KR100557864B1 - Decoration implement with anion and sterilization function and manufacturing method thereof - Google Patents

Abstract

         The present invention relates to an anion generating and sterilizing silicone jewelry, and relates to a method and an accessory for manufacturing wearable jewelry formed a certain shape using an anion radiating material and a silicone rubber that emits a large amount of anion.

         The constitution of the present invention is to process a monazite, which is a natural emitter material that emits a large amount of anions, into a powder of a certain form, and to form a uniform shape with finely processed silver powder to prevent odor due to bacterial propagation and to help sterilization. In order to form the silicon rubber containing silicon and silver of a ring-shaped thin plate attached to a certain portion of the formed jewelry.

         The effect of the present invention is to produce anion generating accessories more efficiently and to generate anion in a range that is beneficial to the human body so that the anion generation value is similar to the natural environment to promote blood circulation, cell activation, metabolism by anion Health improvement effect by can be obtained.

Description

 Decoration Implement with Anion and Sterilization Function and Manufacturing Method Thereof}

1 shows a flowchart of a manufacturing method showing a manufacturing process according to the present invention,

Figure 2 shows the monazite powder is an additive according to the present invention,

Figure 3 shows the silver nano additives according to the present invention,

4 is a perspective view of a plate shape of the step of forming into a plate of the silicone rubber of the present invention,

5 is a view of the silicon cutting step of the present invention,

6 is a diagram of a silicon input step of the present invention,

7 is a view of the product forming step of the present invention,

8 is a drawing of the product extraction step of the present invention,

9 is one embodiment made in accordance with the present invention.

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

20: silicone rubber forming step 22: additive preparation step

24: Stirring Step of Attaching Additives to Silicone Rubber

26: step of forming silicone rubber into a plate

28: silicon cutting step 30: silicon injection step

32: product formation step 34: finished product extraction step

40: silicone rubber 42: silicone rubber rod

44: upper mold 46: lower mold

48: press 50: product forming groove

52: formed product 60: monazite

62: silver nano 64: silver

         The present invention relates to silicone ornaments that perform anion generation and sterilization, and to wearable ornaments that form a uniform shape using a silicone rubber and a radiation material that emits a large amount of anions. More specifically, monazite, a natural emitter that emits a large amount of anions, is processed into a powder of a certain form, and finely processed silver powder to prevent odors caused by bacterial growth and to help sterilization, and to form a uniform shape. It is formed by attaching a silicon rubber containing silicon and silver of an annular thin plate to a predetermined portion of the formed jewelry.

         About Efficacy of Silver In herbal wood, if you have silver in your body, your five intestines will be comfortable, your mind and body will be stable, you will be able to chase away your morale, lighten your body, and make your life longer. Silver has been shown to be effective in preventing and treating mental illnesses such as epilepsy and game, and gynecological diseases such as internal treatment. Medically, antibiotics kill approximately 5 to 6 pathogens, while silver has no side effects. It kills more than 650 species within 6 minutes. It is a natural, complete antibiotic that does not have any side effects, and silver not only kills all harmful bacteria, but also emits far infrared rays and anions, and it is harmful to human body such as electromagnetic waves or water waves. Absorb and block the wavelength perfectly.

         Anion, meanwhile, refers to a particle having negative (-) electricity, which is invisible with electricity, and cations and anions coexist in the air at all times. The place where we can feel negative ions most is waterfall or pine forest. The freshness of the air here comes from the negative ions. Similar experiences can be found in parks after the rain, in fast-flowing valleys, and on the wavy beaches. Waterfalls and forests contain 800 to 2,000 negative ions per cc of air. On the contrary, cations are found to be stuffy in contaminated dry air. When pure air is in a stable state, the ratio of anions and cations is about 1 to 1.2, and the anion, which makes you feel refreshed, falls from the high place to the low place in the waterfall and generates electricity (potential energy). As it works, negative ions come off and float in the air. In forests, negative ions are easily produced as trees inhale carbon dioxide and exhale oxygen.

         Many studies have been conducted to artificially carry negative ions that can be experienced in such forests and waterfalls.

         This research has been carried out in two ways: the production of negative ions by incorporating negative ions into a product and the generation of negative ions electrically. Herein, a description will be given of the generation of negative ions by mixing a substance generating anions in a product.

         Negative ions generate electricity by germanium, jade or friction, and when heated, both ends are positively and negatively charged, and many minerals, like tourmaline, have the only permanent electrical properties. The method of forming minerals which naturally generate negative ions into fine powder and adding them to the product has been studied.

         The prior art is to provide a bracelet with a high generation of negative ions without deterioration of formability and elasticity by reducing the use of tourmaline (Tourmaline) to generate negative ions as registered Utility Model Publication No. 0347982 In Japanese Unexamined Patent Application Publication No. 1998-168226, it is reported that an elastomer produced by combining tourmaline with a gel-like elastomer and thermoforming it generates anions. As for the bracelet, Japanese Patent Laid-Open Publication No. 2002-336016 discloses tourmaline-containing ornaments which are formed by dissolving tourmaline in an organic solvent, stirring and mixing the solution and gel rubber while supplying air. The present invention discloses sturdy jewelry in which tourmaline powder is contained in a rubber elastic material or a plastic material and molded into a ring shape. In addition, Japanese Laid-Open Patent Publication No. 2003-93118 discloses a health ring formed by annular molding of a ceramic containing tourmaline and useful bacteria in a thermoplastic Elastomer.

         In Japanese Patent Laid-Open Publication No. 2002-336016, the tourmaline is well dispersed to reduce the amount of tourmaline while generating a large amount of negative ions, but the production method is complicated because it is dispersed using air. In Japanese Patent Laid-Open No. 2003-164308, when the amount of incorporation of tourmaline in the jewelry body is increased, moldability and elasticity are reduced, so that the main groove is provided on the surface of the jewelry body in the longitudinal direction or the ring-shaped length direction, and the jewelry body in the main groove. It is proposed to control the amount of negative ions generated by increasing the amount of tourmaline incorporated in the strip or ornament by installing a strip or ornament made of the same material.

         However, the tourmaline has a disadvantage in that the amount of anions generated is small and the formability is reduced by mixing a lot of tourmaline to increase the number of anions.A lot of efforts have been made to increase the amount of anions, but when the anions are more than the proper amount, the side effects are caused. There is a need for a product that generates an appropriate amount of negative ions in the forest, 1000-1500.

         The present invention is to solve this problem, the present invention relates to silicone ornaments that generate anion and sterilization, wearable ornaments that form a certain shape using an anion radiating material and silicone rubber that emits a large amount of anions It is to provide a method of manufacturing and ornaments.

         In order to achieve the above object, the present invention specifically relates to a silicone anion that generates anion and sterilizes, the method comprising the steps of: forming a stirred silicone rubber 40 so that silica formed of fine particles is dispersed well;

Preparing a monazite 60 and silver nano 62 formed of fine particles;

Adding a curing agent, a pigment with monazite 60 and silver nano 62 to the silicone rubber 40, and stirring sufficient time until the pigment-added silicone rubber 40 is uniformly dispersed in a roller stirrer. ;

Forming a silicon rubber 40 in which particles are well dispersed into a plate having a predetermined thickness;

Cutting the silicon according to the size of the mold and the size of the product 52;

Opening the mold in the press 48 to align and insert the cut silicon to the lower mold upper surface;

Forming a product 52 by pressurizing and heating the silicon rubber 40 injected into the press 48 with the press 48 for a predetermined time;

Characterized in that formed in the step of taking out the finished product 52 by opening the mold of the press 48,

         The step of forming the silicone rubber 40 is characterized in that the silicon gum is silicon rubber 40 formed by weight ratio of 60-70% and 30-40% by weight of silica formed of fine particles and formed by 100% weight ratio,

         The curing agent is characterized in that 2,5-dimethyl-2,5-t-butylhexane peroxide 0.5phc, the pigment is characterized in that it is added in a weight ratio of 0.5-5% per 1kg of silicone rubber,

         The step of forming the product 52 is to adjust the time to pressurize according to the size of the product 52 to 80-260 seconds, the heating temperature of the upper mold is 160-200 degrees and the heating temperature of the lower mold is 150-170 degrees Characterized by forming a product (52),

         The additives added to the silicone rubber 40 are prepared by preparing 10-45 g of monazite 60 and 0.2-5 g of silver nano 62 for each 1 kg of silicone rubber 40. It is characterized in that it is diluted in 4-10 g of a liquid curing agent to be well blended with silicone and processed into a gel state.

         It is characterized in that the jewelry produced by the method described above,

         It is characterized in that the thin piece of silver plate 64 is formed in the plate shape on the ornament and the silver plate 64 having a pattern is attached to the ornament.

         1 shows a flowchart of a manufacturing method showing a manufacturing process according to the present invention in the brief description of the drawings according to the present invention, Figure 2 shows the monazite 60 powder, which is an additive according to the present invention, Figure 3 Silver nano 62 is an additive according to the invention, Figure 4 is a perspective view of the plate shape of the step of forming the silicon rubber of the present invention, Figure 5 is a view of the silicon cutting step of the present invention, Figure 6 is the present invention Figure 7 is a view of the silicon input step of, Figure 7 is a view of the product forming step of the present invention, Figure 8 is a product drawing step of the present invention, Figure 9 is one embodiment manufactured according to the present invention.

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

         Anion generating and sterilizing jewelry production method and ornaments according to the present invention; As shown in FIG. 1, the silicone rubber forming step 20 has a weight ratio of 60-70% of the silicone gum, and forms the product 52 to form a fine particle of 40-40% by weight of silica. Consisting of the silicon rubber formed in a 100% weight ratio by agitation so that the particulate powder is evenly dispersed in the gum to form a silicone rubber.

         The additive preparation step 22 is to prepare an additive in which an anion is generated, and to form jade and monazite 60 in the form of particles, and when forming into a mold, moldability should be considered and sufficient so that the particles are not too rough. It is small, the surface feel of the product 52 should be good. In addition, if the jewelry is worn for a long time, sweat, organic matter, and various impurities adhere to the surface, and in order to prevent discoloration or reproduction of microorganisms, silver is formed into fine powder to be uniformly dispersed. The additive to be added is a liquid curing agent to prepare anion powder and silver nano 62 powder in silicon by preparing 10-45 g of monazite 60 and 0.2-5 g of silver nano 62 per 1 kg of silicone rubber. Diluted in 4-10g and processed into a gel state.

         In the stirring step 24 of attaching the additive to the silicone rubber, a gel curing agent, which is a mixture of the prepared silicon, anion and silver nano 62, is put into the roller and stirred, and a color pigment is added to adjust the desired color.

         Specifically, a suitable amount of a gel curing agent and a pigment to be colored are added in a ratio of 10-45 g of monazite 60 and 0.2-5 g of silver nano 62 per 1 kg of silicone rubber, and preferably, silicone The purpose of the stirring step is to inject the silicone rubber formed by attaching 0.5-5% weight ratio per 1 kg of rubber to the mold to form a certain shape. It is a step of giving sufficient stirring to the stirrer.

         The step 26 of forming the silicon rubber into a plate is carried out by stirring the silicon rubber produced after agitation with sufficient time than other raw materials so that the anion and silver nano 62 can be evenly distributed on the raw material. It is a process of forming the plate shape to match the size of the mold and the size of the product 52 to be formed to have a predetermined thickness in order to inject the silicone rubber in which the additive is uniformly dispersed into the mold mold. The reason for packing is to prevent the incorporation of impurities in the storage or transportation process.

         The silicon cutting step 28 describes the step of silicon cutting the plate-shaped silicone rubber to the size of the mold and the product 52.

         The silicon input step 30 is to open the mold in the press 48 so that the product 52 to be produced by inputting the raw materials at regular intervals is uniformly compressed and heated to form the product 52. At this time, by placing the silicon rubber to be placed on the upper surface of the lower mold 46 at regular intervals, the heating temperature of the lower mold 46 should be adjusted to 150-170 degrees, because if the temperature is too high, the silicon This is because curing occurs at the time of putting and waiting.

         The product 52 forming step 32 places the upper mold 44 horizontally and vertically lowers the upper mold 44 to uniformly squeeze and harden the silicone rubber into a shape formed inside the mold by the temperature of the mold. Shape is achieved. According to the size of the product 52 to adjust the time to press the 80-260 seconds, the heating temperature of the upper mold 44 is 160-200 degrees and the heating temperature of the lower mold 46 is 150-170 degrees product 52 To form. The temperature of the mold is changed according to the curing temperature of the silicone rubber and typically the temperature of the lower mold 46 is adjusted to be lower than the temperature of the upper mold 46.

         Completed product 52 take-out step 34 is to take out the product 52 formed of the silicone rubber in the mold after the product 52 is completed.

         Figure 2 shows a monazite (60) powder, which is an additive according to the present invention, not only the monazite (60) but also a powder capable of effectively generating anions to the silicone rubber to form a particulate that is easy to form into a mold. To show one powder.

         Figure 3 shows the silver nano 62 as an additive according to the present invention, showing a container containing the powder formed in powder form in order to take advantage of the sterilization action and anion generation action of silver.

         4 is a perspective view of a plate shape in the step of forming the silicon rubber 40 of the present invention, the silicon rubber 40 formed in the plate shape is determined according to the size of the product and the size of the mold.

         5 is a view of the silicon cutting step of the present invention, the amount of silicone rubber 40 to be injected into the mold is cut to a certain width according to the size of the product 52 to be produced.

         6 is a diagram of the silicon dosing step of the invention, with the cut silicon rubber rods 42 arranged on the surface of the lower mold 46 at regular intervals, preferably at the straight center of the product 52 to be formed. It is suitable to form the product 52.

         7 is a view of the product forming step of the present invention, by lifting the upper mold 44 horizontally upwards and downwards so that the product is formed in the product forming groove 50 formed in the silicon rubber rod 42 in the mold Pressing and heating for a certain time to form a product.

         Figure 8 is a drawing of the product take-out step of the present invention to take out the product formed by the pressurized heating for a predetermined time from the mold mold, if less letters or shapes may be formed by pressurized heating again.

         Figure 9 shows one embodiment formed according to the present invention, the bracelet and necklace shape in the shape of a round circle. In addition, a thin plate is formed of pure silver to form a figure or pattern on the surface of the silver piece 64 and attach the formed silver piece 64 to the ornament.

         As described above, the method for producing an anion and sterilizing jewelry and an accessory according to the present invention has been described, but the scope of the present invention is not limited thereto and extends to all technical ideas equivalent to those described in the claims. something to do.

         As described in detail above, it is possible to produce an anion in a range that is beneficial to the human body so as to more efficiently produce an accessory generating anion by an anion generating and sterilizing jewelry production method and an accessory, and an anion generation value similar to the natural environment. Anion can promote blood circulation, activate cells, promote metabolism, and improve health.

Claims (7)

         For silicone ornaments that generate anions and sterilize, Forming a stirred silicone rubber 40 so that the silica formed from the fine particles is well dispersed; Preparing a monazite 60 and silver nano 62 formed of fine particles; Adding a curing agent, a pigment with monazite 60 and silver nano 62 to the silicone rubber 40, and stirring sufficient time until the pigment-added silicone rubber 40 is uniformly dispersed in a roller stirrer. ; Forming a silicon rubber 40 in which particles are well dispersed into a plate having a predetermined thickness; Cutting the silicon according to the size of the mold and the size of the product 52; Opening the mold in the press 48 to align and insert the cut silicon to the lower mold upper surface; Forming a product 52 by pressurizing and heating the silicon rubber 40 injected into the press 48 with the press 48 for a predetermined time; Method of producing jewelry for anion generation and sterilization, characterized in that formed by the step of taking out the finished product 52 by opening the mold of the press 48 The method of claim 1, The step of forming the silicone rubber 40 is characterized in that the silicon gum is silicone rubber 40 formed by weight ratio of 60-70% and 30-40% by weight of silica formed of fine particles and formed by 100% weight ratio. Manufacturing method of jewelry with anion generation and sterilization The method of claim 2, The curing agent is characterized in that 2,5-dimethyl-2,5-t-butylhexane peroxide 0.5phc, the pigment is anion generating and sterilizing action, characterized in that added in a weight ratio of 0.5-5% per 1kg silicone rubber How to make jewelry The method of claim 3, wherein The step of forming the product 52 is to adjust the time to pressurize according to the size of the product 52 to 80-260 seconds, the heating temperature of the upper mold is 160-200 degrees and the heating temperature of the lower mold is 150-170 degrees Method for producing jewelry having anion generating and sterilizing action, characterized in that the product 52 is formed The method according to any one of claims 1 to 4, The additives added to the silicone rubber 40 are prepared by preparing 10-45 g of monazite 60 and 0.2-5 g of silver nano 62 for each 1 kg of silicone rubber 40. Method of producing jewelry for anion generation and sterilization, characterized in that the dilution to 4-10g of a liquid curing agent to be well blended in silicone and processing in a gel state. Jewelry produced by the method according to claim 1 The method of claim 6, Ornaments, characterized in that to form a thin thin plate-like pattern on the ornament and attaching the silver piece 64 to the ornament

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