 is the outer shape holding portion (21a') It is firmly supported in all directions, front, back, left, and right, so that the network structure is satisfactorily maintained in the hexahedral form as a whole.

Description

Mesh structure with U-shaped partitions

The present invention relates to a network structure, and more particularly, to a network structure mainly used to build eco-friendly revetment works on slopes such as embankments and incisions.

As is well known, shoreline structures such as shores, shores, and shores, slopes such as embankments or incisions are installed to prevent erosion from tsunamis and floods. The structure is constructed in various ways depending on the material.

Recently, an environmentally friendly method of constructing a revetment work using a network structure such as a gabion, such as Korean Patent Registration No. 432855, "Method for constructing a revetment work" has been widely expanded. According to this, the loss of soil and plant seeds is appropriately prevented, the germination, swelling, and growth of plant seeds are promoted, and ecological restoration is satisfactorily achieved.

On the other hand, the Republic of Korea Patent No. 432855 is to use a network structure as shown in Figures 1a to 1d in order to more easily construct the revetment work.

Such a conventional network structure, as shown in Figure 1d, consisting of a rectangular frame member (11a, 11b), and the network member 12 is built in it, the upper surface is folded in the form of a hexahedral container of the network structure body ( 10) and; Comprising a rectangular frame member (21a, 21b), and the mesh member 22 is provided therein, the partition 20 is installed in the network structure body 10 to partition the internal space of the network structure body (10); It consists of a rectangular frame member (31a, 31b), and the mesh member 32 in the interior, it consists of a cover 30 for sealing the upper opening surface of the network structure body (10); The height of the partition 20 is characterized in that it is formed lower than the height of the network structure body (10).

Referring to Figures 1a to 1d will be described a process for producing such a conventional network structure as follows.

First, as shown in FIG. 1A, the rectangular frame members 11a and 11b and the mesh members 12 installed therein are connected through the binding member W to the network structure body 10 having a flat plate shape. The partition 20 is fastened so that the partitions 20 are arranged at appropriate intervals on the bottom surface 10a of the network body 10. The edge portions 10b ', 10b ", 10c' of the network body 10 are arranged. , 10c ") are cut along an incision line L2 (a portion indicated by a dashed line) to fold the flattened network body 10.

Then, as shown in FIG. 1B, the left and right sides 10d and 10e are folded along the fold line L1 (part indicated by the double-dot chain line), and the front and rear surfaces 10b and 10c are folded as shown in FIG. 1C. After the uprights, the corners 10b ', 10b ", 10c', 10c" are folded and faced to the outside (or inside) of the left and right sides 10d and 10e, and the partition 20 is shown in FIG. 1D. After standing, they are fastened to each other via the binding member (W).

Thereafter, the cover 30 is fastened to the network structure body 10 through the binding member W to complete the network structure.

Such a conventional network structure is very useful for stacking by sequentially putting materials such as stone or soil into the network structure, whereby the height of the partition 20 is lower than the height of the network body 10. Is formed, the interference with the partition 20 is effectively prevented when the material is placed, such as stone or soil in the network structure to build a relief structure.

On the other hand, the partition 20 not only partitions the internal space of the network structure body 10, but also allows the network structure body 10 to maintain its shape, the left and right side surfaces 10d, 10e) is fastened through the binding member to perform the function of keeping the left and right sides 10d and 10e upright.

However, in the case of the conventional network structure shown in FIG. 1D, due to the height difference h between the network body 10 and the partition 20, the upper part of the left and right side surfaces 10d and 10e is connected to the partition 20. Unsupported, the net structure could not maintain a hexahedral shape.

As such, when the network structure cannot maintain the hexahedron shape, when constructing the revetment work using the network structure, a separate structure for maintaining the shape of the network structure must be installed, so that workability is seriously degraded. Caused.

Accordingly, the present invention has been invented to solve the above problems, and an object of the present invention is to provide a network structure such that the shape of the network structure is satisfactorily maintained while the height of the partition is lower than that of the network structure.

The present invention for achieving the above object is, consisting of a rectangular frame member, and a mesh member which is inherent therein, the network structure body is folded in the form of a hexahedral container with an upper surface; Comprising a rectangular frame member and a mesh member which is inherent therein, the partition being built in the network body to partition the internal space of the network body; Consists of a rectangular frame member and a mesh member inherent therein, the cover is configured to seal the upper opening surface of the network structure body; The height of the partition is formed to be lower than the height of the network structure body, both vertical frames of the partition is characterized in that the length is extended in the upward direction by the height of the network structure body to form an outer shape retaining portion.

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

The network structure according to the present invention, as shown in Figures 2 and 3, consisting of a rectangular frame member (11a, 11b), and the mesh member 12 is built in it, folded in the form of a hexahedral container with an open upper surface The network structure body 10 and the; Comprising a rectangular frame member (21a, 21b), and the mesh member 22 is provided therein, the partition 20 is installed in the network structure body 10 to partition the internal space of the network structure body (10); It consists of a rectangular frame member (31a, 31b), and the mesh member 32 in the interior, it consists of a cover 30 for sealing the upper opening surface of the network structure body (10); The height of the partition 20 is formed to be lower than the height of the network structure body 10, and both vertical frames 21a of the partition 20 are extended in length in the upward direction by the height of the network structure body 10 to maintain the appearance. It has a structure forming 21a '.

According to the present invention, since both vertical frames 21a of the partition 20 extend in the upward direction by the height of the network main body 10 to form the outer shape holding part 21a ', the binding member W is formed. When the left and right sides 10d and 10e of the network main body 10 are fastened to both vertical frames 21a having the outer surface retaining portion 21a 'as a medium, these left and right sides 10d and 10e are partitioned 20. It is firmly supported in all directions, front, back, left, and right, so that the network structure can maintain a hexahedral shape as a whole.

Meanwhile, as shown in FIGS. 2 and 3, the connecting portion 21a ″ is formed at the upper end of the outer shape holding portion 21a ′, and the network structure body 10 or the cover is formed through the binding member W. (30), or both (10, 30) to the connecting portion (21a ") to fasten, the network structure body 10 and the partition 20, the partition 20 and the cover 30, or these (10, 20, 30) has the advantage of being able to perform the mutual fastening conveniently and consistently. The connecting portion 21a "may be fastened to the mesh member 12 of the network structure body 10 or the mesh member 32 of the cover 30, but the binding force and durability of these (10, 20, 30) The frame member 11a of the network body 10 and / or the frame member 31a of the cover 30 are connected to the connecting portion 21a "so as to further improve and prevent the network structure from being crushed downward by its own weight. Is preferably fastened to In this example, FIG. 4 shows a state in which the frame member 11a of the network body 10 is directly engaged with (ie, spanned and engaged with) the connecting portion 21a ″ of the partition 20. Therefore, in this state, the connecting portion 21a ″ of the partition 20 and the frame member 11a of the network structure body 10 may be firmly fastened to each other via the binding member W. In the present embodiment, the upper end of the contour holding portion (21a ') is twisted in a spiral to form a connecting portion (21a "), the frame member (11a) of the network structure body 10 or the frame member of the cover 30 ( 31a) is fitted between the pitches of the spiral connection 21a ".

The present invention is not limited to the above embodiments, and of course, various modifications can be made without departing from the scope of the following claims.

For example, the connecting portion 21a ″ may be changed into various shapes and shapes as necessary, and the network members 12, 22, and 32 of the network body 10, the partition 20, and the cover 30 may be formed. Any known one may be used without regard to its shape and shape.

In addition, the network structure according to the present invention can be applied to various aspects without being limited to the relief structure.

According to the present invention as described above, both the vertical frame (21a) of the partition 20 is extended in length in the upward direction by the height of the network structure body 10 to form an outer shape retaining portion (21a '), The left and right side surfaces 10d and 10e of the main body 10 are firmly supported by the outer shape holding part 21a ', so that the net structure is satisfactorily maintained in the form of a hexahedron as a whole.

Therefore, the problem caused by the deformation of the network structure is solved, and the construction work of the revetment structure using the network structure is convenient, thereby shortening the construction period and reducing the number of workers, thereby greatly reducing the construction cost. have.

1a to 1d is a view for explaining the manufacturing process of the network structure according to the prior art,

2 is a perspective view showing a network structure according to the present invention;

3 is an enlarged perspective view of the partition shown in FIG. 2;

FIG. 4 is an enlarged view of part X of FIG. 2.

-Explanation of terms for the main parts of the accompanying drawings-

10; Network body, 10a; Crockery,

10b; Front, 10b ', 10b "; corners,

10c; Rear, 10c ', 10c "; corners,

10d; Left side, 10e; Right Side,

11a, 11b; Frame member, 12; Network Member,

20; Partitions, 21a, 21b; Frame,

21a '; Contour retaining part, 21a ";

22; Mesh member, 30; cover,

31a, 31b; Frame member, 32; Network Member,

W; Binding member.

Claims (2)

Consisting of a rectangular frame member (11a, 11b), and the net member 12 is provided therein, the net structure main body 10 is folded in the form of a hexahedral container with an upper surface; Comprising a rectangular frame member (21a, 21b), and the mesh member 22 is provided therein, the partition 20 is installed in the network structure body 10 to partition the internal space of the network structure body (10); It consists of a rectangular frame member (31a, 31b), and the mesh member 32 in the interior, it consists of a cover 30 for sealing the upper opening surface of the network structure body (10); In the network structure formed with a height of the partition 20 lower than the height of the network structure body 10, Both vertical frames (21a) of the partition 20 is extended to the length of the vertical direction by the height of the network structure body 10, characterized in that the outer structure holding portion (21a '). The network structure according to claim 1, wherein a connection part (21a ") for binding with the network body (10) and / or the cover (30) is provided at an upper end of the contour holding part (21a ').