JP2015139688A - Functional fiber product and production method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a functional fiber product having a fiber of excellent thermal insulation performance and exercise function performance, while solving a problem of increasing number of other products with unclear effect and sustainability thereof at high price.SOLUTION: In the present invention, a resonant electromagnetic wave with specific frequency is irradiated to the fiber product or fiber material for a predefined period of time. Such fiber product is used as a transfer body of the electromagnetic wave while such a fiber product and fiber material being an oscillation source of the electromagnetic wave.

Description

  The present invention relates to a functional fiber product in which a fiber product or a fiber material of natural fiber or chemical fiber is irradiated with a resonance electromagnetic wave of 32 to 38 terahertz to make the fiber product or the fiber material itself an oscillator of the resonance electromagnetic wave. A manufacturing method thereof is provided.

  In recent years, many functional fiber products and applied technologies containing ceramic and metal powders that emit resonant electromagnetic waves in the far-infrared region have been developed, but most have problems with stability, uniformity, and durability. It is. The main reason for this is that the source and frequency of electromagnetic waves in the far-infrared region are not specified, and it is difficult to quantitatively analyze the frequency and effect at the current technical level.

On the other hand, it is said that electromagnetic waves in the far-infrared region are deeply related to important phenomena such as life forms, DNA double helix structure, superconducting energy gap, and scattering of electrons in solids. It has been considered as an unexplored area that is difficult to use because it is above the upper limit frequency that can be used and has high water absorption. In recent years, various products and devices using resonance electromagnetic waves from 100 gigahertz to 100 terahertz have been proposed. (For example, see Japanese Patent Application No. 2006-298315)
JP 2006-298315 A

  In recent years, highly heat-retaining fibers and functional fiber products with excellent exercise functionality have attracted attention. However, many of the effects and the persistence of the effects are not clear, and many are expensive, which is a problem for widespread use.

  In addition, as a method of radiating resonance electromagnetic waves that may resonantly excite electrons moving in the orbits of molecules that make up textile products and fiber materials, a device that emits resonance electromagnetic waves with heated compressed air has also been developed. Since the apparatus is large and expensive, and the oscillation source of the resonance electromagnetic wave is high-temperature air, there is a problem in versatility.

  Some metal complexes absorb or oscillate resonant electromagnetic waves, but they need to be impregnated or coated on the target object, which limits the type of object, complicates the process, and keeps it stable. In particular, there was a problem in emitting resonant electromagnetic waves.

  In order to solve such a problem, the present inventor applied a resonance electromagnetic wave of 32 to 38 terahertz to a metal such as stainless steel, aluminum or titanium under a temperature condition of 20 ° C. to 90 ° C. for 2 to 12 hours. By irradiating, it has been found that the metal becomes a transfer body of the resonance electromagnetic wave and itself becomes a projectile of the resonance electromagnetic wave, and the present invention has been made.

  That is, in order to solve the above-described problem, in the present invention, a substance that emits a resonance electromagnetic wave of 32 to 38 terahertz and a fiber product or a fiber material are brought into close contact or in close proximity to each other under a temperature condition of 20 ° C. to 90 ° C. The electromagnetic wave emitted from the radiator of the resonance electromagnetic wave is left for 12 hours, and the electromagnetic wave emitted from the radiator of the resonance electromagnetic wave is transferred to the fiber product or the fiber material.

  Resolving the problem of using fiber products and fibers themselves as resonant electromagnetic wave emitters increases durability compared to fibers containing ceramic and metal powders that emit resonant electromagnetic waves, and reduces the effectiveness of the powder by peeling the powder. it can.

  Further, by limiting the frequency of the resonant electromagnetic wave radiated from the fiber product or fiber to 32 to 38 terahertz, the problem that the effect cannot be expected depending on the frequency can be solved.

  ADVANTAGE OF THE INVENTION According to this invention, the manufacturing method and apparatus of the functional fiber product and its fiber material which radiate | emit the resonance electromagnetic wave of 32-38 terahertz which is clear and high in effect can be provided in large quantities at low cost.

  In addition, the textile product or fiber according to the present invention radiates a resonance electromagnetic wave of 32 to 38 terahertz corresponding to a temperature energy of about 30 ° C. to about 90 ° C. to the human body to wear, heat from the inside returns to the inside, By returning the heat from the outside to the outside, it is effective in warm winter and cool summer.

  Further, the electromagnetic waves resonately excite hydrogen bonds of the human body wearing the textile product and separate the hydrogen bonds. The electrons released from the hydrogen bond move at high speed and collide with other atoms and molecules, generating collision energy, increasing the basal body temperature, and improving immunity.

  In addition, the electromagnetic waves can effectively carry oxygen and nutrients to cells in the body by resonating and purifying hydrogen bonds in the blood of the human body wearing the textile product, thereby promoting health.

  In addition, the electromagnetic waves relieve pressure on blood vessels and nerves by resonating and flexing the hydrogen bonds of the muscle cells of the human body wearing the textile products and other cells that have hardened due to fatigue accumulation. To ease.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows the concept of a system for transferring resonant electromagnetic waves to another object.
FIG. 2 shows a longitudinal section of the concept of a device for irradiating a resonant electromagnetic wave to a fiber product or fiber material.
FIG. 3 shows an A arrow view of FIG.

  As shown in FIG. 1, in a method of transferring resonant electromagnetic waves from an oscillation source to another object, a carboxyl group such as hot air of 30 ° C. to 90 ° C. or citric acid through exhaust resistance made of stainless steel is used as a ligand. The primary oscillation source is an oscillation source that oscillates the resonance electromagnetic wave 2 of 32 to 38 terahertz, such as a sodium complex, a metal such as titanium or aluminum processed at 200 ° C. to 250 ° C., or a specific type of natural stone. 1, the primary resonant electromagnetic wave 2 of 32 to 38 terahertz oscillated from the primary oscillation source 1 is irradiated to the primary vibration receiving and secondary resonant electromagnetic wave oscillator 3 for 2 to 12 hours.

  A secondary resonance electromagnetic wave 4 of 32 to 38 terahertz is emitted from the primary vibration receiving and second resonance electromagnetic wave secondary oscillator 3 irradiated with the electromagnetic wave 2.

  The secondary resonance electromagnetic wave 4 is irradiated to the secondary receiving and tertiary resonance electromagnetic wave oscillating body 5 for 2 to 12 hours, so that the free frequency such as aluminum or copper having a natural frequency of 32 to 38 terahertz is obtained. Resonant electromagnetic oscillation such as highly conductive materials with many electrons, materials that are amorphous or unstable in crystal structure, such as glass, materials that have a molecular structure containing hydrogen bonds, and compounds that have carbon atoms in the basic skeleton of the structure The vibrations of electrons and lattices traveling around the molecular orbit of the material 5 are resonantly excited, and various resonance electromagnetic wave effects are exhibited.

  Specifically, as shown in FIGS. 2 and 3, as the primary vibration receiving and secondary resonance electromagnetic wave oscillator 3, a sheet having a large number of free electrons such as an aluminum vapor deposition sheet or a plate-like resonance electromagnetic wave irradiation sheet. 31 is arranged so as to be in close contact with the fiber product 51, and the resonant electromagnetic wave of 32 to 38 terahertz emitted from the sheet 31 is irradiated to the fiber product 51 for 2 to 12 hours.

  A surface heater 11 capable of adjusting the temperature of 20 ° C. to 90 ° C. is provided above or below the sheet 31, and can resonate the fiber product 51 with a resonance electromagnetic wave of 32 to 38 terahertz.

  The base material of the sheet 31 is a highly conductive material with many free electrons such as aluminum or copper having a natural frequency of 32 to 38 terahertz, an amorphous or unstable crystal structure material such as glass, or hydrogen bonding. Although a substance having a molecular structure including a chemical substance having a carbon atom in the basic skeleton of the structure can be considered, in the present invention, an aluminum vapor deposition sheet is mainly used in consideration of cost and ease of use.

  The fiber product 51 is disposed in close contact with the sheet 31, and the temperature of the surface heater 11 is adjusted according to the material and size, so that the resonance electromagnetic wave of 32 to 38 terahertz oscillated from the sheet 31 is 2 to 12. Irradiate for hours.

  The fiber product 51 irradiated with the electromagnetic wave for a specified time is resonantly excited by electrons traveling around the molecular orbital constituting the fiber material, and the fiber product 51 itself becomes an oscillation source of the resonance electromagnetic wave, and exhibits various resonance electromagnetic wave effects. It becomes a functional fiber product to demonstrate.

The following effects have been confirmed through the trials of many people.
* Temperature control effect: Textile products that are warm in winter and cool in summer.
* Health effect: When worn, blood becomes smooth and immunity increases.
* Pain relief: Relieves pain such as stiff shoulders, back pain, neuralgia, and bruises.
* Diet effect: Burns excess fat in the body.
* Deodorization effect: Deodorizes sweat odor, body odor and aging odor.
* Washing effect: Not only is it hard to get dirty, it is easy to remove, but it also makes it easier to remove dirt from clothing that you select together, reducing the amount of detergent used.

Industrially available fields

  The present invention can be used not only for raw materials, semi-processed products, and finished products in the production process of textile products, but also for textile products that are already worn. It can also be used in medical and health fields such as breast cancer prevention bras and supporters.

Shows the concept of a method of irradiating other objects with resonant electromagnetic waves. These show the longitudinal cross-section of the concept of the apparatus which irradiates a resonant electromagnetic wave to a textile product. Shows the A arrow view of FIG.

DESCRIPTION OF SYMBOLS 1 1st oscillation source 2 1st resonance electromagnetic wave 3 1st receiving and 2nd resonance electromagnetic wave oscillator 4 2nd resonance electromagnetic wave 5 2nd receiving and 3rd resonance electromagnetic wave oscillator 6 3rd resonance electromagnetic wave 11 Surface heater 31 Resonant electromagnetic wave irradiation sheet 51 Textile product

Claims (4)

  By irradiating a natural electromagnetic or chemical fiber fiber product or fiber material with a resonant electromagnetic wave of a specific frequency for a certain period of time under a specific temperature condition, the fiber product is used as a transfer body of the electromagnetic wave. A functional fiber product and a manufacturing method thereof, wherein the fiber material itself is an oscillation source of the electromagnetic wave.   The specific frequency according to claim 1 is 32 to 38 terahertz, and the functional fiber product and its manufacturing method.   2. The functional fiber product according to claim 1, wherein the specific temperature condition is 20 to 90 degrees Celsius, and a method for manufacturing the functional fiber product.   The functional fiber product and the method for producing the functional fiber product, wherein the irradiation for a certain period of time according to claim 1 is performed for 2 to 12 hours.

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