KR20120106234A - Amethyst ceramic ball method and amethyst ceramic ball - Google Patents

Abstract

PURPOSE: A ceramic ball containing amethyst and a manufacturing method thereof are provided to enhance absorption rate, emissivity of far infrared ray and antibiosis by mixing amethyst powder with ceramic body. CONSTITUTION: A manufacturing method of ceramic balls containing amethyst comprises the processes of mixing raw materials(10), kneading the raw materials(20), agitating(30), molding(40), drying(50), demolding(60), primary firing(70), cooling(80), and secondary firing(90). A manufacturing method of ceramic balls additionally includes the following step: mixing amethyst corpuscle (300-200 mesh) in the raw material mixing, the raw material kneading and agitating processes. 3-10% of the amethyst corpuscle is mixed based on the total weight of the ceramic ball raw material in the raw material mixing, raw material kneading and agitating processes. [Reference numerals] (10) Mixing Raw material; (20) Kneading raw material; (30) Agitation; (40) Molding and drying; (50) Drying; (60) Demolding; (70) Primary firing; (80) Cooling; (90) Secondary firing; (AA) Amethyst powder

Description

Ceramic ball containing amethyst and its manufacturing method {Amethyst ceramic ball method and Amethyst ceramic ball}

The present invention provides a ceramic ball containing amethyst by mixing amethyst powder with a ceramic ball produced by a process of mixing a raw material, kneading a raw material, stirring, forming, drying, demolding, primary firing, cooling, and secondary firing. The present invention relates to a method, and more specifically, to a ceramic ball containing an amethyst component by mixing the amethyst powder with the base material of the ceramic during mixing, mixing, and stirring the raw material of the ceramic, thereby deodorizing, It is a ceramic ball with increased sterilization, absorption rate, deodorization, far-infrared emissivity, and antibacterial properties of anti-mildew. When used as a water filter, it removes various pollutants in the water by filtering and disinfection and antibacterial and very fine pores. Removes and maintains the main nutrients in water, and also formaldehyde and tall Yen to remove lights, a amethyst, that can be used as can be used to supply a purifying contaminated room air or purifying the air conditioner associated equipment air functional composite ceramic filter comprising ceramic balls and a process for their preparation.

In general, ceramics are used as filters for air cleaning by mounting them on air cleaners, air conditioners, etc., and natural mineral water by antibacterial, reducing and anionic functions to remove chlorine, heavy metals, odors and harmful substances in water. As it is, it is used as a filter of water purifier that can obtain biological wave water that is soft and delicious and healthy.

In particular, science ceramics are aluminum silicate, sodium, calcium, magnesium, and potassium, and have a function of lowering the reduction potential, and antibacterial bolcerics are aluminum silicate, zinc, and silver, which have antibacterial and antibacterial function. As calcium arsenite, residual chlorine is removed, and negative ion ceramics are composed of aluminum silicate, thorium and germanium, which makes the water cluster small and removes free radicals.

In addition, physeramic consists of aluminum silicate, calcium, sodium, iron, magnesium, zinc, potassium, manganese, phosphorus, selenium, nickel, molybdenum, chromium, lithium, copper, cobalt, vanadium, etc. Makes water close to

In general, various methods have been tried to manufacture ceramic balls. In view of molding technology, balls of relatively large size (radius 5 mm or more) are molded by using a mold or isoformally compressed (CIP), and balls of small size are manufactured. The molded body is manufactured by collecting by using a rotating drum.

For example, a ceramic ball with a relatively large dimension is supplied with a secondary stirrer with a mixture of 50% ceramic powder and 50% kaolin powder evenly mixed in a primary stirrer for about 30 to 30 hours to make it into an emil state with an appropriate amount of water. After that, it is often injected into a mold having good absorbency and then supplied, then naturally absorbed and dried for about 20 to 25 hours in the mold, and then demolded and naturally dried for about 24 to 30 hours in the atmosphere.

Then, the dried ceramic molding is put in a heating furnace to perform the first baking by firing at a high temperature of 1200 to 1400.

The first calcined molded product is calcined again at 1300 to 1500 for approximately 8 to 13 hours, and then completely cooled and placed in a grinder to polish the surface to obtain a ceramic ball.

Ceramic balls have antibacterial and antibacterial functions, and also have the effect of removing residual chlorine and free radicals. However, ceramic balls with far-infrared emission with higher emissivity are required with stable regular wavelengths.

For this purpose, various functional ceramic balls, which are beneficial to the human body, have recently appeared. For example, techniques for producing ceramic balls by including jade, germanium, and the like have been developed.

The present invention is to pour a predetermined amount of water to the raw material blended during the ceramic manufacturing process to make the raw material in the form of fine particles, while the dough is mixed with finely powdered amethyst powder 3 ~ 3 ~ based on the total weight of the ceramic ball raw material By adding an amount of 10%, the intrinsic efficacy of the amethyst is to be exerted on the produced ceramic ball.

The ultrafine amethyst powder has the effect of mind and body stability at the most stable regular wavelength of 32.786 kHz / second. On the other hand, far-infrared emissivity is 0.91 (5-20 micrometers, 37 degreeC), and radiation energy is 6.20x102 (W / m * micrometer, 80 degreeC).

In addition, ultrafine amethyst powder is deodorized 85-92% (30-120 minutes), germ growth "0" sterile in anti-fungal (4 weeks) samples, and also 1.4% absorption (KS L 4008-98) It is also 89.7% of far-infrared emissivity (measurement temperature 37 degreeC, 5-20 micrometers), and 88.4% of antimicrobial activity (KS K 0693-95).

In other words, the ceramic ball containing the amethyst of the present invention has a property of 2 ~ 3 ℃ cold energy to purify and purify the material, up to 10,000 small crystal particles to stabilize the brain wave and millions of (32.786kHz) rule for one second Bio wave not only contributes to metabolism in our human body but also provides a ceramic ball with inherent properties of amethyst as a large amount of light far infrared rays of life are radiated.

The present invention is a method of producing a ceramic ball produced by the process of raw material blending, raw dough kneading, stirring, molding, drying, demolding, primary firing, cooling, secondary firing, the amethyst is pulverized into fine particles, the raw material blend, Characterized in that a method for producing a ceramic ball containing amethyst, characterized in that the mixing of the raw material dough and stirring.

In addition, the present invention is to crush the amethyst into fine particles of 300 ~ 2000 mesh to mix 3-10% of the total weight of the ceramic ball raw material during the raw material blending, kneading and stirring.

The present invention is also characterized in obtaining a ceramic ball containing amethyst obtained by the method for producing a ceramic ball containing amethyst.

As described above, the present invention allows the amethyst powder to be mixed with the base material of the ceramic during mixing, mixing and stirring the raw material of the ceramic to obtain a ceramic ball containing the amethyst component, in addition to the ceramic component, deodorization, anti-mildew It is a ceramic ball with increased sterilization, absorption, deodorization, far-infrared emissivity and antibacterial properties. When used as a water filter, it completely removes various pollutants in the water by sterilization and antibacterial and very fine pores by filtering. Main nutrients of water can be maintained as it is, and also to remove polluted formaldehyde and toluene from substances that are very harmful to the human body in the air, to clean contaminated indoor air or supply purified air to air conditioning equipment. It can be used as a functional composite ceramic filter that can be used.

1 is a block diagram of a ceramic ball containing amethyst of the present invention and a manufacturing method thereof.

Detailed examples of the present invention will be described below with reference to the accompanying drawings.

The manufacturing process of the ceramic ball is made of raw material mixture 10, raw material dough 20, stirring 30, molding 40, drying 50, demolding 60, primary firing 70, cooling 80, It is manufactured by the process of secondary baking (90).

 1, the raw material mixture 10, the raw material dough 20, stirring 30, molding 40, drying 50, demolding 60, primary firing 70, In the process of cooling 80 and secondary firing 90, the amethyst is pulverized into fine particles and mixed during the raw material blending 10, the raw material dough 20 and the stirring 30 operation.

That is, the amethyst is pulverized into fine particles of 300 to 2000 mesh and mixed with 3 to 10% of the total weight of the ceramic ball raw material during the raw material mixing 10, the raw material dough 20 and the stirring 30.

The ceramic ball is a water molecule in the body of the body that absorbs a specific wavelength of far infrared rays from the ceramic ball due to the inclusion of the amethyst component in the composition composed of alumina (Al2O3), silica (SiO2), zircon (Zr2O3), etc. 촉진) It promotes self-heating and lowers body temperature, which is a function of sweating. The sweating in the body (fails) causes waste and excess salt to be pushed out. In addition, the lack of exercise, excessive intake of meat, waste accumulation in the body and blood turbidity, the constitution is to be excreted to the modern man is acidified.

In this regard, far-infrared rays activate the water molecules that make up the skin tissue, clearing blood and releasing waste products in the body by sweating, promoting metabolism and inhibiting the reproduction of bacteria (viruses), as well as vertebral diseases, arthritis, It is also known to function as an analgesic effect to treat neuralgia pain.

Further, in the ceramic ball of the present invention, when the frequency of the far-infrared rays of the radiated far infrared rays coincides with the frequency of the water molecules, resonance occurs between them, which increases the kinetic energy of the water molecules. When it is adopted to, the effect of improving the water purification efficiency can be obtained.

In addition, the ceramic ball of the present invention contains formaldehyde, toluene, and the like among the substances that are very harmful to the human body in the air due to the inclusion of amethyst in a composition composed of alumina (Al 2 O 3), silica (SiO 2), zircon (Zr 2 O 3), and the like. It can be removed to purify the contaminated indoor air or to supply purified air to the air conditioning equipment.

Example

50% of the ceramic powder and 50% of the kaolin powder are mixed evenly in the first stirrer for about 24 to 30 hours to make it into the state of Emil by the appropriate amount of water. Mix.

After supplying the mixture in the primary stirrer to the secondary stirrer, it is injected into the molding mold with good absorbency from time to time, then naturally absorbed and dried for about 20 to 25 hours in the molding mold, demolded to 24 to 30 in the atmosphere Will dry naturally for about an hour.

Then, the dried ceramic molding is put in a heating furnace to perform the first baking by firing at a high temperature of 1200 to 1400.

The first calcined molding was calcined again at 1300 to 1500 for about 8 to 13 hours, and after cooling completely, the surface was polished to obtain a ceramic ball having a diameter of about 5 mm.

10: raw material mixture 20: raw material dough
30: stirring 40: molding
50: drying 60: demolding
70: primary firing 80: cooling
90: secondary firing

Claims (3)

Raw material blending (10), raw material dough (20), stirring (30), molding (40), drying (50), demolding (60), primary firing (70), cooling (80), secondary firing (90) In the method of manufacturing a ceramic ball produced by the process of,
A method for producing a ceramic ball containing amethyst, characterized in that the amethyst is ground into fine particles and mixed in the raw material mixture (10), the dough dough (20) and stirring (30) operation. The method of claim 1, wherein the amethyst is pulverized into fine particles of 300 to 2000 mesh to mix 3 to 10% of the total weight of the ceramic ball raw material during the raw material mixture 10, the raw material dough 20 and the stirring 30 operation. A method for producing a ceramic ball containing amethyst, characterized in that. The ceramic ball of Claim 1 or 2 containing the amethyst obtained by the manufacturing method of the ceramic ball containing amethyst.

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