KR101920420B1 - Fabric goods containing ionic liquid-phase germanium - Google Patents

Abstract

The present invention relates to a plurality of articles made of textile containing germanium ion and, more specifically, to a method to make a germanium ion solution with a high absorption ratio of germanium ion and fastness with respect to textile, and a plurality of articles made of textile containing germanium ion, which uses such germanium ion solution so as to maintain an advantageous effect by germanium. According to the present invention, the method to make a germanium ion solution comprises: a pulverizing step of pulverizing inorganic germanium; a mixing step of mixing the inorganic germanium of a powder state with water to make an inorganic germanium solution; and a high speed agitating ionization step of using a high speed agitating device to rotate the inorganic germanium solution at high speed, thereby ionizing the inorganic germanium.

Description

{FABRIC GOODS CONTAINING IONIC LIQUID-PHASE GERMANIUM}

The present invention relates to an article made of a fabric containing germanium ions, and more particularly, to an article made of a germanium ion solution prepared by a method for producing a germanium ion solution having a high adsorption ratio and fastness of germanium ion to a fiber fabric. The present invention relates to an article made of a fiber cloth containing germanium ions capable of sustaining a beneficial effect of the present invention.

In the field of textile products, there has been a long time research and interest in new materials with added functionality and sensibility in accordance with the changing needs of consumers. Especially, new functional fiber materials that show useful effects on the human body are constantly developed It is being released.

Among these functional fiber materials, recently, a material having a far-infrared radiation function, which has a useful effect on the human body such as a blood circulation promoting action of the human body, has been spotlighted. Generally, far infrared rays fibers and fabrics have various kinds of minerals contained therein, Infrared ray of the wavelength range that can be absorbed by the human body fluid by the visible light of the human body and activates the body fluid which occupies most of the human body, thereby influencing the blood circulation by the warming, the heat and the effect, It is known to play a role in promoting metabolism.

Materials with far-infrared radiation include germanium, elvan, jade, monazaite, tourmaline, charcoal, loess, etc. These materials are coated on the surface of the fiber or fabric or contained in the spinning liquid, A method in which the fibers are contained in the fibers by applying the fibers to the fibers.

Korean Patent Registration No. 1996-0013468 discloses a bio far infrared ray fiber and a fiber product using liquid (ionization) bioceramics having improved warmth, flexibility and dyeing diversity.

* Bioceramics, as evidenced by nuclear magnetic resonance spectroscopy, has the effect of promoting the activation of water and the activation of body cells, and the effect of raising the temperature of the subcutaneous deep layer, resulting in microvessel expansion, promotion of blood circulation, harmful substances such as carbon dioxide and sulfur dioxide It discharges pollutants such as gas, mercury and lead to the outside of the body, promotes metabolism, promotes growth of copper and plants, maintains leading food, aging and enhances taste.

Conventionally, bio far infrared ray fibers and fiber products using liquid phase (ionization) bioceramics are prepared by dissolving and mixing sodium silicate, aluminum soda, sodium oxide, sodium thiosulfate, germanium dioxide, refined glucose and supernatant, Is added to the above mixed solution and the mixture is kept at 15 to 20 ° C for 48 to 72 hours to allow the metal element and the organic compound to undergo ionic and mixed equilibrium by the substitution reaction, (Ionized) bioceramics stock solution is used.

These liquid bio-ceramics raw liquids are strongly alkaline far-infrared emitters with anionic groups, so liquid-phase bioceramics can be used for ionization of organic compounds by virtue of high-efficiency far-infrared radiation effect at room temperature and room temperature (35 ° C) Permeability. When the fibers and the fiber products are immersed in the liquid raw solution at room temperature and then dried, the far infrared ray emitter penetrated into the fibers and the textile products due to the ionization tendency absorbs the oxygen contained in the air to proceed ionic bonding. High-performance bio-far-infrared fiber and fiber products that are fastened to fibers and textile products.

Korean Patent Laid-Open Publication No. 2002-0062909 discloses a technique relating to a far-infrared ray-irradiated and smell-treated object.

According to the conventional far-infrared ray-irradiated and erosion-treated object, the far-infrared ray emitted from the far-infrared ray radiator provides a beneficial effect such as biological activation, deodorization and sterilization. When far infrared rays are applied to a living body composed of moisture and protein, the body is activated when the vibrational wavelength band of the organic molecular motion of moisture or protein is the same as the far infrared ray wavelength band. When the far infrared ray penetrates into the living body, And phaeo effect, promoting capillary vasodilation, promoting circulation, promoting tissue, promoting metabolism, and exhausting waste and toxic metals.

In addition, far-infrared rays neutralize the cations of the odor-generating substances by anionizing the air to remove odors. When far-infrared rays near to the water molecule wavelength are irradiated, the water molecules activate the dissolved oxygen by decaying the resonance, By inhibiting bacterial infiltration, the freshness of the food can be maintained for a long time, or the growth and metabolic activity of the plant can be accelerated.

Conventional far-infrared radiation and fragrance-treated objects for satisfying such a far-infrared ray radiation function are prepared by mixing a water-soluble perfume, a microencapsulated fragrance and a far-infrared radiation raw material, and adding a binder to the mixture to effect smell diffusion and far-infrared radiation. The objects to be subjected to the far-infrared ray irradiation and smell processing include fiber fabrics and textile products manufactured by the fabrics, natural and artificial leather fabrics, and leather products produced by the fabrics.

According to the above-described conventional techniques, the spinning materials coated on the fiber fabric have low binding force and are easily detached or detached by washing or the like, so that the continuous effect of the spinning material is reduced and a sufficient effect can not be expected.

On the other hand, Korean Patent No. 10-0822719 discloses far-infrared ray fibers and garments made using the same. Conventional far-infrared radiation fibers are formed by depositing far-infrared radiation materials (selenium, titanium, germanium, elvan, yellowstone, jade, tourmaline, etc.) on a textile fabric by physical vapor deposition to firmly bind these far- And proposes a technology for imparting chemical resistance.

Conventional far infrared ray-emitting fibers use vacuum deposition and sputtering as physical vapor deposition methods. In vacuum deposition, evaporation atoms and molecules coagulate on the coating material by evaporation of material using resistance heating or electron beam in high vacuum, . In sputtering, an inert ion collides with a target due to an abnormal discharge caused by a high inter-electrode voltage of several kilovolts in an inert gas atmosphere to hit the target material in a vacuum to solidify the coating material.

However, in the conventional vacuum vapor deposition method, it is necessary to cause a glow discharge, the gas is separated into an ion and an electron, and the plasma is in a state of being exposed to a high temperature plasma due to a rise in temperature. It is not suitable to be applied to a cloth or clothes because there is a problem that a gas is trapped in the layer and an icing phenomenon occurs.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a germanium ion liquid manufacturing method capable of increasing adsorption rate and fastness of germanium ion to a fiber fabric, It is an object of the present invention to provide an article made from a fiber fabric containing germanium ions.

In order to attain the above object, an article fabricated from a germanium ion-containing fiber fabric produced by the germanium ionic liquid manufacturing method of the present invention comprises: powdering inorganic germanium; Spraying a solution containing microorganisms in the inorganic germanium powder; Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C; Mixing the inorganic germanium powder with water to form a germanium solution; Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution to separate the precipitated germanium powder from the germanium solution, and sterilizing the germanium solution by disinfection,

Wherein the microorganism is a Pantoea ananatis strain or a Nocardia sp. Strain, wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is coated on a fibrous tissue ≪ RTI ID = 0.0 > 1, < / RTI > wherein the germanium ion-

Wherein the germanium ion-containing fiber fabric is partially or wholly wrapped with the germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is partially or wholly wrapped with the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a portion of the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a part of the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric.

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a part of the germanium ion-containing fiber fabric.

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

The inorganic germanium solution is prepared by mixing inorganic germanium in powder form with inorganic germanium in powder state by mixing inorganic germanium powder with water and spinning the inorganic germanium solution at a high speed using a high speed stirring device to produce an inorganic germanium ion liquid, The adsorption rate and the fastness of the germanium ion can be increased. The germanium ion-containing fiber fabric can keep the beneficial effect of germanium without detaching the germanium from the fiber fabric.

1 is an inorganic germanium powder sprayed with a microorganism introduced into an incubator according to an embodiment of the present invention.
2 is an explanatory view of an incubator for culturing a microorganism together with an inorganic germanium powder according to an embodiment of the present invention.
3 is a germanium solution in which an inorganic germanium powder is mixed according to an embodiment of the present invention.
4 is a germanium solution in which germanium solution according to an embodiment of the present invention is subjected to high-speed stirring, precipitation and disinfection.
5 is a germanium concentration test report included in a germanium ion solution according to an embodiment of the present invention.
FIGS. 6 to 11 are graphs illustrating the fabrication of a germanium ion solution according to an embodiment of the present invention using a fiber fabric coated on a fiber structure.

The method for preparing germanium ionic liquid according to an embodiment of the present invention comprises a germanium powdering step, a microbial spraying step, a microbial culturing step, a germanium solution preparing step, a germanium solution high speed stirring step and a germanium solution disinfection step.

The germanium powdering step powders inorganic germanium. The inorganic germanium powder produced in the germanium powdering step has a particle size of 300 mesh or more.

The microbial spraying step sprays a solution containing microorganisms in the inorganic germanium powder. Here, the microorganism used is a Pantoea ananatis strain or a Nocardia sp. Strain.

As shown in FIGS. 1 and 2, inorganic germanium powder is introduced into an incubator and cultured for 4 to 5 days at a temperature of 30 to 32.degree. C. to grow the microorganism.

Microorganisms can be divided into heterotrophic microorganisms and independent microorganisms depending on the energy source used. Heterotrophic microorganisms use organic matter as energy, and autonomous microorganisms do not use organic matter as energy.

Among the autotrophic microorganisms, there are inorganic nutrient microorganisms that obtain energy from minerals such as sulfur, iron, hydrogen, ammonia, and photosynthetic microorganisms that obtain energy from light and photosynthetic microorganisms do not generate oxygen generating photosynthetic microorganisms and oxygen that generate oxygen There is an anaerobic photosynthetic microorganism.

On the other hand, inorganic germanium exists in nature in combination with oxygen, chlorine, and ammonia.

In the germanium solution preparation step, as shown in FIG. 3, inorganic germanium powder cultured with the microorganism is mixed with water (distilled water) to prepare a germanium solution.

Germanium solution In the high-speed stirring step, the germanium solution is stirred at a high speed of 30000 to 50000 rpm to increase the germanium ion concentration.

During microbial cultivation, microorganisms multiply and grow, and ionized organgan germanium biogerminated into the microbes in vivo is absorbed. And the secretion liquid secreted from the microorganisms during the growth of the microorganisms weakens the binding force of the inorganic germanium which is not absorbed into the microorganism in vivo, and accelerates the ionization of germanium when the germanium solution is stirred at high speed.

The germanium powder remaining after the high-speed agitation of the germanium solution is completely precipitated to separate the precipitated germanium powder from the germanium solution, and the germanium solution is sterilized by sterilization. As a result, a germanium ion liquid is completed as shown in Fig.

The concentration of the germanium ion solution thus produced is preferably maintained at 4000 mg / L (ppm) or less . The higher the concentration of germanium ion solution, the more effect by germanium can be expected. However, when the concentration of germanium ion solution exceeds 4000 mg / L (ppm), strong acidic or strong alkaline substance is naturally neutralized, So that sediments can be generated as they are converted into particulate matter again.

The Pantoeaananatis B1-9 strain selected for carrying out the microbial cultivation step of the present invention (National Institute of Agricultural Science and Technology, National Institute of Agricultural Science and Technology, Accession No .: KACC 19138) is used as a microorganism preparation for crop yield. These pantoeaananatis B1-9 can be isolated from the source of the parasites in the paddy field propagation of Myongnam Myongji by the conventional method of isolating the source bacteria.

Table 1 is a table showing the ion concentration of the germanium ion solution according to Example 1.

Concentration (mg / L) Experimental Example 1 3916 Experimental Example 2 3023 Experimental Example 3 3714 Experimental Example 4 3721 Experimental Example 5 4111

The ion concentration was measured using an ion chromatography analytical instrument.

The nocardia H17 selected to carry out the microbial cultivation step of the present invention can be obtained by selecting, isolating and identifying from the microorganisms collected from oil-contaminated soil. This nocardia genus H17 has been deposited with the BRC (KCTC) as deposit number KCTC 19514.

Table 2 is a table showing the ion concentration of the germanium ion solution according to Example 2.

Concentration (mg / L) Experimental Example 1 3309 Experimental Example 2 4230 Experimental Example 3 2607 Experimental Example 4 3728 Experimental Example 5 3504

The ion concentration was measured using an ion chromatography analytical instrument.

As shown in Table 1 and Table 2, it can be seen that the concentration of germanium in the germanium ion solution prepared by culturing the microorganisms together with the inorganic germanium powder and preparing the germanium solution, the high-speed agitation, the precipitation and the disinfection process is remarkably increased.

FIG. 5 is a test report measuring the concentration of germanium contained in the germanium ion solution prepared according to the embodiment of the present invention with the Korean Chemical Testing Research Institute. As shown in FIG. 5, the concentration of germanium contained in the germanium ion solution prepared according to the embodiment of the present invention was 3480 mg / L.

In contrast, the germanium ion concentration in the germanium aqueous solution does not exceed 10 mg / L (ppm) even when the germanium powder is simply mixed with water and stirred at a high speed. It can be seen that the difference in ion concentration is significantly different from that of the germanium ion solution prepared according to the embodiment of the present invention.

Although the concentration of germanium ions can be chemically increased by using acid and strong alkaline substances, the germanium ion solution of the present invention is coated on a product that is in direct contact with the body. Thus, the process of re-neutralization is required, There is a problem that occurs.

In addition, when chemically temporarily liquefied material is coated on a fabric, the liquid is converted into particles while the liquid is neutralized. Therefore, when a liquefied material is coated on a fabric and dried, The coating of the liquid material by the coating material has a problem in that the effect of the material can not be sustained because of the bonding force.

However, since the present invention does not use a separate chemical method, the present invention can be applied variously to products used in real life without a separate neutralization process.

Meanwhile, the germanium ion-containing fiber fabric according to an embodiment of the present invention may be obtained by powdering inorganic germanium as described above, mixing inorganic germanium in the powder state with water to prepare an inorganic germanium solution, An inorganic germanium ionic liquid prepared by high-speed rotation using an ultra high-speed agitator is coated on a fiber structure.

The germanium ionic liquid according to the embodiment of the present invention can cause the effect of germanium to be generated from the germanium ion-containing fiber fabric for a long time by causing the ionized germanium to closely contact with the fiber structure.

Specifically, germanium is a unique substance having both electrons and positrons at the same time. When such a high concentration of germanium ion solution is coated on the fiber fabric, ionic bond between germanium ion and fiber fabric is strongly generated, Adhesion of germanium component is excellent.

The germanium contained in the fiber fabric can absorb and remove harmful electromagnetic waves and static electricity by providing anions for neutralizing the positive charges generated in connection with the radiation action of the harmful electromagnetic waves, by radiant heat having a wavelength of 5.6 to 15 microns.

In addition, the garment made of germanium-containing fiber fabric is worn on the body to expand the capillary blood smoothly to facilitate the blood circulation, and when it is worn as clothing closely adhered to the skin, the performance of the far-infrared rays can be maximized And the addition of antibacterial performance and the supply of oxygen to the skin can be increased.

The germanium has four electrons in the atomic structure, and is characterized in that ions are easily bonded at human body temperature and actively move between electron currents. These germanium out of the four electrons in the body outside the (-) state is out and the other three (+) state and harmonize with the body.

In addition, since germanium acts as an oxygen catalyst to help the human body to efficiently perform oxygen, the supply of germanium to the human body reduces the oxygen demand of the human body, thereby allowing oxygen to remain in the body, thereby promoting the production of endorphins, . Therefore, fatigue recovery is fast, and can stay healthy mind away from chronic oxygen deficiency.

In addition, regarding the pain relieving action, when pain sensation occurs in a certain part of the human body, enkephalrinase is generated in the brain, and the brain is recognized as it dissolves the pain inhibitor enkephalin. Therefore, most painkillers exhibit transient effects by inhibiting enkephalinase enzyme. If the efficacy of analgesic drug falls, the pain recurs again, causing side effects and poisoning. However, germanium has no immediate effect like painkillers, And has no side effects.

The following is an embodiment of a method for coating a germanium ion solution on a fiber fabric. The coating method described below is one of various embodiments of the present invention, and the present invention is not limited by the following description.

First of all, a fabric sandwiched between transfer rollers made of pairs frictionally driven in opposite directions to each other is passed through a first tank containing a germanium ion solution manufactured according to an embodiment of the present invention, and germanium ions The impregnated liquid is passed through a hot air dryer at a predetermined temperature to dehydrate and dry the moisture.

Then, the dewatered dried fabric is passed through a second tank containing a germanium ion solution, and once the germanium ion solution is coated on the fabric, the fabric is dried by passing it through the hot air dryer again.

The two-step coated and dried fabric is passed through a third tank containing a coating reinforcement material (mixture of water, gypsum powder, acetic acid, etc.), coated on the fabric with a coating film reinforcement material, It is passed through a hot air dryer set to a higher temperature.

When the germanium ion solution is coated on the fiber fabric, the nasal solution mixed with the germanium ion solution and the binder is used in order to increase the adsorption ability with the fiber fabric. At this time, since the germanium ionic liquid prepared according to the embodiment of the present invention has a very strong bonding force with the fiber fabric itself, the proportion of the binder in the coating liquid can be reduced and the proportion of the binder can be reduced, And the gentle touch of the fabric can be maintained even after the coating of the germanium ionic liquid.

Mattresses can be fabricated using the fabric material containing germanium ions prepared by the method according to Examples 1 and 2. [

More specifically, a fiber fabric containing germanium ions fabricated by the method according to the first and second embodiments can be used for all or a part of the fabric surrounding the filler located inside the mattress.

Also, germanium ions can be contained in the filler which is located inside the mattress if necessary.

Pillows can be fabricated using a fabric containing germanium ions fabricated according to the methods of Examples 1 and 2.

More specifically, it is possible to use a fiber cloth containing germanium ions fabricated by the method according to Examples 1 and 2 on all or a part of the fabric surrounding the filler located inside the pillow.

Also, germanium ions can be contained in the filler which is located inside the pillow if necessary.

The blanks can be made using the germanium ion-containing fiber fabric produced by the method according to Examples 1 and 2. [

More specifically, a fiber fabric containing germanium ions fabricated by the method according to the first and second embodiments may be used for all or a part of the fabric used for fabricating the blanket.

Pads can be fabricated using a fabric containing a germanium ion prepared by the method according to Examples 1 and 2. [

The pad can be divided into a product with a filler inside and a product without a filler.

In the case of a product containing a filler, a fabric containing germanium ions manufactured by the method according to Examples 1 and 2 may be used for all or a part of the fabric surrounding the filler.

Further, in the case of a product without the filler, a fabric containing germanium ions manufactured by the method according to Example 1 and Example 2 may be used for all or a part of the pad fabric.

Also, germanium ions can be contained in the filler which is located inside the pad if necessary.

The futon can be fabricated using the germanium ion-containing fiber fabric produced by the method according to Examples 1 and 2.

The quilt can be divided into a product with a filler inside and a product without a filler.

In the case of a product containing a filler, a fabric containing germanium ions manufactured by the method according to Examples 1 and 2 may be used for all or a part of the fabric surrounding the filler.

Further, in the case of a product without a filler, a fabric containing germanium ions manufactured by the method according to Examples 1 and 2 may be used for all or a part of the quilt fabric.

It is also possible to add germanium ions to the filler which is located in the inside of the futon if necessary.

The gauze ion-containing fiber fabric fabricated by the method according to Example 1 and Example 2 can be used to fabricate urine.

More specifically, a fiber fabric containing germanium ions fabricated by the method according to the first and second embodiments may be used for all or a part of the fabrics used in the fabrication.

A sleeping bag can be made using a germanium ion-containing fiber fabric produced by the method according to Examples 1 and 2. [

More specifically, a fiber cloth containing germanium ions fabricated by the method according to the first and second embodiments may be used for all or a part of the fabric surrounding the filler located inside the sleeping bag.

Also, germanium ions can be contained in the filler located inside the sleeping bag as occasion demands.

The underwear can be produced using the germanium ion-containing fiber fabric produced by the method according to the first and second embodiments.

More specifically, a fiber fabric containing germanium ions fabricated by the method according to Examples 1 and 2 may be used for all or a part of fabrics used for underwear production.

It is possible to fabricate the underwear by using the germanium ion-containing fiber fabric produced by the method according to the first and second embodiments.

More specifically, it is possible to use a fiber cloth containing germanium ions fabricated by the method according to Examples 1 and 2 on all or a part of the fabrics used for underwear production.

A sportswear can be manufactured using a fabric material containing germanium ions manufactured by the method according to the first and second embodiments.

More specifically, a fiber fabric containing germanium ions fabricated by the method according to the first and second embodiments can be used for all or a part of the fabrics used in the manufacture of sportswear.

Climbing cloths can be fabricated using germanium ion-containing fiber fabrics fabricated by the method according to Examples 1 and 2. [

More specifically, it is possible to use a fiber cloth containing germanium ions fabricated by the method according to Example 1 and Example 2 on all or a part of the fabric used for the production of the climbing clothes.

It is possible to fabricate a correction undergarment by using a germanium ion-containing fiber fabric produced by the method according to the first and second embodiments.

More specifically, a fiber fabric containing germanium ions fabricated by the method according to the first and second embodiments may be used for all or a part of the fabric used for the manufacture of the undergarment for correction.

The brassiere can be fabricated using the germanium ion-containing fiber fabric produced by the method according to Examples 1 and 2.

More specifically, a fiber fabric containing germanium ions fabricated by the method according to Examples 1 and 2 may be used for all or a part of the fabric used for bra.

Also, a fabric containing germanium ions fabricated by the method according to Examples 1 and 2 may be used for all or a part of the fabric surrounding the inner filler of the bra pad.

The hats can be fabricated using the germanium ion-containing fiber fabric produced by the method according to Examples 1 and 2.

More specifically, it is possible to use a fabric material containing germanium ions fabricated by the method according to Examples 1 and 2 on all or a part of fabrics used for cap production.

The bag can be fabricated using a fabric containing a germanium ion prepared by the method according to Examples 1 and 2.

More specifically, it is possible to use a fiber cloth containing germanium ions fabricated by the method according to Examples 1 and 2 on all or a part of fabrics used for bag making.

Socks can be fabricated using the germanium ion-containing fiber fabric produced by the method according to Examples 1 and 2.

More specifically, it is possible to use a fiber cloth containing germanium ions fabricated by the method according to Examples 1 and 2 on all or a part of the fabric used for producing socks.

Warmers can be fabricated using fiber fabrics containing germanium ions fabricated according to the methods of Examples 1 and 2.

More specifically, a fiber fabric containing germanium ions fabricated by the method according to the first and second embodiments may be used for all or a part of the fabrics used in the production of the warmer.

The germanium ionic liquid manufacturing method and the germanium ion-containing fiber fabric according to the present invention are not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

Claims (34)

Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is partially or wholly wrapped with the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is partially or wholly wrapped with the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is partially or wholly wrapped with the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is partially or wholly wrapped with the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,
Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a portion of the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a portion of the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,
Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a part of the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a part of the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or partially applied to the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a part of the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein the germanium ion-containing fiber fabric is fabricated or applied to a part of the germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a pantoea ananatis strain. A germanium ionic liquid prepared by the method for producing a germanium ionic liquid is surrounded at least in part by a fiber fabric coated with a fibrous tissue. In the present invention,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric. Powdering inorganic germanium;
Spraying a solution containing microorganisms in the inorganic germanium powder;
Introducing the inorganic germanium powder into an incubator and culturing the microorganism for 4 to 5 days at a temperature of 30 to 32 ° C;
Mixing the inorganic germanium powder with water to form a germanium solution;
Stirring the germanium solution at 30000 to 50000 rpm to increase the germanium ion concentration; And
Separating the precipitated germanium powder from the germanium solution by completely precipitating the germanium powder remaining after the high-speed agitation of the germanium solution, and sterilizing the germanium solution by disinfection,
Characterized in that the microorganism is a strain of Nocardia sp., Wherein the germanium ionic liquid prepared by the method for producing germanium ionic liquid is wrapped at least in part on a fiber fabric coated with the fiber tissue. In the included textile fabric,

Wherein said germanium ion-containing fiber fabric is fabricated or partially applied to said germanium ion-containing fiber fabric.

Images