KR20000030313A - The manufacturing process of textiles for intercepting electromagnetic waves and water vein waves - Google Patents

Abstract

PURPOSE: A fabric paper manufacturing method for electromagnetic wave and water vein wave screen is provided to produce the fabric paper for electromagnetic wave and water vein wave screen having strong toughness, abrasion-resistance and a high screening rate. CONSTITUTION: A metallic yarn (3) joined an aluminum board (23) on one side of the metallic yarn,which is used a metallic fabric yarn (1) composed by cutting at a regular width after vapor-decomposed aluminum powder (11) on a polyester film (10) as a warp and polyester fabric yarn (2) as a weft, is manufactured by coating (4)(5) with PVC on the front and back sides of the fabric produced to be crossed by the warp and the weft at regular intervals. The fabric is not only strong in flexibility, toughness and abrasion resistant, but also excellent in the screening of electromagnetic wave and water vein wave by passing electricity through the metallic fabric paper crossed by the warp and the weft. Therefore, the fabric paper can be used as industrial materials for the industrial facility generated electromagnetic wave and water vein wave, and as a working uniform for the worker.

Description

The manufacturing process of textiles for intercepting electromagnetic waves and water vein waves}

The present invention relates to a method of manufacturing fabric paper for electromagnetic and water wave blocking, and to produce a fabric paper that can block electromagnetic and water waves to be used as industrial fabrics and clothing fabrics for blocking water and waves.

Conventionally, copper or aluminum foil (also known as aluminum foil) is used as a floor paper or sheet of paper where electromagnetic waves or water waves are generated as a method of eliminating the harmful points of electromagnetic waves or water waves, but they are not flexible and have strong strength and toughness. The range of use has been limited, and as a means to solve this problem, metal powder and synthetic fiber yarn, which are obtained by depositing aluminum powder on a polyester film, coating the surface with PVC, and cutting it to a certain width, Woven woven paper has been developed, but there is no intersecting part between the metallic fibers, and the surface of the metallic fibers has a PVC coating part interwoven with the synthetic fibers, which does not completely block electromagnetic waves and friction occurs on the surface of the metallic fibers during use. As the PVC coating area and aluminum deposition area are easily peeled off, it cannot be used for a long time. It was.

Therefore, the present invention is to improve the blocking effect of electromagnetic waves and water waves, and to manufacture a fabric paper that can eliminate deformation and wear to increase the blocking effect at the point where the water waves and electromagnetic waves are generated and can be used as work clothes in the place where electromagnetic waves and water waves are generated. The purpose is to provide woven paper.

Figure 1 is a longitudinal cross-sectional view of the metallic fiber yarn in the present invention

Figure 2 is a longitudinal cross-sectional view of the metaric yarn in the present invention

Figure 3 is a longitudinal cross-sectional view of the fabric paper produced in the present invention

※ Explanation of Codes on Major Parts of Drawings

1: metric fiber yarn 2: polyester yarn

3: metric 4,5: coating

Deposit the aluminum powder 11 on the polyester film 10 and cut it to a certain width, and use the synthetic fiber yarn (1) as a warp, and the polyester fiber yarn (2) is used as a weft yarn and a metric fiber yarn ( Metallic yarns (3) laminated aluminum cardboard (23) on one side of 1) is manufactured by coating (4) (5) with PVC on the front and back surfaces of the woven fabric to be interlaced at regular intervals of warp and weft.

The manufacturing method of the present invention as described in detail according to the process as follows.

[Step 1] (Metal Fiber Yarn Manufacturing Process)

The aluminum powder 11 is coated on the front and back surfaces of the polyester film 10 of the required thickness, and cut into the required widths, thereby producing a metastatic fiber yarn 1 as shown in FIG. 1.

Second Process (Metallic Manufacturing Process)

Aluminum powder 21 is coated on the front and back surfaces of the polyester film 20 of the required thickness, and an acrylic resin adhesive 22 is coated on one surface to compress the aluminum thin film 23 to cut it to the required width, and FIG. 2. To prepare a metatic yarn (3) such as.

[3rd process] (Weaving process)

The slopes are formed in a ratio of 48: 1 in the ratio of the metallic fibers 1 of the first process and the metallic yarn 3 of the second process, and the ordinary polyether yarn 2 and the metallic yarn 3 of the second process are formed. Weaving the woven paper by weaving plain weave in the weaving machine so that the weft ratio is 46: 1.

At this time, the ratio of the weft to the slope can be freely adjusted according to the design of the fabric.

[4th process] (PVC coating process)

PVC is coated (4) and (5) on the front and back surfaces of the fabric paper obtained in the third step to produce the fabric paper as shown in FIG.

At this time, if PVC is hard, it becomes cardboard with less flexibility, and if it is soft, it becomes flexible fabric. Therefore, it is possible to select and coat PVC properties and adjust coating thickness according to the use. In addition, it is possible to change the design according to the color of the polyester yarn (2).

As described above, the present invention is a metastatic fiber yarn (1) as shown in Figure 1 is located in an inclined, and the metastatic yarn (3) as shown in Figure 2 is composed of a warp and weft yarn, and the aluminum powder deposition unit 11 and the metallic yarn (1) Electromagnetic wave and water wave are energized by aluminum and absorbed because they are energized while having a ground part vertically and horizontally.

In addition, the front and rear surfaces of the fabric paper is coated with PVC (4) (5) so that when the friction occurs, the coating surface is in contact so that the aluminum deposition portion 11 is not peeled off due to wear.

When the fabric is manufactured in this way, the hard coated fabric is used to attach it to the floor or wall of a building where water waves and electromagnetic waves are generated, or to an industrial facility or a machine.In an industrial site, a computer room, an electronic room, or a hospital where electromagnetic waves are generated, When the worker is used as work clothes, soft coated textile paper can be used as work clothes as work clothes, and in electric blankets, etc., it can be used as a mat material or a sheath, and can be manufactured in various colors or designs.

The present invention as described above is produced by weaving with a textile fiber and a metallic and polyester yarn and coated with PVC on the surface to produce a textile paper, the fabric paper thus produced can completely block electromagnetic and water waves, and the strength of the copper fabric It is a very useful invention that can be used as a fabric for workers' work clothes in places where industrial materials or electromagnetic waves are generated to block electromagnetic waves and water waves due to its high wear resistance and flexibility.

Claims (1)

(4) (5) Coated PVC on the front and back surfaces of woven fabrics woven in plain weave, with the warp and weft as the weft and the weft as the weft and the polyester yarn (2) as the weft. Method for manufacturing fabric paper for electromagnetic and water wave blocking, characterized in that manufacturing by