KR200317936Y1 - Netting thread fabrics for lining in clothes - Google Patents

Abstract

The present invention relates to an endothelial mesh fabric for clothing, and more specifically, in the mesh fabric used as the lining for clothing, weaving or knitting with a general yarn 20 selected from the group consisting of woolen yarn, cotton yarn, chemical fiber yarn and synthetic fiber yarn The antimicrobial fiber 30 and the conductive yarn 40 are arranged in a woven space in the longitudinal direction, the general yarn is 55 to 65% by weight, the antimicrobial fiber is composed of 25 to 35% by weight and the conductive yarn 5 to 15% by weight It relates to a garment endothelial mesh fabric.

The garment made of the mesh fabric according to the present invention releases silver ions due to antibacterial fibers, so that the antibacterial function, deodorization function and insect repellent function are improved to make the user comfortable, and the antistatic function is excellent due to the electrical conductivity of the conductive yarn. In addition, since the antibacterial fiber reflects the infrared rays, there is an advantage to increase the insulation function to make the user more comfortable.

Description

Netting thread fabrics for lining in clothes}

The present invention relates to a garment endothelial mesh fabric, and more particularly to a garment endothelial mesh fabric that can eliminate the discomfort caused by the decaying sweat smell and static electricity generated in various garment endothelial.

In general, various fabrics used as cloth for clothing are fabrics processed using yams, yarns, yarns, etc. as raw materials, and most of the fabrics have mechanical performance, hygienic performance, decorative performance, and sensory performance.

That is, in order to impart various performance to the fabric, various environments or additives are added through various processes, and the conditions, environment, and additives will vary depending on the type and use of fabric.

Endothelial mesh fabrics for various garments, especially endothelial mesh fabrics for sports clothing, are made of synthetic fibers, cotton yarns, silk yarns, mixed yarns, etc., and ocher, jade or bio ceramics that emit infrared rays to impart functionality. Is coated on the surface.

As such, the conventional mesh fabric has a disadvantage in that the function of the mesh fabric is not improved since the additives having the functions of anti-odor, antibacterial, etc. are not added to the mesh fabric itself.

On the other hand, in order to impart antimicrobial, anti-odor function to the fiber may be used antimicrobial fiber coated or penetrated silver (Ag). For example, Korean Utility Model Registration Application No. 2002-19519 describes a mat for weaving into a mesh shape by mixing a common yarn, which is one of woolen yarn, cotton yarn, hwaseul yarn and synthetic yarn, and silver coated with silver on the surface of a synthetic resin. Mesh fabrics are disclosed.

However, the antimicrobial fiber has a disadvantage of generating a lot of static electricity, so it is not suitable for lining of various clothes, and there was an inconvenience in use for clothing endothelial use. In particular, the endothelial of the sports clothing has a lot of friction with the skin during exercise should not generate static electricity.

In addition, Korean Utility Model Registration Application No. 99-06314 discloses that carbon fiber sewing is applied at a predetermined interval when weaving the weft yarn and the ramp in the garment lining in which the weft yarn and the warp yarn using the yarn such as synthetic fiber yarn are alternately woven. The anti-static clothing lining is arranged to form a lining arranged in a) type, but the lining can suppress the generation of static electricity to some extent, but the washing resistance is poor, and the hygroscopicity such as removing the perspiration sweat odor, and also There is a disadvantage in reducing the inherent physical properties of the fabric.

Therefore, the present invention was able to solve the above problems by mixing and blending the antibacterial fibers having a decaying sweat odor and antimicrobial function with antibacterial function and the conductive yarn to remove the inconvenience caused by the static electricity in the most efficient way, the present invention is based on this Was completed.

Accordingly, an object of the present invention is to add an antistatic, antibacterial, deodorant, insect repellent and thermal insulation function to the mesh fabric itself to eliminate the discomfort caused by the decaying sweat smell and static electricity that can occur on various clothing endothelium To provide a mesh fabric for the dragon.

Clothing endothelial mesh fabric of the present invention for achieving the above object is spaced in the longitudinal direction in the woven or knitted mesh with a general yarn selected from the group consisting of woolen yarn, cotton yarn, hwaseul yarn and haptic yarn in the mesh fabric used as the lining for clothing The antimicrobial fibers and conductive yarns are woven, and the general yarns comprise 55 to 65% by weight, the antibacterial fibers are 25 to 35% by weight and the conductive yarns 5 to 15% by weight.

1 is a schematic view showing a preferred embodiment of the garment endothelial mesh fabric according to the present invention.

<Description of the reference numerals for the main parts of the drawings>

10: mesh fabric

20: general history

30: antibacterial fiber

40: Challenger

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

1 is a view showing a garment endothelial mesh fabric according to the present invention, the mesh fabric 10 used in whole or in part as the endothelial of the garment fabricates the general yarn 20 into a mesh shape, the length in the mesh The antimicrobial fiber 30 and the conductive yarn 40 is arranged to be spaced apart in the direction.

Here, the general yarn 20 used in the mesh fabric 10 of the present invention is one of woolen yarn, cotton yarn, chemical fiber yarn and synthetic fiber yarn, which are the same as those used in ordinary fabrics.

On the other hand, silver (Ag) has been found to have an excellent antimicrobial effect that not only stabilizes the mind and body, removes toxins, but also kills more than 650 bacteria. Therefore, it has been used a lot as a tableware or ornaments for a long time, and recently, silver has been applied to drugs such as antibiotics, filters of water purifiers, etc., to use the antibacterial effect.

According to the herbaceous tree, if you have silver on your body, your five intestines are comfortable, your mind and body are stable, you can get rid of bad energy and lighten your body to maintain a healthy life. It is recorded to prevent gynecological diseases.

In medieval Europe, the death of the Black Death and the death of 10 million people, or half of all European populations, is said to have been unaffected by royal families and nobles who used silver and silverware.In India, when war broke out, soldiers were injured. It is said that silver was supplied to soldiers for disinfection.

The silver effect is mainly colloidized with silver in the ionic state (Ag ⁺ ), and the dissolution of silver ions in pure distilled water is called colloidal silver, and a certain amount of current and voltage is pure silver (purity). 99.9% or more) is released by dissolving the silver ions in distilled water colloidal.

Such colloidal silver is prepared by a relatively simple method to penetrate into the fiber to produce antibacterial fibers.

According to the present invention, the antimicrobial fiber 30 is made of synthetic resin, for example, a polyester film by vacuum depositing silver to form a silver film, and then cutting the silver coated film.

Here, the vacuum deposition method is to deposit a thin film, which is a method of growing a thin film having a desired thickness by periodically repeating the deposition of the atomic layer of silver from the surface of the film, this method can grow a high quality thin film without defects. .

In other words, after the silver is stored in a container, it is heated and vaporized, and the vaporized silver is alternately supplied to the film inside the vacuum reaction chamber, so that the material is kept at thermal and chemical bonding strength on the film. By the monoatomic layer.

As another example, the antimicrobial fiber 30 is produced by depositing silver on a transparent polyester film to bond another polyester film and then cutting it in the longitudinal direction, since the structure is protected by a polyester film. Ions are released continuously to exhibit semi-permanent antibacterial properties.

In general, antibacterial fibers are produced by vacuum depositing silver to a thickness of about 1 μm on the surface of synthetic resin. Of course, after the vacuum deposition of silver on the surface of the synthetic yarn, it may be coated with the surface of the synthetic resin again.

As described above, the antimicrobial fiber is plated with silver on a synthetic resin, for example, coated with silver on a synthetic resin film, and in the present invention, the antimicrobial fiber is Korean Patent Application No. 2000-21657 or 2000-090. The fiber yarn disclosed in the above can be used, and a product such as a commercially available MIPAN ^™ product of Hyosung Corporation can be used.

The mesh fabric 10 according to the present invention can be woven into a mesh shape by weaving the general yarn 20 into a weaving machine, which is a normal loom, and can also be woven into a mesh shape by knitting the general yarn 20 into a knitting machine. .

Here, as shown in FIG. 1, in the present invention, when weaving or knitting the mesh fabric, the antimicrobial fiber 30 and the conductive yarn 40 are arranged in a longitudinal direction to be woven into the mesh fabric.

Mixing of the general yarn 20 and the antimicrobial fiber 30 and the conductive yarn 40 is preferably about three strands of antimicrobial fiber and about one strand of the conductive yarn in about 10 strands of general yarns. This structure can optimize the function of the antimicrobial fibers without compromising the inherent properties of the fabric.

In general, the conductive yarn 40 is a fiber in which a conductive component containing conductive particles is coated with a non-conductive component. The conductive yarn 40 has a disadvantage in that the intrinsic physical properties and the touch of the fiber, which are effective for preventing static electricity and removing electromagnetic waves with excellent electrical conductivity, are inferior. In the present invention, the above-mentioned disadvantages could be solved by mixing the conductive yarn with the normal fiber and the antimicrobial fiber at the most efficient ratio.

Such a conductive material is disclosed in Korean Patent Application No. 2002-700353 and the like, and commercially available products include Bekinox ^{™ of} Bekaert, Belgium. In the present invention, any commercially available product can be used without particular limitation.

On the other hand, the mesh fabric 10 according to the present invention is composed of 55 to 65% by weight of general yarn (20), 25 to 35% by weight of antibacterial fiber 30 and 5 to 15% by weight of conductive yarn (40), Preferably it is 6: 3: 1 by weight ratio.

When the antimicrobial fiber 30 is mixed less than 25% by weight, the amount of silver ions released is insufficient to exhibit the excellent function of silver, and when mixed with more than 35% by weight, there is a disadvantage in economy. In addition, when the conductive yarn 40 is arranged at less than 5% by weight, the antistatic effect is lowered. When the conductive yarn 40 is more than 15% by weight, the economy and the physical properties of the fabric tend to be inferior.

In addition, the thickness of the antimicrobial fiber is not particularly limited as long as it is a suitable thickness for weaving into a mesh easily with a loom or a knitting machine.

The mesh fabric 10 made as described above is used as a lining of clothing, in particular, sports clothing, so that not only excellent antibacterial and anti-odor function by the antimicrobial fiber 30, but also a phenomenon in which static electricity, which is a disadvantage of the antimicrobial fiber 30, occurs. It can be solved by the conductive yarn 40 and can also block electromagnetic waves.

In addition, the clothing endothelial mesh fabric 10 according to the present invention has a deodorizing effect by inhibiting bacteria propagated from sweat or waste products secreted by the body by the sterilizing effect of silver ions released semi-permanently, excellent electrical conductivity of conductive yarns This makes the user comfortable with anti-static and electromagnetic shielding.

In addition, antibacterial fibers form a synthetic resin layer that blocks heat and heat conduction by silver, so it is cool in summer and warm in winter. .

In this way, the present invention is fabricated in the form of a mesh with ordinary fibers, and decay that can occur on various clothing endothelium by arranging antimicrobial fibers and conductive yarns spaced apart in the longitudinal direction of the mesh within the range of not lowering the inherent physical properties of the fabric Discomfort caused by the smell of sweat and static electricity can be removed, and also electromagnetic waves can be blocked.

As described above, the garment made of the mesh fabric according to the present invention is the release of silver ions due to the antibacterial fibers, so the antibacterial function, deodorization function and insect repellent function is improved to make the user comfortable, due to the electrical conductivity of the conductive yarn Excellent antistatic function, has the effect of blocking electromagnetic waves.

In addition, since the antimicrobial fiber reflects infrared rays, there is an advantage that the user is more comfortable by increasing the insulation function.

Claims (2)

In the mesh fabric used as the lining for clothing, The antimicrobial fiber 30 and the conductive yarn 40 are arranged in a woven space in the longitudinal direction in the mesh woven or knitted with the general yarn 20 selected from the group consisting of woolen yarn, cotton yarn, chemical fiber and synthetic yarn, and the general yarn 55-65 Wt%, the antimicrobial fiber is 25 to 35% by weight and 5-15% by weight of the conductive yarns clothing endothelial mesh fabrics characterized in that. The garment endothelial mesh fabric according to claim 1, wherein the garment is a sports garment.