JP2011241522A - Fiber and fiber containing mineral radiating application products terahertz wave - Google Patents

Abstract

PROBLEM TO BE SOLVED: To overcome the problem that the commercial health-enhancing fiber products utilize the effect of far-infrared ray and the effect is only suitable for winter clothes.SOLUTION: Fiber radiating terahertz wave utilizes the effect of the wavelength in which the straight-traveling property of light and the permeability of radio wave radiated by terahertz wave. When human body receives radio wave of the frequency of terahertz wave, the water molecule in the human body resonates therewith, so that the cluster of the water molecule becomes small. As a result, the activation of blood stream and cells is promoted. Accordingly, the effect of health maintenance through all seasons of spring, summer, fall and winter can be greatly exhibited.

Description

The present invention relates to a fiber excellent in radiation of terahertz waves.

At present, commercially available fibers for improving health include barleystone, serpentine, granite, dolomite, silica mine (including aluminum oxide, zirconium oxide, magnesium oxide, titanium oxide and silicon dioxide), bamboo charcoal, Bincho charcoal, zinc oxide, silver ions, copper ions, etc. are included in the autumn and winter apparel for the function of releasing heat storage, antibacterial, deodorant, reflection coefficient and negative ions by using far infrared rays. Supporters such as hips, knees, arms, ankles, palms, elbows, thighs or lower legs for warming and health such as goods, underwear, socks, sheets, pillow cases, mufflers, hats, futons, sleeping bags, snow coats and thermal sheets Used for.

Japanese Patent Application Laid-Open No. 2004-262022 JP 2008-255518 A

An object of this invention is to provide the novel fiber by the radiation | emission of the terahertz wave which can have a high health promotion effect compared with the case where far infrared rays are utilized.

In order to achieve the above object, the present invention relates to a fiber excellent in terahertz wave emission, comprising a jade mineral that emits terahertz waves well.

In the manufacturing method, powders of submicron (submicron or nanometer) with a high thermal conductivity coefficient are generally dispersed with a surfactant and then used by physical kneading or chemical synthesis. A fixed amount of powder is added to thermoplastic particles such as polyester, nylon, polypropylene, rayon or acrylic. Next, continuous lengths with different cross-sections and structures using newly designed nozzles using melt, dry, or wet spinning techniques, using raw materials that are a mixture of thermoplastic particles and sub-micron powder with a high thermal conductivity coefficient. Manufacture fibers and short fibers to produce fiber products with excellent terahertz wave emission

The present invention provides a continuous long fiber excellent in terahertz wave emission by introducing a jade mineral finely pulverized to submicron or less into a melt-type long fiber spinning machine or a jade mineral into a melt-type short fiber manufacturing process. It relates to the production of short fiber products.

The difference between a fiber product that emits terahertz waves according to the present invention and a conventional fiber product is mainly the effect of the presence or absence of the generation of terahertz waves. In evaluating the effect, in particular, sub-micron (submicron class and nanometer class) powdered jade minerals have peaks at wavelengths (3.34 THz) and (4.78 THz) from the absorbance measurement, and the terahertz wave Has been found to radiate. Therefore, underwear, socks, sheets, pillow cases, mufflers, hats, futons, sleeping bags, snow coats, heat insulation sheets, etc., made of the fiber that emits terahertz waves of the present invention can emit terahertz waves of the above wavelengths. If there is, it is recognized that there is an effect of health promotion.

The fibers that emit terahertz waves of the present invention at room temperature emit terahertz waves of the above-described wavelengths, resonate vibration (rotation) of molecules of water and organic substances, convert them into heat, and simultaneously loosen their structures. , Enhance the health promotion effect.

Even in a commercially available health-promoting fiber product, the effect of far-infrared is recognized if the temperature rises at 0.5 ° C. and the radiation coefficient is 0.85 or more. In recent years, such products are popular, but such products are only suitable for winter clothing. That is, since the temperature is high in spring and summer, the effect of heat dissipation cooling is required to maintain comfort. The fiber product that emits terahertz waves according to the present invention is clearly different from conventional products in terms of time and field of use. The health promoting fiber product according to the present invention is mainly used throughout the season, and is particularly applied to sheets, cushions and the like. On the other hand, conventional textile products are applied to long-sleeved shirts, trousers, coats, shoes, socks, underwear, duvet stuffing, cushions, etc. in autumn and winter.

  The fiber product that emits terahertz waves by the radiation of terahertz waves according to the present invention is a short fiber product that has fatigue recovery and health functions, and the difference from conventional fiber products is that terahertz waves are mainly straight light. This is due to the fact that it has a wavelength close to that of the natural vibrations of the water molecules that make up the human body, in a wavelength region that combines radio wave transmission. In addition, in the method of manufacturing a textile product that emits terahertz waves according to the present invention, there is no need to introduce new equipment or tools throughout the spinning process, and the difference between conventional textile products and textile products that emit terahertz waves is mainly In the method for producing and kneading jade minerals finely pulverized to sub-micron, both have theoretically significant differences in thermal conductivity coefficient and thermal diffusion coefficient. The fiber product that emits the terahertz wave is suitable at all times, and the field of use is clearly different from the conventional fiber product. In order to produce and knead the jadeite mineral finely pulverized to submicron or less in order to radiate terahertz waves of wavelengths (3.34 THz) and (4.78 THz), in addition to precision equipment and experience, With the development of manufacturing processes for non-woven fabrics, woven fabrics and knitted fabrics, various products with good effects are developed.

According to the results of the experiment, the fiber that emits terahertz waves according to the present invention can emit terahertz waves of wavelengths (3.34 THz) and (4.78 THz) stably and permanently.
This is because the terahertz wave has a wavelength close to the natural vibration of the water molecules constituting the human body in a wavelength region where light travels straight and transmits radio waves.
When the human body receives an electromagnetic wave having a frequency of terahertz waves, the water molecules in the human body resonate and the water molecule clusters become smaller. As a result, activation of blood flow and cells is promoted, which is very effective in maintaining health.

As described above, the present invention has the following features.
(1) Terahertz waves resonate with water molecules in the human body to reduce the water molecule cluster, activate human cells, increase the basal metabolic rate of the human body with a low basal metabolic rate, and contribute to maintaining the health of the human body.
(2) Terahertz waves are 1/1 million energy of X-rays, are non-destructive and non-invasive, and are safe and secure for the human body.
(3) Although there are many natural favorite foods that emit terahertz waves, they are often found to contain asbestos components, and their application is not possible due to safety problems, but the jade mineral used in the present invention is asbestos. Contains no ingredients and is safe for use.
(4) The effect of the fiber that radiates terahertz waves is confirmed to have a significant increase in thermal effect and a significant increase in blood flow in the shoulder.
(5) In consideration of functionality, safety, and economy, variations in the size of jade-based mineral particles and fiber product specifications (for example, fiber thickness, strength, fabric weight, density, structure, etc.) To achieve the best performance at a low cost.
(6) Considering the functionality of the product and the comfort of wearing, the fiber product that emits terahertz waves according to the present invention is used in combination with other fibers to adjust the mixing ratio, and the selection of the fiber material is short. The fiber structure, the structure of the woven fabric, and the like may be changed, thereby reducing the cost.

Measurement results of terahertz waves using jade mineral polyethylene pellets Photomicrograph of fiber containing polyester fiber with jade mineral Micrographs of fibers containing jade minerals and socks Analysis results of jade minerals containing no asbestos components

Thermal effect test result with supporter made with fiber containing jade mineral From the thermograph measurement results, when using a supporter made with fiber containing jade mineral, an increase in thermal effect on the calf was confirmed .

Results of blood flow test using seat cover made of fiber containing jade mineral Mineral increase of shoulder blood flow was confirmed when seat cover made of fiber containing jade mineral was used.

Claims (6)

Fibers containing jade minerals and enhanced terahertz radiation Clothing made using the fiber of claim 1 A bedding made using the fiber of claim 1. A pet-related product made using the fiber of claim 1 Houseware made using the fiber of claim 1 Vehicle seat and cover made using the fiber of claim 1