KR101193150B1 - The woven geotextile with the weaving structure that can control its hydraulic capacity and opening size - Google Patents

Abstract

PURPOSE: A woven fabric geotextile with a woven structure which is able to pore size and water permeability is provided to form a drain space and to control pore size for determining high water permeability and filtering function. CONSTITUTION: A woven fabric geotextile which is able to control pore size and water permeability is fabricated by controlling insertion order using yarn of large film phase and monofilament as weft and overlapping the weft by weft density. The woven structure is repetitively formed in a warp direction. The yarns of first and second film phases form a mountain part(70) and a valley part(80).

Description

The woven geotextile with the weaving structure that can control its hydraulic capacity and opening size}

The present invention relates to a woven geotextile having a weaving structure that can control the permeability and the apparent hole size, and more specifically, the yarn and monofilament on the film with a long radius of the fiber cross section larger than the density interval of the weft hanol, respectively. By weaving the weaving order to cross weft density, we can control the permeability in the vertical direction through the weaving structure where wefts overlap each other, and induce the permeability in the horizontal direction by forming bone and acid according to the weft density The present invention relates to a woven geotextile having a weaving structure capable of adjusting the permeability by adjusting the apparent opening size by adjusting the tension of the inclination and the fineness of the weft.

Attempts have been made to use fiber materials in various civil works for a long time. Among them, Geosynthetics, a polymer synthetic resin product, has been developed, and recently reinforcement and separation of various civil structures based on excellent workability, applicability and economic efficiency. Widely used for water, drainage and erosion prevention.

Types of geosynthetics include drainage geonets, nonwoven fabrics for drainage / separation / filtration, waterborne geomembrane and clay liner (GCL), geogrids for reinforcement, composite geotextiles for filtration / separation / reinforcement, etc. Can be mentioned.

In general, lattice-shaped geogrids, which are used for structural reinforcement in construction or civil engineering, are made of plastic geogrids which are made by uniaxially or biaxially stretching polymer moldings such as high-density polyethylene or polypropylene into a lattice (GB2266540, USP4374798, EP0374365A, GB2256164A). And a textile geogrid (USP 5091247) coated with synthetic resin such as polyvinyl chloride, rubber, and latex after laminating or weaving synthetic fibers in a lattice form.

Since such geogrid has excellent tensile strength, it performs smoothly reinforcement at the place where load is concentrated.

However, since the geogrid has a relatively large lattice-like appearance structure, not only the consolidation of various materials, especially high-molecular-grain soils, can effectively control their consolidation, but the particles of the soil penetrate the geogrid. The movement causes empty spaces in the soil left behind, and this phenomenon is accelerated when the flow rate of water or other fluids increases, thereby destroying the soil structure and the civil engineering structure.

Meanwhile, the nonwoven fabric is prepared by laminating and compressing single fibers of synthetic fibers such as polyester or polypropylene in a single or mixed state and manufacturing them in the form of a fiber sheet, and then interlocking them by a method such as needle punching and spunbonding. It is known that the nonwoven fabric can be effectively used for separating, filtering and draining soil and other materials due to the formation of a plurality of through holes.

However, the nonwoven fabric is easily deformed for a long period of self-loading load of civil engineering structure because the tensile strain of the product itself is higher than tens of percent and the tensile strength is weak, and in order to control the weight of the nonwoven fabric, the weight of the nonwoven fabric is hundreds to thousands of square meters per unit area. If you don't increase it to about grams, you won't be able to handle the resistance to concentrated loads.

In addition, the loosened nonwoven fabric is enlarged through the air so that the earth and sand easily penetrates, and as a result, a so-called clogging phenomenon occurs that closes the through-hole of the nonwoven fabric, so that later, the filtration and drainage function is significantly lowered and lost.

Therefore, the reinforcement of the soil with high moisture content and the reinforcement retaining wall using the backfill material soil with high moisture content partially has the inconvenience of overlapping or densely constructing the geogrid and the nonwoven fabric. This has resulted in an increase in the complexity of the work specifications.

Therefore, there is a need to develop a woven geotextile that can adjust the permeability with the ability to increase the construction resistance, and to adjust the vertical permeability and horizontal permeability according to the construction purpose.

1. Republic of Korea Patent Publication No. 10-0772050 (2007.10.25) "Geotextile and its weaving method" 2. Republic of Korea Patent Publication No. 10-2003-0097575 (2003.12.31) "Geotextile excellent in construction resistance and its manufacturing method"

In the present invention, to provide a woven geotextile that can control the apparent hole size to determine the high permeability and filtration function, and to solve the weaving structure to achieve this, more specifically to increase the vertical and horizontal permeability and filtration function Weaving is controlled by weaving yarns and monofilaments, each of which has a long radius of fiber section larger than the density gap of weft hanol, and monofilament as weft yarns to control drainage, resolution and reinforcement by controlling the apparent hole size. In this case, the problem is to provide a woven geotextile having a woven structure that can control the effective hole size and permeability by adjusting the tension of the inclination.

The woven geotextile having a woven structure that can control the apparent hole size and permeability of the present invention, which solves the above-mentioned problems, is a film-like yarn and a monofilament, each of which has a long radius of fiber cross-section greater than the density interval of the weft hanol. Weaving structure is made so that the weft yarns overlap each other by interlacing each other according to the weft density by adjusting the order of indentation.

The first film-like yarn 10 is enclosed so as to be positioned upward, and the second film-like yarn 20 is enclosed downward so that the first film-like yarn 10 and the second film-like yarn are Partly overlaps so that the overlapping portion 12 is formed,

The first monofilament 30 is positioned so that the first monofilament 30 is positioned above the overlapped portion 21 of the second film-shaped yarn 20,

The second monofilament 40 is positioned below the overlap portion 11 of the first film-like yarn 10,

A third monofilament (50, 60) is entrapped so as to be located on one side of the first film-like yarn (10) and the second film-like yarn (20), and the third monofilament (50, 60) Is placed in the center of the vertical section of the first film 10 yarn 10 and the second monofilament 40, or the second film 20 yarn and the first mono It has a weaving structure to enclose to be located in the center of the vertical section of the filament (30),

The woven structure is repeatedly formed in the inclined 90 direction, the first film-like yarn 10 and the second film-like yarn 20 form an acid 70, and the first film-like yarn It is characterized in that the weave so that the bone 80 is formed between the 10 and the second yarn 20 on the film.

Here, the overlapping part 12 of the said 1st film-like yarn and the 2nd film-like yarn is characterized by overlapping so that it may become 50% or less of a long radius.

Here, the third monofilament 50 and the third monofilament 60 on the other side by varying the number of times, or by controlling the apparent hole size by applying a different type of yarn (filament yarn filament, flat yarn, etc.) Woven, the apparent hole size is characterized by satisfying the following formula (1).

---------- (식 1)

---------- (Equation 1)

Where H _d = Size of pitcher

r _wf = radius of weft

r _wp = radius of the slope

        θ = weaving angle

         n = fabric density

Here, the density of the yarn on the film having a long radius of the fiber cross section is characterized in that the synthetic filament of 6 to 16 / inch.

Here, the first yarn on the film and the second yarn on the film may be applied to any one of high filament yarn filament yarn, flat yarn, and split yarn, and at this time, the same level of permeability improvement and apparent hole size Characterized in that can be adjusted.

Here, the film-like yarn having a long radius of the fiber cross section is made of polypropylene or polyethylene yarn, the tensile strength is 3.0g / d or more, the elongation is 10% or less, the monofilament is stretched by polypropylene or polyethylene filament The strength is 5.0g / d or more, and the elongation is characterized by having physical properties of 11% or less.

The woven geotextile having a woven structure that can control the apparent hole size and permeability provided in the present invention forms a drain space that can induce permeability in the vertical / horizontal direction, and has a unique separation function of the woven geotextile. In addition to providing high constructability, such as reinforcement, it has the effect of adjusting the hole size to determine high permeability and filtration.

Figure 1 is a cross-sectional view of the tissue according to the gastric weft order in accordance with the present invention.
2 is a cross-sectional view illustrating a woven structure of a woven geotextile according to the present invention.
3 is a schematic diagram for explaining an example for forming the size of the perforation hole according to the present invention.
Figure 4 illustrates a tissue diagram based on Figure 1 of the woven structure of a woven geotextile capable of expressing the permeability according to the present invention.
5 is an enlarged photograph of the main portion of a woven geotextile woven in accordance with the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be described in more detail with reference to the accompanying drawings.

The present invention relates to a woven geotextile with improved permeability performance having a weaving structure that can control the apparent hole size and permeability, and more specifically, the long radius of the fiber section is larger than the density spacing of the weft hanol (flat flat yarn) Yarn, split yarn, etc.), monofilament, filament plywood, etc., respectively, are used as weft yarns, and the weft order is intersected and interlaced according to the weft density, so that the weft yarns overlap each other to form a sufficient space at the yarn crossing position. Disclosed is a woven geotextile having a woven structure capable of adjusting the size of an apparent hole by adjusting the size of the fabric.

The present invention is a woven structure made so that the weft yarns overlap each other by interlacing the weft yarn by controlling the weft order by using each of the film-like yarn and monofilament as the weft yarn, the fiber cross-section is larger than the density interval of the weft hanol,

As shown in Figures 1 and 2,

The first film-like yarn 10 is enclosed so as to be positioned upward, and the second film-like yarn 20 is enclosed downward so that the first film-like yarn 10 and the second film-like yarn are Partly overlaps so that the overlapping portion 12 is formed,

The first monofilament 30 is positioned so that the first monofilament 30 is positioned above the overlapped portion 21 of the second film-shaped yarn 20,

The second monofilament 40 is positioned below the overlap portion 11 of the first film-like yarn 10,

A third monofilament (50, 60) is entrapped so as to be located on one side of the first film-like yarn (10) and the second film-like yarn (20), and the third monofilament (50, 60) Is placed in the center of the vertical section of the first film 10 yarn 10 and the second monofilament 40, or the second film 20 yarn and the first mono It has a woven structure unit enclosed so as to be located in the center of the vertical section of the filament (30),

The woven structure unit is repeatedly formed in the inclined 90 direction, the first film-like yarn 10 and the second film-like yarn 20 form an acid 70, and the first film-like It is made of a structure that is woven so that the valley 80 is formed between the yarn 10 and the second yarn 20 on the film.

According to the present invention, the overlapping portion 12 between the first film-like yarn 10 and the second film-like yarn 20 is preferably overlapped to be 50% or less of the long radius. This is because when the overlapping portion 12 is formed of 50% or more overlapping chips, there is a problem that it is difficult to control the horizontal transmittance, and also there is a disadvantage in that weaving deteriorates. More preferably, the ply chip portion 12 is preferably enclosed so that 20 to 50% is formed.

According to the present invention, the third monofilament 50 and the third monofilament 60 on the other side are different in number, or by applying a different type of yarn (filament filament yarn, flat yarn, etc.) It is woven by adjusting the, the apparent hole size is to be woven to satisfy the following equation 1.

---------- (식 1)

---------- (Equation 1)

Where H _d = Size of pitcher

r _wf = radius of weft

r _wp = radius of the slope

        θ = weaving angle

         n = fabric density

Preferably the apparent hole size is to weaving by adjusting the number of times to be 0.2 ~ 1.0mm.

The yarn on the film having a long radius of fiber cross section applied to the woven structure of the present invention is a polypropylene or polyethylene yarn with a tensile strength of 3.0 g / d or more, elongation of 10% or less, and the monofilament is polypropylene or polyethylene. It is preferable to use a material filament having a tensile strength of 5.0 g / d or more and an elongation of 11% or less, and a first film-like yarn and a second film of a film-like yarn having a long radius of the fiber cross section. The yarn on the top may be any one of high filament yarn filament yarn, flat yarn, and split yarn.

Referring to Figure 4 attached to the organization chart of the woven geotextile having a woven structure that can improve the permeability performance and the apparent hole size described above, Figure 4 is a permeable performance according to the present invention Illustrative organizational diagram based on FIG. 1 of the inducible woven geotextile weaving structure, wherein the yarn-like yarn (3, 5, 8 10) and monofilament (2, 4, 7, and 9) are used as weft yarns, respectively, so that the wefts are interlaced in number order according to the weft density, as shown in the right tissue cross section of FIG. 4 (c), so that the weft yarns overlap each other. ), (b) and (c) are woven to have an organization chart as shown. At this time, the yarn and monofilament on the film is engraved to be continuously repeated in the order as shown in the right tissue cross-section, weaving a woven geotextile having a weaving structure provided according to the present invention as shown in FIG. Will be done.

4, 'S' is a film-like yarn, and 'M' is a monofilament.

As described above, the woven geotextile having a woven structure provided by the present invention can improve permeability by forming a plurality of valleys and mountains, and forming an empty space at an intersection, and FIG. 3. As shown in FIG. 1, it is possible to efficiently adjust the apparent hole size according to <Equation 1> for adjusting the apparent hole size provided in the present invention.

10: yarn on first film 20: yarn on second film
30: first monofilament 40: second monofilament
50, 60: third monofilament 70: acid
80: goal 90: slope

Claims (6)

It is a woven structure made of weft yarns overlapping each other by interlacing each other according to weft density by controlling the weaving order by using the film-like yarn and monofilament each of which is longer than the density interval of the weft hanol in the fiber section.
The first film-like yarn 10 is enclosed so as to be positioned upward, and the second film-like yarn 20 is enclosed downward so that the first film-like yarn 10 and the second film-like yarn are Partly overlaps so that the overlapping portion 12 is formed,
The first monofilament 30 is positioned so that the first monofilament 30 is positioned above the overlapped portion 21 of the second film-shaped yarn 20,
The second monofilament 40 is positioned below the overlap portion 11 of the first film-like yarn 10,
A third monofilament (50, 60) is entrapped so as to be located on one side of the first film-like yarn (10) and the second film-like yarn (20), and the third monofilament (50, 60) Is placed in the center of the vertical section of the first film 10 yarn 10 and the second monofilament 40, or the second film 20 yarn and the first mono It has a weaving structure to enclose to be located in the center of the vertical section of the filament (30),
The woven structure is repeatedly formed in the inclined 90 direction, the first film-like yarn 10 and the second film-like yarn 20 form an acid 70, and the first film-like yarn A woven geotextile having a woven structure capable of adjusting the apparent hole size and permeability, characterized in that the woven structure is woven so that the valleys 80 are formed between the 10 and the second yarn 20 on the film. .
The method of claim 1,
The overlapping portion 12 of the first film-like yarn and the second film-like yarn is overlapped so as to be 50% or less of the long radius. Geotextile
The method of claim 1,
The third monofilament 50 and the third monofilament 60 on the other side are woven by varying the number of yarns, or by applying filament braided or flat yarn with a release yarn to adjust the apparent hole size. The woven geotextile having a woven structure that can adjust the apparent hole size and permeability, wherein the apparent hole size satisfies Equation 1 below.

---------- (Equation 1)
Where H _d = size of the hole
r _wf = radius of weft
r _wp = radius of the slope
θ = weaving angle
n = fabric density
The method of claim 1,
The woven geotextile having a woven structure that can control the apparent hole size and water permeability, characterized in that the density of the yarn on the film having a long radius of the fiber section is a synthetic filament of 6 ~ 16 / inch.
delete The method of claim 1,
The yarn on the film having a long radius of the fiber section is made of polypropylene or polyethylene yarn, the tensile strength of which is more than 3.0g / d, the elongation is less than 10%, the monofilament is a filament of polypropylene or polyethylene material, the tensile strength is Geotextile having a weaving structure that can adjust the permeability by adjusting the apparent hole size, characterized in that more than 5.0g / d, the elongation is 11% or less.

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