KR20040101978A - The Manufacturing Method of Germanium Culture Soil for Pangih and New Songih Mushroom - Google Patents

Abstract

PURPOSE: A method of making a germanium culture medium for cultivation of Pleurotus eryngii and Flammulina velutipes using fine powder of oxidized germanium or germanium tetrachloride is provided. The culture medium enables the mushroom to contain germanium components beneficial to human health when used during the cultivation of mushrooms. CONSTITUTION: To manufacture the medium, 1mg mixed fine powder of oxidized germanium or germanium tetrachloride is mixed with 1kg Pleurotus eryngii or Flammulina velutipes and 1mg alkaline ionized water and heated at about 100deg.C for 1hr or more, followed by quenching. The culture medium produced is inserted into the vessel or bottle for cultivating Pleurotus eryngii and Flammulina velutipes, inoculated with mushroom stains and then cultured.

Description

The Manufacturing Method of Germanium Culture Soil for Pangih and New Songih Mushroom}

1) The present invention relates to a method for producing a medium using germanium powder for cultivation of mushrooms and mushrooms. More specifically, the germanium mineral is a rare mineral which is a compound in copper and zinc mines such as South-South Africa (Namibia) or Zaire. Germanium dioxide (Geo ₂ ) or germanium tetrachloride (GecI ₄ ) produced in the process of mining trace amounts of germanium ore and smelting them industrially is used to dissolve these micropowders or micropowder mixtures at a low temperature. 1mg / kg or more per 1kg of various media such as oyster mushroom and Pleurotus eryngii used by each supplier or spray fine powder mixture 1cc / kg or more per 1kg of medium and evenly mix alkaline ionized water 1cc / per 1kg of the medium Spray it over kg to mix the alkaline ionized water evenly into the medium. When the medium is put in a steam kiln and heated at a temperature of about 100 ° C. for at least 1 hour, the germanium dioxide fine powder or germanium tetrachloride fine powder or germanium fine powder mixed solution is about 100 ° C. The heat of dissolution causes the heat of dissolution due to the thermal decomposition of germanium, resulting in the heat of dissolution, which leads to the melting point, which leads to the melting point of the germanium dioxide micropowder or the germanium tetrachloride micropowder. Becomes more active. For example, in the case of solids such as germanium oxide fine powders, atoms in the solids are subjected to some limited oscillation, which increases as the temperature of the object rises due to heating. The atomic vibration movement in an object becomes more active. Such vibrational motion of an atom is limited by the binding force between the atoms of the atom and adjacent atoms, so that even when heated, the vibrational motion reaches a state of motion that cannot be worsened. This is called "melting point".

It can be understood that the "melting point" varies from material to material, as the vibration of the atom depends on the mass of the atom and the bonding force between the atoms. Continued heating of the object at the "melting point" will cause the vibrational motion to become more active, causing the heat to trigger another motion, for example the rotational motion of the molecule. In order to do this, a certain amount of heat is required. If the given amount is not reached, the temperature will no longer rise because the new molecular motion cannot occur. Once the new motion begins to occur with the oscillation of the atom, the heat that melts until the object melts and becomes liquid at a constant temperature is called the heat of dissolution.

Another action other than the heat of dissolution is hexagonal ring structure water.

Germanium atoms in the medium ionize the water molecules acidic in the medium. By ionizing water molecules, it functions to reduce acidic acid to weak alkaline water. When two hydrogen atoms chemically combine with one oxygen atom, they generate water molecules (H ₂ o) that can be seen. The original water produced by the combination of hydrogen and oxygen is born as alkaline water, which gradually leans into acidic water due to external factors, and the air is decayed to the natural environment and to humans. It turns into a hazardous substance.

When the harmful acidic water comes into contact with the germanium atom, it decomposes into hydrogen ions (H ⁺ ) and hydroxyl ions (oH ⁻ ) by the action of free electrons in the germanium atom. In addition, the hydrogen ions (H ⁺ ) are attracted and converted into hydrogen gas (H ₂ ) to release the hydrogen gas itself. Meanwhile, it decomposes into hydroxyl ions (OH-). In addition, the hydrogen ions (H +) are attracted to the hydrogen gas (H ₂ ) is changed to release the hydrogen gas itself. On the other hand, hydroxyl ions (OH +) combine with water molecules (H ₂ o) to produce a substance called hydroxyl ions (H ₃ O _2- ), which is a weak alkaline water and a hexagonal structure with a high abundance of hexagonal structure water. It is

2) In order for each mushroom, such as the enoki mushroom and the Pleurotus eryngii, to absorb the germanium aqueous solution in which the germanium micropowder is partially dissolved, the mineral or ground water used in the prior art should be reduced to alkaline ionized water. Manufacturing method

Alkaline ionized water prepared by passing through an alkaline ionized water filtration tank

Code ① Synthetic Germanium Ball (Application No. 10-2004-0001335) Layer, Code ② Mineral or ground water, Code ③ Mineral or ground water inflow pipe, Code ④ Filter tank tank, Code ⑤ Filter tank lid, Code ⑥ Alkaline ionized water feed pipe Each filtration tank consists of natural thorium oxide (ThO ₂ ) and natural trace uranium (U ₃ O) possessed by synthetic germanium when mineral or ground water is passed through (filtration) of the synthetic germanium ball layer. ₃ ) Water molecules are electrodissociated or electrolyzed during the filtration process by radiation emitted from the radiation.

Its action is also called ionization and ionization.

In more detail, when the a, ß, and -rays, which are ionizing radiations of thorium and uranium, touch the water molecules, the water molecules are instantly ionized to hydrogen ions (H +) and hydroxyl ions (OH-). .

Hydrogen ions are attracted to the electrons of germanium and released as hydrogen gas. On the other hand, hydroxyl ions (OH-) combine with water molecules to produce substances with hydroxyl ions (H ₃ O _2- ).

This is the alkaline ionized water produced in this invention. The fact that the structure of hexagonal ring water is higher than that of other water in each structure of alkaline ionized water produced by ionizing water molecules with germanium at room temperature It has been identified by many scholars around the world, and it is the result of the study by Dr. Mu-Shik Koh (former professor of the Korea Advanced Institute of Science and Technology, Director of Molecular Science Research Center).

Hexagonal structured water has a high osmotic ability, and due to this tension, it penetrates into the tissue of each material structure of the mushroom and mushroom mushroom media, and the Decomposing the structure of each material, germanium dioxide or germanium tetrachloride is partially dissolved at low temperature, which activates the heat of dissolution of germanium at a high temperature of 100 ° C. In addition, the germanium medium is rapidly quenched out of the steam kiln in such a high temperature process. As the germanium medium is quenched, all the constituents of the germanium medium are expanded and the volume ratio thereof is increased. In this widened and enlarged volume ratio space, each species such as enoki mushrooms makes wide use of the active space, enabling more substantial mushroom cultivation.

In the present invention, a germanium medium capable of cultivating organic germanium in enoki mushrooms and Pleurotus eryngii using alkaline ionized water and germanium dioxide was not found in the conventional cultivation method. It is to develop a method of manufacturing germanium medium (培 地) that can be embedded.

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1 is a cross-sectional view of an alkaline ionized water filtration tank.

2 is a plan view of an alkaline ionized water filtration tank.

<Description of the code | symbol about the important part of drawing>

1 is a synthetic germanium ball (application number 10-2004-0001335).

Symbol ② Mineral or groundwater.

Code ③ It is mineral or groundwater inflow pipe.

Code ④ It is a filter tank tank.

Code ⑤ It is a filter tank lid.

Code ⑥ Alkaline ionized water feed pipe.

⑦ Tank base is bottom layer.

⑧ It is a water intake motor.

The present invention relates to a method for producing germanium medium for cultivating mushrooms such as mushrooms and mushrooms,

1) First. Germanium dioxide (GeO ₂ ) fine powder or tetrachloride per 1 kg of cultivation medium, such as oyster mushroom and matsutake mushroom Germanium (GeCl ₄ ) fine powder or a germanium aqueous solution mixed with these fine powders of germanium is mixed or sprayed with 1 mg / kg or more.

second. First, the treated medium is placed in a medium mixer and mixed for at least 1 hour, and then alkaline ionized water is sprayed at a rate of 1 mg / kg or more per 1 kg of medium, and then mixed in the medium mixer for at least 1 hour.

third. First, the second treated medium is put in a steam kiln and heated to about 100 degrees Celsius or more for 1 hour and then quenched.

fourth. Third, process the quenched medium in the top mushroom cultivation container or the new mushroom cultivation container, and put each mushroom spawn in the previous cultivation method.

2) The technical structure of the alkaline ionized water filtration tank will be described with reference to FIG. 1 below.

1 is a cross-sectional view of an alkaline ionized water filtration tank.

Reference numeral ① denotes a compound germanium ball (application number 10-2004-0001335). Its ball contains natural thorium oxide (ThO ₂ ) light and natural trace uranium (U ₃ O ₃ ) light, or "tantarniob", which the rare element mineral "monazite" light has as its compound. "The natural thorium oxide ores of natural minerals, or the minerals of natural traces of urethane, or minerals such as torium or earth-stones, which have a melting point of 1.840 deg. As a metal, it is a kind of radioactive element. When a neutron and thorium 232 come into contact with each other in a nuclear reactor, nuclear rupture leads to 233 uranium. It is an important mineral as an atomic fuel for proliferation furnace. However, using his natural radiation of natural thorium or natural uranium, it was developed for nuclear hospitals or agriculture today, and its use has already been developed in developed countries such as the United States.

It should be noted that radiation emitted from substances such as thorium used at high temperatures in a nuclear reactor is a dangerous substance that can cause damage to human life when radiation above a prescribed value is applied. According to Article 612 of the Act on the Regulation of Nuclear Fuel Materials, Nuclear Materials and Reactors, and Article 19) of the Enforcement Decree of the Act, more than 370 Bq / g of natural radiation is subject to reporting and the following are excluded from reporting. In Korea, there are no regulations yet. The numerical values shown in the first and second natural radiation test reports of the raw materials used in the present invention indicate safety as natural radiation ① 7Bq / g and ②6 ~ 33.4Bq / g as shown in the attached reference.

Alkaline ionized water filtration tank code of the present invention ① Synthetic germanium ball is a ball made by mixing natural thorium ore fine powder and germanium ore fine powder with an appropriate amount of clay to be molded into spherical standards and firing.

Symbol ② is mineral or ground water.

When contaminated mineral water or contaminated ground water passes through the synthetic germanium ball layer of the alkaline ionized water filtration tank, the water molecules are ionized by the ionizing action of the radiation emitted from the synthetic germanium balls as they pass, and are reduced to alkaline ionized water. Then, the reduced alkaline ionized water continues the action of increasing the abundance of the hexagonal ring structure by ionizing the water molecule of germanium.

Symbol ③ is mineral or groundwater inflow pipe.

Contaminated mineral water or groundwater flows into the filter tank of the sign ④ through the inlet pipe.

Mineral water or groundwater that flowed into the tank is passed through the synthetic germanium ball layer of symbol ① and used as an alkaline water supply pipe of symbol ⑥ to feed mushrooms and other mushrooms.

In a word, germanium is an "eating oxygen".

Germanium replenishes the depleted oxygen and enhances natural healing. If we take this germanium into enoki mushrooms and prickly pear mushrooms and take it continuously as a tidal, it will act to prevent the adult disease of our human beings living in the age of pollution.

In other words, the acidic lean constitution due to contamination is reduced to weak alkaline constitution, thereby helping to clear blood and body fluids. In some instances, germanium protects cells by continually supplying oxygen before cells are attacked and damaged in our bodies, leading to modern adult diseases such as cancer, diabetes, and high blood pressure. In addition, when heavy metals such as lead, mercury, cadmium, platinum, and thorium, which are foreign substances, come into contact with the 32 electrons constituting the germanium element, one of the four free electrons in the outer orbit will pop out. Combining with the electrons of the foreign body and me pulled to the protruding vacancy to change to other electrons to decompose and oxidize carcinogens. In addition, germanium strongly radiates electrons, which are the light of life, plays an important role in producing interferon that acts as an anticancer in the human body, and enhances NK cells and phagocytic cells that destroy cancer cells.

In addition, germanium is excreted by combining the wastewater of the human body with hydrogen (水 素), and promotes metabolism by supplying oxygen in the body smoothly by the powerful oxygen supply by itself. There is an innumerable amount of papers showing examples of the beneficial effects of germanium on human tissues.

The new functional foods containing germanium atoms that can make even dying people survive, such as germanium enoki mushrooms and prickly oyster mushrooms, are cooked with corrosion and consumed continuously for a lifetime, which greatly contributes to the prevention of human adult diseases. It is expected to grow germanium enoki mushrooms and prickly oyster mushrooms and distribute them to domestic markets and to overseas markets such as Japan and China.

Claims (3)

1 mg / kg or more of germanium oxide micropowder or germanium tetrachloride micropowder per 1 kg of a mushroom or mushroom fungus medium, which is used in the past, and then alkaline ionized water is blended in an amount of 1 mg / kg or more. Method of producing germanium medium similar to the enoki mushroom or Pleurotus eryngii prepared by heating at a temperature of about 1 hour or more and then quenching the same. The method according to claim 1, wherein 1 mg / kg or more of the germanium oxide fine powder mixture or the germanium tetrachloride fine powder mixture is mixed per 1 kg of the mushroom or Pleurotus eryngii medium, followed by mixing 1 mg / kg or more of alkaline ionized water, which is a steam kiln. Into a germanium medium for enoki mushrooms or matsutake mushrooms, which is prepared by heating it to a temperature of about 100 ° C. for at least 1 hour and then quenching the same, and a method for producing germanium medium similar thereto Put more than 1 liter of mineral water or ground water in various water tanks and settle more than 1kg of synthetic germanium balls (Application No. 10-2004-0001335) according to the capacity of the water tank, and the water in the water tank is filtered under the synthetic germanium ball layer. Method of producing a synthetic germanium ball filtration tank, characterized in that the production through the pipe out of the tank and similar method of manufacturing a synthetic germanium ball filtration tank