KR20230045475A - Food heating device containing organic germanium in food - Google Patents

Abstract

The present invention relates to a food heating device containing organic germanium in food. The food heating device containing organic germanium in food consists of a first step of electrolyzing a raw material of pozzolan (S10); a second step of manufacturing inorganic germanium obtained through electrolysis into organic germanium by using microorganisms (S20); a third step of mixing the manufactured organic germanium with water at a constant ratio (S30); a fourth step of coating an upper surface of the food heating device with a mix of more than 50 mm (S40); a fifth step of insulating a surface of the coated upper part by coating the same with an insulating material (S50); a sixth step of coating the surface of the insulated upper part and finishing the same (S60); and a seventh step of manufacturing the finished surface with a dried method (S70). Accordingly, the food heating device according to the present invention allows the food to contain the organic germanium.

Description

Food heating device containing organic germanium in food}

The present invention relates to a food heating apparatus in which organic germanium is contained in food, and more particularly, to a food heating apparatus in which organic germanium made of pozzolan is contained in food.

Germanium is one of the elements of the carbon group belonging to group 4B of the periodic table.

It has been found that the germanium component prevents blood vessel wall damage by preventing acidification of blood and suppressing the production of lipid peroxide in the human body, removes impurities in blood vessels through stable lipid metabolism, and is thus useful for regulating blood pressure. In addition, the fact that germanium is an excellent interferon derivative has been revealed in various papers, and the possibility of its application as an anti-cancer drug has also been raised. In addition, germanium attenuates and alleviates the symptoms of viral chronic fatigue syndrome (Chronic Epstein-Barr Virus Syndrome). (Use of Organic Germanium in Chronic Epstein-Barr Virus Syndrome,' Journal of Orthomolecular Medicine, 1989)

Meanwhile, germanium is classified into organic germanium (Ge-132, (GeCH2CH2COOH)2O3) and inorganic germanium (GeO/GeO2).

Inorganic germanium is partly contained in natural minerals or fossils and is a kind of mineral as a mineral substance contained in a small amount in general soil. These inorganic germaniums are highly toxic to the human body and can be particularly fatal to the liver and kidneys. In order for inorganic germanium to be absorbed into the human body and become a beneficial component, it must be organic germanium, which is a form of bonding with organic compounds.

The efficacy of organic germanium, which is very beneficial to the human body, is as follows.

Organic germanium enters the body and generates pure oxygen, providing it to cells, increasing endorphins and activating T-lymphocytes. In addition, it plays a role in activating cells, combining nutrients, and promoting supply. Between 24 and 48 hours, it is completely combined with impurities of inorganic substances or heavy metals latent in the body to be excreted in urine and cleans all organs of the human body. .

Professor Akiba of Tokyo University said that eating or injecting organic germanium enhances natural healing power and induces interferon that suppresses viruses to remove cancer cells within 48 to 72 hours, so it has excellent therapeutic effects on early cancer. It has been reported that oxygen is supplied to decompose and oxidize heavy metals, toxic and contaminants, and then discharge them out of the body together with waste products.

In addition, according to the research institute of Tohoku Medical University in Japan, it was announced that organic germanium activates macro fuzz (cancer cells) in the living body to attack and kill cancer cells (Japanese NHK TV broadcasting company).

Interferon, developed by modern medicine as a cancer treatment, is also a drug that only maintains the status quo or extends lifespan by not regenerating cells and preventing them from getting worse. Although it is the best for cancer treatment, it activates dead cells Since organic germanium, which has been shown to be effective, has been released, the medical world has been immersed in research with extraordinary interest in this organic germanium.

Organic germanium is produced through fermentation by microorganisms or yeasts or is contained in various types of plants. Therefore, the present invention seeks to produce organic germanium by microorganisms.

Pozzolan, called Ge-lite, is a weathered product of volcanic ash and volcanic rock, containing a lot of soluble silicic acid, and has no hydraulic properties by itself, but has the property of easily combining with lime and hardening in the presence of water. collectively say In addition, it contains about 2.0 ppm of germanium and contains a large amount of far-infrared rays and negative ions. Representative examples include volcanic ash, silicate clay, and silicate.

The present applicant holds a patent for Korean Registered Patent Publication No. 10-2017-0059855 (direct fire type coffee roasting device). So, it was determined that pozzolan could be applied to a roaster device and used in a food heating device in this way, and the present invention was completed.

It is believed that the present invention can be applied to a furnace such as the Korean Patent Registration Publication No. 10-2016-0116904 (mini oven) and used for a food heating device in this way.

Korean Registered Patent Publication No. 10-2017-0059855 "Direct Fired Coffee Roasting Apparatus Roasting in a Low Temperature Method" (Application Date: May 15, 2017) Korean Patent Publication No. 10-2014-0085282 “Germanium Powder Composition and Manufacturing Method” (Application Date: July 8, 2014) Korean Registered Patent Publication No. 10-2016-0116904 "Mini Oven" (Application Date: September 11, 2016)

An object of the present invention is to provide a food heating device in which organic germanium is contained in food.

Food heating apparatus containing organic germanium in food according to the present invention for solving the above problems includes a first step (S10) of electrolyzing the pozzolanic raw material; A second step (S20) of preparing inorganic germanium obtained by electrolysis into organic germanium using microorganisms; A third step (S30) of mixing the prepared organic germanium with water at a constant ratio; Step 4 (S40) of coating the surface of the food heating device by making the blend more than 50mm; Step 5 of insulating the coated upper surface by coating it with a heat insulating material (S50); Step 6 of coating and finishing the surface of the insulated material (S60); It is intended to solve the problem by providing a food heating device manufactured including; 7 steps (S70) of manufacturing the finished product by drying it.

Food obtainable through the food heating device according to the present invention contains organic germanium.

As a result of the inspection, it was confirmed that organic germanium was contained in the food baked through the heating device according to the present invention.

1 shows a method of manufacturing a coffee roaster device or oven in which organic germanium is contained in food.

The terms or words used in this specification and claims conform to the technical spirit of the present invention based on the "principle that the inventor can appropriately define the concept of terms in order to explain his/her invention in the best way" should be interpreted in terms of meaning and concept. It should not be construed as limited to ordinary or dictionary meanings.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents that can replace them at the time of the present application It should be understood that there are water and variations.

Step 1 (S10) is a step of electrolyzing the pozzolan raw material.

Specifically, since electrolysis is required to extract germanium from pozzolan, the pozzolan raw material is electrolyzed using an electrolysis device equipped with a 220V to 380V direct current supply condition at room temperature. Since germanium obtained through electrolysis is inorganic germanium, it is necessary to manufacture organic germanium.

Step 2 (S20) is a step of manufacturing inorganic germanium obtained by electrolysis into organic germanium using microorganisms. Specifically, the microorganism Lactobacillus spp. to produce organic germanium.

Step 3 (S30) is a step of mixing the prepared organic germanium with water at a constant ratio.

Specifically, organic germanium is preferably included in an amount of 30 to 40% by weight, and water is preferably included in an amount of 50 to 60% by weight based on the total mass of the mixed composition.

Step 4 (S40) is a step of coating the upper surface of the food heating device by making the blend more than 50mm. Specifically, it is a step of coating the upper surface of the roasting drum or the upper surface of the furnace heating space. Specifically, the roasting drum is a space formed of a cast iron material in a coffee roasting apparatus and roasting beans by holding a heat source supplied from a heat source. Specifically, the heating space of the oven is a heating space in which food can be baked by emitting heat therein.

However, this description does not limit the heating space of the roasting drum and the furnace of the coffee roasting apparatus according to the present invention, and the design can be changed into various known shapes as long as the structure can implement the functions of the present invention. Coat the top except for the bottom of the roasting drum or the top of the furnace heating space with a uniform thickness of 50 mm or more.

In general, heat of 210 ° C. or less is applied to the roasting drum in a low-temperature roasting device, heat of 210 ° C. to 500 ° C. is applied to the roasting drum in a high-temperature roasting device, and heat of 170 ° C. to 200 ° C. is applied in a roasting oven. Therefore, materials that can withstand heat of 500 ° C or less must be used for insulation and finishing materials.

Step 5 (S50) is a step of insulating the coated upper surface by coating it with a heat insulating material. Specifically, metal materials such as aluminum, iron, and titanium may be used as the heat insulating material. The surface of the upper part of the compound is coated with an insulating material in a uniform thickness to insulate it.

Step 6 (S60) is a step of coating and finishing the surface of the insulated material. Specifically, materials such as ceramic and stainless steel may be used as the finishing material. The surface of the upper part of the heat insulating part is coated with an insulating material in a uniform thickness to finish it.

Step 7 (S70) is a step of manufacturing the finished product by drying it. Specifically, it is a step of drying for 3 to 5 hours at a temperature of 50 ° C to 70 ° C.

<Example 1> Direct fire type coffee roaster device containing organic germanium in food

Through the manufacturing method of FIG. 1, a low-temperature type coffee roaster device in which organic germanium is contained in food was manufactured. Then, 1 kg of coffee beans were put into the roasting drum and heated.

<Example 2> Oven containing organic germanium in food

Through the manufacturing method of FIG. 1, a furnace in which organic germanium is contained in food was manufactured. Then, 1 kg of pork was put into the heating space and heated.

<Comparative Example 1> Direct fire type coffee roaster device

1 kg of coffee beans were put into the roasting drum of a conventional direct-fired coffee roaster and heated.

<Comparative Example 2> Oven

1 kg of pork was placed in the heating space of a conventional oven and heated.

<Experimental Example 1> Content of organic germanium in food heated through a coffee roaster device and an oven

division Organic germanium content (ppm/g) Example 1 0.068 Example 2 0.076 Comparative Example 1 <0.008 Comparative Example 2 <0.009

Analysis was analyzed by the ICP test method.

From the results of Table 1, it was found that the content of organic germanium in Examples 1 to 2 was significantly higher than that of Comparative Examples 1 to 2.

Claims (2)

Step 1 (S10) of electrolyzing the pozzolan raw material;
A second step (S20) of preparing inorganic germanium obtained by electrolysis into organic germanium using microorganisms;
A third step (S30) of mixing the prepared organic germanium with water at a constant ratio;
Step 4 (S40) of coating the surface of the food heating device by making the blend more than 50mm;
Step 5 of insulating the coated upper surface by coating it with a heat insulating material (S50);
Step 6 of coating and finishing the surface of the insulated material (S60); and
7 step (S70) of preparing the finished product by drying it; a surface treatment method for a food heating device containing organic germanium in food.
A food heating device surface-treated by the method according to claim 1.

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