KR20170072830A - mineral having cure effects and use thereof - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a method for producing a catalytic ion mineral, a catalytic ion mineral prepared by the method, and a composition for reducing odor, releasing or improving hangover, or for containing the same.

Description

Catalytic ion minerals and their use

TECHNICAL FIELD The present invention relates to a method for producing a catalytic ion mineral, a catalytic ion mineral prepared by the method, and a composition for reducing odor, releasing or improving hangover, or for containing the same.

The importance of minerals has recently been reported. Minerals are only about 4% of our bodies, but their role in life phenomena is very large. The body consumes various minerals through water and food. However, consumption of minerals through food is getting harder and harder. Because of the large amounts of chemical fertilizers produced by modern farming methods for mass production, the soil is seriously polluted and acidified.

As a result, it is easy for modern people who are forced to eat agricultural products whose mineral circulation is blocked to have a mineral shortage. If you drank the reverse osmotic purification water that removed all of the minerals from the drinking water, the mineral shortage would not be better for modern people.

If the past malnutrition was mainly due to protein deficiency, the current malnutrition is malnutrition caused by mineral deficiency. Mineral deficiency is a major cause of chronic illnesses. In fact, many papers and books have been published that show that many diseases can be cured by mineral deficiency and supplementation of minerals [1-4].

Mineral nutrients are used to overcome mineral deficiencies, but most minerals are not well absorbed into the body. Ionized minerals are also easy to be absorbed in the water minerals, some water is not soluble in some forms.

For example, water in a limestone region is suspended in the form of calcium carbonate (CaCO ₃ ), which is poorly soluble in calcium, and sinks to the ground as a white precipitate after a period of suspension. Such water can cause harmful effects on the human body, such as causing blood vessel disease. Unfortunately, most of the world's water-soluble calcium is present in the form of water-insoluble calcium carbonate. It is necessary to make insoluble minerals such as calcium carbonate to be water-soluble easily absorbed by the human body.

Minerals such as calcium and magnesium sodium potassium, as well as essential minerals that are essential for the activity of the enzyme and the normal functioning of the cells, have been developed by the human body.

Kawada Kaoru of Japan showed strong physiological activity to accelerate the growth of plants and animals when granular, basalt, and olive rocks were extracted with sulfuric acid and extracted with aqueous solution. Basalt has excellent interfacial activity to dissolve substances that are difficult to dissolve in water , And purifying water in olive rock [5-9].

However, when we analyzed the components of these three minerals, they all had similar composition. This means that the nature of the rock is not due to the elemental composition of the rock, but to the basic structure of the rock itself. In other words, even if the rocks are in solution, the basic structure of the minerals remains unchanged and acts as a catalyst.

For example, most of the minerals in rocks have the basic skeleton of tetrahedra with silicon (Si) as nucleus and oxygen at each vertex, and various rocks are formed according to the arrangement of these structural skeletons. Minerals with this structure have catalytic ability at a small size of less than 5 nanometers (nm), which is known to increase the catalyst capacity from 10,000 to 100,000 times compared with simple elemental minerals [8-9].

When the water is quenched with liquid nitrogen, the structure of the water can be observed by an electron microscope. The structure of water such as clouds is about 100 nm in size. When the structure of this water was further examined by a transmission electron microscope, the inside was composed of clusters having a size of 20 nm and the inside was arranged into smaller clusters having a size of 2 nm (Fig. 1). This is a cluster that is larger than the hexagonal structure proposed by the so-called model (hexagonal number). Experimental observation of the hexagonal structure is not possible with current technology.

When the rock extract minerals are added to these water, the structure of the water of the shape shown in Fig. 1 can be seen to be aligned. As shown in Fig. 1, structured and aligned water was observed by electron microscopy even at very low concentrations of ppb (parts per billion, 1 / billion) This means that small hexagonal water can be formed [8, 9].

It has also been observed that by catalytic action of rock extract minerals, a variety of organic materials can be formed which can form living things such as nucleic acids, amino acids and sugars from water and air, and over time, And a creature-like object that moves in a different direction. As the incubation time increased, these small particles grew to a larger shape that aggregated as a new vibration and rotation, and then grew to the shape of a human cell size of 10 μm 2 months later. Dr. Kawada has raised new hypotheses about the origin of life through these experiments. Kawada believes that the actual formation of life would have been caused by the catalysis of these rock-minerals [8, 9].

After that, minerals from rocks were extracted from rocks using inorganic acids such as sulfuric acid, and they have been widely used in agriculture, animal husbandry, and aquaculture [5-7]. In addition, strongly alkaline rock extract minerals have been developed in Korea [10, 11].

Extracted minerals from strong acid or strong alkaline are strongly acidic or strongly alkaline and are not suitable for use on the human body for drinking or skin. They can not be used to make single minerals such as calcium and magnesium as water-soluble minerals that are easily absorbed by the human body. have.

Numerous papers and patent documents are referenced and cited throughout this specification. The disclosures of the cited papers and patent documents are incorporated herein by reference in their entirety to better understand the state of the art to which the present invention pertains and the content of the present invention.

1. Dean, C. The Miracle of Magnesium, BALLENTINE BOOKS, NEW YORK, 2003. 2. Omori Takashi, Effects of minerals in the body and importance, Moonjin, Seoul, 2004. 3. Yamada Toyo Fumi, Life Balance, Mineral, North Folio, Seoul, 1998. 4.Preservation, Calcium Power, Bae Moon-sa, Seoul, 2008. 5. Kim Hyun Won, water bluebird, one tree, 2010. 6. Kim, Hyun-Won, Water of Life, Living our Body, Kowonwon Books, 2004. 7. Kim, Hyun-Won, Water of Miracle of Life, Dong-A Ilbo Publishing Co., 2007. 8. Kawada, K. Dissolution of minerals in relation to origin, Advances in Colloid and Interface Science, 71, 299-312, 1997. 9. Kaoru Kawada, The Birth of Life, The 1st International Symposium on New Symposium, Minsa Club. 1997. 10. www.barodon.co.kr 11. sites.google.com/site/umo-umo

Accordingly, the present inventors have developed a new method of extracting minerals from rocks with organic acids and oxidizing agents, which are harmless to the human body, and at the same time, making all insoluble minerals including calcium and magnesium easily soluble in water Respectively.

Accordingly, an object of the present invention is to provide a method for producing a catalytic ion mineral comprising mixing hydrogen peroxide water and an organic acid, introducing ozone, inputting minerals, and chelating.

It is still another object of the present invention to provide a catalyst ionic mineral prepared by the above process for producing a catalytic ionic mineral.

It is still another object of the present invention to provide a composition for reducing odor containing the above catalyst ionic mineral.

It is still another object of the present invention to provide a composition for improving health and / or meat quality comprising the above-mentioned catalytic ionic minerals.

It is still another object of the present invention to provide a composition for eliminating and / or improving hangovers containing the above-mentioned catalytic ionic minerals.

Another object of the present invention relates to the use of catalyst ion minerals for odor reduction.

Another object of the present invention is to improve the growth and / or meat quality of the catalytic ionic minerals.

Another object of the present invention is to solve the hangover and / or improvement of the catalytic ion mineral.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention, claims and drawings.

The present invention relates to a process for producing a catalytic ion mineral and a catalyst ionic mineral produced by the process, and a composition for reducing odor, eliminating hangover and / or improving or for improving the quality and / or quality of meat.

The present invention proposes a new method of preparing a liquid mineral which catalytically acts on rocks by applying a chelating method using an organic acid and an oxidizing agent, and simultaneously water-insoluble minerals. It was confirmed that the liquid catalytic minerals produced using these organic acids and oxidizing agents are more human friendly and excellent in functionality than the conventional strong alkaline or strong acid extraction methods.

Hereinafter, the present invention will be described in more detail

One example of the present invention relates to a method for producing a catalyst ionic mineral.

The method for producing the catalytic ionic mineral may include the following steps.

Mixing the aqueous hydrogen peroxide solution and the organic acid;

Introducing ozone;

Introducing minerals; And

Chelating step.

The method for producing the catalytic ionic minerals is to produce catalytic ionic minerals having a high concentration of water-soluble minerals and rocks, which are human-friendly and have a basic structure and strong catalytic minerals, by applying a chelation method using organic acids and oxidizers .

The catalytic ion minerals supply minerals such as calcium and magnesium which are deficient in human body in a state that they are easily absorbed into the living body and catalyze the immune function and physiological activity by enhancing the natural healing power, Of the healing effect. In addition to human treatment, the mineral mixture improves skin treatment effect, skin improvement effect and alcohol degradation ability. Catalytic ion minerals can be applied not only to specific diseases but also to a new concept of natural medicine treatment methods that have an excellent effect on various diseases.

In addition, the catalytic ion minerals are observed in rocks forming crystallization pie bonds in nature, and the rotating electromagnetic waves that make the living body healthy and harmful to the rotating electromagnetic waves which are harmful to the human body such as water veins and electromagnetic waves are observed.

The organic acid may be one or more selected from the group consisting of formic acid, acetic acid, propionic acid, oxalic acid, glycolic acid, tartaric acid and tartaric acid, preferably citric acid, but is not limited thereto.

Wherein the hydrogen peroxide solution has a concentration of 30 to 40% v / v, 30 to 39% v / v, 30 to 38% v / v, 30 to 37% (v / v), 31 to 40% (v / v), 31 to 39% (v / v), 31 to 38% (v / v), 32 to 40% (v / v), 32 to 39% (v / v), 32 to 38% (v / v), 32 to 37% (v / v), 33 to 40% (v / v), 33 to 39% (v / v), 33 to 38% (v / v), 34 to 40% (v / v), 34 to 39% (v / v), 34 to 38% (v / v), 34 to 37% (v / v), for example, 35% (v / v).

The mixing step comprises mixing the aqueous hydrogen peroxide solution with an aqueous solution containing 15 to 25%, 15 to 24%, 15 to 23%, 15 to 22%, 15 to 21%, 16 to 25%, 16 to 24%, 16 to 23% 17-21%, 17-21%, 18-25%, 18-24%, 18-23%, 16-22%, 16-21%, 17-25%, 17-24%, 17-23% , 18 to 22%, 18 to 21%, 19 to 25%, 19 to 24%, 19 to 23%, 19 to 22%, 19 to 21%, such as 20% But is not limited thereto.

The step of introducing the minerals may include the step of supplying the minerals in an amount of 10,000 to 30,000 ppm, 12,000 to 30,000 ppm, 14,000 to 30,000 ppm, 16,000 to 30,000 ppm, 18,000 to 30,000 ppm, 10,000 to 28,000 ppm, 12,000 to 28,000 ppm, 14,000 to 28,000 ppm, From 12,000 to 26,000 ppm, from 12,000 to 26,000 ppm, from 14,000 to 26,000 ppm, from 16,000 to 26,000 ppm, from 18,000 to 26,000 ppm, from 10,000 to 24,000 ppm, from 12,000 to 24,000 ppm, from 14,000 to 24,000 ppm, from 16,000 to 26,000 ppm, from 18,000 to 28,000 ppm, from 18,000 to 28,000 ppm, But the present invention is not limited thereto. Examples of the method of the present invention include, but are not limited to, the following steps: 24,000 ppm, 18,000 to 24,000 ppm, 10,000 to 22,000 ppm, 12,000 to 22,000 ppm, 14,000 to 22,000 ppm, 16,000 to 22,000 ppm, 18,000 to 22,000 ppm,

The method for producing the catalytic ion mineral may further include the step of purifying the mineral using a vacuum extractor after the chelating step. The purification step may result in liquid catalytic ion minerals.

Another example of the present invention relates to a catalyst ion mineral produced by the above method for producing a catalytic ion mineral.

The mineral may be one or more selected from the group consisting of calcium, magnesium, potassium, sodium, copper, zinc, germanium, silicon and silver. Examples of the mineral include calcium, magnesium, potassium, sodium, zinc, germanium and silicon Lt; / RTI >

Calcium is the most abundant minerals in the body, most of which form calcium and phosphate in the form of bones and teeth. Calcium in the plasma regulates physical activity such as nerve stimulation, blood clotting, and muscle contraction.

Wherein the catalyst ionic minerals are selected from the group consisting of calcium 1000 to 2000 ppm, 1100 to 2000 ppm, 1200 to 2000 ppm, 1300 to 2000 ppm, 1400 to 2000 ppm, 1000 to 1900 ppm, 1100 to 1900 ppm, 1200 to 1900 ppm, 1300 to 1900 ppm , 1400 to 1900 ppm, 1000 to 1800 ppm, 1100 to 1800 ppm, 1200 to 1800 ppm, 1300 to 1800 ppm, 1400 to 1800 ppm, 1000 to 1700 ppm, 1100 to 1700 ppm, 1200 to 1700 ppm, 1300 to 1700 ppm , 1400 to 1700 ppm, 1000 to 1600 ppm, 1100 to 1600 ppm, 1200 to 1600 ppm, 1300 to 1600 ppm, 1400 to 1600 ppm, for example, 1500 ppm.

Magnesium (Mg) is the fourth most abundant mineral in our bodies. An adult with a body weight of 70 kg has about 24 to 25 g of magnesium, 60% of the total magnesium is contained in the bone, 99% of the remaining 40% is present in the intracellular fluid, and about 1% is present in the extracellular fluid . It is a component of bone and it is a necessary nutrient involved in enzyme reaction in human body. Magnesium acts to inhibit the excitatory action of neurons.

Wherein the catalyst ionic minerals are selected from the group consisting of magnesium 500 to 1500 ppm, 600 to 1500 ppm, 700 to 1500 ppm, 800 to 1500 ppm, 900 to 1500 ppm, 500 to 1400 ppm, 600 to 1400 ppm, 700 to 1400 ppm, 800 to 1400 ppm , 900 to 1400 ppm, 500 to 1300 ppm, 600 to 1300 ppm, 700 to 1300 ppm, 800 to 1300 ppm, 900 to 1300 ppm, 500 to 1200 ppm, 600 to 1200 ppm, 700 to 1200 ppm, 800 to 1200 ppm , 900 to 1200 ppm, 500 to 1100 ppm, 600 to 1100 ppm, 700 to 1100 ppm, 800 to 1100 ppm, and 900 to 1100 ppm, for example, 1000 ppm.

Potassium ions (K +) are present in all living cells and are essential for cell function. Potassium is contained at a particularly high concentration in plant cells, as can be seen from the initial separation of the plant bearing material. In plants, potassium is not a skeletal component, but it has many important regulatory functions. At least 60 enzymes involved in plant growth are activated by K +, and the regulation of plant pore opening and closing also depends on K +. K + also affects photosynthesis, migration of sugars, migration of water and nutrients, protein synthesis and starch synthesis. In other words, K + increases the growth of roots to increase resistance to drought, to prevent frowning, and to improve crop yield and quality. Because harvested vegetables, fruits and grains contain a large amount of K +, the cultivated land suffers from potassium deficiency, especially the cultivation of high yield varieties accelerates the K + deficiency, which is the main reason for the supply of potassium as a fertilizer.

10 to 30 ppm, 12 to 30 ppm, 14 to 30 ppm, 16 to 30 ppm, 18 to 30 ppm, 20 to 30 ppm, 10 to 28 ppm, 12 to 28 ppm, 14 to 28 ppm, 16 to 28 ppm , 18 to 28 ppm, 20 to 28 ppm, 10 to 26 ppm, 12 to 26 ppm, 14 to 26 ppm, 16 to 26 ppm, 18 to 26 ppm, 20 to 26 ppm, 10 to 24 ppm, 12 to 24 ppm 14 to 24 ppm, 16 to 24 ppm, 18 to 24 ppm, 20 to 24 ppm, 10 to 22 ppm, 12 to 22 ppm, 14 to 22 ppm, 16 to 22 ppm, 18 to 22 ppm, 20 to 22 ppm , For example, 21 ppm.

Nalithium is one of the essential elements for all animals. In vivo, +1 is present as a cation (Na +), about 90% of which is an electrolyte component in an extracellular liquid. Na + is involved in the maintenance of homeostasis, such as osmotic pressure and intracellular pH control. Through the regulation of osmotic pressure, the living body achieves water balance and regulates the amount of body fluid including blood. Na + is also involved in neurotransmission. The intracellular concentration of Na + is about 1/10 of the extracellular concentration, which is in contrast to the higher K + concentration in the cell. In addition, Na + is involved in excitatory cell movement such as muscle contraction, ciliary movement, heart rhythm, and pigment shrinkage, and it also participates in the body 's acceptance of nutrients such as glucose and amino acids.

30 to 50 ppm, 30 to 45 ppm, 35 to 50 ppm, and 35 to 45 ppm, for example, 41 ppm of sodium.

Zinc is an essential trace element in almost all organisms, and the human body is the next most abundant of transition metals. In adults, about 2 grams of zinc is found in the brain, liver, muscle, bone, kidney, liver, prostate, etc., especially in the prostate. Zn2 + is found in almost all types of enzymes. Recently, a lot of attention has been paid to carbonic anhydrase, an enzyme that rapidly converts carbon dioxide into water by reacting with carbon dioxide, And carboxypeptidase, an enzyme involved in the hydrolysis of peptide bonds. In addition to these enzymes, zinc is a component of enzymes involved in the synthesis and degradation of carbohydrates, fats and nucleic acids, and contributes to the stabilization of antioxidant enzymes (SOD). Zinc also binds to proteins that recognize the DNA sequence and control the transfer of genetic information in the DNA replication process, participate in RNA and DNA metabolism and signal transduction, regulate apoptosis, It is also involved in immune function. In addition, zinc has been implicated in insulin action and is associated with activities such as growth hormone, sex hormones, thyroid hormones, and prolactin hormones.

Zinc 150 to 250 ppm, 160 to 250 ppm, 170 to 250 ppm, 180 to 250 ppm, 190 to 250 ppm, 150 to 240 ppm, 160 to 240 ppm, 170 to 240 ppm, 180 to 240 ppm, 190 to 240 ppm , 150 to 230 ppm, 160 to 230 ppm, 170 to 230 ppm, 180 to 230 ppm, 190 to 230 ppm, 150 to 220 ppm, 160 to 220 ppm, 170 to 220 ppm, 180 to 220 ppm, 190 to 220 ppm , 150 to 210 ppm, 160 to 210 ppm, 170 to 210 ppm, 180 to 210 ppm, 190 to 210 ppm, such as 200 ppm.

Germanium is not regarded as an essential nutrient of living organisms and has little human toxicity except for some highly reactive compounds. Although germanium compounds have been shown to be efficacious in many diseases including cancer and AIDS, they have been used as over-the-counter nutritional supplements or alternative medicines, but there is no scientifically proven anticancer or antibacterial activity or other medical efficacy.

Germanium 150 to 250 ppm, 160 to 250 ppm, 170 to 250 ppm, 180 to 250 ppm, 190 to 250 ppm, 150 to 240 ppm, 160 to 240 ppm, 170 to 240 ppm, 180 to 240 ppm, 190 to 240 ppm , 150 to 230 ppm, 160 to 230 ppm, 170 to 230 ppm, 180 to 230 ppm, 190 to 230 ppm, 150 to 220 ppm, 160 to 220 ppm, 170 to 220 ppm, 180 to 220 ppm, 190 to 220 ppm , 150 to 210 ppm, 160 to 210 ppm, 170 to 210 ppm, 180 to 210 ppm, 190 to 210 ppm, such as 200 ppm.

Silicon is recognized as an essential element in plants, and it is believed that silicon is used to solidify various tissues and is necessary for growth in some plants, including rice. However, since the main component of the soil is a silicon compound and a little silicon is dissolved in water that is not purified, it is not necessary to give it separately. It appears that silicon is not essential for animals. Silicosis is a serious disease related to silicon. It is a lung disease that occurs when a worker working in a mine, etc. drinks a long period of air containing sand or rock fine powder. Symptoms of dyspnea and cough, headache, and swelling.

1 to 5 ppm, 1 to 4 ppm, 2 to 5 ppm, 2 to 4 ppm, for example, 3.6 ppm of silicon.

In addition, the catalyst ion mineral may further comprise silver.

The biological role of silver in the human body is unknown. Health effects are not yet clear, but silver itself is considered to be almost non-human toxic. Silver ions and silver compounds are toxic to many microorganisms. It is presumed that silver has a strong binding with molecules of sulfur, nitrogen, and oxygen in the microorganism, although it is still not well understood how silver exhibits antibacterial and antibiotic action.

The silver may be in the range of 500 to 1500 ppm, 600 to 1500 ppm, 700 to 1500 ppm, 800 to 1500 ppm, 900 to 1500 ppm, 500 to 1400 ppm, 600 to 1400 ppm, 700 to 1400 ppm, 800 to 1400 ppm, ppm, 500 to 1300 ppm, 600 to 1300 ppm, 700 to 1300 ppm, 800 to 1300 ppm, 900 to 1300 ppm, 500 to 1200 ppm, 600 to 1200 ppm, 700 to 1200 ppm, 800 to 1200 ppm, 900 to 1200 ppm, 500 to 1100 ppm, 600 to 1100 ppm, 700 to 1100 ppm, 800 to 1100 ppm, 900 to 1100 ppm, for example, 1000 ppm.

Meat consumption has been increasing with the improvement of people's living standards and dietary life. This change has been accompanied by the positive effects of the expansion of the livestock industry and the improvement of the technology level, as well as the overcrowding of unit farms due to the quantitative growth of commercial livestock production, .

The increase in livestock manure has been extended to the secondary problems such as odor, water quality and soil pollution caused by manure as well as throughput. In particular, Korea has a short distance between housing and housing, And odor generation are particularly problematic.

The odor from the livestock facility has become a source of bad complaints between the farmers and the surrounding residents, and efforts should be made to reduce the excretion of these pollutants and nitrogen. Above all, it is necessary to effectively control and alleviate harmful fungi that cause ill-smelling gases such as volatile fatty acids, ammonia and volatile amines, indole groups, phenol and sulfur compounds, and livestock which cause environmental pollution inside the house .

Since the implementation of the Odor Prevention Act, a variety of odor reduction technologies and facilities have been developed and distributed to farmers, but the odor handling capacity is different among farmers using similar technology facilities. It is true.

Unlike factories, all facilities are exposed to the outside, so there is a very limited way to reduce odors, and the cost of odor prevention facilities is considerably high, making it difficult to install preventive facilities on their own The supply to the farmhouse is also weak.

The technology of odor reduction is divided into the viewpoint based on the technical characteristic or the view point based on the generation stage or the place where the odorous substance is generated. In the case where it is based on the technical characteristic, it is divided into physical, chemical, Chemical methods include oxidation, ozone chlorination, chemical cleaning, ion exchange, combustion, neutralization, and masking. Physical methods include water washing, activated carbon adsorption, cooling, air dilution and ball blocking. Examples of methods include a liquid contact method and a meat contact method. In addition, it can be divided into absorption method, adsorption method, illustration method, and biological deodorization method according to the control technique.

However, in the case of the above-mentioned masking method, the effector is limited in a short time, since it does not completely remove the odor-causing substance but only blocks it. The toxicity of the used substance may cause stimulation to the human body. There is a problem that the collected odor materials may be released again. In addition, in the case of the chemical deodorization method, the odor removing effect has not yet reached a satisfactory level, and the chemical substances used may be harmful to the human body and the environment. In addition, in the case of the biological deodorization method using microorganisms most commonly used in poultry houses and the like, there is a large difference in activity depending on the surrounding environment, so it is difficult to expect a stable efficacy and the odor and odor- And is released into the atmosphere.

Currently, the above-mentioned conventional techniques are used formally in livestock farmhouses other than regularly cleaning the interior of the barn. However, since the decomposition gas such as ammonia and hydrogen sulfide generated in the livestock odor and shale, which continuously occur in the barn, It is impossible to control it. In some livestock farms, microbial fermentation methods are used in parallel, but there is a limit to the biological methods as described above.

Accordingly, another example of the present invention relates to a composition for reducing malodor containing the above catalyst ionic mineral.

The composition for reducing odor may be at least one selected from the group consisting of ammonia, trimethylamine, ethyl mercaptan, dimethyl sulfide, carbon disulfide, propyl mercaptan, But are not limited to, but not limited to, butyryl mercaptan, dimethyl disulfide, p-cresol, indole, skatole, acetic acid, propionic acid, But may be one or more selected from the group consisting of iso-butyric acid, butyric acid, iso-valeric acid, and valeric acid. It is not.

The composition for reducing odor may be used for housing, but is not limited thereto and can be used in a place where odor reduction is required.

Meat is mainly made up of flesh and fat, and the more meat produced, the more expensive it becomes. Good lean meat is produced in large amounts in the loin and hips, especially when the fat thickness is thin, it can produce more lean meat.

Therefore, fat reduction in livestock prior to shipment is required, and accordingly feeding of a suitable feed composition is required. Also, in farm households, feed costs are economically advantageous because they can reduce feed costs as a result of promoting the growth of livestock as a major source of expenditure and accelerating the shipment period.

Accordingly, another example of the present invention relates to a composition for improving health and / or meat quality comprising the above-mentioned catalytic ionic minerals.

The composition for improving the health and / or the quality of meat may be a feed to livestock, but is not limited thereto. The term 'livestock' refers to animals that are useful for human life, such as birds, fishes, insects, etc., in addition to mammals generally included.

Such mammals include but are not limited to horses, donkeys, cows, buffalo, sheep, goats, camels, reindeer, pigs, dogs, cats and rabbits.

The algae may be, but not limited to, chicken, turkey, goose, duck, algae, pigeon, quail.

The fishes include carp, goldfish, and the like, but the present invention is not limited thereto.

The insects include silkworms, bees, and the like, but are not limited thereto.

Due to frequent drinking and drinking, which is characteristic of drinking culture in Korea, many people are showing high interest in drugs or drinks that can eliminate hangovers. The hangover drink market, which is growing every year, has grown to more than 100 billion won in sales and is attracting attention in overseas market.

Hangover refers to symptoms such as headache, diarrhea, anorexia, nausea, vomiting, chills, and cold sweating that occur after drinking alcohol. Objective symptoms include cognition, decreased exercise capacity, hematologic changes, and changes in hormones. The cause of hangover is known to be dehydration, toxicity of alcohol and alcohol metabolites (acetaldehyde, formaldehyde, acetone, etc.), nutrient deficiency (blood sugar, vitamin, mineral deficiency) The degree of hangover is very different according to the variation of individuals due to heredity, environmental condition (nutrition, exercise, dehydration, health).

Alcohol after drinking alcohol is metabolized through three pathways. When the concentration of ethanol is low, by the action of the alcohol dehydrogenase and acetaldehyde dehydrogenase, which are present in the gastrointestinal tract or liver, It is metabolized to acetaldehyde and acetic acid by the microsomal ethanol oxidizing system (MEOS) present in the endoplasmic reticulum. Afterwards, the action of catalase, which is present in the peroxisome, And water (H2O). When an appropriate amount of alcohol is introduced, the metabolic system described above smoothly works, so that all the symptoms caused by alcohol do not occur. However, when a large amount of alcohol is introduced, the balance of the metabolism system is destroyed and the body homeostasis can not be maintained. In the short term, Perspiration, loss of concentration, heartburn and indigestion, and liver dysfunction may occur in the long term.

The present commercial hangover beverage is composed of three components: (1) a condition (CJ) using a lotus seed, a lotus seed, a lotus seed, a rice embryo and a hinoki extract; A large number of beverages are on the market, mainly from Care (Dong-A Pharm), Duckwood, and Daehan 808 (Grammy) using Raspberry Extract.

Accordingly, another example of the present invention relates to a composition for eliminating and / or improving hangover comprising the above-mentioned catalytic ionic minerals. The composition can be used as a pharmaceutical composition or a food composition.

The term " food " means a natural or processed product containing one or more nutrients. In general terms, the term " food " is used to mean all kinds of foods, health functional foods, beverages, food additives, Means a combination of materials for preparing the food.

Examples of the food include various foods, beverages, gum, tea, and functional foods. In addition, in the present invention, the food may contain special nutritional foods (for example, crude oil, infant formula, etc.), meat products, fish products, tofu, ginger, noodles (e.g., , Confectionery (e.g., snacks), other processed foods, beverages, health functional drinks (e.g., hangover free beverages, etc.), and other health supplements. The health functional food, beverage, food additive or beverage additive can be produced by a usual production method.

The pharmaceutical compositions may be administered to mammals, including humans, in a variety of routes. The mode of administration may be any conventionally used route and may be administered, for example, by oral, rectal or intravenous, intramuscular, subcutaneous, intra-uterine or intracerebroventricular injection. The pharmaceutical composition of the present invention can be administered orally or parenterally in the form of powders, granules, tablets, capsules, suspensions, emulsions, syrups, aerosols and the like, transdermal preparations, suppositories and sterilized injection solutions Can be used.

The composition for relieving and / or ameliorating hangover of the present invention may further comprise pharmaceutically acceptable and physiologically acceptable carriers, excipients and diluents.

Examples of carriers, excipients and diluents that can be included in the pharmaceutical composition include lactose, dextrose, sucrose, sorbitol, mannitol, xylitol, erythritol, maltitol, starch, acacia rubber, alginate, gelatin, calcium phosphate, calcium silicate, Cellulose, methylcellulose, microcrystalline cellulose, polyvinylpyrrolidone, water, methylhydroxybenzoate, propylhydroxybenzoate, talc, magnesium stearate and mineral oil. In the case of formulation, diluents or excipients such as fillers, extenders, binders, humectants, disintegrants, surfactants and the like which are usually used can be used.

Solid formulations for oral administration include tablets, pills, powders, granules, capsules and the like, which may contain at least one excipient such as starch, calcium carbonate, sucrose Sucrose, lactose, gelatin and the like. In addition to simple excipients, lubricants such as magnesium stearate talc are also used. Examples of liquid formulations for oral use include suspensions, solutions, emulsions, and syrups. In addition to water and liquid paraffin, which are commonly used simple diluents, various excipients such as wetting agents, sweetening agents, have.

Formulations for parenteral administration include sterilized aqueous solutions, non-aqueous solutions, suspensions, emulsions, freeze-dried preparations, suppositories, transdermal preparations and the like. Examples of the suspending agent include propylene glycol, polyethylene glycol, vegetable oil such as olive oil, injectable ester such as ethyl oleate, and the like. Witepsol, macrogol, Tween 61, cacao paper, laurin, glycerogelatin and the like may be used as a base for suppositories.

The pharmaceutical composition may be administered to humans alone, but may be administered in admixture with a pharmaceutical carrier selected generally in consideration of the mode of administration and standard pharmaceutical practice.

For example, the pharmaceutical composition of the present invention may be in the form of tablets containing starch or lactose, in the form of capsules containing the active ingredient alone or as an excipient, or as an elixir or a suspending agent containing a flavoring or coloring agent Orally, orally or sublingually. Such liquid preparations may contain suspending agents (e. G., A mixture of PEG-6 esters with a semisynthetic glyceride such as methylcellulose, Witepsol or Apricot kernel oil, or a mixture of PEG-8 and caprylic / Glyceride mixture such as a mixture of glycerides).

The present invention relates to a method for producing a catalytic ion mineral and a catalyst ionic mineral prepared by the method, and a composition for reducing odor, releasing a hangover, improving or containing the same, and a chelating method using an organic acid and an oxidizing agent , It was able to make human-friendly high concentration of water-soluble minerals, and it has a basic structure of rocks, and produces strong catalytic catalytic minerals to prevent and treat coccidiosis, a deadly disease in poultry farms, And the meat quality can be improved. When applied to a pig farm, the odor of the pig farm is reduced by 60%, the amount of pig feed is reduced and the productivity of the feed is increased by 8% It is effective in relieving or improving hangover.

1 is a photograph of water quenched with liquid nitrogen and observed with an electron microscope.
2 is a photograph of water quenched with liquid nitrogen and observed with an electron microscope.
FIG. 3 is a graph showing a directional measurement result of a rotating electromagnetic wave of a catalyst mineral according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the following examples. However, these examples are only for illustrating the present invention, and the scope of the present invention is not limited by these examples.

Examples. Preparation of catalytic ion minerals

After adding ozone (O ₃ ) for 10 minutes after adding citric acid to the hydrogen peroxide solution (H ₂ O ₂ , 35%) at 20% concentration in the total amount of hydrogen peroxide solution at room temperature, the peroxide- When simultaneous equilibrium is achieved, the reaction is started by administering the mineral or rock powder at a total volume of 10,000 to 30,000 ppm.

Then, the mixture was stirred using a magnetic stirrer. As the temperature was raised, a chelating process was gradually carried out to form chelate type water soluble minerals and catalytic ion minerals. After the reaction was completed, the temperature was cooled to about 30 DEG C, and the water-soluble minerals and the catalytic ion minerals were purified into a pure liquid phase using a vacuum extractor.

In case of calcium, calcium carbonate, coral powder, shell powder and the like were used. In case of magnesium, copper, zinc, iron, silver and gold, the metal was used in the form of powder and germanium dioxide (GeO ₂ ) . Catalytic minerals were extracted with 500-1000 mesh of mica based rock powders.

Experimental Example 1. Analysis of Catalytic Ion Mineral Component

The components of the catalytic ion minerals mixed with the catalytic minerals and the water-soluble minerals prepared in Example 1 were analyzed using an emission spectrochemical analyzer (ICP-AES) of the National Institute of Advanced Industrial Science, Seoul National University. The results are shown in Table 1 below.

mineral Ca Mg K Na Zn Ge Si content
(ppm) 1500 1000 21 41 200 200 3.6

As shown in Table 1, in the case of Ca, Mg, Zn and Ge, shell calcium, metal magnesium, zinc metal and germanium dioxide were prepared as water-soluble minerals by the chelation method of the present invention, In the case of Na, K and Si, it can be said that it originated from the basic raw material rock component of catalytic ion mineral.

Experimental Example 2. Rotational Electromagnetic Measurement of Catalytic Ion Minerals

A rotating electromagnetic wave means a rotating wave that is emitted from a material. By measuring the rotating electromagnetic waves, it is possible to find out a specific property such as whether the waves inherent in the substance are harmful to the human body.

The direction of the rotating electromagnetic wave is measured by measuring the change of the magnetic field appearing when the rotating electromagnetic wave is radiated to the magnetic field formed by the electromagnet by the change of the current and the positive and negative of the rotating electromagnetic wave are measured in the same discharge state Determine the amount by adding or subtracting the amount. The positive rotation of the rotating electromagnetic wave decreases the turning radius in the traveling direction, and the voice increases the turning radius in the traveling direction. The rotational electromagnetic waves of the catalyst ionic minerals prepared in the examples were measured using a magnetic field of Korean Patent Application No. 10-2004-0052975, and the results were shown in FIG. 3.

As can be seen from FIG. 3, the rotating electromagnetic waves of the catalyst ion mineral were measured, and the rotating electromagnetic waves were measured only in the left rotation direction (S → N). The rotation electromagnetic wave (S → N) in the left rotation direction means a crystalline coupling and the rotation electromagnetic wave (N → S) in the right rotation direction means a covalent bond. The spinning mineral of the mineral mineral was positive and the direction of rotation was decreased in the direction of progression.

In the case of the left-turn rotating electromagnetic wave, when the turning radius decreases in the traveling direction, the right-turn rotating electromagnetic wave judges that it is advantageous to the human body when the turning radius increases in the traveling direction. The rotating electromagnetic wave pattern of catalytic ion minerals, whose radius decreases in the traveling direction while turning left, appears in the rocks forming the crystallization pie bond in the natural state, which makes the living body healthy, inhibits the growth of cancer cells, inhibits harmful bacteria growth, It is known that it functions to harm harmful rotating electromagnetic waves such as electromagnetic waves to the human body

Experimental Example 3. Application to poultry farm

3-1. Immune function enhancement measurement

Coccidiosis is a protozoal disease that causes massive economic losses to the swine and poultry industries around the world, causing diarrhea in pigs and chickens. In July 2015, when a coccidiosis is occurring in a broiler farm on Mars, a catalytic ion mineral prepared in the same manner as in Example 1 is diluted 1,000 times in a water tank supplied to 10,000 chickens including diseased chickens It was supplied for three days.

As a result, all of the diarrheal chickens recovered from coccidiosis were recovered, and the chicken no longer had any coccidiosis. This means that it is possible to prevent and treat coccidiosis by catalytic ionic minerals. The surrounding poultry farms suffered from coccidiosis without exception. This means that the catalytic ion minerals have enhanced the chicken's immune function.

3-2. Meat quality change measurement

Changes in meat quality after feeding were measured by diluting the catalytic ion minerals 10,000 times in broiler chickens. Specifically, 10,000 chickens in broiler chickens, the control group in general water tank, the test group in daily dose of catalytic ion minerals were diluted, and after one month feeding, the food research institute was commissioned to measure meat quality, The results are shown in Table 2 below.

protein
(g / 100 g) Fat
(g / 100 g) cholesterol
(mg / 100g) Linoleic acid
(C18: 2) Linolenic acid
(C18: 3) Arachidonic acid
(C20: 4) Control group 20.4 6.6 74.1 17.7 0.8 0.4 Test group 21.1 4.6 68.4 21.8 1.0 0.7

As shown in Table 2, the amount of protein was increased and the amount of fat and total cholesterol was reduced, but the amount of polyhydric alcohols such as linoleic acid, linolenic acid and arachidonic acid was increased.

Experimental Example 4. Measurement of odor reduction

The odor intensity was compared with the odor index concept. The odor index was calculated by dividing the odor concentration detected by each compound by the individual minimum detectable concentration, and summing the respective odor indexes as the cumulative odor index. The concentrations of the substances capable of causing various kinds of odors of 18 kinds were measured at an animal environment engineering laboratory of Seoul National University, and the results are shown in Table 3 below.

Target compound Pigment (%) Growth period (%) Finishing time (%) ammonia
(Ammonia) -44.4 26.9 35.5 Trimethylamine
(Trimethyl Amine) 28.9 13.0 30.9 Ethyl mercaptan
(Ethyl mercaptan) -54.0 96.1 30.9 Dimethyl sulfide
(Dimethyl sulfide) -10.8 26.7 -0.1 Carbon disulfide
(Carbon disulfide) -5.2 40.9 35.3 Propyl mercaptan
(Propyl mercaptan) 16.5 69.6 72.2 Butyl mercaptan
(Butly Mercenary) ND 100.0 96.8 Methyl disulfide
(Dimethyl disulfide) -8.3 29.8 -2.0 p-cresol
(p-cresol) ND 100.0 ND Indole
(Indole) ND ND ND Scallop
(Skatole) -70.8 76.4 90.7 Acetic acid
(Acetic acid) -133.5 1.4 ND Propionic acid
(Propionic acid) -18.9 62.7 82.6 Iso-butyric acid
(Iso-butyric acid) 11.3 1.1 96.9 Butyrate
(Butyric acid) -24.6 65.4 26.6 Iso-valeric acid
(Iso-valeric acid) -22.9 85.2 99.1 Valeric acid
(valeric acid) -86.4 -106.2 97.9 Sum -30.2 43.1 56.7

As shown in Table 3, the accumulated odor index of the treatments treated with the catalytic ion mineral was slightly higher than that of the control group (30%) in the first month, but the odor index increased slightly And the odor index decreased by 56.7% over the entire period.

Experimental Example 5: Effect on health and productivity of pigs

Breeding and measurement of pigs were carried out at the laboratory of Animal Environmental Biotechnology, Seoul National University. Specifically, tap water was used as a control, and catalyst ion minerals were diluted 10,000 times in tap water and supplied through a water supply line, and 100 pigs were used in each group. The experimental period was 6 months, and the length of incubation period, incubation period and finishing period were classified. The productivity of pigs was measured by ADG, feed conversion ratio (FCR), and delivery rate (MR), and the feed efficiency was calculated and the results are shown in Table 4 below.

Growth stage Piglet Breeding machine Fryer division Control group
(Control) Treated group
(TRT.) Control group
(Control) Treated group
(TRT.) Control group
(Control) Treated group
(TRT.) Breeding period (day) 28 28 28 28 91 91 Daily weight gain (g)
(Average Daily Gain) 179 196 479 454 685 776 Feed intake (g)
(Average Daily Feed) 436 425 1.132 1.064 2.113 2.213 Feed efficiency
(gain / feed) 0.410 0.462 0.423 0.426 0.324 0.351 Feed rate
(feed / gain) 2.43 2.16 2.36 2.35 3.09 2.85

As shown in Table 4, in the growth stages (28 days of pig growth, 28 days of growing, 91 days of finishing), the pigs treated with catalyst ion minerals showed 11g / day, 68g / day, The feed efficiency was increased by 12.7%, 0.7% and 8.3%, respectively, while the feed efficiency was higher by 17g / day, -25g / day and 91g / day, respectively. Overall, the productivity was 8% higher than the control. These differences are inferred to be more evident as the housing environment is poorer.

Next, the meat quality analysis of pigs was carried out by the animal science and technology institute. As a result, the concentration of saturated fatty acid in living body decreased from 40.3% to 38.7%, while the concentration of unsaturated fatty acid increased from 59.7% to 61.2%.

Experimental Example  6. Alcohol degradation experiment

10 mice were divided into two groups. The mice were fasted for 4 hours, and 0.2 ml of the catalyst ion mineral solution or distilled water was orally administered to mice. After 1 hour, 0.2 ml of 50 v / v% alcohol was orally administered. After 2 hours, the alcohol concentration of the blood was measured .

Time (h) 2 hr Alcohol concentration
(v / v%) Administered group
(Catalytic ion mineral) 0.19 + 0.03 Control group
(Distilled water) 0.35 + 0.02

As shown in Table 5, in the case of mice administered with catalytic ion minerals, the alcohol degradation ability was remarkably increased as compared with the control mice to which distilled water was administered. Both calcium and magnesium zinc are known to promote alcohol degradation, and catalytic ion minerals are known to reduce the number of clusters of water to form hexanal. It seems that the water soluble minerals present in the catalytic ion minerals and the catalytic minerals work together to promote alcohol decomposition.

Then, after drinking alcohol, the catalytic ion minerals were consumed and the alcohol concentration was measured over time. Specifically, drink five bottles of shochu (like the first 20% (v / v)) for five adult men and drink 10ml of drinking water in 100ml of mineral water (morning care, 100ml) The alcohol concentration (% (v / v)) was measured with an alcohol analyzer (CA-2000) over time, and the relative alcohol concentration after 120 minutes was calculated by the following equation, and the results are shown in Table 6 below .

[formula]

Relative Alcohol Concentration = Alcohol Concentration (v / v%) after 120 min / Immediate Concentration (v / v%)

Drinks / Hour Immediately
(v / v%) 30 minutes
(v / v%) 60 minutes
(v / v%) 90 minutes
(v / v%) 120 minutes
(v / v%) After 120 minutes
Relative alcohol concentration Natural decomposition 0.17 0.16 0.15 0.14 0.12 71 Commercial drink 0.17 0.15 0.13 0.12 0.08 53 Catalytic ion mineral 0.17 0.12 0.08 0.04 0.00 0

As shown in Table 6, the catalytic ion mineral solution showed an excellent effect as compared with the conventional hangover beverage. In fact, drinking alcoholic beverages with diluted catalytic ionic minerals in shochu increased the intake of shochu, and the following day, hangover was observed to disappear.

Claims (15)

Mixing the aqueous hydrogen peroxide solution and the organic acid;
Introducing ozone;
Introducing minerals; And
Chelating;
≪ / RTI > The method according to claim 1, wherein the organic acid is at least one selected from the group consisting of formic acid, acetic acid, propionic acid, oxalic acid, glycolic acid, tartaric acid and citric acid. The method according to claim 1, wherein the hydrogen peroxide solution has a concentration of 30 to 40% (v / v). The method according to claim 1, wherein the mixing step comprises mixing the organic acid with a hydrogen peroxide solution at a concentration of 15 to 25%. The method according to claim 1, wherein the step of introducing the mineral is carried out so that the amount of the mineral is 10,000 to 30,000 ppm. The method according to claim 1, wherein the minerals are at least one selected from the group consisting of calcium, magnesium, potassium, sodium, copper, zinc, germanium, silicon and silver. The method of claim 1, wherein the catalyst ion minerals are selected from the group consisting of 1000 to 2000 ppm of calcium, 500 to 1500 ppm of magnesium, 10 to 30 ppm of potassium, 30 to 50 ppm of sodium, 150 to 250 ppm of zinc, 150 to 250 ppm of germanium, 5 ppm. ≪ / RTI > The method for producing a catalytic ion mineral according to claim 1, wherein the method further comprises the step of purifying minerals using a vacuum extractor after the chelating step. A catalyst ion mineral produced by the method for producing a catalyst ion mineral according to any one of claims 1 to 8. The catalytic ion mineral according to claim 9, wherein the catalytic ion mineral comprises at least one member selected from the group consisting of calcium, magnesium, potassium, sodium, copper, zinc, germanium, silicon and silver. 10. The method of claim 9, wherein the catalyst ionic mineral is selected from the group consisting of 1000 to 2000 ppm of calcium, 500 to 1500 ppm of magnesium, 10 to 30 ppm of potassium, 30 to 50 ppm of sodium, 150 to 250 ppm of zinc, 150 to 250 ppm of germanium, 5 ppm. ≪ / RTI > 11. A composition for reducing odor comprising a catalytic ion mineral according to any one of claims 9 to 11. 13. The composition for reducing odor according to claim 12, wherein the composition for reducing odor is selected from the group consisting of ammonia, trimethylamine, ethyl mercaptan, dimethyl sulfide, carbon disulfide, Propyl mercaptan, butyl mercaptan, dimethyl disulfide, p-cresol, indole, skatole, acetic acid, propionic acid, ), At least one selected from the group consisting of iso-butyric acid, butyric acid, iso-valeric acid, and valeric acid Phosphorus, and odor. 12. A composition for improving or improving meat quality comprising the catalytic ionic mineral according to any one of claims 9 to 11. A composition for eliminating or improving hangover comprising the catalytic ionic mineral according to any one of claims 9 to 11.

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