KR101890807B1 - The mixture for the environment-friendly sterilizing action - Google Patents

Abstract

The present invention relates to a new sterilizing and disinfecting material for effectively preventing and preventing various bacteria and viruses which cause a great harm to the human body.
When the "mixed composition for environmentally friendly disinfection and disinfection" according to the present invention is incorporated into various kinds of paper, rubber products, plastic products, metal products and nonwoven fabrics, it is possible to effectively kill germs and viruses .
The "environmentally compatible disinfecting and disinfecting composition" according to the present invention utilizes a mixed composition composed of "Chojangseok, serisite, pyrophyllite" to kill germs and viruses using environmentally friendly substances. A mixed composition composed of "Chojangseok, serisite, pyrophyllite" has excellent sterilizing effect and can effectively kill bacteria and viruses.
When the mixed composition prepared by the above-described method is used, the external walls of the bacteria and viruses, which cause various diseases, are destroyed in a short time and fatal damage is caused to the genes (DNA, RNA), thereby performing the functions of eradicating bacteria and viruses.
In other words, bacteria and viruses can be sterilized and blocked with high relief efficiency. It also has the advantage of mass production at low prices.

Description

[0001] The present invention relates to a composition for environmental sterilization and disinfection,

The present invention relates to a new technology for sterilizing various bacteria and viruses by producing a new mixed composition with harmless substances to prevent and eradicate various bacteria and viruses harmful to human body.

A bacterium is a microorganism group of a single cell having a prokaryotic cell (prokaryotic cell), and is also referred to as a bacterium. Broadly speaking, it refers to prokaryotes (prokaryotic fungi), but in the narrow sense, mycoplasma species, mucus bacteria, spirocheta species, actinomycetes are excluded. Usually, when referring to bacteria, it often indicates that they are included in narrow-sense bacteria. Fungi are small cell bodies with cell walls, some not exercising, others working with flagellum. Nutrition laws are generally dependent on nutrition, but some have an extraordinary nutritional life that is not found in other species.

Fungi can be self-sustained by living as a byproduct, parasitism, or symbiosis, or independently produce the necessary organic matter from minerals. Fungi live all over the earth, especially in fertile soil and water, and contain over 3 billion bacteria in 1 gram. It usually grows at 20 ~ 50 ℃, but it grows at lower or higher temperature. Fungi live themselves by various nutritional methods and play an important role in circulation of major elements (carbon, nitrogen, sulfur) in ecosystem. The various products produced by the action are used by humans. For example, there may be mentioned organic acids such as lactic acid, acetic acid, gluconic acid, glutamic acid and other enzymes such as amino acids, amylases and proteases, acetone, butanol, vitamin C, dextran as a serum for substitution, antimicrobial antibiotics, Immune serum, yogurt, cheese and so on.

(One). The basic form of nutrition: Fungi require carbon sources, hydrogen donors and energy sources to make organic matter. If you take care of these three things, you can see that there are following basic types in nutrition law. First, phosphorylation to generate an energy source, ATP (adenosine triphosphate), is due to redox reactions and photochemical reactions. Redox reactions are common in bacteria, occurring in glycolysis, citric acid, and electron transfer systems. It is limited to the Pseudomonas river which can see all of these basic types, and the photochemical reaction can be seen in red color fungus.

(2). Relationship with oxygen: The basic form of the fungus nutrition method is varied depending on the relationship with molecular oxygen. Some are anaerobic (anaerobic) but are rather aerobic. In anaerobic heterotrophs, there are inorganic fermentation (such as butyric acid bacteria) and inorganic respiration (such as acetic acid breathing as seen in bacillus). Aerobic heterotrophs have organic fermentation (such as acetic acid bacteria) and general oxygen breathing. Random heterotrophs undergo inorganic fermentation or oxygen breathing or nitrate respiration depending on environmental conditions (E. coli). Oxygen breathing is particularly active in the soil, which reduces organic matter and produces carbon dioxide. Compared to humans, the consumption of oxygen per kilogram of body weight is several hundred times to tens of thousands of people and Azotobacter is 60,000 times that of humans.

The system is divided into the form and the surface of the tax table and the structure inside the cell.

(One). Form: The shape and size of the fungus may vary depending on the condition. In general, the size of the fungus is 0.5 to 1 μm in diameter, the size of the bacillus is almost the same as the size of the fungus, and the width is 1/2 or 1/7 of the length. The comma is a curved shape once, and the barracuda is dried 4-20 times. To form distinctive cell populations, there are eight pathogens in which eight cells are arranged in a cubic shape, a streptococci and a chain bacterium in which cells are clustered, and staphylococci in which cells are irregularly clustered. Unlike these, there is a special cell group called hairy body. The parent body is not a multicellular organism, but the cells lined up in a single row are dense, and there are also some cells that become differentiated cells and become germ cells. The flagellum of the bacterium is simpler in structure than the eukaryote (eukaryote) and has different microstructure and movement patterns. In addition, the flagella of bacillus is easy to drop out. In terms of morphology, Typhoid fungus is an endemic bacterium with 8 to 12 flagella around the body, and a cholera bacterium is a polar daylle bacterium with one flagella at one end . In addition, there is also one extreme life · anorexidium damo bacteria.

(2). Cell surface layer: The cell membrane of bacteria is a thin membrane in which proteins are scattered in and around two layers of lipid molecules (lipid molecules). In addition to the respiratory enzymes, the cell membranes of a few bacteria contain the electron transport system enzymes involved in photosynthesis have. The cell walls on the outside of the cell membrane have a single layer (Gram stain reaction positive bacteria) and two layers (Gram stain reaction negative bacteria). The monolayer consists mainly of peptide glycans and teichoic acid, and the second layer is composed of small amounts of peptide glycans and lipopolysaccharide / lipoprotein. However, most bacterial cells are surrounded by a mucus layer at least sometime. The mucous layer may be a polypeptide or a polysaccharide and protects cells from harmful ones. Some bacteria may play this role. The capillary is a thick layer of agar-like shape and its main constituent is the capsular polysaccharide. For example, it is hyaluronic acid in streptococci.

(3) Intracellular structure: The prokaryotic nuclei (nucleic acid DNA) of bacteria are selectively stained in the stain and the like, and the stained granular part is called the nucleolar body. DNA is in contact with cell membranes or lysosomes. Lysosomes are membrane structures in which some of the cell membranes are entrapped and entrapped. Fibroblast ribosomes (RNA-protein complexes) are smaller than eukaryotic cells and are almost evenly distributed in cells. Inside the cells, granules such as polysaccharides and lipids, and crystals of sulfur and calcium carbonate are also contained. Polymetaphosphoric acid-based storage material called ball routine is also called dyed granule, and it must be contained in diphtheria. In the cells of the bacterium, there is no pigment and vacuole, and there is no fluidity in the arresting quality.

The reproduction of the cell is as follows.

Fungi usually multiply by two-fold method, which takes 15-20 minutes to break up once, and when condition is good, one becomes 10 ²¹ pieces in 24 hours, and the total weight becomes about 4t. When one Escherichia coli is cultured in 1 ml of a culture solution containing necessary mg of inorganic salts, the number is several billion in 36 hours. Nitric acid bacteria and the like are propagated by the emergence method (budding method). In addition, in the cells of the parent body, Gonydia produces endogenous spores, or zoospores with polar hair. Bacillus forms one dormant spore in a cell. Escherichia coli has a number of short cilia in addition to flagella, depending on the individual, which in turn binds to ciliated individuals and exchanges some of the DNA through the cilia. This is called a false junction.

The fungi are classified into three groups: rickettsiae, calm bacteria, and pseudomonas. Ricketts River is smaller than any other bacteria, parasitic in animal cells and gram negative. The true bacterial steel is a heterotrophic organism, with no flagella or endemic flagella (some of which are flagellate) and gram positive or negative. The Pseudomonas River is a tribal nematode, but it also includes autotrophs and related heterotrophs, and has no flagella or larvae (some are parasitoids). Whether or not it is gram-negative is unclear.

(One). Rickettsa River ① Chlamydia Throat: Parakeet Chlamydia is parasitic on birds and airborne to cats and humans. Trachoma chlamydia is parasitized on people and monkeys. ② Rickettsia tree: Tsutsugamushi disease Rickettsia is transmitted to humans in rats via red tsutsugamushi, a type of flea tick.

(2). Soil Bacteria ① Calming bacteria: Gram-positive bacteria include Staphylococcus aureus, Butyric acid bacteria, Lactic acid bacteria, Diphtheria bacteria, etc. Gram-negative bacteria include root bacterium (rhizobia), Azotobacter, Escherichia coli, have. ② Cario paper: Some microorganisms with a length of several tens of micrometers are active in water and organic matter, and actively act as main buds. Some are parasitized in arthropods, digestive organs such as cattle and sheep.

(3). Pseudomonas River ① Pseudomonas species: heterotrophic or chemically synthesized bacteria, mostly living in soil or water. Acetic acid bacteria, Pseudomonas aeruginosa, Methyl oxidizing bacteria, Nitrifying bacteria, Sulfuric acid reducing bacteria, Basophil bacteria, Methane bacteria and so on. ② Red Bacterial Neck: Sulfuric Chlorophyllum, Hosoi It is a bacteria that lives in the sea water. As the hydrogen donor, it uses hydrogen sulfide, hydrogen molecule, fatty acid, keto acid, and does three oxygen balanced photosynthesis. Non-yellow, yellow-green, and yellow-green. ③ Hwang, Seok - Gyun: Bacteria that live in soil or water containing sulfide, chemically synthesize or heterotrophically live by oxidizing organic compounds or sulfur, such as hydrogen sulfide and other compounds. Bacteria belonging to this group also have somatic bodies, and when they come into contact with the solid, they perform sliding or rocking movements.

Viruses are a group of non - invasive structures with distinctly different molecular configurations and distinct proliferative phases than cellular organisms. This term is a Latin word for "venom", also known as a viral or filterable pathogen. Viruses come into cells that can multiply themselves and have various effects on the host (the host, a parasitic organism of the virus). For example, tobacco mosaic virus (TMV) causes mosaic symptoms on tobacco leaves, and foot-and-mouth disease virus causes blisters on mucous membranes of the mouth. It was found at the end of the 19th century that these particles are pathogenic because they are smaller than bacteria and can not be observed under an optical microscope, and they pass through the bacterial filter with water. Since then, various viruses have been known, and studies on the morphology and properties have progressed rapidly by electron microscopy.

The virus is a molecule of nuclear protein with nucleic acid (DNA or RNA) responsible for genetic information for proliferation. It is about half the size of rickettsum (20-300 nm), the microbial strain. Viruses are largely divided into DNA viruses and RNA viruses depending on the type of nucleic acid they constitute. They are divided into plant viruses, animal viruses, bacterial viruses, and insect viruses depending on the host, such as plants and insects, Some viruses proliferate in two hosts. There is also one kind of parasitism only in one host, and there are more than 100 kinds of host like cucumber mosaic virus. Plant viruses are RNA viruses, and some viruses contain polyamines or metals in addition to proteins. There are also viruses that contain fat and carbohydrates, many of which are found in animal viruses. Animal viruses and bacteriophages (also called bacterial viruses or phages) include DNA viruses and RNA viruses. Some bacteriophages are attached to general bacteria and actinomycetes (actinomycetes). There are also viruses attached to yeast, fungi such as penicillium aspergillus, and viruses attached to mushrooms. These are called maiko pajis.

The nucleic acids that make up the virus are either single-stranded or double-stranded, the most common being double-stranded DNA and single-stranded RNA. These nucleic acids are the center, and the center of this nucleus is encased in a protein structure (capsid). The combination of this center and the protein angle is the basic structure of the virus called nucleocapsid. Some have an envelope outside the nucleocapsid. The envelope is made up of a lipoprotein membrane, sometimes with spikes on the surface. (Symmetry) of the capsids (symmetry) is symmetrical (mostly twisted-sided), helical symmetry (TMV is rounded by 16 units), complex symmetry (T ₂ wave or Fox virus) . Orthomyxovirus is a helical filament that has a cylindrical elongated string shape, wrapped in an envelope to become virion. Virion refers to a virus that is infectious outside the cell. Rabdoviruses are short-rod-shaped, enveloped in envelope from one end. Adenoviruses and herpes viruses form a regular twenty-sided dome with capsyloids arranged in equilateral triangles.

The proliferation of viruses means that the nucleic acid of the virus enters into the host cell to synthesize the virus itself. The virus binds (adsorbs) to any site of attachment (lipoprotein or lipopolysaccharide) to the cell wall of the host, and the nucleic acid that breaks the cell wall exits the envelope capsid and invades into the cell. Cells that have been infected with the virus control their metabolic mechanisms, and chromosomes are degraded to produce and accumulate viral nucleic acids and viral proteins (dark periods). After that, the viral nucleic acid and the viral protein synthesize the virus, resulting in a lot of viruses. Eventually, the virus destroys the host cell (release phase). In the proliferation of DNA viruses, various messenger RNAs (mRNAs) transcribed from genetic information from DNA virus nucleic acids are produced. Thus, biosynthesis of the enzyme protein for virus component synthesis proceeds first, and then virus DNA and virus protein, which are components of the virus, are produced. Most of the assembly of virus components is done in the host nucleus, during which the intracellular activity of host cells is controlled. In the proliferation of the RNA virus, the RNA is generated as it is or the mRNA transcribed from the RNA is transcribed, and the viral protein and the viral RNA are synthesized.

With regard to the classification of viruses, A. rope's classification in 1962 is most widely used. First, the virus is largely divided according to physicochemical properties, and subdivisions of the virus species are performed serologically. The major traits that are the indicator of classification are as follows. (1) the form of nucleic acid (2) the construction (construction) of capsid (3) presence or absence of envelope (4) ether sensitivity.

[DNA virus]

(One). Parvovirus (Parvovirus): Single-stranded DNA, 20 nm in diameter, 32 capsids, no envelopes, and is ether resistant.

(2). Papovavirus (with Papovavirus): Annular double-stranded DNA, 45-50 nm in diameter, 42-72 capsaicin. There is no envelope and ether resistance. It has the property of making tumors.

(3). Adenovirus (with Adenovirus): Double helix DNA, 70-90 nm in diameter, 252 capsomies. There is no envelope with a sieve, and ether resistance.

(4). Herpesvirus (with Herpesvirus): double helix DNA, 100 nm in diameter, 162 caposomes. It forms a nucleoside of nucleotides, has an envelope and is ether-sensitive.

(5). Fox virus (with Poxvirus): a brick-shaped virus of about 200 × 300 nm. Double stranded DNA, enveloped in double envelopes and large. It is the only virus that proliferates in the host plasma, and it is typical of viruses such as pox, vaccine.

[RNA viruses]

(One). Picornavirus (with Picornavirus): single-stranded RNA, 20 to 30 nm in diameter, 32 capsomes. There is no envelope and ether resistance.

(2). Reovirus (with Reovirus): double helix RNA, 60-80 nm in diameter. There is no envelope and ether resistance. Capsumier is a double, but the number is not clear. Infantile diarrhea virus is a typical example.

(3). Togavirus (with Togavirus): single stranded RNA, 40-70 nm in diameter, 32 capsomes. There is an envelope and an ether sensitivity. Many are arthropod mediators, and yellow fever virus and rubella virus are typical.

(4). Arena virus (with Arenavirus): single chain RNA, diameter 50-300 nm. There is an envelope and an ether sensitivity. And contains electron-impermeable particles.

(5). Coronavirus (Coronavirus): Single-stranded RNA, wrapped in a rod-shaped capsid with a diameter of 7-9 nm, with a diameter of 80-130 nm. The envelope is shaped like a corona of the sun with a petal-shaped projection. It has been separated from the people's upper road (上 气 道).

(6). Retrovirus (Retrovirus): Single stranded RNA, about 109 nm in diameter. There is an envelope and is ether sensitive. Includes swelling virus in this section. In addition to RNA, it contains a small amount of DNA and enzymes.

(7). Field virus (with Bunyavirus): single stranded RNA, 90-100 nm in diameter. It has an envelope, and is highly susceptible to ether and heat. Arthropod-mediated virus.

(8). Orthomyxovirus: Single-stranded RNA, cylindrical nucleocapsid has a diameter of 6-9 nm. The envelope has a diameter of 80 to 120 nm and is spherical or thread-like.

(9). Paramyxovirus (with Paramyxovirus): a single-chain RNA, slightly larger than orthomycin virus. Diameter 150 to 300 nm. The nucleocapsid is cylindrical with 18nm and measles virus and RS virus are representative.

(10). Rabdovirus (with Rhabdovirus): single stranded RNA, bullet shape with a diameter of about 70 nm. The envelope is about 175nm in length and is representative of rabies virus and bovine stomatitis virus.

The diseases caused by viruses are as follows.

The virus is the smallest infectious factor, and there are many kinds and diseases caused by the infection. In medicine, viruses are largely divided into animal viruses, plant viruses, and bacterial viruses depending on the host infected. Although animal viruses are known to form tumors in animals other than humans, it has been confirmed that they cause many infectious diseases in humans, and no tumor has been found. When viewed in relation to a person, the virus can selectively cause disease to the host, organ, or tissue of the host. For example, when infected with the Japanese encephalitis virus, most people do not develop (inapparent infection), and even if the infection develops, they become mild, and very few people become severe (incurable infection). This is a prominent example of the selection of a virus for an individual, while some viruses, such as influenza, cause almost 100% of infections. Next, we describe virus preference for organ or tissue. ① Virus which invades well of organ of respiratory apparatus: Rhinovirus, adenovirus, coronavirus, cockskirus virus cause rhinitis, pharyngitis, bronchitis, pneumonia. ② Viral virus that penetrates well into the central nervous system: Polio virus (epidemic polio virus), adenovirus, measles virus, Japanese encephalitis virus, rabies virus, etc., and it causes acute whiplash (acute asphyxia), meningitis, encephalitis, rabies . ③ The virus that invades the eye: Adenovirus type 8 or enterovirus type 70, causing epidemic keratoconjunctivitis or acute hemorrhagic conjunctivitis. ④ Viruses that invade the organs of the digestive system: Coxsackie A and B viruses, or simple herpes viruses cause stomatitis, and rotaviruses and caries viruses cause diarrhea in infants. ⑤ Virus causing a famous lesion on the skin: As a disease name, there are measles, rubella, chicken pox, etc., and all the viruses named in the name of the disease are the pathogen. On the other hand, in terms of onset and progression, if the virus is classified as a disease, it can be divided into acute infectious disease, persistent infectious disease, and spontaneous infectious disease. Acute Infections: Measles, chickenpox, polio (polio), influenza, etc. These diseases are clinically distinctive, and hospital viruses are followed by pathogens and diseases one by one. However, among acute infections, there are rhinoviruses and coronaviruses that cause clinical symptoms called nose colds. There are many viruses that cause diarrhea in infants, such as rotavirus, carisivirus and astrovirus. . ② Persistent Infectious Disease: In acute infectious disease, the hospital virus usually disappears in the body when symptoms recover. However, this may remain in a part of the body and sometimes recur. For example, when herpes simplex virus infects a baby, symptoms may not occur, and when the resistance of the host declines, blurred herpes may develop. This is because the virus was latent on the trigeminal ganglion (三叉 神經 節) and it proves the virus in the fluids. This is called persistent infection. ③ Spastic infectious disease: It develops after a long incubation period of several months to several years, takes a natural (delayed) course, and is a bad prognosis. Examples are subacute curing encephalitis or progressive polyglossic encephalopathy. On the other hand, the pathway of viral infection includes not only infectious diseases such as germs and rickettsia, but also droplet infections, contact infections and insect-mediated infections, as well as intrauterine infection and light placenta infections (hepatitis B virus) There is an infection (site megalovirus). From the therapeutic and prophylactic aspects of viral infections, there is no antiviral agent that is effective against antibiotics against bacteria or rickettsia virus, and it is effective when an immunoglobulin preparation is used early in the incubation period. However, recently, the antiviral action of interferon has been attracting attention. Therefore, prevention of viral infections by vaccines (epidemics, measles, measles, rubella, mumps, Japanese encephalitis, influenza, etc.) is the best measure. As treatment after the onset, treatment for symptom therapy and prevention of complications is only performed.

The genetics of viruses can be summarized as follows.

(One). The solubility (solubility) and solubility (solubility)

Escherichia coli infected by phage (bacteriophage or bacterial virus) releases phage, which is caused by the newly synthesized enzyme partially lysing the cell wall and lysing the host. Lung is a phenomenon in which cells are melted by the action of enzymes. Experimentally, when a bacterial colony occurs on a colony of bacteria on an agar medium, it appears as a round, transparent spot (lytic plaque) in the area. The shape and size of these spots are characterized by the genetic quality phenotype of the phage. However, the phage DNA that enters the host may be fixed to a certain part of the host DNA without being subjected to such a lysis process, and may be replicated as it is, and may be in parallel with the cell division of the host. At this time, the original phage DNA is referred to as a protease, and the host is referred to as a plasmid. This dragon has the potential to produce virions (infectious viral particles) that are passed on to offspring. Upon activation of this potential capability, the prophage is liberated from the cell and activated, so that the host is lysed. The virion thus released infects a homologous bacterium without protease and converts the bacterium into a lectin or a lytic bacterium. Thus, the combination of phage's dragon, dragon, and trigger can be explained genetically.

(2). Mutation

There are cases in which a mutation occurs in the gene of a virus related to the disk or the host range or the temperature susceptibility of the host (mutant strain) (the original virus line is called a wild strain).

For example, r-type bacteria appearing in T- ₄ strain, which is one of the T-pathogens having E. coli as a host, have a size different from that of wild-type bacteria. This is caused by the mutation of three other genes in the T ₄ phage, and the appearance of r-type differs depending on the strain of E. coli. The wild-type T ₂ phage does not lyse any strain of Escherichia coli, but mutant T _2h produces a sputum. The other variant T _2hr differs from T _2h . If T _2hr and T ₂ (T _2h - _r - in the comparison notation with the mutant) double infect (double infection), the newly formed phage will have the same ratio of T _2h and T _2r in addition to the maternal phage. This is presumed to be due to fragmentation (recombination) of the parent DNA. Studies of this T-wave have made it possible to understand the fundamental problems of biology, such as the mechanism of mutation, the genetic code, or the relationship between genes and protein structures.

The following are the genetic indices of animal viruses.

Interference factors (interferon IF), antibodies, etc., which are important when an animal virus infects a host, are known. Interferon is a protein containing sugar, and in the case of middle infection, it has the function of inhibiting the proliferation of one side virus. Antibodies are produced by viral proteins as antigens, and they act to prevent the following virus from adsorbing or multiplying. Thus, antigenicity, interferon susceptibility, proliferative capacity, pathogenicity, host strain, etc., are important as a genetic indicator of animal viruses. Influenza viruses are divided into A, B, and C types by S antigen (nuclear protein), and A type has A · A ₁ · A ₂ · A ₃ according to V antigen (glycoprotein) The easy thing is that the genetic properties of viruses change.

Conventional sterilization and antimicrobial substances contain harmful components in the human body, making it difficult to commercialize them, and even if they are composed of substances harmless to the human body, they are often difficult to apply because of their antibacterial ability. Even if the effect is somewhat small, the effect is only partially exerted on some bacteria, and the versatility often deteriorates.

[Patent Document 1] Korean Published Patent Application No. 10-2016-0107611 (May 19, 2016) [Patent Document 2] Korean Published Patent Application No. 10-2012-0033535 (2012. 04. 09.)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a mixed composition capable of mass production at low cost and being harmless to the human body and effectively killing bacteria and viruses.

By using environmentally friendly substances, bacteria and viruses are killed, and there is no harmful effect on the human body, and the sterilizing effect is good, and the rescue time is shortened.

Utilizing environmentally friendly substances, we use mixed compositions composed of "Chojangseok, serisite, pyrophyllite" to kill bacteria and viruses. A mixed composition composed of "Chojangseok, serisite, pyrophyllite" has excellent sterilizing effect and can effectively kill bacteria and viruses.

When the mixed composition prepared by the above-described method is used, the external walls of the bacteria and viruses, which cause various diseases, are destroyed in a short time and fatal damage is caused to the genes (DNA, RNA), thereby performing the functions of eradicating bacteria and viruses.

In other words, bacteria and viruses can be sterilized and blocked with high relief efficiency. It also has the advantage of mass production at low prices.

The "environment-friendly sterilizing and disinfecting mixed composition" according to the present invention is composed of "Chojangseok, serisite, pyrophyllite ".

This will be described in detail as follows.

Albite (曺 长 石) is a mineral belonging to a trilobite crystal structure with the same crystal structure as plagioclase. Its color is colorless transparent or white translucent. Streak color is white and glassy. It is used as a raw material for ceramics, but it is rarely used because mass production is rare. It is also called fusoda feldspar. It is a type of feldspar, which forms the end component of pomegranate pomegranate together with the chairman seat. The chemical component is sodium feldspar NaAlSi3O8. It is a plate or columnar crystal, usually composed of repeating twins. It is sometimes granular, leaf-like, or lumpy. Hardness 6, specific gravity 2.6 to 2.7. It is colorless transparent or translucent white. The cleavage is perfect in the [001] [010] plane. The streak color is white and has glass shine. It has a stable single slope at 950 ℃ or higher, a stable high temperature type slab at 700 ~ 950 ℃ and a stable low temperature type slab below 700 ℃. However, if the feldspathic feldspar is cooled, it must be transformed into a high-temperature type or low-temperature type feldspar. It is a major rock mineral of various igneous and metamorphic rocks. Chojangseok is used as a raw material for ceramics, but it is rarely used because it is rarely produced in large quantities.

The term sericite is derived from the Greek word silk. It belongs to monoclinic system and has a white or grayish white pearl luster. Originally referred to as the main component minerals of crystalline schist, especially sericite schist, today refers to fine clay mined muscovite due to hydrothermal action. Chemical composition is almost the same as muscovite, but potassium K is generally less than muscovite and water H2O is somewhat higher. It is the most common constituent minerals of phyllite-bearing slate or phyllite, which is produced as a secondary alteration such as feldspar, cordierite and red pillar. Pottery is caused by alteration of volcanic rocks, consisting of quartz (70%) and sericite (30%). The sericite is used as a mixture of ceramics and refractory bricks, and there are various applications such as paints, electric insulators, lubricants and cosmetics.

Pyrophyllite is an orthorhombic mineral, also known as leaf lobster. Hardness 1 ~ 2, specific gravity 2.8 ~ 2.9, crystalline ones are silvery white, massive ones are white, occasionally gray, grayish yellow, tan, green etc. Important and beautiful as a refractory material is used as a craft, especially as a coating. It is also called leaf lobster. The chemical composition is Al2Si4O10 (OH) 2. It shows leaf-shaped crystals, usually in granular or dense massive form, sometimes in radial form. On the leaf, there is a complete cleavage on the underside, and there is a bending. Hardness 1 ~ 2, specific gravity 2.8 ~ 2.9. It has a sense of touch. Crystals are silver-white with pearl luster, massive ones are white, occasionally gray, grayish yellow, yellowish brown, green, etc., and gloss is dull. It forms a pulsatile or massive mass in acidified igneous rocks and is produced along with quartz veins. It is also called agalmatolite or stone stone. It is important as a refractory material (refractory material), and beautiful is used as a craft, especially as a stamp.

The composition ratio of the " environment-friendly sterilizing and disinfecting mixed composition "according to the present invention is shown in Table 1.

The above composition ratio is a result of finding the most suitable golden ratio through experiments.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

[Example]

^On the paper of 1 cm ² , the "mixed composition for environmental sterilization and disinfection" according to the present invention was applied to a thickness of 0.5 mm, and about 100,000 cells of Staphylococcus aureus were put into it, and the results as shown in Table 2 were obtained.

Claims (1)

And is composed of 48 wt% to 52 wt% of albite of 20 nm size, 29 wt% to 31 wt% of sericite of 40 nm size, and 19 wt% to 21 wt% of pyrophyllite of 80 nm size Wherein the composition is sterilized.