KR102374890B1 - Three-Dimensional Geotextile Having Low-Elasticity And High Tensile-Strength - Google Patents

Abstract

The present invention relates to a three-dimensional geotextile having low elongation and high tensile strength characteristics used when manufacturing walls, slabs and columns of buildings. The high strength and low elongation of the fabric and structure can be expressed through the introduction of reinforcing yarn in the oblique direction of the textile fabric to reinforce the It is composed of a concrete junction without separation from the existing structure, so it is easy to install, and it is possible to provide a three-dimensional geotextile with low elongation and high tensile strength characteristics that does not require dismantling after concrete is poured.

Description

Three-Dimensional Geotextile Having Low-Elasticity And High Tensile-Strength

The present invention relates to a three-dimensional geotextile having low elongation and high tensile strength characteristics used when manufacturing walls, slabs and columns of buildings.

In general, walls, slabs and columns of buildings are manufactured using concrete. Looking at the construction process, first, the formwork is installed and concrete is poured into it. And after curing the poured concrete, the construction is completed by dismantling the installed formwork. Most of the formwork is mainly installed with wood panels (plywood) with excellent bending stress, etc., due to the nature of wood, water resistance and durability are not high, so the number of use is not high. There is a risk of damaging the appearance of

On the other hand, although plywood coated with the formwork panel is used, the number of times it can be used repeatedly is limited, and thus there is a problem in that a large amount of waste material is generated. In addition, synthetic resin panels with excellent processing and formability have been disclosed as formwork panels, but there are problems such as being unsuitable for wall construction by itself due to weak stress against load during wall construction that requires rigidity compared to slabs.

Since this concrete formwork manufacturing process is very complicated and cumbersome, it not only takes up a significant part of the construction period and construction cost, but also has to be demolished again after the concrete has cured. There was a problem that adversely affected the environment by doing so.

To solve this problem, concrete mat products using fiber materials have been devised and used. These concrete mats are made of 3D structured fabrics or warp knitted fabrics, so that admixed cement is applied to the fiber fabric with the lower part blocked and the upper part drilled in the form of a mesh. By manufacturing in a filled state, the concrete mat is spread at the construction site, and water is sprayed on it to hydrate and cure at the site so that on-site construction can proceed.

Since these concrete mat products are constructed while filled with mixed cement, it is difficult to achieve uniform curing due to the falling off of the mixed cement during vertical wall construction or ceiling construction of an arch-shaped structure. Since it is cured in a cured state, it was difficult to apply to vertical walls and internal ceiling construction of structures.

Republic of Korea Patent No. 10-1851183 (Announced on April 24, 2018)

Therefore, the present invention enables the high strength and low elongation of the fabric and structure to be expressed through the introduction of the reinforcing yarn in the oblique direction of the fiber fabric so as to reinforce the rigidity of the concrete structure in addition to the mesh structure of the fabric, and It is not separated from the structure of the concrete mat, but the upper and lower surfaces are composed of a grid, so it is possible to form a concrete joint without being separated from the existing structure, so it is easy to install. It is a technical task to provide a three-dimensional geotextile with a degree characteristic to facilitate the pouring and curing of the internal ceiling concrete of vertical walls and structures, and to simultaneously replace the reinforcing bar mesh and the formwork for holding a certain shape.

Therefore, according to the present invention, a surface portion having a plurality of unit lattice spaces;

a rear surface having a plurality of unit lattice spaces;

a stitching yarn formed to connect the front surface portion and the rear surface portion;

There is provided a three-dimensional geotextile having low elongation and high tensile strength characteristics, characterized in that it comprises a reinforcing yarn formed in parallel with the slope of the front and back surfaces.

The unit lattice space of the front and back surfaces of the three-dimensional geotextile of the present invention is characterized in that it is vertically distributed at the same position.

In addition, the unit lattice space of the surface portion and the back surface portion of the three-dimensional geotextile of the present invention is characterized in that it is made to be distributed in unequal positions vertically.

In addition, 2 to 5 reinforcing yarns formed parallel to the inclination of the front and back surfaces of the three-dimensional geotextile of the present invention are formed, and each reinforcing yarn is formed to be spaced apart.

Therefore, according to the present invention, it is possible to express the high strength and low elongation of the fabric and the structure through the introduction of the reinforcing yarn in the oblique direction of the fiber fabric so as to reinforce the rigidity of the concrete structure in addition to the mesh structure of the fabric, It is not separated from the structure of the existing concrete mat, but the upper and lower surfaces are composed of a grid, so it is possible to form a concrete joint without being separated from the existing structure, so it is easy to install. It is possible to provide a three-dimensional geotextile with high tensile strength characteristics, which facilitates the pouring and curing of the internal ceiling concrete of vertical walls and structures, and has the effect of replacing the reinforcing bar mesh and the formwork for holding a certain shape at the same time .

1 is a perspective view of a three-dimensional geotextile of the present invention,
2 is a cross-sectional view of a three-dimensional geotextile of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor should properly understand the concept of the term in order to best describe his invention. Based on the principle that it can be defined, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in the present specification is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be water and variations.

1 to 2, the three-dimensional geotextile having low elongation and high tensile strength characteristics of the present invention includes a surface portion having a plurality of unit lattice spaces; a rear surface having a plurality of unit lattice spaces; a stitching yarn formed to connect the front surface portion and the rear surface portion; It is characterized in that it comprises a reinforcing yarn formed parallel to the slope of the front and back portions.

Figure 1 is a perspective view of a three-dimensional geotextile of the present invention, Figure 2 is a cross-sectional view of the three-dimensional geotextile of the present invention.

As shown in Fig. 1, the three-dimensional geotextile having low elongation and high tensile strength characteristics of the present invention is composed of a surface portion 10, a back surface portion 20, a binding yarn 30 and a reinforcing yarn 40. It is a three-dimensional geotextile that can be used as a formwork for pouring concrete when manufacturing walls, slabs, and columns.

The front and back portions of the three-dimensional geotextile having low elongation and high tensile strength characteristics of the present invention are made to have a plurality of unit lattice spaces as shown in FIG. 1 and are made to be connected to each other by stitching yarns.

The front and back parts may be formed in a double cell type warp knitted fabric or a triple weave fabric, and the constituent fibers of the front part and the back part are natural fiber spun yarns, which are cotton spun yarns or hemp spun yarns, general-purpose polyester, polypropylene, polyethylene , nylon, aramid, and ultra-high molecular weight polyethylene, which are any one of synthetic fiber filaments or spun yarns, can be used. By using its own high-strength properties, it is possible to improve the strength of fiber-reinforced concrete and, at the same time, improve alkali resistance compared to the alkalinity of cement concrete.

In particular, the surface part has a plurality of unit lattice spaces so that concrete can be injected through the unit lattice space, and the concrete injected into the three-dimensional geotextile as the target surface for pouring concrete through the plurality of unit lattice spaces of the rear part. A certain amount of leakage is made so that the concrete is in contact with the target surface so that the three-dimensional geotextile can be attached.

The shape of the unit lattice space may be any one of a triangle, a square, a hexagon, a circle, and an oval, and the size is preferably 0.9 to 6.5 cm 2 .

The binding yarn connects the front surface and the back surface, and is formed to be spaced apart from each other at regular intervals, and is any one of polyester, polypropylene, polyethylene, aramid, ultra-high molecular weight polyethylene, basalt fiber, carbon fiber, ceramic fiber, and metal fiber. By using a filament yarn or a multifilament yarn, the three-dimensionality of the 3D fiber fabric can be improved.

The concrete injected through the unit lattice space of the surface part of the three-dimensional geotextile thus formed is loaded into the space between the surface part and the back part connected by the fasteners to form a wall-like structure integrally with the three-dimensional geotextile.

The unit lattice space of the front and back surfaces of the three-dimensional geotextile of the present invention is vertically distributed at the same position, so that the strength expression and elongation control in the warp and weft directions can be more effectively expressed.

In addition, the unit lattice space of the surface part and the back surface part of the three-dimensional geotextile of the present invention is distributed in unequal positions vertically, so that the bonding characteristics with the structure can be more effectively expressed.

The three-dimensional geotextile of the present invention can reinforce tensile strength and elongation in the warp direction by including reinforcing yarns formed in parallel with the slopes of the front and back portions, wherein the reinforcing yarns include high-strength polyester, high-strength polypropylene, By using any one of basalt fiber, carbon fiber, ceramic fiber, and metal fiber, high strength and low elongation characteristics can be excellent.

The reinforcing yarn is formed to be parallel to the slope of the front and back portions, but it is preferable to form the reinforcing yarn so as not to come into contact with the warp in order to express the low elongation of the fabric. In particular, it is preferable to position the reinforcing yarn by forming it in parallel with the warp rather than being tight.

In addition, 2 to 5 reinforcing yarns formed parallel to the inclination of the front and back portions of the three-dimensional geotextile of the present invention are formed, and each reinforcing yarn is formed spaced apart in order to express the high strength and low elongation characteristics of this fiber-reinforced concrete. desirable.

In this way, the three-dimensional geotextile of the present invention is cured by loading concrete in the space between the front and back parts connected by a stitching thread by injecting concrete through the unit lattice space of the surface part, and at the same time curing it, and at the same time, a plurality of unit lattice spaces of the back part. Through this, a certain amount of concrete injected into the three-dimensional geotextile is leaked, and the concrete is brought into contact with the target surface so that the three-dimensional geotextile can be attached, thereby forming a wall-like structure integrally with the three-dimensional geotextile.

10: front part 20: back part
30: stitching yarn 40: reinforcing yarn

Claims (4)

a surface portion having a plurality of unit lattice spaces;
a rear surface having a plurality of unit lattice spaces;
a stitching yarn formed to connect the front surface portion and the rear surface portion;
Low elongation and high tensile strength, characterized in that it comprises a reinforcing yarn formed parallel to the inclination of the front and back parts, and the unit lattice space of the front and back parts are vertically distributed at unequal positions. A three-dimensional geotextile with properties. delete delete The method of claim 1,
A three-dimensional geotextile having low elongation and high tensile strength characteristics, characterized in that 2 to 5 reinforcing yarns are formed parallel to the inclination of the front and back portions, and each reinforcing yarn is formed to be spaced apart.

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