KR200383982Y1 - antibiosis powdered milk cask - Google Patents

Abstract

The present invention relates to an antimicrobial milk powder container 10 that can store powdered contents, such as powdered milk or baby food,

Nano silver 120 is injected into the material of the milk powder container 10 made of plastic resin, synthetic resin paper, or metal, thereby producing antibacterial and detoxifying effects, generating silver ions and far infrared rays, and having a UV blocking function. It is about.

Bacteria are the most lurking in the reach of many people, most people do not know this fact, milk powder (10) that is in contact with a lot of unusual or mother's hands are always exposed to the risk of bacteria.

The present invention relates to an antimicrobial milk powder containing nano silver (120) (10) and to the nano silver (120) powder (Nano silver) or colloidal silver (Colloidal Silver) that is a silver solution (Ag) of the milk powder (10) Body silver nano (120) is formulated to sterilize bacteria and pathogens, microorganisms to use a clean, safe and clean powdered milk bottle (10) has a purpose that is effective in health and health of infants with weak immunity.

Description

Antibiosis powdered milk cask}

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 The present invention relates to the antimicrobial milk powder 10 or the baby food container into which the nano silver (120) material is added as described above, in which the nanosilver material is injected into the milk powder container 10 to sterilize and detoxify the milk powder container 10. In recent years, due to the development of industrialization and the increase of double-working couples, the feeding rate of mother's milk has dropped sharply, and most milk powder and baby food made from cow's milk instead of mother's milk are used.

     Once the milk powder bottle 10 is purchased, it will be different depending on the amount of infant's intake, but most people will eat 10 days and open the vacuum-packed milk bottle 10 and contaminate the dust or moisture bacteria quickly in the surrounding environment. When infants are fed with formula or baby food, infants with weak immunity and defense against bacteria or fungi often have high fever and abdominal pain and enteritis diarrhea.

       The powdered milk container 10 containing the nano silver 120 of the present application is put into the powdered milk container 10 without the physical or electrical sterilization or cleaning of the surroundings, so that the economical and powerful sterilization nano silver whose sterilization and sustainability are unpredictable Containing the (120) material, when the nano-silver material is administered to the material of the milk powder 10 can be continuously obtained the following excellent benefits.

   Nano silver 120 is harmless to the human body and has a sterilizing power and antibacterial reverse detoxification station several times stronger than chlorine series.

If so, look at the features of the powder formula (10) containing nano silver (120)

1: Nano-silver is said to have superior antibacterial, bactericidal, deodorant and detoxification functions.

 2: It reacts sensitively according to the pollution level of the surrounding environment

It strongly binds with SH, COOH, OH, etc. of bacteria and destroys the cell membrane of bacteria or disturbs the function of cells and shows continuous antiseptic action.

 Recent research shows that 650 kinds of bacteria and viruses can be sterilized, and it is excellent in inhibiting reproduction and antiseptic function against harmful bacteria, fungi, athlete's foot, and allergic bacteria. By catalysis, oxygen is converted into active oxygen O₂- O₂ + O, which prevents the growth of bacteria that propagate by bactericidal action.

  3: There is an antistatic function. Nanosilver has excellent electrical conductivity and plays an important role in preventing static electricity.

  4: The nano silver 120 is very easy to coat, mix, and feed with materials, and is fused with metal or plastic resin.

  5: In addition, silver ions and far-infrared rays which are good for the body are generated and fast color reaction is discolored according to the user's health condition. The powdered milk container 10 of the present invention becomes the user's health check point, especially in case of milk powder contamination. Will appear.

The present invention is to solve the conventional problems as described above, the present invention is a silver nano-powder or silver (AG) solution of a different technology than the general silver ions in the milk powder (10) or the metal material of the baby food container In order to prepare a powdered milk container 10 having antimicrobial function, bactericidal function, deodorant effect and silver ion spinning function, by mixing or coating nano silver 120 on 0.01 to 10% by weight in synthetic resin and paper.

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The present invention is prepared by putting nano silver powder (Colloidal Silver), that is, silver solution (AG) and natural fragrances, which have strong antibacterial and bactericidal substances, into the body of the milk powder (10). In order to help understand as a related description of the silver and nano silver 120 of the material of the present invention in detail as follows. Detailed description of the silver and nano silver (120) as a constituent of the present invention in order to help understanding of the present invention is as follows. Nanotechnology is a technology that identifies and controls substances at the molecular and atomic levels.It comes from the Greek word dwarf, lanose, and 1 nanometer 'corresponds to one-tenth of the thickness of the hair. It is manufactured from chemical decomposition methods or nanoparticles of silver solution (colloid), which is widely used in the industrial field. Silver, the main component of nano silver (120), has been used since ancient times like gold. It has been recognized as a high-value precious metal and has been the object of collection. It is not only valued as a currency but also gained attention as an important industrial material in modern industry, and the production of silver is proportional to the production of gold. Silver was mined early in Europe's Mediterranean coast, where silver was produced from the Incas and Aztecs before the discovery of the Americas, and then silver from Peru and Bolivia entered Europe and flowed out from 1520 to 1800. It has grown steadily, but has declined since the discovery of large amounts of silver in the early 19th century. Currently, the world's major silver producers are Russia (13.8%), Canada (13.5%), Mexico (13%), Peru (13%), United States (11%), Australia (8%), Poland (6%). The country's silver reserves are 17 million tons, and its mining capacity is about 1.2 million tons. As of 2002, silver produced in Korea is about 5,000 kg, which accounts for 1.2% of the total domestic demand. As a result, the remaining silver is imported from foreign countries. The characteristics of silver: The color of silver is gray for elegant gray-white metal or powder, with specific gravity of 10 to 12, Mohs hardness of 2.5 to 3, and melting. (80) is 960.5 degreeC. In particular, the melting point of silver is very important for the temperature compensation of high thermometers, which is the standard of scientific and industrial temperature. Silver is the best conductor of metal and is used extensively for mechanical contacts and other electronics. Silver is optically 90% of visible light, which is one of the best metals such as platinum, and silver does not rust even when left in the air or heated. However, silver reacts with sulfur and hydrogen to make emulsified silver. There is a changing nature. In addition, the mechanical properties change according to the amount of impurities (O₂) contained in the silver, and the hardness of the high-purity silver obtained by thermal annealing is Brinell hardness HBS (10/500) 25-27, tensile strength 12-16kgf / mm2. The cast material had a tensile strength of up to about 29 kgf / mm 2 and a recrystallization temperature of 150 ° C. In particular, in the case of pure silver, the processed hardened material is softened by recrystallization at normal room temperature and softened softly. The malleability and flexibility are rich after gold. The effect of silver has been used as a tool to check the imbalance of the body that one cannot feel because the gloss or color changes depending on the condition of the body when worn on the body from ancient times. This fatigue or low rhythm), Dongbobogam said that it is effective in the prevention and treatment of mental disorders and women's diseases such as epilepsy and game. The five chapters are said to be comfortable, the mind and body are stabilized, and the main body records that the body is lengthened by chasing morale and lightening the body. Also, when the Black Plague prevailed in the Middle Ages, nobility of the black aristocrats and royals, who had many silverware and silver utensils, did not have black plague, which released silver to the extent that it was able to sterilize the Black Plague bacteria, making it relatively safe from infectious diseases. In order to help the understanding of nano silver (120), a brief description of nano silver (120) extraction method and features is provided in the present invention. The atomic weight of silver is 107.87 amu, and it has been known for a long time that silver (Ag) has bactericidal power. Nano silver (120) was first developed by a biotechnology company, a government-affiliated organization in our country, and was named nano silver (120) as a compound name of the brand name Na no-technology and silver. ; Nano silver (120) is a field of Na no-technology (nano technology) is an advanced antimicrobial agent using the mechanism of strong antibacterial and sterilization function, electromagnetic shielding excellent electrical conductivity. Nano silver (120) means that bacteria are not resistant, unlike traditional antibiotics. Nano silver (120) has been shown to kill almost all single cell germs on the ground in a short time. . Currently, a variety of products based on nano silver (120) consisting of powder and solution are designed and produced in real life, and this technology, called nano silver (120), uses silver (nanometer) in nanometers (1 billion won). It is a small particle size of 0.00m1mm, that is, one gram of silver can make 10 grains. Therefore, silver (Age) is made of ultra-fine particles and is aged. silver) is a new concept that is made by utilizing the excellent efficacy of antibacterial ability, deodorizing power and prolonging the preservation time of food among the many characteristics of silver. Since ancient times, silver has been recognized as a disinfecting material that not only prevents bacteria but also East and West. Currently, the extraction method of Nano silver (120) is added to distilled water (Age 99.9%). It generates low current at low temperature, electrolyzes compounds containing silver, and conducts electrophoresis using + and-poles of each molecule to collect silver (Age 99.9%). In addition, liquid reduction and grinding It can be manufactured by physical methods such as the above, and in order to obtain stable nano silver (120), many electrolysis methods are used. Silver ions are also used in general sterilization concept machines and disinfectants. Silver products are silver obtained by decomposition, and the sterilization power of silver varies depending on the product, but can obtain up to 99%. Nano silver (120) is a fine particle of 1 ~ 5nm silver, which acts directly on harmful bacteria, directly dissolves the cell membranes of harmful bacteria, and interferes with the electron transfer system of harmful bacteria, so it is sure and excellent antibacterial and bactericidal ( 99.9%) (The virus size is about 10 nm.) Nano silver 120's main antimicrobial mechanism is to dissolve harmful bacteria's cell membranes and interact with enzymes in the cells to induce the metabolism of nutrients. It kills harmful bacteria by blocking the growth and regeneration of harmful bacteria by blocking the respiratory function and production of harmful bacteria. In addition, since the nano silver 120 continuously releases antimicrobial power from the fine particles to control harmful bacteria, the antimicrobial and bactericidal function is excellent in persistence. Therefore, the nano silver 120 does not generate resistance and the nano silver 120 reacts with the surface. It is effective to kill all the germs 99%, and especially effective for the common E. coli or food poisoning. The smaller the nanoparticles, the better the bactericidal and antimicrobial activity. Based on the experimental data so far, Escherichia coli, Staphylococcus aureus, Salmonella, Vibrio bacillus, Heterogeneous bacteria, Pneumococcus, Typhoid bacillus and the most resistant MRSA Resistant Staphylococcus aureus) can be 99.9% antibacterial and sterilized. If silver is present in the ionic or metal state, but it is in the colloidal state by the solvent, it can be referred to as colloidal silver. Minimizing the particles in nano silver 120 One nano silver 120 has the best antibacterial activity. In addition, unlike the general chemical antimicrobial agent or chlorine disinfectant nano silver (120) is a pure silver ultra fine particles, has excellent antibacterial, antibacterial (99.9%) even at high temperature, non-toxic, non-irritating to the human body and bacteria or E. coli virus fungus It has been reported that bacteria cannot live in contact with the nano silver 120 for more than 5 minutes. The powdered milk container 10 according to the present invention includes a main body capable of storing powder contents and an upper side opening of the main body. An opening and closing lid configured to open and close the portion 20 is integrally formed, and the measuring spoon 60 has a circumferential surface 80 of the opening portion 20 of the main body at the end portion side of the handle extending from the head portion to the rear side. It characterized in that it comprises a hook-shaped hook portion that can be hooked along.

Briefly describing the antimicrobial milk container 10 of the present invention for achieving the above object;

 1 is a perspective view of the antimicrobial milk container 10 of the present invention, which shows the milk bottle 10 consisting of an opening portion 20, an opening and closing lid, a built-in measuring spoon 60, and a circumferential surface 80 and a lower portion 100. As shown.

Figure 2 is a manufacturing block diagram of the antimicrobial milk powder container 10 of the present invention, first look at the formulation of the powdered milk container 10 or the baby food container made of a material of metal or synthetic resin paper and softened and softened the entire milk powder container 10 0.01 to 10% by weight of the nano-silver (120) to the weight may be injected by stirring after stirring or forming a coating or coating and coating film, if so, the powder formula containing nano silver (120) in the present application ( The preferred plating or coating of 10) will be described in detail as follows. FIG. 2 is a block diagram of the mixing process of the powdered milk container 10 containing the nano silver 120 of the present invention. The metal is melted and melted by heating, and then the nano silver 120 is added to the stirring module 160 and then into the forming module 210. , 0,01 to 10% by weight of the nano silver 120 in the milk powder container 10 made of paper, plastic resin material, the particle size of the nano silver 120 has a particle size of 0.05 to 300nm and PPM It is shown in the figure of the block diagram that the injection molding by molding or coating the nano silver per 100g to the weight of the milk powder 10 in units of 0.01 to 10PPM per 100g by weight. The present invention follows a conventional plating method, and many types and methods of plating cannot be listed. Coating or plating is generally divided into electroplating and electroless plating. Silver plating requires a solution containing silver ions, and gold plating requires a solution containing gold nano ions. When the electrode is placed in a solution containing metal ions and a current is applied, metal ions are discharged and precipitated at the cathode, which is used to form a thin film of metal on the surface of the article placed on the cathode. Although the purpose of plating is to finish the product beautifully, to increase the corrosion resistance, to resist the wear, and to obtain other necessary surface properties, the present invention is intended for the formula containing a milk powder or baby food for infants with weak immunity. ) To increase the antimicrobial activity. The general sequence of electroplating in the present application is to first plate the surface of the metal with copper and to nickel the second time so that the nano silver plating is well coated. This process may be omitted if necessary, and finally, the nano silver 120 is plated. Do it. The nano silver 120 is used as the cathode and the metal to be electrodeposited is used as the anode. The nano silver 120 is placed in an electrolyte containing ions of the metal to be electrodeposited. Will stick to the surface. Looking at the process of plating the powdered milk container (10) nano silver (120), after washing and rinsing off the impurities in the body of the finished powdered milk container (10) after the polishing process with abrasion (麻布) and washed again with water (洗滌) to immerse in the plating solution.Place the milk powder container (10) in the container holding the milk powder container (10) to be plated with Nano silver in the plating tank, and connect the milk powder container (10) to the + side and -pole side Is connected to the solidified nano-silver plate to inject the formula (10) and the nano-silver solution (120) containing the nano-silver (120) ions, and flowing the direct current to the +,-pole and slowly the formula (10) The nano silver coating becomes a nano silver coating, and the coated or plated nano silver powder container 10 is subjected to a washing process once again and dried to inject and package contents after completion. Of- The pole is equipped with an object to be plated (milk bottle), and the silver pole is attached with a nano silver plate to remove silver cations and anions, where the electron goes to the negative pole (10), and of course, the nano silver ion in the aqueous solution. There is a-When the electrons come to the electrode (Nano silver) ions in the aqueous solution around the formula (10) is attached to the nano silver (Nano silver) wet plating. The coating thickness of the nano silver wet plating is coated with a thickness of 0.0l μm to 50 μm (micrometer), and the nano silver 120 is present in a weight ratio of 0.01 to 10 wt% in the entire milk powder container 10. The particle size of the 0.05 to 300nm to the particle size of the milk powder canister (10) in the PPM unit to the nano silver 120 per 100g to be plated with a PPM content ratio of 0.01 to 10PPM. In addition, the embodiment of the nano-silver plating is characterized in that it follows the conventional plating method and used the plating material as the nano silver 120 material aging. The following is a block diagram of the nano silver plasma coating process, which is a dry plating method of the powdered milk container 10 containing the nano silver 120 of the present invention, as follows. Plasma has a negative charge at a high temperature. A gaseous state separated by electrons and positively charged ions, which has a high degree of charge separation but is neutral due to the same number of negative and positive charges. Since the long-acting Coulomb force acts between charges, it is characterized by the collective action of the whole moving under the influence of the distant state rather than the local state of the short distance. In 1928, I. Langmuer, USA, first applied the concept of plasma to ionized gases produced during electrical discharges. Plasma is derived from the Greek words πλσμα, -ατos, τ, and its original meaning is that it is built and assembled, and as the characteristics of group behavior suggest, it actually deals with plasma. There is a view that Plasma itself is usually behaving arbitrarily rather than easily controlled from the outside, and that the original name is wrong.So, Plasma is the fourth to be followed by solid, liquid, and gas (three states of matter). As the temperature increases, almost all objects change from solid to liquid and gas, and at tens of thousands of degrees, the gas separates into electrons and nuclei, resulting in a plasma state. Plasma is not common in everyday life, but it is common throughout the universe, because 99% of the universe is estimated to be plasma, for example conducting gases, rockets, or lightning fills that carry currents in fluorescent lamps. There are ionized gases mixed in the gas, aurora borealis in the Arctic, ionospheric layers in the atmosphere, and the ions are trapped in the Earth's magnetic field when out of the atmosphere. Plasma is present in the van allenic zone, solar winds intermittently pouring from the sun, and the hydrogen gas filling the space between the stars and the surrounding gas and the space between the stars is in the plasma state. Each object that makes up the plasma has an electrical characteristic, which is very different from the neutral gas, has a large electrical conductivity, and is limited to the surface of the electric current like a metal conductor, and rarely flows inside. When it is applied, it is easily affected by the force as the electric charge, but as the charge density increases, the group motion differs from the individual motion, and the self-closing charge required by nuclear fusion follows the magnetic field line. Plasma by deforming the magnetic field lines appropriately and confining them to a place in the space. To confine Plasma there. In the past, plasma research has been conducted in geophysics and astrophysics related to plasma around the earth and celestial bodies, but recently, the development of electromagnetic fluid dynamics (MHD) using the electrical properties of plasma, ion engines of space travel rockets, Research is underway for nuclear fusion research, and it has been a long time since the Department of Plasma was established in the science and engineering fields of Korean universities. As such, the high temperature and active chemical properties of plasma provide extreme environments that are difficult to obtain by conventional methods, and can be used to give new physical and chemical properties different from the main body by changing the properties of new materials, metals or polymers. For example, diamond is an important material not only for jewelry but also for industry because of its high hardness, thermal conductivity, refractive index, and large band gap. The high temperature and high pressure method developed by the company has been mainly used, but it was found in the early 80s that diamonds could be obtained in the form of a thin film at low pressure from methane gas plasma in the Soviet Union. New application areas are actively being explored. In addition, it can be made by a dry method through a wear-resistant coating of a tool, a decorative coating, a reactive ion plating or a sputtering method used as a diffusion barrier at a contact point in the manufacture of a semiconductor device. In addition, if the surface of the polymer is treated with nitrogen or oxygen plasma, it can give hydrophilicity or hydrophobicity to the surface of the polymer, or it can improve antistatic, dichroic, deep color, etc. When contacted with a plasma and biased, a nitride or carburized layer is formed on the surface to improve the hardness, wear resistance, and corrosion resistance of the metal. Some of the effects that can be obtained as a surface coating and modification technique using plasma can be obtained by conventional wet plating or coating methods, but in consideration of environmental problems, a dry method using plasma has many advantages. By applying thermal plasma, plasma welding, cutting, processing of materials using high temperature of plasma and plasma can be sprayed. High melting point powder is melted by plasma and coated on solid surface , Corrosion resistance and wear resistance can be greatly increased. In addition, ultra-fine particles can be manufactured and the particles synthesized using high temperature and high activity of thermal plasma are quenched and synthesized into ultra-fine particles to deposit plasma chemically or physically and to produce a functional film using plasma. The high temperature, high activity of the thermal plasma allows the waste to be decomposed and vitrified.As such, the plasma coating injects argon and other gases into the vacuum chamber and then causes an electrical discharge to ionize the gases introduced into the chamber. At this time, the ionized gas collides with the nano silver target (nano silver plate), and nano silver (120) atoms are protruded in the gas state and plated on the plated body (powder distribution box). The thickness can be controlled. Next, using the plasma of the present invention Briefly described with reference to the coating process of the distributor 10 is as follows. In order to wash foreign substances on the surface of the finished milk powder container 10, the milk powder container 10 is put into the washing container and the cleaning solution is injected to remove impurities attached in the manufacturing process of the powdered milk container 10, which is a metal ash, by using a washer. After the washing process, the rinsing process, and drying in the dryer to evaporate water, the milk powder container 10 is attached to the chamber while attached to the holder, and the milk powder container 10 is sterilized inside or outside with oxygen plasma under vacuum. After the process, the first nano silver surface coating process is performed. Next, the plasma sterilization process and the nano silver (120) first surface processing operation are performed, and then the surface adhesion of the powdered milk container (10) coated with nano silver is performed. Plasma secondary surface finishing and reinforcement treatments are performed to improve and increase the strength of the milk shaker 10. Next, vacuum machinron stuffing plasma is also applied. In the plasma plating or coating of the nano silver 120 finally by the gold method, the plasma plating coating thickness is completed by coating with plasma to the desired thickness of 0.01 μm to 50 μm (micrometer) or the milk powder 10 Nano silver (120) ash to the metal material of 0.01% to 10% by weight relative to the total weight of the milk powder container 10 and the remaining metal material, milk powder container 10 is 20 to 99% by weight of stainless steel, iron 10 To 99% by weight, 10 to 99% by weight, or 0.01 to 10% by weight of gold or gold nano, 0.01 to 10% by weight of zinc, or 0.01 to 10% by weight of platinum or platinum nano It is also possible to formulate or coat (120) and mix the nano silver per 100 g in a PPM content ratio of 0.01 to 10PPM to the weight of the powdered milk container 10 in units of PPM. It is also possible to mix or coat the material of the milk powder container 10 made of plastic, synthetic resin, or ceramic material. Thus, the milk powder container 10 compounded or coated with nano silver 120 is completed and distributed after packaging to be hygienic. Those skilled in the art should understand that the combination, coating, or plating method of the nano silver 120 follows a conventional mixing, plating, and coating process of the milk powder container 10.

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  The present invention, as described above, after making a powder or silver (Ag) solution in the form of nano-silver, a technology completely different from the general silver ions, the nano-silver in a milk powder container 10 or a baby food container made of plastic or synthetic resin, paper, or metal It is an object to prepare a functional milk powder (10) having antibacterial function, sterilization function and deodorizing effect and fragrance diverging effect far infrared rays and silver ion radiation by blending or coating in a weight ratio of 0.01 to 10% by weight.

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[Example]

Applicant was able to know the schematic process of the milk powder container 10 and could not manufacture the milk powder container 10 directly. In order to experiment with this, the applicant purchased a silver ion generator that generates silver ions stably with high purity. Prepare 20 ppm pure silver ion water solution obtained by electrolyzing the rod with D / C current, and mix the aroma scent purchased from Samhwa fragrance to 10 ppm, and then add the silver nano solution to 20 liters of water in the sterilized tank. Contaminated milk shaker (10) and baby food shaker, which are made of metal with high standard value range, were deposited for 10 minutes each to deposit silver ions, and then dried in a dryer for 30 minutes, before and after silver solution treatment. The average value obtained from the measurement is briefly shown in the analysis table below. After confirming the applicability, the present application was completed.

    The present invention has a functional powder bottle 10 for sterilization and antibacterial function and microbial removal of the powder bottle 10 by adding or coating nano silver 120 to the powder bottle 10 made of paper, synthetic resin, or metal ash. It is characteristic in that it is.

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 As described above, the present invention is made of nano silver powder 120 or silver (Ag) solution having many advantages as described above. 10) and the powder or nano silver solution (120) in the baby food container is formulated or coated in the body and lid of the milk powder container 10 and the baby food container at 0.01 to 10% by weight relative to the weight of the milk powder container 10 and the baby food container. The present invention relates to an antimicrobial milk powder, characterized in that it is formulated or coated on the surface of a milk powder container (10) and a baby food container in a weight ratio of 0.01 to 10 PPM per 100 g in the whole milk powder container during the manufacturing process or the final process of the milk powder. Milk bottle 10 and easy to create and propagate pathogens and microorganisms nano silver (120) can be used cleanly and hygienically with antiseptic power.

In the above description of the embodiments or preferred embodiments of the present invention

Those skilled in the art to which the present invention pertains will understand that the present invention can be variously modified or modified without departing from the spirit and scope of the present invention as described in the claims and the scope of the patent.

test subject unit Strain Nano silver addition 5% (after 10 minutes) General bacteria CFU / mL 3.4 X 10 ³ 0 Escherichia coli CFU / mL 3.1 X 10 ³ 0 Fungus CFU / mL 3.3 X 10 ² 0

(This test report is an analysis data of Korea Chemical Laboratory in August 2004)

1 is a perspective view of the antimicrobial milk bottle of the present invention.

Figure 2 is a block diagram of the antimicrobial milk bottle of the present invention.

* Description of Major Symbols in Drawings *

   10: milk powder 20: opening

   40: opening and shutting lid 60: measuring spoon

   80: circumferential surface 100: lower

   120: nano silver 200: manufacturing process 1

   210: manufacturing process 2

Claims (2)

In the powdered milk container 10 and the baby food container made of plastic, paper, or metal, the solution or powder of the nano silver 120 is 0.01 to 10% by weight based on the weight of the milk powder container 10 and the baby food container. An antibacterial milk powder, characterized in that it is formulated or coated on the body and lid of the barrel. Antimicrobial milk bottle, characterized in that the formula or coating on the surface of the milk powder container (10) and the baby food container in a weight ratio of 0.01 to 10PPM per 100g in the whole milk powder container during the manufacturing process or final process of the milk powder container.