KR910006535B1 - A method of manufacturing of conductive exothermic-fiber which generates for infrared rays - Google Patents

Abstract

Resinous conductive solution which is prepared by mixing conductive powders such as carbon powders with polypropylene solution with the ratio of 3:7 and ceramics solution which is prepared by mixing ceramics with urethane resinous solution or acrylic resinous solution with 3:7 are mixed and stirred with 1:1. thus forming composite solution. In preparing far infra-red radiating heating fiber, fiber bundles are either impregnated by conductive solution, dried, followed by impregnation with ceramics and drying or sprayed or coated by above-mentioned composite solution.

Description

Manufacturing method of conductive heating fiber which generates far infrared rays

The present invention uses the patent application No. 87-15782 filed by the applicant (preparation method for producing a large amount of far-infrared radiation of good quality) and No. 88-3390 (method of making a fiber that emits high quality far-infrared radiation). When the technical method is applied to the conductive heating fiber to supply electricity to the product according to the present invention, the heat is heated and at the same time, the far infrared rays can be easily generated, and the fiber yarns or the textile products act on the human body or used as articles of living things. The present invention relates to a method for producing a conductive heating fiber that generates far-infrared rays that can promote growth rate together with conductive heating.

In the conventional fiber yarns and textile products, there has been known a technique for penetrating and adhering conductive powders such as carbon powder to the tissues and heating them at low temperatures when electricity is supplied to the extremes of the tissues. No technique has been developed to produce far-infrared rays that benefit the human body's health or promote the growth of living organisms using low temperature fever.

The present invention is to wear the fiber yarns or textile products according to the present invention in a suitable manner by the human body or living organisms by using the low-temperature heat generated from the conductive fiber yarns such as electricity or the textile products and the two patented inventions patented by the applicant. When used in a coated or coated state, the heat generated by the conductive properties and the generation of far-infrared rays by ceramic powders are simultaneously heated, and high-quality far-infrared rays are generated, which can be very beneficial to the health and development of the human body or living organisms. will be.

Hereinafter, the present invention will be described in detail with reference to Examples.

Example 1

A conductive powder such as carbon powder and a polypropylene (PP) solution are mixed at a ratio of about 3: 7 to form a solution of a dendritic conductive material, and a heavy metal is added to ceramics (alumina, zirconia and chiconia) ceramics. The same mixture was mixed in powder) to form a ceramic solution generating far-infrared rays by adding a urethane resin solution or an acrylic resin solution in a ratio of about 3: 7, and then the solution of the conductive material and the ceramic solution. A composite solution is prepared by mixing and stirring each one to one, and impregnated various fiber yarns (including twisted yarns) and the product by a conventional method, so that the composite solution in the tissue of the fiber yarns is evenly infiltrated and dried. After that, by forming an insulating solution on the surface of the conductive heat generating fiber to remove far infrared rays, As a heat-generating fiber manufactured as described above, it forms a fiber product such as cold protection coating or various cushions, and connects the anode wire of the power source to conduct electricity, and as a result, it generates heat by the conductive resin and has a heating effect. This occurred and confirmed that it is very beneficial to the human body, but there is no fear of leakage or electric shock by the insulating solution.

Example 2

Without impregnating the solution of the dendritic conductive material and the ceramic solution mixed and formed in the same ratio as in Example 1, the fiber yarn or the product was first impregnated with the conductive solution, dried, and then impregnated with the ceramic solution again. After conducting the drying and electrical insulation process to produce a conductive fume fiber that generates far-infrared rays with different layers, and then energized the fiber product in the same manner as in Example 1, the same effect as in Example 1 It was confirmed that it can be obtained.

Example 3

Also in the same manner as in Example 1, a composite solution of a mixture of a dendritic conductive material and a ceramics solution of about 1: 1 is sprayed or applied onto the surface of various fiber yarns and products thereof, dried and then dried, and then the insulating solution As a result of applying the fiber to produce the fiber, the effect of Example 1 can also be obtained.

Referring to the effects of the present invention as in the above embodiment in more detail as follows.

In the tissue of the natural fiber or synthetic fiber according to the present invention or the textile product thereof, the tissue is mixed with a solution of a dendritic conductive material which is heated when electricity is supplied from the power source to the anode wire and a ceramic solution which can generate far infrared rays. It is made to infiltrate evenly in the inside or to form a coating layer of the same component on the surface of the product. If the anode wire is energized to the tissue in which the solution of the conductive material is penetrated, the electricity is conducted by the carbon powder in the conductive material. Fibrous tissue is generated by the expansion of the intervals, etc., so as to have a warming effect such as a cold protection article or heating, and at the same time, the ceramic solution as described above is simultaneously heated, whereby high-quality far infrared rays can be easily generated.

Yarn or textile products according to the present invention can promote the improvement of health and the growth rate by forming or wearing the use of the warmth or far-infrared rays required for heating and far-infrared rays at the same time or by making or using the products necessary for animal breeding It is said to be effective.

Claims (3)

A polypropylene (PP) solution was mixed with a conductive powder such as carbon powder in a ratio of 3: 7 to form a solution of a dendritic conductive material, and an acrylic resin solution was also added to the ceramic powder with a urethane resin solution in a ratio of 3: 7. After forming a mixed ceramic solution, the mixture of the electrically conductive material and the ceramic solution in a 1: 1 mixture and stirred to form a composite solution, which is impregnated with a fiber yarn (including twisted yarn) or a product thereof to form a composite solution A method of producing a conductive heating fiber which generates far infrared rays, characterized in that the solution is made to penetrate and dried and then coated with an insulating solution on the surface thereof. The method according to claim 1, wherein the fiber yarn and its products are impregnated with a conductive material solution and a ceramic solution. The far-infrared ray is characterized in that the conductive material solution is first impregnated and dried, and then the ceramic solution is again impregnated and dried. The manufacturing method of the generated conductive heating fiber. The method according to claim 1, wherein the fiber yarn and its product are prepared by spraying or applying a composite solution in which a conductive material solution and a ceramic solution are mixed.