KR20140087964A - Releasing hydrogen teabag - Google Patents

Abstract

As a method for neutralizing active oxygen generated inside a human body, hydrogen water for drinking is provided. Recently, the hydrogen water is being highlighted as the most effective antioxidant, and various apparatuses for manufacturing the hydrogen water are gaining popularity. A traditional apparatus for manufacturing the hydrogen water which is based on an electrolysis method is used, but has an expensive price. However, a hydrogen storage alloy formed into a teabag according to the present invention is very cheap, and can be easily used.

Description

A teabag that releases hydrogen {Releasing hydrogen teabag}

The present invention relates to a tea bag capable of releasing hydrogen to produce hydrogen water.

It is known that the body accelerates aging by oxidation of active oxygen.

Some harmful active oxygen is neutralized by antioxidants, and hydrogen is most effective in neutralizing active oxygen.

Title: Electrolysis electrode substrate, electrolysis electrode and method for manufacturing the same

Application number: 10-1992-0022554

Title: Electrolysis Apparatus, Application No. 10-1996-0701126

The problem to be solved by the present invention is to provide a method for drinking coffee, tea, or water when eating or drinking at home, It is eating hydrogen water.

The present invention solves the above problems by providing a material having a function of releasing hydrogen upon contact with water, that is, hydrogen storage alloy powder, magnesium powder, polyphenol powder reduced with hydrogen, silica gel filled with hydrogen, , And when it is commercialized as a teabag that releases hydrogen, when the user wishes to drink hydrogen water, the teabag which releases the hydrogen is put into a cup filled with water and reacted with water to release hydrogen. The hydrogen is gradually diffused in the tea bag, When water turns into hydrogen, it sucks hydrogen.

As described above, in the present invention, a teabag which is made by making hydrogen water is convenient when it is desired to drink hydrogen water and can be made by the same method as a conventional coffee or tea drinking method. Therefore, Since it can be removed easily, it can make a big contribution to health promotion.

The construction and the embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

The present invention relates to a method for producing a product by packing a substance having a function capable of releasing hydrogen when it is contacted with water into a product by packaging it in a teabag, To cause hydrogen to dissolve in water and to drink hydrogen water,

 There are many kinds of substances that react with water to generate hydrogen in a tea bag that releases hydrogen.

In the present invention, a hydrogen storage alloy will be described first in many teabag contents for releasing hydrogen from a tea bag that releases hydrogen.

Hydrogen storage alloy is a metal that can store hydrogen. It is a metal alloy developed to make a fuel cell that can store a lot of hydrogen used for hydrogen fuel cell safely. It is an alloy of iron-titanium, iron-manganese, magnesium- Lt; / RTI >

In particular, hydrogen storage alloys made from 5% nickel and magnesium alloys are very capable of storing 80 liters of hydrogen at just 100g.

Although the present invention can use all the hydrogen storage alloys, it is appropriate to use a hydrogen storage alloy made of a magnesium-nickel alloy that is safe and does not rust because it is used in water for human consumption.

The hydrogen storage alloy powder is used. The size of the powder is preferably 1000 탆 or less, and the best size of 200 탆 can release hydrogen without falling into the minute pores of the tea bag.

Hydrogen storage alloy The finer the size of the powder, the larger the surface area is, the more advantageous it is for the hydrogen charging and the advantage of the hydrogen release. However, if you fall into the fine pore of the tea bag, you will not be able to drink water mixed with the drinking water.

The tea bag filter paper is a natural pulp material having a small pore on its surface, so that the water and the hydrogen can flow through the pores. However, the content of the hydrogen release should be smaller than the pore, It is strong in liver and does not loosen well when put into water.

It is noted that the teabag filter paper can be made of microporous paper resistant to boiling water, polyamide (nylon) material and the like.

A hydrogen storage alloy powder filled with hydrogen can be packed in a teabag filter paper using a teabag packing machine to make a teabag that releases hydrogen.

To fill the hydrogen storage alloy with hydrogen, the hydrogen storage alloy powder is placed in a high-pressure vessel, and hydrogen is pressurized to pressurize the high-pressure hydrogen.

When the tea bag that releases the hydrogen containing hydrogen storage alloy powder is put into the water of the cup containing the hot water, the hot water pushes the hydrogen storage alloy powder into the tea bag, the hydrogen is pushed out of the hydrogen storage alloy to be discharged to the outside, And hydrogen is produced.

Hereinafter, magnesium in the teabag content that releases hydrogen from the tea bag that discharges hydrogen will be described in the present invention.

When magnesium is put into water, it reacts with oxygen in the water, and the surface of magnesium is oxidized to become magnesium hydroxide, and hydrogen is generated at that time.

Magnesium is harmless to the human body and is lighter than aluminum and is widely used in industrialization.

Magnesium powder having a size of about 1000 mu m can be packed in a tea bag filter paper to be used as a tea bag for releasing hydrogen.

The magnesium may have a purity of 99% or more, or may be an alloy of magnesium, zinc, nickel or the like, or may be magnesium hydroxide.

Magnesium can be used in a tea bag which releases hydrogen of the present invention which generates a small amount of hydrogen although it can charge a certain amount of hydrogen by a hydrogen filling process like a hydrogen storage alloy, Magnesium powder can be used as a content to fill hydrogen with hydrogen filling process and release hydrogen of tea bag.

Hydrogen storage alloy and magnesium powder having a size of about 200 μm to about 1000 μm can be made into a tea bag which is packaged as contents in a conventionally used tea bag filter paper to release hydrogen,

The hydrogen storage alloy and magnesium powder may be wrapped in a fine filter sheet at a size of about 200 μm or less and then stored in a tea bag. The filter sheet may have a pore size of about 200 μm or less.

The material of the filter sheet may be a hollow fiber polysulfone of a synthetic polymer material of polysulfone used for a hollow fiber membrane filter of a water purifier, and the pores may have innumerable fine pores borne by a method called transdifferential method .

When the tea bag that releases the hydrogen containing magnesium powder is put into the water of the cup containing the water, the water reacts with the magnesium powder in the tea bag, and the outside of the magnesium powder reacts with oxygen in the water to release hydrogen, Is made.

In the process of releasing the hydrogen, the hydrophobic gas can not easily escape from the teabag pouch, so that the teabag floats in buoyancy.

In order to prevent the tea bag from climbing again, it is revealed that the tea bags can be packed with heavy pieces of stone, ceramics and metal in addition to magnesium.

Hereinafter, the silica gel in the teabag content for releasing hydrogen from the tea bag that discharges hydrogen will be described in the present invention.

Another means of storing hydrogen that can be used for teabags is silica gel, which is used in daily life.

The silica gel is silicic acid with partial dehydration of silicic acid and is a colorless or semitransparent fine powder or small granule and its size can be adjusted by the production, is not soluble in water, is not harmful, is chemically stable, It is harmless.

The silica gel is now used as a dehydrating desiccant, adsorbent, and the like.

Silica gel, which was already known in 1640, found its usefulness by using the adsorption properties during the First World War on the gas mask.

Generally, silica gel is synthesized according to the following procedure. Acidification of a silicate solution, such as water glass, results in silicate formation which results in a hard lump or a viscous precipitate, which is then rinsed with water to remove water soluble material.

Finally, when heated and dried, a glassy, granular solid remains. The silica gel can be used as a dry agent having a high activity by leaving it in a state of bonding with a small amount of water without completely dehydrating it.

The actual silica gel density is 2.2 g / ml, but the silica gel is a porous material and has a low bulk density. Generally, commercialized forms have a bulk density of 0.7 g / ㎖ and a surface area of about 750 m 2 / g, which makes it possible to store hydrogen easily in pores in high-pressure vessels.

The porous, amorphous form of the silica gel stores hydrogen and immerses it in water. As a result, water is pushed into the pores and hydrogen is pushed out to release hydrogen. Can be used as content.

The silica gel is used as a desiccant packed in the same manner as a teabag and packaging in a living environment, and is packaged and sold in a product which should suppress moisture.

The silica gel currently used does not contain hydrogen, and is used for securing pores, and a dehumidifying agent capable of absorbing moisture through the pores is used.

In the present invention, silica gel having a large number of pores is placed in a high-pressure vessel because of the special characteristic of silica gel releasing hydrogen, and hydrogen gas is compressed to a high pressure in a high-pressure vessel to absorb hydrogen in the pores of the silica gel, , Chocolate, dissolved jelly, etc., and coating the outer surface of the silica gel to block the hydrogen release to cover the pores, and wrapping the pores in a filter paper to form a tea bag that releases the hydrogen of the present invention.

Examples of the coating material include sugar, starch, starch, vitamins, chocolate, and the like, which can be eaten by humans, and can be coated with a capsule material.

The capsule material is made of a material called gelatin, and gelatin is a kind of protein extracted by dissolving collagen, which is a natural protein constituting animal skin, tendon and cartilage, with hot water.

When using a silica gel teabag that absorbs hydrogen, the sealing means is opened and the silica gel teabag is put in the cup. When the water is poured into the cup, the coating agent of the silica gel shell dissolves in the water. As the water is absorbed into the pores, It is eluted into water and hydrogen is produced.

Silica (SiO2) and natural zeolite can be used in the same manner as silica gel. Silica is not crushed in water, and is an opaque, hard white spherical crystal. It is used for adsorption of moisture of compressed gas or air, Catalysts, etc., and natural zeolite is a kind of clay minerals mainly composed of silicic acid and alumina, and is used as an environmentally friendly moisture-proofing agent of natural materials which does not contain artificial chemicals at all.

Hereinafter, calcium in the teabag content that releases hydrogen from the tea bag that releases hydrogen is described in the present invention.

Calcium is an alkaline earth metal element belonging to group 2 of the periodic table, the most abundant metal element in the human body, and the fifth most abundant element in the crust.

Calcium is composed of a mixture of six isotopes: calcium-40 (40Ca, 97%), 44Ca (2.1%), 42Ca (0.64%) and lower rates of 48Ca, 43Ca and 46Ca.

Metal calcium slowly reacts with oxygen, water vapor and nitrogen in the air to form a yellow protective film of oxides, hydroxides, and nitrogen oxides on the surface of the metal. When it burns in air or pure oxygen, it becomes an oxide. It reacts quickly with hot water and slower with cold water. While generating hydrogen.

That is, it is used as the content of releasing the hydrogen of the tea bag by utilizing the property of reacting rapidly in hot water to release hydrogen.

Metal calcium and powder can be packed in a tea bag filter paper and made into a tea bag.

Hereinafter, the nanofiber will be described as a teabag content in which hydrogen is released from a tea bag that releases hydrogen.

There are nanofibers that have different functions from conventional fiber materials by combining nanotechnology with fibers used in daily life.

If the width of the fiber is reduced to 10 nm to 1000 nm nanometer, it can be naturally controlled to 10 nm to 1000 nm nanometer to the air hole between the fibers. The characteristic is that the inner air permeability is effectively prevented without passing moisture, fine particles and bacteria It is a nano material of dream that can be maintained.

 Currently, medical devices and filters are used in limited applications.

Nanofibers are made by electrospinning. When a high-voltage electric field is applied to a polymer material, which is a raw material of nanofibers, an electric repulsive force is generated inside the material, and molecules are separated into nano-sized particles. The threads are torn apart and intertwined to form a nonwoven fabric-like nanofiber.

The nanofibers are characterized by an enormous surface area relative to their volume, and include numerous pores, which allow hydrogen to be filled with hydrogen from a high pressure vessel into high pressure hydrogen.

The nanofibers can be made into a size that can be packaged in a teabag, and the shape of the nanofibers can be varied, and any shape that can be contained in a teabag does not matter.

The nanofibers are first packed in a teabag, and high-pressure hydrogen is charged in a high-pressure vessel.

The tea bags containing hydrogen-filled nanofibers are repackaged by means of sealing bags.

Hereinafter, the metal organic framework (MOF) in the teabag content for releasing hydrogen from the teabags that emit hydrogen will be described in the present invention.

 There are nanoporous materials such as metal organic framework (MOF), and the single skeletal MOF is heated at 300 degrees Celsius to form a double skeleton structure in which two single skeletons are intertwined with each other. Feature.

The bonding structure of metal ions and solvent molecules changes according to the heating temperature and the supply control of the solvent, so that various structures are formed. Each structure has unique gas adsorption characteristics. MOF is characterized by the ability to produce a wide variety of gas storage materials.

 The metal organic framework (MOF) relates to an alkaline earth metal-organic skeleton structure compound having excellent thermal stability, wherein the alkaline earth metal-organic skeleton structure compound has a three-dimensional structure composed of a diamond type alkaline earth metal cyclic channel and a pyridine dicarboxylic acid organic linker And their thermal stability is excellent through their symmetrical and closed skeletal structure.

Hydrogen is charged into the metal organic framework (MOF) powder in a high-pressure vessel and packed in a teabag filter paper to form a teabag that releases hydrogen and is then repackaged as a sealing bag.

The present invention provides a method of producing a hydrogen-releasing tea bag comprising the steps of: preparing a hydrogen-releasing tea bag comprising hydrogen storage alloy powder, magnesium powder, magnesium alloy powder, silica gel powder, silica (SiO2) powder, natural zeolite powder, metal calcium powder, (MOF) powder and the like are referred to as "hydrogen-releasing contents" of a tea bag that emits hydrogen for ease of explanation and are used in the description.

In the following description, the contents of the hydrogen discharge are the hydrogen storage alloy powder, magnesium powder, magnesium alloy powder, silica gel powder, silica (SiO 2) powder, natural zeolite powder, metal calcium powder, nanofiber, metal organic framework (MOF) One of them means the material of the hydrogen release contents.

The tea bag for releasing hydrogen according to the present invention can be made by packing the tea bag into any one of the hydrogen release contents for releasing the hydrogen in the hydrogen-

Describe the method of packaging such as conventional tea, such as coffee, green tea, black tea, and ginseng tea.

There are too many types of tea to drink such as coffee, green tea, black tea, maté tea, semi tea, heavy tea, mecha cookie tea, brown rice tea, kona tea, carriage, It is difficult to enumerate and explain. In the following description, the term " tea contents "is used to describe and describe tea powder.

It is possible to make a teabag that emits hydrogen-containing hydrogen by packing the content of the hydrogen-releasing substance and the tea contents together in one teabag filter paper. However, the operation of packing the two different kinds of contents in one teabag filter paper at the correct ratio Since it is not easy to work in the universal tea bag packing machine and the manufacturing cost can be added because it is made in a specially manufactured tea bag packing machine,

In two of the tea bag filter papers, the hydrogen release contents are packed in one bag of tea bags, and the other one of the tea bag packers is packed in the powder of the tea contents to form tea tea bags, and the two packaged hydrogen- It is connected with one handle strap and repacked with a sealing bag means to make a tea bag which releases hydrogen with car component.

In the tea bag that emits hydrogen with the tea ingredient as described above, all kinds of conventional tea drinkers drink tea bags.

The sealing sealing means may be a synthetic resin including vinyl, and may be used by being deposited on the inside of the sealing sealing means.

When sealed by the sealing sealing means, it is possible to block the contact with the air or to block oxygen from the air by means of nitrogen filled packing by vacuum packing.

When putting a teabag that releases hydrogen into a cup filled with water, hydrogen is generated from the magnesium and is trapped in the teabag wrapping paper, so that the teabag becomes buoyant and floats in the water.

When the tea bag is opened, the hydrogen can not be released into the water and can be blown into the air, so that the tea bag can not float to prevent it from flying into the air.

In order to prevent the tea bag from rising, it is necessary to wrap the contents of the tea bags with harmless stones and metals.

Claims (13)

A teabag that emits hydrogen by packaging a hydrogen storage alloy powder filled with hydrogen in a teabag filter paper. A tea bag that emits hydrogen by forming a tea bag that emits hydrogen by packing magnesium powder and magnesium alloy powder into the tea bag filter paper. A tea bag that emits hydrogen by forming a tea bag that is packed with silica gel powder, silica powder, and natural zeolite powder coated with a coating agent that is filled with hydrogen and has no harm to human body and dissolved in water. A tea bag that releases hydrogen by forming a tea bag that emits hydrogen by packing metallic calcium and coral calcium powder into the tea bag filter paper. A tea bag that emits hydrogen by packaging a metal backbone (MOF) powder filled with hydrogen in a teabag filter paper and forming a teabag that releases hydrogen. A teabag that emits hydrogen by packing nanofiber, which is filled with hydrogen in a teabag filter paper and coated with a coating that is harmless to the human body and dissolved in water. The method according to any one of claims 1 to 5, wherein the content of the hydrogen emission is at least one selected from the group consisting of hydrogen storage alloy powder, magnesium powder, magnesium alloy powder, silica gel powder, silica powder, natural zeolite powder, metal calcium, coral calcium powder, ) ≪ / RTI > a tea bag that releases hydrogen as if the powder were about 10 microns to about 5000 microns in size. 7. The method according to claim 6, wherein a high voltage electric field is applied to the polymer material, which is a raw material of the nanofibers produced by the electrospinning method, and an electric repulsive force is generated inside the raw material to separate the molecules into nanoscale. At this time, In nonwoven fabric-type nanofibers piled together,
Nanofibers are a tea bag that releases hydrogen with a fiber width and pore of 10 nm to 1000 nm. The coating agent according to any one of claims 3 and 6 is a kind of protein extracted by dissolving collagen, which is a natural protein that constitutes animal sugar, starch, starch, vitamins, chocolate and animal skin, tendon and cartilage, A tea bag that releases hydrogen as if it were one kind of coating of gelatin. A teabag that emits hydrogen by packing the contents of hydrogen emitter and tea contents together in a single tea bag filter paper. A teabag that emits hydrogen by packing the contents of the hydrogen release into one of the two teabag filter papers and the contents of the tea into the other one of the teabag filters and bundling them together with one handbag. 11. The method according to claim 10, wherein the tea content is selected from the group consisting of coffee, green tea, black tea, maté tea, semi-car, heavy tea, mucha cookie tea, brown rice tea, kona tea, carriage, A teabag that emits hydrogen as if it were a powder of all kinds of tea made by a man, including a yulmu tea. In a tea bag that releases hydrogen, a separate stone kind of granule is used to prevent flooding caused by cold hydrogen gas in the tea bag. A teabag that releases hydrogen by putting one kind of metal type of grains into a package.