KR200384886Y1 - Nano silver and perfume contain - Google Patents

Abstract

The present invention relates to a container (10) for storing a cosmetic container (10) applied to the face or body made of vegetable or animal raw materials for the protection and moisturizing of the skin as a make-up or external factors for a person to be beautiful, especially nano silver ( 40) and the cosmetic container 10 by using the fragrance agent 60 to prevent the corruption and deterioration of the cosmetic container 10, sterilize the bacteria propagating to the outside in the container 10, silver ions and far-infrared rays good for the body The present invention relates to a cosmetic container (10) containing nano silver (40) and a fragrance agent (60) for releasing fluoride, and to nano silver (40) powder or colloidal silver The nano solution (Ag) is formulated (180) during the manufacture of the cosmetic container (10) to greatly extend the shelf life of cosmetics, sterilize bacteria, pathogens, and microorganisms that cause deterioration and rot of cosmetic compositions and The purpose with the spinning of nano ions and far infrared effect on your health and cosmetic further enhance public health and hygiene.

Description

Cosmetic Container {Nano silver and perfume contain}

The present invention relates to a cosmetic container 10 made of a lipstick, mascara, twin cake, skin, lotion, essence, body oil, cream containing plastic, synthetic resin, vinyl, metal, ceramic, in particular to the material of the container 10 The present invention relates to a functional cosmetic container 10 capable of antibacterial and far-infrared radiation of cosmetics by injecting nano silver 40 and fragrance 60.

Generally used cosmetic container 10 is divided into a container 10 body and a lid.

The body of the cosmetic container 10 configured as described above is molded using glass as a main material, and has been produced in various forms.

The present invention relates to a cosmetic container 10, and more particularly, a coating method and a cosmetic container of the cosmetic container 10 to have a sterilizing function in the container 10 used to store the cosmetic container 10 ( 10).

In general, cosmetics include lotions, skins, lipsticks, retinol, foundations, mascaras, compacts, pallets, and other ultraviolet ray lotions that block UV rays.

Cosmetics are used by all women, and the use of cosmetics by men is steadily increasing. It is sold in a container 10 made of a plastic, vinyl, synthetic resin, metal, ceramic (ceramics) material, and used while storing in the cosmetic container 10 in this state.

Accordingly, when the room temperature is high, since there is a risk of corruption or deterioration easily, it is preferable to store the cosmetic container 10 in a cool place with low moisture.

In order to preserve this well, a cosmetics refrigerator for storing the cosmetic container 10 has been popularized but its price is not widely popularized.

The present invention relates to a cosmetic container (10) for use in makeup made of plastic, vinyl, synthetic resin, mineral material such as glass or porcelain, nano silver (40) and plants or fruits such as fruit, herbs, aromatic fragrance It relates to a cosmetic container 10 that is used by a person made of a container (10) in which the natural fragrance 60 of the compound (180) is used to block UV rays for make-up or skin moisturizing.

Conventionally, when looking at the cosmetic container 10 put the cosmetics of the cosmetic container 10 put on the dressing table and used over a long period of time, but due to the development of science, the room temperature is high even in winter, so the cosmetics do not store in the refrigerator unless the corruption It can not prevent the deterioration and rather adversely affects the skin.

The present invention relates to a cosmetic container 10 mainly used at home or in a makeup room, as described above, even if the cosmetic is used for a long time by putting the nano silver 40 and the fragrance agent 60 into the cosmetic container 10. It can prevent deterioration, maintain moisturizing, and can radiate far infrared rays and silver ions to protect skin of people using cosmetics.

 The present invention is a chemical-free and environmentally friendly nano silver (40) powder (Nano silver) or colloidal silver (Colloidal Silver), namely nano silver solution (Ag), and natural fragrance (60) cosmetic cosmetics (10) In the manufacturing of the formulation 180 to produce a fragrance and to prevent the growth of bacteria and fungi, viruses, or the generation of sediment fundamentally relates to a functional cosmetic container 10 that can make a safe and pleasant makeup.

The present invention relates to a cosmetic container 10 containing nano silver 40 and a fragrance which greatly improves the decay, deterioration, and deodorization problems of the conventional cosmetics as described above, without cosmetic or physical sterilization or washing around. Since the container 10 is put into the manufacturing process, it contains a strong nano silver (40) material which is economically economical and its sterilization and sustainability are unpredictable. Therefore, when the nano silver (40) material is administered to the cosmetic container 10 material, You can get the following excellent benefits.

   Nano silver 40 is harmless to the human body and has a sterilizing power and antibacterial reverse detoxification that is tens of times stronger than chlorine series.

If so, look at the characteristics of the cosmetic container 10 containing the nano silver 40 and the natural fragrance 60;

1: When nanonized silver, the antimicrobial, sterilization, deodorization, detoxification function is superior to any disinfectant, and the cosmetic container 10 containing nano silver (40) generates good silver ions and far-infrared rays in the body. It is active in endocrine activity and can block more than 90% of formaldehyde, an environmental hormone that has been a problem recently, and can have antiviral and antiallergic effects.

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

It binds strongly to bacteria's bacterial membranes (SH, COOH, OH) and the like and destroys the bacterial cell membranes or disturbs the function of the cells and shows a continuous antiseptic action.

 Recent research has shown that 650 bacteria and viruses can be sterilized, and the proliferation suppression and antiseptic function is excellent against harmful bacteria, fungi, athlete's foot, and allergic bacteria, preventing secondary infections from other pathogens that are problematic. Silver catalyzes the conversion of oxygen to free radicals, which prevents the growth of bacteria that propagate by bactericidal action.

  3: The nano silver 40 has an antistatic function and an electromagnetic wave blocking function to solve harmful electromagnetic waves, have excellent electrical conductivity and suppress the generation of static electricity.

  4: Nano silver 40 is very easy to coating 160, compound 180, and the like with the material, and easy to fuse or blend 180 with plastic, vinyl, synthetic resin, rubber, silicone.

  5: In addition, silver ions and far-infrared rays that are good for the body can be generated, which can have an effect on blood circulation and endocrine activity.

   6: It has a deodorizing effect and a fragrance diverging effect. The cosmetic container 10 is stained by the user's hand and dust foreign matters and smells from the body of the container 10 when used for a long time, the weight ratio of the liquid or powder of the natural fragrance 60 raw material during the manufacturing process 0.01wt% to 5wt% As it is added, it always emits a subtle scent, so it is pleasing to the sense of smell of cosmetic users and increases the health.

The present invention has been made in order to solve the conventional problems as described above, the nano-silver (40) of the present invention in a cosmetic container (10) for use in makeup made of plastic, vinyl, synthetic resin, glass or mineral material as described above Regarding the cosmetic container 10 in which the fragrance (60) is combined (180),

       The present invention is formulated with silver, which is a technology completely different from general silver powder or ions, in the form of nano-powder or silver (Ag) solution (180) to 0.01w% to 10w% in the entire cosmetic container (10), natural, fragrance The liquid or powder of the raw material is added in a weight ratio of 0.01wt% to 5wt% to produce an excellent cosmetic container 10 having antibacterial function, sterilization function, deodorizing effect and silver ion and far infrared radiation function.

The present invention is a lipstick, mascara, twin cake, skin, lotion, essence, body oil, plastic containing plastic, synthetic resin, vinyl, metal, ceramic, makeup or skin protection, moisturizing, whitening, UV protection Regarding the cosmetic container 10,

Nano silver (40) powder, colloidal silver (Coloidal Silver), which is a material that has a strong antibacterial and bactericidal action in the container 10 containing cosmetics (Ag), natural fragrances (60) As it relates to the input of the silver and nano silver (40) which is a constituent material of the present invention in order to help the understanding in detail 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, 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 (40), the present invention briefly describes the extraction method and features of nano silver (40). The atomic weight of silver is 107.87, and silver (Ag) has been known for a long time, regardless of east and west gold. Nano silver (40) was first developed by a biotechnology company, a government-affiliated organization in our country, and was named nano silver (40) as a compound name of the brand name Na no-technology and silver. ; Nano silver (40) is a field of nanotechnology (technology) is an advanced antimicrobial using a mechanism of strong antibacterial and sterilization of silver, electromagnetic shielding excellent electrical conductivity. Nano silver (40) is unlikely to be resistant to bacteria, unlike conventional antibiotics. Nano silver (40) 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 (40) consisting of powder and solution are designed and produced in real life, and this technology, called nano silver (40), is a silver nanometer (1 billion won). It is a particle size of 1m / min), that is, 0.000000001mm, and when one gram of silver is aged, ten grains can be made. 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 (40) (Age 99.9%) is added to distilled water. 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 the physical method such as, and to obtain a stable nano silver (40) (Nano silver) is used a lot of the above electrolysis method.

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Silver ions are also used in general sterilization concept machines and disinfectants, and all silver products currently used are silver obtained by decomposition, and the addition amount is very small. The sterilization power of silver varies depending on the product, but can be obtained up to 99%.

 Nano Silver (40) is a fine particle of 3 to 5 nm silver, which acts directly on harmful bacteria, directly dissolves the cell membranes of harmful bacteria, and sterilizes by disrupting the electron transfer system of harmful bacteria. (99.9%) (the virus size is about 10 nm).

     The main antibacterial mechanism of Nano Silver (40) is to dissolve harmful bacteria cell membranes and interact with enzymes in cells to block the metabolic function of nutrients, that is, the influx and discharge of nutrients, and to stop the respiratory function and production of harmful bacteria. And destroys regenerating ability to kill harmful bacteria.

     In addition, since the nano silver 40 continuously releases antimicrobial activity from the fine particles to control harmful bacteria, the antimicrobial / bacterial function has excellent sustainability.

Therefore, the nano silver (40) does not produce resistance and the nano silver (40) is effective to the surface reaction and kill all the germs 99%, particularly effective in the general E. coli or food poisoning.

   “The larger the surface area, the smaller the nanoparticles, the better the sterilization and antimicrobial activity. Based on the data that have been examined so far, Strongest

Up to MRSA (Methicillin-Resistant Staphylococcus Aureus) can be 99.9% antibacterial and bactericidal.

     Even if silver (Ag) is present in an ionic state or a metal state, it may be referred to as colloidal silver when it is present in a colloidal state by a solvent.

Nano silver (40) is also the best antimicrobial activity of nano silver (40) to maximize the surface area by minimizing particles.

 Nano silver (40) is a pure fine particle of pure silver unlike general chemical antibacterial or chlorine disinfectant, so it has excellent antibacterial and antimicrobial activity (99.9%) even at high temperature. It has been reported that the nano silver 40 cannot be in contact with it for more than 5 minutes.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the cosmetic container 10 and the cover 20 and the opening film of the present invention cosmetic lotion and skin, lipstick, retinol, foundation, mascara, compact, palette and sunscreen cream and lotion on the market A perspective view is shown graphically.

Figure 2 is shown as a block diagram of the manufacturing process of the formulation 180 of the cosmetic container 10 made of plastic, vinyl, synthetic resin material of the present invention as follows.

After removing foreign substances of plastic, vinyl or synthetic resin, it is added to the container 100, melted and softened by melting 120, and 0.1 wt% to 5wt% of a weight ratio and other additives are added to the material, and the total amount is added to the material. 0.01 wt% to 10 w% of nano silver (40) material by weight to have a particle size of 5 to 300 nm, and the fragrance (60) was added at a weight ratio of 0.01 wt to 5 wt% and stirred ( 240) after the injection into the mold module after the molding process 220, after the slow cooling 280 in the slow cooling process, the injection and packaging and finished after the inspection is shown in a block diagram.

  3 is a block diagram showing the manufacturing process of the coating 160 process of the cosmetic container 10 made of a plastic or synthetic resin material of the present invention as follows.

 A pre-treatment step 80 to remove the foreign matter, a coating 160 step of coating the surface color on the surface of the container 10 subjected to the pre-treatment step 80 and then drying (260) it, and the coating 160 The surface resistance coating step of lowering the surface resistance from the surface of the container 10 after the step of spray coating 160 by mixing the paint, nano silver (40) material and the fragrance agent (60) on the surface of the container (10) After the coating 160 process and the coating 160 process, the slow cooling process 280 is completed and dried.

In addition, in a preferred embodiment of the present invention, the coating material 160 by the electrostatic coating (停電 塗裝) process and look at it as follows.

That is, the electrostatic coating charges the paint fine particles by applying a negative DC high voltage to the paint spraying device, and applies electrostatic force between the container 10 grounded.

By the coating method used, 85,000 Volt electrostatic coating was performed. It is also desirable that the electrostatic coating be characterized in that the loss of the paint is within 10 wt% and the coating 160 is uniformly free of bubbles on the surface of the container 10.

Therefore, the surface of the container 10 is coated with a coating material 160 so that the thickness of the nano silver 40 film is constant, thereby having a strong sterilizing power and storage power.

At this time, it is preferable to minimize the functional breakdown of the paint by applying a spray or paint spray type of the nozzle (Rotary) spray. (At this time, the spray pressure should be minimized to prevent the destruction of the paint particles.) And after coating the coating 160, the container 10 is dried (260) at 100 ~ 200 ℃, in the embodiment of the present invention 160 Drying (260) for 30 minutes at ° C.

Next, looking at the UV coating 160 of another preferred coating method 160 of the cosmetic container 10 containing the nano-silver 40 and the fragrance 60 of the present invention, the past coating (160) ) Has generally used heat as energy to spray the paint and then dry (260) the plastic surface to exhibit the effect of a protective film or decoration.

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The coating 160 is sprayed on the desired surface of the object and then the UV lamp is turned on to cure it. To this end, the paint must also use a UV curing paint.

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The paint is composed of urethane acrylate, monomer, and components, and for the purpose of understanding the present invention, first, the urethane is as follows. The urethane is carbamic acid ester: Formula H 2 NCOOR. When R is an ethyl group C 2 H 5, it is called an ethyl ester. Ester from carbamic acid and alcohols or phenols. Free carbamic acid is unstable and not present but stable as an ester. It is used to confirm the presence of alcohols or phenols, but its utilization is low and the chemical formula H 2 COO 2H 5. A typical urethane. When urethane is simply referred to this often. It is columnar crystal and has melting point of 49∼50 ℃ and boiling point of 184 ℃. Although it is used as a hypnotic agent, its action is weak, so it is especially used in case of avoiding the use of other hypnotic drugs in heart disease, etc. Next, when looking at the acrylate, acrylic is a kind of plastic, and acetone, cyanic acid and methyl alcohol are used. A polymer made of methyl methacrylate (methyl methacrylate) having a specific gravity of 1.18, which is used as a raw material, is colorless and transparent, and light, especially ultraviolet light, is better transmitted than ordinary glass (refractive index: 1.49). It does not discolor when exposed to the outdoors, the chemical resistance is good, and both electrical insulation and water resistance are good. Compression molding can be performed at 150 ° C or higher. In addition, they are molded into molds to form transparent plates.These plates are excellent in transparency, so they can be used for special window glass, lighting cover, vehicle glass, optical machine prism, filter, Used for watch glass. In medical relations, most of contact lenses and dentures are made of this resin, and acrylic acid, its methyl ester, and ethyl ester polymers or hybrid polymers are considered as important in textile and paper processing, especially new paints and adhesives. It is also widely used for windshields, building materials, and lighting for automobiles. In addition, it is transparent than glass and is easy to form and process. It is about half the weight of ordinary glass, and its strength, rigidity and heat resistance are small, but it is also resistant to water, acid and alkali. It is also called organic glass and is used instead of glass. Next, as for monomer, monomer is a monomer, and a substance having a small molecular weight is used as a unit constituting a polymer compound or an assembly. Also called monomer. For example, polystyrene is a polymer compound produced by a polymerization reaction of styrene, in which case styrene is a unit. In addition, the unit of cellulose which is a natural polymer is D-glucose, and the unit of natural rubber is isoprene. In particular, in the case of synthetic polymers, it refers to a starting material when synthesizing a polymer by polymerization. In general, monomers useful in the industry are compounds having high molecular weights of several tens to hundreds of reactive compounds, and their production is developed into a large-scale industry synthesized through complex processes from main raw materials such as coal, petroleum, and natural gas. It is a division. As such, the UV coating 160 paint is composed of urethane, acrylate, and monoma, and may exhibit a free effect of gloss and matt according to the difference of raw materials. In this case, the thickness of the coating film is approximately 5 to 30 μm.

Next, looking at the work process, the pre-treatment step 80 to remove the foreign matter from the surface of the container 10, and the paint and nano silver (40) material and fragrance in the container 10 passed through the pre-treatment step 80 Coating the background color through the (60) and the coating (160) in the exaggerated coating (160), the acrylic or synthetic resin paints (180) of the nano silver (40) and the fragrance (60) and then heated at 100 ~ 200 ℃ And it is characterized in that it further comprises a cooling step of the slow cooling (280) the container 10 at room temperature after the curing process by adding a curing agent in a weight ratio of 0.1wt% to 5wt%.

Looking at the manufacturing method of the cosmetic container 10 made of plastic or synthetic resin, vinyl material according to the present invention for achieving this object,

1, injection molding

 It is suitable for mass production of complex shape products by forming molding material by heating and melting 120 by injection molding into the cavity of closed mold and then solidifying or hardening. have.

 As the molding materials used for injection molding, thermoplastic resins extend to almost all molding materials such as main resins, thermosetting resins, rubbers and foam molding materials, and various processing machines and mold structures have been developed in consideration of the type of molding materials and the shape of the molded product.

The figure shows an example of the molding of thermoplastic resin, shows the state that the mold is closed and the injection is completed, and the mold is opened after the molding material is solidified and the mold is released. The mold is usually cooled through water so that the molded part is automatically extracted.

 Molding is carried out as follows: ① body, ② injection, ③ holding pressure (this series of processes to prevent backflow of the material filled in the cavity and extract it by cooling is repeated as one cycle). The in-line screw injection molding machine is a standard type, and the screw retreats by plasticization of the molding material. When the injection is performed, the screw advances to extrude the molding material, and the molding machine of this type is also used for molding the thermosetting resin.

Compared with the thermoplastic resin, when the mold is heated to cure the resin, the temperature of the heating cylinder is lowered to prevent the resin from solidifying, and thus, the heating method of the cylinder and the shape of the screw are somewhat different.

Next, as a method of determining the injection molding conditions;

1, extrusion

 Nano silver (40) and fragrance (60) are added to a thermoplastic material on the surface of various thin layer substrates such as paper, fabric, cellophane, plastic, vinyl, film, and metal film, and heated and melted using an extruder. It is a processing method in which it is made into a fluid state, extruded into a thin film form at the T die, and simultaneously crimped continuously. The combination of the properties of the substrate and the characteristics of the extruded and compressed thermoplastics (waterproof, moisture proof, refractory chemical properties, flexibility toughness, breathability, hot rod synthesis, etc.) creates a packaging volume layer material adapted to a variety of applications, but is currently practical and Mainstream ones are low density polyethylene, polypropylene, vinylene chloride resins and the like.

2, compression-molding

 In the most common molding method of the thermosetting resin, the molding material in which the nano silver 40 and the fragrance agent 60 are added is put into a pot (called a cavity) of a heated mold and press-molded by a compression molding machine (press). .

 The molding material is heated in the cavity and once flowed, spreads to every corner of the cavity and causes a simultaneous chemical reaction to cure, so that after a suitable time (called curing time), the mold is opened, the molded product is removed, and flash finishing is performed. To get the product. Dividing the molding process into a molding process 220 and finish processing. The molding process 220 is carried out by ① molding material processing weighing (in some cases, it may be made into a turret using a turret machine) ② loading of material into the cavity (preheated before)

 ③ Pressurization operation (low pressure pressurization, high pressure pressurization) ④ Curing process ⑤ Remove molded product It is to clean the mold.

Finishing process includes ① flash 뗌 ② gloss, etc. And for molding large and thick products, high frequency preheating is usually performed for efficiency and quality improvement, and the curing time is determined according to the molding temperature or the thickness of the molded product to obtain the optimum degree of curing. It should be decided properly. In the case of thermoplastic products, compression molding is performed in the case of molding thick products or producing a silicon film. In this case, the trick is to remove the molded article by cooling the mold after heating and pressing the molding material. In general, the compression molding is characterized by less molding of the dielectric material or molecules compared to injection molding or transfer molding, so that a molded article having less internal stress can be easily obtained.

 3, extrusion-blow molding

 Plastic material and synthetic resin which thermoplastic nanosilver (40) and fragrance agent (60) were put into,

It is inserted into one or two or more molds of flies that are continuously extruded into a tube from an extruder by heating melt 120, closes, seals the upper and lower sides, and expands by blowing air into the fly hands from the mandrel. It is a method of making an air container 10 product by making it adhere to the mold inner wall. It is the most popular blow molding method at present.

 4, blow molding

 It is a method of softening by heating in a split mold to inflate the fly hand or sheet into which the thermoplastic plastic, nano silver 40 and the fragrance agent 60 have been poured, using air pressure, etc. . Called blow molding or blow molding. Normally, the thermoplastic melt-molded material that has been hot-melted 120 is extruded or preformed into a tube according to the injection method. To form a hollow product. There are various types of blow molding according to the Paris shaping state molding method and the like, such as injection blow molding, extrusion blow molding, sheet blow method (sheet fly hand method), direct blow molding, and injection blow molding.

5, casting

 The liquid holding resin solution or compounding (180) is a molding method in which the rubber latex solution, the nano silver (40) and the fragrance (60) are introduced into an open type or cotton, and solidified by drying (260) or polymerization under normal pressure. In thermosetting plastics, the initial condensate or prepolymer thermoplastics are used as monomers to prepolymers or polymer solutions.

 6, vacuum forming

 After heating and softening the thermoplastic plastic sheet into which the nano silver (40) and the fragrance agent (60) have been put, they are placed on the mold, and the gap between the tongue and the sheet is made into a vacuum, and the sheet is brought into close contact with the surface of the mold and cooled. After fixing the phenomenon of pneumatically, if you use the shape to remove the molded article by inhaling the air on the contrary is called straight forming, when using the male is called drape forming.

7. vacuum deposition;

A brief overview of vacuum deposition refers to attaching a vapor to a surface of an object by heating a small piece of metal or non-metal to which nano silver 40 and fragrance 60 are injected. In other words, the current is applied to a tungsten coil with a metal (Al) or chromium (Cr) piece to be attached to the surface to be coated in a high vacuum state (the object to be deposited), and to be heated and attached in a high vacuum state. I use it.

The vacuum evaporation process consists of urethane acrylates, monomas and other preparations used in BASE and TOP, which can represent various types of products depending on whether the paint is glossy or matte. In addition, dyes can be added during TOP PAINT spraying to express any desired color.

 Briefly, the molding and injection method in which the nano silver 40 of the present invention was introduced was briefly examined.

Figure 4 is a block diagram showing the manufacturing process of the formulation 180 of the cosmetic container 10 made of a ceramic of the present invention as a diagram illustrating the cosmetic container 10 made of a glass material and a ceramic material of ceramic as follows same.

First, the glass is described, and the glass is the most common glass mainly composed of silicate anhydrous silica (silica) in the form of silicate glass silica (or silica), and sodium lime glass, potassium lime glass, lead glass, barium glass, etc. In addition to containing wood-modified oxide, there are many kinds of silicate glass (quartz glass) made of silicic acid only.

Glass is made by mixing silica (silicon oxide: sand) as a quartz component with sodium carbonate (soda ash) and calcium carbonate (limestone) and heating it to a high temperature. When anhydrous boric acid is mixed with silica glass, it becomes soda silicate glass, commonly called Pyrex glass.

And crystal glass is a lead glass that makes a beep when pounded and mixed with lead oxide and potassium carbonate (180) unlike ordinary glass products.

Impurities that cause coloring of glass, especially potassium lime glass with low iron oxide content (usually 0.012% or less), are used because of their high transparency even when they are thick, and the higher the refractive index for light, the higher the reflectance and the greater the scattering of light. It also contains lead oxide, which increases the refractive index and gives a beautiful luster.

The manufacturing method of glassware differs according to the shape of the vessel to be made and the purpose of use, such as for construction and optics. In addition, different techniques are used depending on the production method, such as crafting and mass production.

In general, there are various methods such as air blowing, mold blowing, and mechanical methods for hand-operating methods. For small-volume production methods, crucibles are used, day tanks are used, small tanks are used, and large tanks are used. There is a manufacturing method

Referring to the manufacturing method of the cosmetic container 10 of the glass material containing the nano silver 40 and the fragrance 60 of the present invention there are the following preferred methods.

1, (blow air) Roll up the molten glass chunks about 1.5m thin iron pipe (this is called a fire, and you can easily make a little light bulb for a Christmas tree by pulling the tube from the glass chunks and use it as a fire). It is rolled and evened, and blown from one end of the injured mouth to make a product.

Also, compressed air is first made into a certain size, and then a person blows it into the mouth to form it.

2, (Blowing) Roll up the molten glass at the end of the fire and break it to a certain size, and then put it into a frame made of wood, grain, iron, etc. Another method is to cut the molten glass into a concave mold and press it with a convex mold to make a semi-mass production of glass bowls such as ashtrays and cosmetic bowls.

In addition, there is the Purcol method, the Colburn method, the Pittsburgh method, the float method and the cosmetic container 10 of the glass material of the present invention is nano silver (40) and fragrance (60) It is only natural to manufacture by adding).

Next, the cosmetic container 10 made of porcelain material is added by blending 180 nanosilver (40) in 0.01w% to 10w% to the material of the container 10, and then aromas of fruit, aroma, herbs, and flowers. A liquid or powder of a raw material such as incense 60 is added in a weight ratio of 0.01wt% to 5wt%, mixed (180), melted (120), and stirred (240), and then the cosmetic container (10) from 10KG to a molding die. Pressure molding at a weight ratio of 500KG and heating and baking (300) at a temperature ratio of 500 ° C. to 2000 ° C. in the kiln, followed by mixing to coat the nano silver 40 and the fragrance 60 once again. After firing, applying, and depositing a pigment, a crosslinking agent, and a glaze into the cosmetic container 10, the firing 300 is performed in a kiln, followed by steam curing with steam and drying (260), followed by firing of the porcelain material of the present invention (300). ) (燒成) cosmetic container 10 is shown in the figure.

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5 is a manufacturing block diagram of the coating process 160 of the cosmetic container 10 made of a ceramic material of the present invention,

 Pigment, which is a coating agent of ceramics, is a coloring agent used in ceramics, glass, enamel, etc., and is calcined at a high temperature to exhibit color 300.

 Metal oxides are mainly used, but they can also be mixed with fluxes, glazes and materials. These colors may change depending on the substance to be mixed, and may also change depending on the firing 300 temperature and the nature of the flame.

 There are several methods for coloring glazes. In simple methods, glazes are colored by adding oxides or carbonates of transition elements such as iron, cobalt, manganese, nickel and copper. These additives react with glazes at high temperatures to dissolve and develop,

It is preferable to coat 160 using the thermal spraying (320) method.

Thermal spray (320) is a technique of forming a film in which a powder or a linear material is changed from a high temperature heat source to a molten liquid (120) droplets to impinge on a substrate at a high speed to form a rapidly solidified film. The melting 120 requires heat sources such as high-density combustion flames, arcs, and plasmas.

 Thermal spraying (320) (溶 射) is a material having a different property, the film forming technology on the surface of the substrate to take advantage of the characteristics possessed by the substrate, can compensate for defects, the surface that allows the diversification and enhancement of the material function One of the treatments.

And by utilizing the kind of material and the original characteristic of the spraying process 320 well, the surface layer which cannot be obtained using another method can be produced.

Currently, the spraying method 320 used can be roughly classified into a gas type using energy by reaction of oxygen and flammable gas and an electric type using electric energy depending on the type of heat source for heating the sprayed material 320.

Using the spraying method (320) is possible to form a thick film at a high speed, such as metal, ceramic, glass and plastic, which is a material of the cosmetic container 10 containing the nano-silver 40 and the fragrance 60 of the present invention It is extremely desirable to use a thermal spraying 320 process for the material.

  Figure 6 is a manufacturing block diagram of the process of the formulation 180 of the cosmetic container 10 made of a metal material of the present invention by heating the material of the metallic cosmetic container 10 (140) and nano silver 40 and the fragrance (60), after adding the pigment for coloring (agitation 240) and then into the molding module, after molding after the slow cooling (280) process and drying (260) process and alloying with the nano silver (40) or finished or It is also possible to inject the material and the nano silver (40) fragrance 60 and the pigment at the same time to melt 140, and then injected into the molding module.

Figure 7 is a manufacturing block diagram of the coating 160 process of the coating 160 of the cosmetic container 10 made of nano silver 40 and the fragrance-containing metal material of the present invention to color the ground color using a pre-treatment process and a pigment After drying (260), nano silver (40), fragrance (60) and paint are mixed and sprayed (320) (溶 射) and dried (260), followed by slow cooling (280), or electroplating nano silver (40). Both wet method or dry plating method using plasma can be used and coating 160 thickness,

It is completed by coating 160 to a thickness of 0.0 l (micrometer) μm to 1 μm (micrometer) or the nano silver 40 material and the fragrance agent 60 on the metal material of the cosmetic container 10 to the metal content. It is also possible to produce a nano silver (40) alloy by adding 0.01w% to 10w% relative to the. The following is a photograph of the cross section, side and surface of the nano silver of the present invention, respectively, shown in the drawings for the understanding of the present invention. FIG. 8 shows the cross section of the nano silver of the present invention with an electron microscope. It is a photograph taken at 60.000 times magnification. FIG. 9 is a photograph taken at 80.000 times magnification of the nano silver of the present invention by an electron microscope. FIG. 10 is a photograph taken at 50.000 times magnified by an electron microscope of the surface of nano silver of the present invention. Figure 11 is an antimicrobial activity test photo of the nano silver strain of the present invention. Figure 12 is a staphylococcus aureus, pneumococci, bacteria, MRSA (methicillin resistant Staphylococcus aureus) microbial antimicrobial test picture This study examined the block diagrams of the nano-silver and fragrance-based cosmetic containers, as well as the photographs and antimicrobial data of the nano-silver cosmetic containers. Method will follow the steps of the method for manufacturing a conventional cosmetics case.

 The configuration of the cosmetic container 10 of the present application has been described above, and the nano silver 40 is extremely preferable for the sterilization and long-term preservation of the cosmetic container 10 of the present invention, and the amount of the compound (180) is 180 , 0.01w% to 10w% of the cosmetic container 10 made of plastic, vinyl, and synthetic resin is preferable.

 It is difficult to manufacture the cosmetic container 10 of the present invention at 0.01w% or less, since no sterilization and anti-degradation effects are exhibited, and at 10 wt% or more, since the nano silver 40 is expensive, the price increase and viscosity are too high. Because.

 In addition, the fragrance 60 of the natural fragrance of the present application can not expect aroma function when used in less than 0.01% of w%, the fragrance is too large at 5wt% or more can feel olfactory discomfort and dizziness.

The present invention is made of lipstick, mascara, twin cakes, skins, lotions, essences, body oils, plastics containing cream, synthetic resins, vinyl, metal, ceramics, cosmetics or skin care, moisturizing, whitening, UV protection Regarding the container 10,

Nano silver (40) powder and colloidal silver (Ag) and natural fragrances (60), which are powerful antibacterial and bactericidal substances in containers containing various cosmetics (10) As for the input of

  The nano silver 40 solution or powder in the cosmetic container 10 is characterized in that the particle size of 0.01 to 10 w% and the nano silver 40 has a particle size of 5 to 300nm, 0.01wt% fragrance base Functional cosmetic container containing nano silver (40) and fragrance agent to sterilize the bacteria remaining in the cosmetics and release good silver ions, far infrared rays and fragrance by adding to 5 wt% The purpose of the present invention is to enhance the safety and effectiveness of cosmetics, and to use healthy and clean cosmetics by blocking infection and bacterial propagation for hand and human secretions when using cosmetics (10).

Example 1

To test this, the Applicant has a plastic cosmetic container (10) containing a plastic container (10) infused with a retinol component, which has been in use at home for three months, and a plastic resin container containing a lotion used in the store for one month. 10) and cosmetics containers made of porcelain (10) infused with 6-month-old foundations used by women at home, twin cake containers made of metal bodies (10), and plastic containers (10) used in hot summer days with high standards. Sun cream, a two-year-old sunscreen, and a 5-month-old compact container (10), a plastic material that works to beautify women's skin, and a lotion container for children at home. By the following results, the main cause of the various cosmetic products Group 10 was added to a certain amount of aroma scent purchased from nano silver solution and Samwha fragrance, and then deposited for 60 minutes to deposit silver ions, followed by drying (260) for 30 minutes in a drying machine (260), followed by silver solution treatment. The average value obtained by measuring the number of Staphylococcus aureus, pneumococci, bacteria, MRSA (methicillin-resistant Staphylococcus aureus) bacteria before and after is briefly shown in the analysis table below. It was confirmed that it can be applied sufficiently, and came to complete the present invention.

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

One of ordinary skill in the art to which the present invention pertains can understand that the present invention can be variously modified or modified without departing from the scope and spirit of the present invention described in the utility model registration claims below. will be.

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As described above, since the cosmetic container 10 of the present invention contains the nano silver 40 having excellent sterilization and moisture storage ability, the cosmetic container 10 made of a conventional plastic, resin, ceramic, and metal material It is a useful design with a very good effect compared to.

As described above, the present invention, as described above, the present invention is a nano silver (40) (Nano silver) powder or silver (Ag) solution having a lot of the above in the body of the cosmetic container 10 to 0.01w% to It is blended up to 10w% (180) and manufactured by adding 0.01 to 5 wt% of liquid or powder of the fragrance (60) raw material to the end of cosmetics that are easy to produce decay, alteration, degeneration and bacteria, pathogens and microorganisms. A person skilled in the art to which the present invention pertains may variously modify or modify the present invention within the scope and spirit of the present invention described in the claims below, and within the scope of the patent. It will be understood that this is possible. The following table shows that 30% of nano silver is added to Staphylococcus aureus, pneumococci, bacteria and MRSA (Methicillin-resistant Staphylococcus aureus) bacteria after 30 minutes. As an example of this killing chart, it can be seen that nano silver has excellent sterilizing power. test subject unit Number of strains 5% of nano addition (after 30 minutes) Staphylococcus aureus CFU / mL 3.4 X 10 ³ 0 Pneumonia group CFU / mL 3.1 X 10 ³ 0 MRSA (Methicillin Resistant Staphylococcus Aureus) CFU / mL 1.3 X 10 ² 0 bacteria CFU / mL 3.4 X 10 ² 0 (This test report is the analysis data of Korea Testing Institute)

1 is a perspective view of a cosmetic container of the present invention,

Figure 2 is a block diagram of the manufacturing process of the cosmetic container made of plastic or synthetic resin material of the present invention.

Figure 3 is a manufacturing block diagram of the coating process of the cosmetic container made of a plastic or synthetic resin material of the present invention.

Figure 4 is a block diagram of the manufacturing process of the cosmetic container made of a ceramic material of the present invention.

5 is a manufacturing block diagram of the coating process of the cosmetic container made of a ceramic material of the present invention.

Figure 6 is a manufacturing block diagram of the formulation process of the cosmetic container made of a metal material containing nano silver and fragrance of the present invention.

7 is a manufacturing block diagram of the compounding process of the cosmetic container made of a metal material of the present invention. FIG. 8 is a photograph taken at 60.000 times magnification of a cross section of the nano silver of the present invention. An electron microscope photograph of the side of the surface is magnified by 80.000 times. FIG. 10 is an electron microscope photograph of the surface of the nano silver of the present invention. Figure 12 is a photograph of the antimicrobial activity of Staphylococcus aureus, pneumococci, bacteria, MRSA (Methicillin-resistant Staphylococcus aureus) to which nanosilver of the present invention was added.

* Description of the symbols for the main parts of the drawings *

10: container body 20: container cover

40: Nano silver 60: perfume

80: pretreatment step 100: barrel 120: melting 140: melting

160: coating 180: combination

200: heating step 220: molding step 240: stirring 260: drying

280: slow cooling 300: baking

320: Champion

Claims (14)

In a cosmetic container (10) containing a cosmetic made of any one of metal, plastic, synthetic resin, vinyl, ceramic material. Cosmetic container, characterized in that the nano silver 0.01w% to 10w% and the fragrance agent 0.01wt% to 5wt% is formulated or coated on the surface of the container. The method of claim 1, The disinfectant is a nano silver (40) powder or a solution, and the fragrance (60) is a cosmetic container characterized in that the liquid or powder of a natural smell that is good for smell is blended or coated on the surface of the container. The method of claim 1  The size of the nano-silver (40) particles added to the container is a cosmetic container, characterized in that having a particle diameter of 5 to 300nm. The method according to any one of claims 1 to 3. Cosmetic container characterized in that the curing agent is formulated or coated on the surface of the container in the amount of 0.1wt% to 5wt% to promote curing of the container (10). The method according to any one of claims 1 to 4. Cosmetic container, characterized in that the coating on the inside and outside of the cosmetic container by stirring the nano silver (40), the fragrance (60) and the paint and then cured on the surface of the container at a temperature of 100 to 200 ℃. The method according to any one of claims 1 to 5. Cosmetic container characterized in that the nano-silver (40), the fragrance (60) and the paint is mixed and sprayed in the container and dried (260), then slowly cooled (280). The method according to any one of claims 1 to 6. A cosmetic container characterized by coating nano silver ash on the surface of the container by using a wet method of electroplating a cosmetic container made of a metal alloy or a dry plating method using plasma. The method of claim 5. Nano silver (40) and the fragrance 60 is a cosmetic container, characterized in that the UV coating 160 coated on the surface of the cosmetic container (10). The method of claim 8  UV coating (160) paint is composed of urethane acrylate, monoma and the thickness of the coating film is 5 ~ 30㎛ particle in the pre-processing step (80) in the vessel 10, the paint and nano silver (40) and fragrance ( 60) is a cosmetic container characterized in that it is heated to a temperature of 100 ~ 200 ℃ after coating (180) acrylic, or synthetic resin paint. The method of claim 7, wherein Cosmetic container, characterized in that the surface of the metallic container is coated 160 to a thickness of 0.0l to 1㎛ (micrometer) nano silver. The cosmetic container 10 made of a ceramic material is blended with a nano silver 40 and a fragrance 60 and injected into a mold, and press-molded at a pressure of 10KG to 500KG in the mold and heated at a temperature of 500 ° C to 2000 ° C in a kiln. A cosmetic container characterized by spraying or depositing or coating the surface of the cosmetic container 10 by stirring the nano silver material, the fragrance agent, the pigment, the crosslinking agent, and the glaze after firing (300). Lipstick, mascara, twin cakes, skins, lotions, essences, sunscreen, body oils, plastics containing body creams, synthetic resins, vinyl, metal, ceramic materials or cosmetics used for skin protection, whitening, moisturizing and sun protection 0.01 wt% to 10 wt% of the nano silver 40 material and 0.01 wt% to 5wt% of the fragrance base 60 in the container 10 are blended, coated, molded, or injected into the surface of the container of the cosmetic. Cosmetic container. delete delete