JPS613741A - Texture cloth formed in silver and copper extremely small-gage wire-filled three-layer structure and manufactureof texture cloth - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention quickly treats sweat from the most unclean and perishable parts of the human body in Japan, which is hot and humid, and at the same time prevents various skin disorders caused by microorganisms, ensuring hygiene and comfort at all times. This is a method for producing woven fabric (1) and woven fabric (4) with a three-layer structure containing silver and copper wires (8) in pursuit of the following.

Conventional materials for underwear and underwear have been woven or knitted fabrics using cotton yarn or spun yarn blended with cotton and synthetic fibers, with emphasis on texture and elasticity.

However, in recent years, various sports such as jogging, tennis, golf, skiing, and skating have been developed for the purpose of improving health, and as a result, we are sweating more than ever before.

Normal skin is acidic, so it constantly protects itself from bacteria, but by sweating a lot, the acidity of the skin rapidly decreases, weakening its resistance to bacteria.

As a result, bacteria often breed in the area of the asemone, causing inflammation that is red and irritated and accompanied by severe itching, a so-called acemorrhagic infection.

It is said that when looking inside shoes in the summer, 10 cc of sweat is secreted per hour, the humidity inside reaches 80% to 90%, and the temperature rises from 65°C to 40°C.

Generally, molds and bacteria are most likely to propagate under such conditions.

The number of bacteria and fungi per square centimeter of the average person's socks has been measured to be 5 x 107 and 10 x 103, respectively. In addition, there have been cases where the number of fungi was found to be 10 x 105 in people with leukocoria.

Therefore, in socks and shoes, salt, sugar, fatty acids, uric acid, ammonia, sebum, epidermal excreta, etc. from sweat secreted by humans are broken down by bacteria and emit a bad odor. be. At high temperatures, the fungus grows actively inside the epidermis using keratin as nutrients. Furthermore, mycotoxins cause itching, pain, blistering rash, etc. The inside of shoes is the dirtiest part of the body, and as heating systems have become popular these days, the temperature and humidity inside shoes are high even in the winter, making it easy for various types of bacteria to breed. Therefore, many people wish that something would be invented that would improve these conditions.

A. Prevention of bad odors There is a need for products that suppress the growth of bacteria such as Staphylococcus aureus and Bacillus subtilis.

B. Suppression of growth of white fungus Even if white fungus is treated with drugs, the human body does not have immunity, so it easily recurs.

Currently, the number of physically disabled people requiring long-term treatment exceeds one million. In the future, the population of older people will rapidly increase due to the rise of higher elevations, and the number of bedridden elderly will continue to increase. Therefore, as a measure to improve the living environment of the disabled and the elderly, food,
People are required to reconsider their exercise, sleep, clothing, etc.

On the other hand, when we turn our attention to improving the environment within hospitals, the problems include: (1) Measures to prevent various fallen bacteria that breed on curtains and carpets; Improvements in materials for equipment such as beds and beds where bacterial growth is severe; and Measures for maintenance: Measures to improve nursing methods and clothing for the increasing number of elderly patients 2. Measures to prevent nosocomial infections, etc. can be considered.

The skin of a patient who has been bedridden for a long period of time begins to emit a putrid odor and an extremely strange odor as various organic substances contained in the sweat generated from the body are decomposed by the skin's resident bacteria. In addition, E. coli and other bacteria that grow in the bed multiply due to the appropriate temperature and humidity of the skin, blocking large sweat lines, small sweat lines, pores, etc., and causing bed sores due to the friction between the hard bed and the skin. This skin disease is extremely painful to look at, with many patients suffering from extreme inflammation and even bleeding.

In order to revitalize the skin in these unsanitary environments, we use three layers of silver/copper wire (8) to increase the sweat absorption, sterilization, and deodorizing effects of underwear, underwear, etc., and shoe interior materials. Structured woven fabrics and fabrics (1) and woven fabrics (4).

To explain the structure of the present invention, first, hydrophobic fibers (2) such as nylon or polyester are woven and knitted to form a first layer plain woven fabric (1) and a circular knitted fabric (4).

Next, as a second layer, a layer of silver with a thickness of 2 to 40 microns is coated on the surface of continuous porous acrylic, which is the sweat absorbent fiber (5), or nylon thread with a continuous cross-section, which is also the sweat absorbent fiber (5). A thread is made by intertwisting extremely round fine wires such as copper or extremely fine wires in an S twist. This sweat-absorbing fiber and silver/copper wire (8)
The first layer plain knitted fabric (1) and circular knitted fabric (4
) A double-woven fabric or double-knitted fabric is made as the back side of the double-woven fabric or double-knitted fabric.

On the back side of such woven and knitted fabrics, there is a third layer of cotton fabrics, woven and knitted fabrics using synthetic fibers, breathable synthetic leather,
Non-woven fabric, felt, moisture-permeable film, synthetic foam sheet with many continuous cells, etc. are applied and adhered with a moisture-permeable adhesive such as polyester, acrylic, or nylon, or by welding, sewing, etc. It is more effective to use a microporous membrane as the third layer of the trench.

In this way, a triple-layered fabric or woven fabric is produced.

The function of the structure of the present invention is that sweat O2 generated from the human body quickly permeates the weave stitches of the first layer plain woven fabric (1), the circular knitted fabric (4), and the second layer of Umako woven fabric (3), the plain knitted fabric ( 6) Sweat absorbent fiber (5). There, a capillary phenomenon occurs and it is rapidly diffused, so the skin (Ill, first layer plain weave fabric (1), circular knit fabric (4)) is always sweaty (there is no stickiness caused by 121, and it maintains a silky feel. In addition, the organic matter in the sweat components absorbed by the second layer plain woven fabric (3) and plain knitted fabric (6)
By touching the ultra-fine wire (8) made of silver, copper, etc., trace metal ions are eluted and exert a sterilizing and deodorizing effect. In this way, it is a woven fabric or woven fabric that has a multilayer structure.

In addition, in case a large amount of sweat (121) comes out, the third layer (7) should be a moisture-permeable film or a microporous film (9) made of polyester or acrylic. This effect can be achieved by attaching with a moisture-permeable adhesive such as nylon, or by welding or sewing.

In this way, a triple-layered fabric containing silver/copper tube wire (8) and a woven fabric are produced.

As an example of this example, A. The textile fabric (4) is the first layer CI) (4), and the third layer (CI) is
7) If cotton fabrics, woven fabrics using synthetic fibers, woven fabrics, non-woven fabrics, etc. are used, jikatabi, Japanese-style tabi, business shoes, sneakers, jogging shoes, etc., which are said to be the most unclean place on the human body, may be used. 1. Golf shoes, ski shoes,
By wearing various types of footwear such as rubber boots on the parts that come into contact with the skin, sweat from the soles of the feet (121) can quickly pass through the stitches of the first layer nine knitted fabrics (4) and absorb the sweat from the soles of the feet. Transferred to Nibako/knitted fabric (6).

Therefore, the quick sweat absorption and diffusion Q4)L quick drying effect is exerted, and the soles of the feet get rid of the stickiness and sweat odor caused by sweat.

At the same time, when sweat (121) touches the silver/copper tube (8), trace metal ions are eluted, killing various microorganisms,
Helps prevent odor and prevent athlete's foot from occurring.

The woven fabric (4) is the first layer (1> (4)) and the third layer (
7) By using a foam sheet with a large number of continuous cells and attaching it to parts that come into contact with the skin, such as helmets and kendo armor, it helps to prevent stickiness caused by sweat, the generation of bad odors, and the growth of various microorganisms.

... Textile fabric (4) is the first layer (1>(4), and the third layer (
7) By using felt, non-woven fabric, or foam notebooks with multiple continuous cells as foot wipe mats and rugs for golf courses, hospitals, bathrooms, and other various bathhouses, the growth of microorganisms can be prevented. This helps prevent contamination from spreading to the soles of the human body.

(ii) The textile fabric (4) is the first layer (1) (4) and the third layer (7
) is made of non-woven fabric or synthetic fiber and is attached to the skin-contact parts of hats for golf, baseball, skiing, and other sports to prevent stickiness and bad odors caused by sweat and prevent the growth of various microorganisms. useful for.

E. The textile fabric (1) is the first layer (1) (4) and the third layer (
7) using a moisture-permeable film and a microporous membrane (9).
Sweat from the skin when used on the entire surface or part of beds and sheets in nursing homes, etc. Q21
quickly permeates the weave of the first layer plain weave (1), absorbs and diffuses sweat (14) in the second Umako fabric (3), has a quick drying effect, and When sweat (121) comes into contact with the silver/copper pipe (8), trace metal ions are eluted, exerting a sterilizing and deodorizing effect. Therefore, it is most common in hospitalized patients who require long-term care or bedridden elderly people. It is said to be of great help in preventing bed sores.

to the woven fabric (4) as the first layer (1) (4) and the third layer (
7) Using the microporous moisture-permeable film (9), the entire surface of sanitary clothes, pants, bras, sweat absorbing boleros, etc.
Or, even if a large amount of sweat 02 is generated by wearing it on a part of the body, it is controlled by the third layer (7), so the sweat is always kept between the skin and the first layer fabric (4) without causing stains or bad odors on clothes. The contact surface can maintain a smooth feel.

In addition, a silver/copper wire (8) is applied to the surface of the sweat absorbent fiber (5).
The invention is made by additionally twisting approximately 15 denier nylon, polyester, or filament 00 on top of the twisted yarn in a Z-twist pattern to protect the silver/copper wire (8) from shifting or cutting. The effect will be large.

The use of silver-copper isolines (8) in this way is, as mentioned above, due to the fact that in 1896, the botanist Fugeley said that a small amount of copper, known as a trace action, has a bactericidal effect. This is clear from the fact that copper ions in No. 1 were discovered to kill Aomhidoro.

In addition, during the Taisho era, Japanese scholars conducted sanitary tests on banknotes and curing, and found that silver and copper coins were sterile. Also, while it is said that washing your face in a copper basin will prevent you from getting eye diseases, copper has been used for door handles in hotels, hospitals, restaurants, etc. for a long time because of its antibacterial properties. It can be said that Its effectiveness can be seen in the fact that copper is also used in tofu shop knives, shabu-shabu pots, and other items.

The above are woven fabrics (1) and woven fabrics (4) that are made of silver, copper, etc., which have various hygienic effects in human life, using a special twisting method and have a three-layer structure.

[Brief explanation of drawings]

FIG. 1 is an enlarged plan view of the first layer of plain knitted fabric of the present invention. FIG. 2 is an enlarged plan view of the second layer of plain knitted fabric of the present invention. FIG. 5 is an enlarged plan view of the first layer of circular knitted fabric of the present invention. FIG. 4 is an enlarged plan view of the second layer of the plain knitted fabric of the present invention. FIG. 5 is an enlarged plan view of the third layer of the microporous membrane of the present invention. FIG. 6 is the second layer of the present invention. , the silver/copper wire used in Figure 4 is S
Figure 7 is an enlarged plan view of twisted nylon, polyester, and filaments on the S-twisted surface of the silver and copper wires used in Figures 2 and 4 of the present invention. Figure 8 is an enlarged plan view of the present invention. An enlarged sectional view of the invention FIG. 9 is an enlarged sectional view showing the development of the invention (1) is the first layer of plain knitted fabric (2) is the first layer of hydrophobic fibers (3) is the second layer of plain knitted fabric (4) is the first layer of circular knitted fabric (5) is the second layer of sweat-absorbing fiber (6) is the second layer of plain knitted fabric (7) is the third layer
(8) is an ultrafine line of silver/copper isolines (9) is a pore of a microporous membrane
01 is Z-twisted nylon or polyester thread on the surface of silver/copper wires Qll is skin (12+ is sweat (13) is sweat absorption state of sweat state of becoming and going out

Claims (1)

[Claims] 1 Hydrophobic fibers (2) such as nylon or polyester are arranged on the first layer plain woven fabric (1) and circular knitted fabric (4), and continuous porous acrylic sweat absorbent fibers (5) A second layer of plain woven fabric (3) and a plain knitted fabric (6) are made into a cloth-like form using threads made of ultra-fine wires (8) of silver, copper, etc.
It has a three-layer structure containing silver/copper wires (8), characterized by bonding a moisture permeable film or a microporous membrane (9), etc. as the third layer (7) to the back side of the plain knitted fabric (6). Method for producing woven fabric (1) and knitted fabric (4). 2 Second layer plain woven fabric (3) Plain knitted fabric (6) Sweat absorbent fibers (5
), or continuous porous acrylic, or nylon with an L-shaped cross section, a woven fabric (1) and a knitted fabric (4) having a three-layer structure containing silver/copper wires (8) according to claim 1. Production method. 3 Superfine wires (8) of silver, copper, etc. on the surface of sweat-absorbing fibers (5)
Claim 1, which is a yarn in which long fibers (10) of nylon, polyester, etc. are additionally twisted on the surface of the yarn made by twisting
A method for producing a woven fabric (1) and a knitted fabric (4) having a three-layer structure containing silver/copper wires (8) as described in item 2. 4 A woven fabric (1) and a knitted fabric (4) having a three-layer structure containing silver/copper wires (8) according to claim 1 or 2, wherein the woven fabric is a plain weave, twill weave, or satin weave. Production method. 5 Claim 1 in which the knitted fabric is circular knitted, warp knitted, or flat knitted
2. A method for manufacturing a three-layer structure containing silver/copper isowire (8) as described in item 1 or 2.