KR20180092370A - Manufacturing method of far infrared ray radiation liquid emitting at room-temperate or above 37 degrees celsius through mixing far infrared ray radiation substances in liquid then separating the substances from liquid - Google Patents

Abstract

The present invention relates to a method for producing an eco-friendly far-infrared radiation liquid material. According to the present invention, powders of 0.5 to 20 wt% (325 mesh of powder) of a neutralized elvan, which is a ceramic raw material, 0.5 to 20 wt% (325 mesh of powder) of illite, 0.5 to 20 wt% (325 mesh of powder) of Kiyoseki, 0.5 to 20 wt% (325 mesh of powder) of pozzolan, 0.5 to 20 wt% (325 mesh of powder) of biotite, and 0.5 to 20 wt% (325 mesh of powder) of diamond are mixed with 25,000 ml of water to prepare a far-infrared radiation liquid mixture material. Also, a material precipitated in a lower end of liquid and the liquid at a clear portion at an upper end thereof are separated after placing the far-infrared radiation liquid mixture material at a room temperature for about 40 hours to obtain a pure liquid material without an optical material. In addition, 5 to 10 ml of hardwood vinegar per 5,000 ml of the pure liquid material is mixed to produce a far-infrared radiation liquid material which generates far-infrared wave energy having 0.88 or more of a far-infrared radiation rate at a room temperature or 37°C or more, and 5 to 20 μm of wavelength, and has about 99.9% of bacteriostatic force for coliform bacillus and staphylococcus, thereby being grafted to various medical devices, and being used for a daily health supplement functional product as well as used for treating various diseases.

Description

[0001] The present invention relates to a manufacturing method of a far infrared ray emitting liquid material at a room temperature or above 37 ° C by mixing a far infrared ray emitting material and then separating the far infrared ray emitting material. radiation substances in liquid and then separating the substances from liquid.

The present invention relates to a method for producing a far infrared ray-emitting liquid material using a mineral trace element, and relates to a method for producing a far infrared ray-emitting liquid material by mixing a mineral such as Neutral Quartz, Guiyang Stone, Pozzolan, Ilite, The liquid material obtained by separating the minerals from the liquid material is mixed with the wood vinegar solution again and the far infrared rays of wavelengths of 4 ~ 16um and the emissivity of 0.87 or so called " Far infrared radiation liquid material, and using the same to treat various kinds of diseases, as well as to be used for health supplementary function products, cosmetic raw materials and the like.

Modern people are living in a highly developed and convenient living environment, but the more complicated living environment that follows them is causing humans to induce diseases and provide more tired and weary elements. Therefore, modern people have a stronger desire to live a healthy and longevity life with the hopes of returning to nature. In Korea, in particular, there are various problems due to aging, Investment is proceeding throughout the society.

Therefore, there are various kinds of healthcare institutions in the market for health supplementary products, which are helping to lead a healthy life, and medical devices using state of the art technologies are already emerging.

Especially, in order to meet the demand of this market, various medical devices and health aids using Far Infrared rays are being released in Korea as well as advanced countries. The efficacy and function of far infrared rays have been widely known and it is known that the best wavelength for the human body is 4-16um and the emissivity is more than 0.80 among far infrared rays. While many products using various far infrared rays are pouring out on the market, there is still a limit to their use. Most of them sell far-infrared radiation products using electric power for far-infrared radiation products using stones or heating films for living rooms or floors in medical devices or jjimjilbangs. However, since most of them are limited in heating or emitting far- Unlike the case of far infrared rays and the wavelength range of far infrared rays and wavelengths emitted to the human body how much is not usually well proven.

In addition to the above, Patent Literature 10-0128110 entitled " Liquid far-infrared ray radiating composition and method of producing the same "discloses that the composition is composed of sodium silicate, sodium oxide, potassium carbonate, sodium carbonate, refined white sugar and thiosulfuric acid It is possible to produce a fabric which can emit a large amount of far-infrared rays, is excellent in antibacterial property and hardly generates static electricity when the composition is impregnated or applied to a predetermined product. However, It is difficult to expect far-infrared radiation effect due to long-term use.

In the above patent, a far-infrared ray spinning solution in which a far infrared ray inorganic suspension and a liquid vegetable concentrate are mixed is placed on the surface of the article at a high temperature Spraying it at high pressure to penetrate into the inside of the surface pores, and effectively producing the efficacy of the plant raw material. However, the above composition also has a problem in that it is not suitable for use in functional articles because the far-infrared radiation solution has a mineral content.

As described above, development and research of products using various far infrared rays are expected to continue in the future, and it is anticipated that the health products resulting from the present invention will be applied in a wide variety of markets.

KR 101265292 A

The present invention has been made in order to solve the above problems. Most of health and medical devices using far-infrared rays use a method of applying heat by using electricity as a method of emitting light from a mineral or a solid. And the electromagnetic waves are emitted together, so that the problem is solved.

Furthermore, even if the far infrared ray is too weak or strong, the effect on the human body may be insignificant or rather harmful. The most useful wavelength for the human body is known as the stage of approximately 4-16 micrometers in the scientific community, but in the 5-20 um wavelength range, commonly referred to as "growth beam" in academia, the emissivity is a liquid substance that emits more than 0.80 at room temperature or above 37 degrees. And it is aimed to solve this problem with almost no products related to far-infrared rays.

In addition, since it is mostly solid, it is true that there is a limit in the range of use in a product market using far-infrared rays. Thus, the present invention overcomes the limitations of the present invention and overcomes the limitations of the present invention by using mineral trace elements and natural liquids, which are eco-friendly materials, and has a far infrared ray emissivity of minerals having a wavelength of 0.80 or more at room temperature or 37 degrees, The purpose of this study is to develop and solve liquid materials using

In addition, the present invention can be applied to a variety of fields in the future, and it is expected that the present invention can be applied to fields of medical devices, health aids, clothing, bedding, and cosmetic materials.

The best conditions to show cosmetic and health effects through far infrared ray can be expected when the wavelength is 4-16um and the emissivity is 0.88 (88%) or more. Most of the products on the market with far infrared rays usually do not meet these conditions in general. In addition, various products that have been promoting the emission of far-infrared rays have used germanium, yellow soil, jade, and other materials. However, almost all products have a limit of emission of far-infrared rays only when using artificial heat or electricity of 40 ° C or more.

However, since far infrared ray radiation to be used in the present invention has a far infrared ray emissivity of 88.3% or higher at a room temperature (22 ° C) or higher and has the best effect on the human body, not only the wavelength of 4-16 um is emitted as a step called a growth ray The antimicrobial activity of Staphylococcus pneumoniae is 99.9%.

In order to accomplish the above object, a manufacturing method of the present invention will be described in detail as follows.

1) Daylight

The composition of Illight is conglomerate, sandstone, and sail, and the colors are yellow and white. Ilyite, also known as ceriite, is mainly clay minerals of 0.002-0.004mm or less in the boundary between limestone and granite area. It appears in rock form, but it changes into clay when exposed to air. Al2O3 content is 33.6% and Sio2 is 60-65%. It has a function of decomposing heavy metals and has a deodorizing function. It radiates far infrared ray emissivity of 0.93 without external reaction at a temperature of 40 degrees. In the far infrared ray, 5.6-14 microns belongs to a growing ray or a disease treatment ray. It is a wavelength that is useful for the human body which is transmitted up to -5 cm. Cells of the human body belong to organic compounds and have a certain wavelength and require wavelength. The 5.6-14 micron wavelength of far infrared rays is injected, causing the cell molecules to vibrate and produce energy, which in turn causes thermal energy to resonate. Through this, it causes a heat effect to muscles, blood vessels, nerves, and lymph nodes. In addition, Illight releases a large amount of negative ions (121 ions / cc) and emits a large amount of dissolved oxygen in the water. Removes viruses and bacteria and has excellent antimicrobial activity.

2) The Kum river

The quarry is a type of fossil carcass. The chemical compositions are plagioclase (feldspar feldspar), curry feldspar (Munseokseok, Misa feldspar), biotite and quartz. There are 14 kinds of rare earths in the Geumkang mine, totaling more than 130ppm, and 90% of rare earths containing Ce, Pr, Nd, and Sm. Also, the content of harmful elements is below or below the reference value, and it is not radioactive or falls below the measurement limit. It exhibits strong far-infrared emissivity and has excellent antibacterial effect. Kum River is a cloudy porous spongy structure when observed under a microscope when it is a fine powder and its outline and shape are strong in adsorptive ion solubility and exchangeability. Also, the specific surface area is high and the filtration property is high. Removes germs and suspended matter, and turns the water into slightly alkaline. In addition, it forms a complex with heavy metal elements and makes it toxic by ion exchange adsorption with harmful heavy metals such as Pb, Cd, Hg, and As. The adsorption rate is about Pb 63-65%, Cd 35-68%, Hg 80%, As 27.75.

3) Guiyang Stone

 The main feature of the Guiyang stone is that it is a natural material beneficial to the human body which does not contain radioactive elements, while it generates about 10 times more negative ions than tourmaline and has a high far infrared ray emissivity of 96% and a high surfactant effect.

The ingredients of Guiyang stone

               Silica Alumina Ferrite K2O ka2O

     Red: 77.2 12.5 0.7 4.7 3.5

     White: 66.1 19.6 0.2 6.5 6.6

to be.

4) biotite

The biotite has a far infrared emissivity of 93% at a temperature of 40 degrees. These minerals are known to have various functions such as sterilization action, liquid molecule refinement, far infrared radiation, oxygen replenishment function, improvement of human body absorption ability, acid neutralization function, and adsorption function. In particular, the wavelength emitted from far infrared rays radiated from the above-mentioned minerals has a function of preventing cell aging by resonating and resonating the cells 2,000 times per minute when they come in contact with moisture and protein molecules.

5) Neutralization

The outer surface is rough, the grains are similar to rice, and the shape is like rice balls made of barley rice. There is a light brown color between the gray blues. The rocks have many white dots, spots, and weathered to a low degree. Mineralized minerals contain 70% to 80% of limestone minerals in the limestone minerals. Plagioclase content is higher than quartzite and quartz content is lower than 15%. There are 18 different kinds of trace elements such as potassium, calcium, sodium, magnesium, phosphorus, zinc, zinc, selenium, copper, strontium, iodine, In general, the contents of four trace winsos (silicate, Sr, Zn, F) among the liquids eluted from the Neolithic minerals are suitable for the Chinese national drinking water and mineral water standard and are a natural nutrient source. It contains a large amount of zircon and can emit far infrared ray which is beneficial to the human body. Warm infrared radiation rate is 0.88-0.92 under normal temperature condition. Bacterial inhibition rate (E. coli, yellow grape bacterial reduction rate) is 90% Effectively disperses the active energetic position of the harmful substance structure. It decomposes the organic molecules that cause cancer in the polluted water and prevents the water from decaying, so that a good amount of water can be obtained.

Accordingly, the present invention is characterized in that the mineral powder is used to mix with a liquid containing a mineral oil micro-element and a liquid mixed with a vinegar solution. The wood vinegar used here is acidic to pH 3 and contains a small amount of minerals of up to 200 species.

1) Bacteria removed

The liquid obtained through the manufacturing process of the present invention has a large amount of anions and various bacteria are removed.

2) change into a liquid that absorbs the electromagnetic field

 In general, the growth of a living organism is the result of the biological currents emitted by the plant and the microelectromagnetic fields generated by the currents. However, during the manufacturing process of the present invention using the minerals of the present invention, the liquid absorbs the fine electromagnetic waves (far infrared rays) radiated from the minerals and has the function of maintaining and transferring the fine electromagnetic fields. The present invention having such characteristics has the effect that it can be applied to various medical devices in the future and can be used in daily health supplementary functional products in addition to treatment of various diseases.

The field in which the far-infrared ray emitting material emitting the far-infrared rays through these inventions can be immediately used is a product for reducing the decay of food in the hot water matting field and the refrigerator, a functional pillow, a functional garment, a liquid fertilizer for agriculture, , Disinfectant, toothpaste, raw material for dye, shampoo, soap, beauty products for women, and women's products. In particular, the liquid material having a far infrared ray emissivity of 5-20 μm and an emissivity of 0.88 or more at room temperature or above 37 ° C according to the present invention is environmentally friendly, There is no eco-friendly effect.

1), FIGS. 1, 2, and 3 are test results obtained after the experiment with the far infrared ray emission test results of the far infrared ray emitting liquid material according to the present invention, with reference to the Korean Institute of Far Infrared Ray Application Evaluation.
2) Figs. 4, 5, and 6 are test reports obtained after the experiment with the far-infrared radiation material according to the present invention commissioned secondly to the Korea Institute of Far Infrared (KAIR) Application Evaluation Research Center.
3) FIG. 7 and FIGS. 8 and 9 are test results obtained after experimentation, in which the far-infrared radiation material according to the present invention was subjected to the antimicrobial activity of a liquid substance to the Korea Institute of Far Infrared (KAERI) Application Evaluation and Evaluation.
4) Figures 10 and 11, 12, and 13 show the results of measurement of far-infrared emissivity at room temperature by the inventors of the present invention in the name of Qingdao Changgang Kangqing Facilities Under Construction, Qingdao City, Shandong Province, Is a report of far infrared emissivity test of liquid material at room temperature of 20 degrees.

Hereinafter, a method for manufacturing a far infrared ray emitting liquid material using a mineral trace element according to the present invention will be described in detail.

The method for manufacturing a far infrared ray-emitting liquid material according to the present invention comprises the steps of: 0.5-20 wt% Powder of 325 mesh), 0.5-20 weight% of biotite (325 mesh of powder) and 0.5-20 weight% of powdery manganese powder (325 mesh of powder) was added to 25,000 ml of mineral water and mixed. 25,000 ml of mineral powder The liquid at the bottom of the liquid is separated from the liquid at the upper part of the clear liquid after 40 hours have elapsed, and then the bottom sediment is discarded, and the solution of about 5-20 μm wavelength range (The compounding ratio can be broadened and applied in accordance with the compounding ratio described above according to the amount of the liquid to be obtained.) In the present invention, Manufacturing method About More specifically, as shown below as follows.

A) First step (mineral mixing process)

(Powder 325 mesh), 0.5 to 20 weight% of powder (325 mesh), 0.5 to 20 weight% of pozzolan (powder 325 mesh), 0.5 to 20 weight% of biotite 325 mesh), 0.5-20 wt.% (Powder 325 mesh) powder of Kum River is diluted in 25,000ml of mineral water and stirred so that it is dissolved in water.

B) Second step (liquid separation step)

A mixture of 25,000 ml of liquid mixed with the above mineral powders is separated from the liquid at the bottom of the liquid and the liquid at the bottom of the liquid after about 40 hours at room temperature. Collect pure liquid material that does not mix.

C) Step 3 (liquid material manufacturing process by mixing vinegar solution)

Far infrared ray emissivity of 0.88 or more and wavelength of 5-20 μm can be generated at 37 ° C or higher by mixing 5 ml-10 ml of the pure liquid material above 5,000 ml. Far infrared ray emissivity of 0.88 or more at room temperature or above 37 ° C, A liquid material is produced which has a wavelength in the range of 5-20 μm.

An embodiment of the method of manufacturing the far-infrared ray emitting liquid material according to the present invention manufactured as described above will be described in detail as follows.

 Experimental example of Dream Plus Mat Co., Ltd., located in Namyangju City, Gyeonggi Province

1. In January 2015, 5 kg of liquid prepared as described above was used for the experiment by Sang Jae Lee, CEO of Dreamplus Mat Co., Ltd., and the water was added to the hot water mat for 4 months Are as follows.

2. Use of circulating solution of cold / hot water matte according to the invention

1) One of the biggest problems of cold and hot water mats was water.

2) During the use of the hot water mat and the liquid according to the present invention, the bodily sensation temperature was higher than the average value of the liquid substance according to the present invention.

3) Far Infrared Radiation Quantitative test was conducted and a high level of far infrared radiation dose was detected.

4) When the circulating solution of the cold and warm water mat was used as the liquid material according to the present invention, the feeling of fatigue of the sleeping face and the body was reduced by the effect of the far-infrared rays.

5) It can be confirmed that the power consumed in operation of the boiler is decreased by the increase of thermal efficiency due to the far - infrared radiation.

The above test results are based on the test results from a total of 66 days from March 1, 2015 to May 6, 2015, and they are sent to the inspection agency (date of March 23, 2015, Korea Far Infrared Association) And received the test report.

3. The results obtained by using the liquid according to the present invention, which has been subjected to the experiment as above, were repeatedly conducted. As a result, the following conclusions were obtained.

1) The thermal conductivity is much higher than that of using water in the unit time.

2) Even when the same temperature was set, the mat using the liquid according to the present invention showed a temperature of about 10 ° C higher than that of the mat using water.

 It is a test report obtained after experiment by requesting the bacteriostatic power of the liquid material to the Korea Institute of Far Infrared (IRR) Applied Evaluation Research Center according to the present invention. 99.9% of E. coli and Staphylococcus were found to have a bactericidal rate.

Although the present invention having been described above has been described with reference to a limited number of embodiments, it is to be understood that the present invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the present invention by those skilled in the art. Various modifications and variations are possible within the scope of the appended claims.

Claims (3)

(Powder 325 mesh), 0.5 to 20 weight% of inorganic powder (powder 325 mesh), 0.5 to 20 weight% of lead oxide (powder 325 mesh) and 0.5 to 20 weight of pozzolan (325 mesh), 0.5-20 weight% of biotite (325 mesh powder), and 0.5-20 weight% of powdery manganese (325 mesh powder).
The method according to claim 1, wherein the liquid mixture mixed with the mineral is separated from the liquid mixture at a room temperature for about 40 hours, and the liquid at the upper part is separated from the liquid mixture, Gt;

The method according to claim 2, wherein 5 ml-10 ml of the vinegar solution is mixed per 5,000 ml of pure pure liquid material, so that the far infrared ray emissivity can be generated at room temperature or above 0.88 at a temperature of more than 37 degrees Celsius, And a method of manufacturing a far infrared ray emitting liquid material having a bacteriostatic power of about 99.9% against staphylococci.

Images