KR100289069B1 - Liquid composition of far inrared rays and method for coating the liquid compoition on the fabrics and funcitional fabrica manufactured by the method - Google Patents

Abstract

The present invention relates to a liquid far-infrared radiation composition, a method of coating the composition on a woven paper, and a functional coated fabric produced by the method. The liquid far-infrared radiation composition according to the present invention comprises a first composition in which an aqueous polymer material and water are mixed in a weight ratio of 5 to 6: 2, and a solvent, water and PVC powder in a volume ratio of 2: 2: 1 to 2, 2, the third composition comprising water and powdery far-infrared radiation substances in a weight ratio of 2: 1, and the water, zeolite, and two broad-based antibiotics in a weight ratio of 100: 20 to 50: 1. 4 Make a composition. The ratio of the first composition to the second composition is approximately 7 to 8: 5 to 6, the ratio of the second composition to the third composition is 8 to 10: 1, and the mixing ratio of the third composition to the fourth composition is 4 to 4. It is completed by homogeneously mixing the first to fourth compositions so that the ratio is 6: 1-3. The functional coating fabric coated with the composition according to the present invention makes the far-infrared absorbed into the skin tissue increase the temperature in the living tissue or skin tissue to feel the heat and also activate the metabolism to alleviate the pain and the capillaries. It promotes blood circulation and promotes anti-inflammatory analgesic for inflamed or bruised areas, especially for colds, eye drops, small wounds, chalices, insect bites, menstrual cramps, muscle pain, joint pain, and headaches. It is extremely useful for the back and can be reused by washing with water repeatedly.

Description

LIQUID COMPOSITION OF FAR INRARED RAYS AND METHOD FOR COATING THE LIQUID COMPOITION ON THE FABRICS AND FUNCITIONAL FABRICA MANUFACTURED BY THE METHOD}

The present invention relates to a liquid far-infrared radiation composition, a method of coating the composition on a textile paper, and a functional coating fabric prepared by the same method, and more particularly, to a composition comprising a pharmaceutical component (a broad antibiotic) and a liquid far-infrared radiation mixture. The present invention relates to a method for producing a functional coating fabric beneficial for biological tissues or physiological functions of humans by impregnating and coating a flat paper such as natural or synthetic textile paper, and a functional coating fabric produced by the same method.

Far infrared rays refer to electromagnetic waves between about 4.0 and 1000 microns, as demonstrated by nuclear magnetic resonance spectroscopy (NMR). Looking at the useful effects of far-infrared rays on the human body through many experiments and studies so far, the far-infrared rays absorbed into the skin tissues raise the temperature in living tissues or skin tissues to feel the warmth and relieve pain by activating metabolism. And anti-inflammatory analgesic effect on inflamed or bruised areas by expanding capillaries to promote blood circulation.

Looking at the domestic patent applications or patents proposed in the meantime utilizing the above-described properties of the far-infrared material are as follows.

In the Korean Patent Application No. 96-22210 of June 14, 1996, Lee Dong-Hyung, Jeon Chang-Ho, the conventional rubber gloves or rubber boots composition is worn for a long period of time simply by mixing vulcanizing agent or filler with raw or synthetic rubber. As the moisture gets cold and bacteria grow, the blood circulation is promoted by mixing and mixing appropriate amount of powder ceramic, inorganic antibacterial and deodorant with excellent far-infrared radiation to liquid raw rubber or synthetic rubber while pointing out the problem of causing skin diseases such as athlete's foot. It discloses rubber gloves or rubber boots manufacturing technology that reduces fatigue of the city and suppresses odors and germ propagation even when there is a lot of sweat inside. It is disclosed in Korean Patent Application No. 97-2218 of Jan. 27, 1997. In lake No., liquid and granular ceramic sachets used for heating are used for pillows, backs, and dragonflies. It is loaded with bedding using far-infrared radiation ceramics that can be easily loaded in bedding and used in living rooms and bedrooms to provide thermal effects to the body and to promote metabolism by supplying far-infrared effects to the body. In Korean Patent Application No. 96-71064, a far-infrared radiation substance, chitin, chitosan or derivatives thereof, and liquefied gas are prepared in a ratio and put in a spray container, and the corners of hair, pets, inner clothing, shoes, Liquid far-infrared spray technology is applied to the surface of socks, pillows, neck and sleeves of shirts, inside of gloves, inside of hats, cabinets, inside of sinks, inside of refrigerators, sheets, diapers, sanitary napkins, kitchen containers and various home appliances It is starting.

Meanwhile, Korea Angora Industries Co., Ltd. dissolves sodium silicate, sodium peroxide, potassium carbonate, sodium carbonate, and refined white sugar in purified water at 20 ° C. to 60 ° C. in Korean Patent No. 128110, and the solution is mixed with silver thiosulfate solution. The present invention discloses a liquid far-infrared radiation composition and a method for producing the same, which are prepared by maintaining the mixture at 20 ° C. to 40 ° C. for 12 hours. , aluminum hydroxide, sodium, sodium thiosulfate, germanium dioxide, and glucose tablets, Bang and, after dissolving the sucrose, respectively at 20 ℃ to 40 ℃ mixed and ionized gold as chloroauric acid (HAuCl ₄ .4H ₂ 0) as nitric oxide Liquid bioceramics obtained by adding the ionized with silver sulfate (Ag ₂ S ₂ O ₃ ) to the mixture and maintaining the mixture at 15 ° C. to 20 ° C. for 48 to 72 hours. Bio-infrared rays using liquid bio-ceramic, characterized in that the fibers were immersed in the stock solution for 5 to 10 minutes, then dehydrated, dried at 100 to 120 ° C., left for 10 hours at low temperature, and then burned using a cotton wool machine. Disclosed is a method for producing a fiber.

In addition, in Korea Patent Application Publication No. 96-15345 (September 9, 1996) of Sejin IF Co., Ltd., dilute the known liquid far-infrared radiation bioceramic to viscosity ratio of 10% ~ 30% in immersion tank. It is filled, the ceramic temperature of the liquid phase is maintained at 30 ℃ to 100 ℃, immersed the fabric paper 30 minutes to 60 minutes, then dehydrated, characterized in that the blow drying and preshrunk processing at 80 ℃ to 180 ℃ A method of adsorbing a far-infrared radiation bioceramic in a liquid phase is disclosed.

Any of the above prior arts discloses various examples of the application of the liquid far infrared composition or the manufacturing method of the liquid far infrared composition, in particular, as a technique for utilizing the thermal effect of the far infrared on the human body and the metabolic promoting effect. Particularly related to the present invention of the prior art is the technology according to Korean Patent No. 128110 of Angora Industrial Co., Ltd., which is sodium silicate, sodium peroxide, potassium carbonate, sodium carbonate, and purified white sugar at 20 ° C. to 60 ° C. in purified water. It is a liquid far-infrared radiation composition prepared by dissolving at room temperature and mixing the solution of silver thiosulfate solution at 20 ° C. to 40 ° C. for 12 hours, and using the white sugar as a fixing agent. Due to the invasion of antibacterial insects such as ants, moths, bees, etc. may cause the coating film insolvency, and because it can be dissolved in moisture or water, there is a problem that can not be used repeatedly because the durability is weak.

An object of the present invention is to provide a manufacturing method that can increase the adhesive strength of the coating in coating the far-infrared radiation material formed in the liquid phase and a strong coating power of the far-infrared radiation fabric produced by the manufacturing method.

It is also an object of the present invention to provide a functional coating fabric that can increase the healing effect for skin diseases.

Still other objects and effects of the present invention will be apparent from the detailed description of the configurations and effects of the present invention described below.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of a liquid far-infrared radiation composition and an apparatus for coating the composition on textile paper according to the present invention.

Figure 2 is a graph showing the far-infrared emissivity of the functional coating fabric according to the present invention.

Figure 3 is a graph showing the far-infrared radiation intensity of the functional coating fabric according to the present invention.

Figure 4 is a view showing a bacterial inhibition test when treated with a functional coating fabric according to the present invention.

5 is a view showing an example of the inhibition test for black mold when treated with a functional coating fabric according to the present invention.

First, the composition of the liquid far-infrared radiation composition according to the present invention will be described.

The liquid far-infrared radiation composition according to the present invention comprises a first composition in which the aqueous polymer material and water, which are harmless to the human body, are mixed in a weight ratio of 5 to 6: 2, and the solvent, water, and PVC powder are in a volume ratio of 2: 2: 1 ~ 2. The second composition mixed, the third composition in which water and the powdered far-infrared radiation substance were mixed in a weight ratio of 2: 1, and the water, zeolite, and two kinds of broad-spectrum antibiotics in a weight ratio of 100: 20 to 50: 1. The ratio of the first composition to the second composition is about 7 to 8: 5 to 6, the ratio of the second composition to the third composition is 8 to 10: 1, and the third composition is: The mixing ratio of the fourth composition is completed by homogeneously mixing the first to fourth compositions such that the ratio is 4 to 6: 1.

In the above composition, the aqueous polymer material among the components of the first composition is an aqueous polymer such as aqueous urethane acryl and aqueous acryl as a component used as a base for fusion, conduction, and fixation of the liquid far-infrared radiation composition according to the present invention. Is used. The dissolving agent in the second composition is an organic dissolving agent such as alcohol (C ₂ H ₅ OH), for example, and functions as an electrodeposition agent and a dissolving agent. This solubilizer evenly embraces the constituent particles of the PVC powder, which makes the coating film dense, and when mixed with water and alcohol, makes a homogeneous mixing of the components. The far-infrared radiating material constituting the third composition is a known far-infrared radiating inorganic material, for example, microfine powders such as biotite, macnite, macsumite, germanium, and the like, and two types of broad-spectrum antibiotics contained as components of the fourth composition include, for example, Padroxyl, theramycin are used.

Next will be described in detail with reference to the accompanying drawings a process for coating the liquid far-infrared radiation composition according to the present invention made of the above components on the fabric paper.

The process of coating the liquid far-infrared radiation composition according to the invention on the textile paper,

The inside of the first tank 14 containing the liquid composition according to the present invention composed of the above-described components of the textile paper held by the conveying rollers 10 and 10 formed in pairs frictionally driven in opposite directions to each other. A first step of impregnating the coating solution on the fabric paper by passing it and then drying it 100% by passing the hot air dryer 16 at 90 ° C to 120 ° C;

After passing through the second tank 18 containing the composition according to the present invention as described above the first step of the coated paper to the coating liquid one more time by passing through the hot air dryer 16 A second step of drying 80% to 90%;

The water, gypsum powder as a coating layer reinforcement jikmulji subjected to Step _{2 (CaSO 4 .2H 2 O)} , acetic acid (CH ₃ COOH) is mixed with the third tank 20 to pass through the inside the coating film coated on the reinforcing material more jikmulji And after the third step of passing through the second hot air dryer 22 is set to 100 ℃ to 120 ℃; And,

The fourth step is to make the finished product by automatically cutting the predetermined size of the fabric paper, which is always passed through the third step, and automatically printing and packing.

As the coating film reinforcing material contained in the third tank, water, gypsum powder, and acetic acid are preferably in a weight ratio of 100: 20 to 50:50.

In FIG. 1, reference numeral 24 denotes an air inlet, reference numeral 26 denotes an air discharge fan, reference numeral 28 denotes a cutting roller, reference numeral 30 denotes a printing roller, and reference numeral 32 denotes a packaging machine.

(Example)

Referring to specific embodiments of the liquid far-infrared radiation composition according to the present invention composed of the above configuration as follows.

First, put 4 liters of water into 10 liters of aqueous urethane acrylic in a stirring tank equipped with an automatic stirring edge dataer, and stir well while adding about 8 liters of a mixture of 4 liters of ethanol, 4 liters of water, and 2 kg of PVC powder to the stirring tank. Add about 22 liters of mixture. Subsequently, 350 g of a mixed solution of about 200 g of water and 150 g of a far-infrared radiation substance was added to 22 liters of the mixed solution, followed by further stirring. Then, a mixed solution of 100 g of water, 30 g of zeolite, 0.7 g of cepadroxyl, and 0.3 g of teramycin was added to the stirring tank. Incorporation and stirring well produces a liquid far-infrared radiation composition according to the invention which is generally colorless and transparent. As can be seen from the description of the effect through the coating process described above, such a coating composition has an effect of quickly curing the disease, and the fabric coated with the composition can be washed with water, dried and reused repeatedly. It has an effect.

The liquid composition made through the process described above is accommodated in the first tank and the second tank, and the fabric released from the roll is sequentially introduced into the tank, and the liquid composition is firmly applied to the paper by passing the hot air dryer immediately after each passage. The coating is fixed. On the other hand, the fabric has a sticky liquid composition on the surface in the process of passing through the tank to prevent too much solution or the liquid composition from flowing out from the surface of the fabric and to evenly apply on the surface Scraping, for example, although not shown, may be provided with a pair of mutually sliding scraping rollers.

Impregnating and coating the liquid far-infrared radiation composition according to the invention as described above using a process for coating a fabric, such as synthetic fibrous paper such as nylon or polyester, or natural fibrous paper such as cotton, as described above. The coated fabric produced by the following (hereinafter referred to as functional coating fabric according to the present invention) is the test result of the Korea Institute of Construction Materials (KICM) (FT-IR Spectrometer measurement at 40 ℃), as shown in Fig. Far infrared ray emissivity of 0.88 is shown in the range of 20 mμ, and the far infrared ray emission intensity is 3.54 x 10 as shown in FIG.²W / m².μm.40 ℃ showed that the far-infrared radiation intensity of the ideal black body was 3.8 × 10²W / m².μm.40 ℃ In comparison with It can be seen that the far-infrared radiation intensity at about 40 ℃ close to the body temperature of the human body. In Figure 3 A represents the radiation intensity of the blackbody and B represents the radiation intensity of the composition according to the present invention.

In addition, as a result of testing the inhibitory (reduced) effect on bacteria (used strain: Staphylococcus aureus ATCC 6538) and black mold (Black must) at 30 ℃ when treated with a functional coating fabric according to the present invention, 4 and 5, when treated with the functional coating fabric according to the present invention, bacteria disappeared 71.1% within 24 hours and completely extinguished within 48 hours, black mold disappeared 58.7% after 24 hours and It was completely extinguished after 48 hours.

On the other hand, far-infrared rays are absorbed into the skin tissue as described above to increase the temperature in the living tissue or skin tissue to feel the warmth and to activate the metabolism to alleviate pain, and to expand the capillaries to promote blood circulation It has been found that there is an anti-inflammatory analgesic effect on the inflamed or bruised place, the functional coating fabric according to the present invention various clinical applications such as skin diseases of the human body obtained the following results.

1. Clinical Trial Results for Cold Healing (In case of breathing in the nose in the form of a mask)

Effectiveness Use for initial cold (20-30 minutes) Use after catching cold (2-3 days) If you have the flu (continuous use) 100% effect 70 people 30 people 5 people A significant effect 78 people 35 people 7 people I don't know well 2 people 5 people Remarks 150 people 80 people 12 people

2. Insect damage clinical trial (when it is attached to the bite area when insect bites)

(Number of people healed / number of people: satisfaction)

Mosquito damage (healing 20-30 minutes) Bee damage (20-30 minutes healing) Ant damage (healing 20-30 minutes) 110/110 (100%) 18/20 (90%) 7/7 (100%)

3. If you have eye drops, use it for 10-20 minutes as an eye patch

(Number of people healed / number of people: satisfaction)

Cleaned eyes are cleared Tears stopped Cramping eyelids calm down 24/24 (100%) 40/43 (93%) 15/15 (100%)

4. When used in athlete's foot more than 3 days (number of healing (number of people) / number of subjects (person): satisfaction%)

Plantar athlete's foot Toe athlete's foot Finger athlete's foot 12/12 (100%) 8/12 (67%) 6/7 (87%)

5. Application to skin wounds (number of healings / number of subjects: satisfaction%)

New wounds (healed within 2 hours) Growing wounds (patch for 3-4 days) 40/42 (95%) 37/37 (100%)

6. When used for menstrual pain (number of healings / number of subjects: satisfaction rate)

Use only functional coated fabrics according to the invention In combination with medicine Use only medicine 30/32 (93%) 45/45 (100%) 4/12 (33%)

7. Attached to both temples (number of people healed / number of people: satisfaction%)

Tea sickness (used 20 minutes before the ride) dizziness migraine 18/18 (100%) 6/7 (86%) 5/5 (100%)

As described above, the functional coating fabric according to the present invention is harmless to the human body, is colorless, transparent, and flexible, and is easy to adhere to the skin, and is easy to transport and carry, and has excellent oil and chemical resistance, particularly peeling resistance. It can be washed several times and used repeatedly to make it as a wide textile fabric itself, or to make small garments such as masks, handkerchiefs, socks, gloves, sheets, panties, etc. It can be easily cut and used for bandages or bandages, so it is extremely useful and effective for simple diseases such as colds, eye drops, small wounds, chalices, insect bites, menstrual pains, muscle pains, joint pains and headaches. have.

Claims (3)

A first composition in which an aqueous polymer material and water are mixed in a weight ratio of 5 to 6: 2; A second composition in which a solvent, water, and PVC powder are mixed in a volume ratio of 2: 2: 1 ~ 2; A third composition in which water and powdery far infrared emitting materials are mixed in a weight ratio of 2: 1; And, After making a fourth composition in which water, zeolite and two kinds of broad-spectrum antibiotics were mixed in a weight ratio of 100: 20-50: 1, The ratio of the said 1st composition: the 2nd composition is 7-8: 5-6, the ratio of the 2nd composition: the 3rd composition is 8-10: 1, the 3rd composition: the mixing ratio of the 4th composition is 4-6: 1 The liquid far-infrared radiation composition, which is completed by homogeneously mixing the first to fourth compositions so as to have a ratio of ˜3. The textile paper held by the two pairs of feed rollers 10 and 10, which are in contact with each other and frictionally driven in opposite directions, is passed through the first tank 14 containing the liquid far-infrared radiation composition according to claim 1. A first step of impregnating the coating solution on the fabric paper and then drying it 100% by passing the hot air dryer 16 at 90 ° C. to 120 ° C .; After passing through the first step of the textile paper in the second tank (18) containing the liquid far-infrared radiation composition according to claim 1 to coat the coating liquid on the textile paper once more and passes through the hot air dryer 16 again Thereby drying about 80% to 90%; The (CaSO ₄ .2H ₂ O) water, the gypsum powder jikmulji subjected to Step 2 as a coating layer reinforcement, acetic acid (CH ₃ COOH) is 100: in the third tank 20, mixed at a weight ratio of 50: 20 to 50 A third step of allowing the second paper to pass through the second hot air dryer (22) set to 100 ° C to 120 ° C after the coating film is further coated on the fabric paper; And, The fourth step of making the finished product by automatically cutting the woven paper through the third step to a predetermined size and automatically printing, automatic packaging; Method for coating a liquid far-infrared radiation composition on the woven paper, characterized in that consisting of A first composition in which an aqueous polymer material and water are mixed in a weight ratio of 5 to 6: 2, a second composition in which a solvent, water and PVC powder are mixed in a volume ratio of 2: 2: 1 to 2, and water and a far infrared ray emitting material in powder form After the third composition was mixed in a weight ratio of 2: 1, and the fourth composition in which water, zeolite, and two kinds of broad-spectrum antibiotics were mixed in a weight ratio of 100: 20 to 50: 1, the first composition: The ratio of the second composition is 7 to 8: 5 to 6, the ratio of the second composition to the third composition is 8 to 10: 1, and the mixing ratio of the third composition to the fourth composition is 4 to 6: 1. Fabric paper, characterized in that the liquid far-infrared radiation composition is completed by homogeneously mixing the first composition to the fourth composition.