KR20030091127A - Ceramic ball produce aroma and far-infrared ray and their preparation method - Google Patents

Abstract

PURPOSE: Provided is a ceramic ball emitting a fragrance and far infrared rays, which improves water purification, stimulates blood circulation and metabolism and has deodorizing, nerve stabilizing and skin beauty-treating effects. CONSTITUTION: The ceramic ball is produced by the method comprising the steps of: mixing natural powder such as loess, jade, elvan and tourmalin or a synthetic far-infrared ray radiating material with an antibacterial ceramic powder such as an oyster shell powder, nano-silver and nano-copper, alone or a mixture of two or more materials, together with water, removing air in a pug mill or a compressor, forming into the shape of a ball in a cutter and a molder, and drying at 100-300 deg.C and optionally baking at 50-1000 deg.C to form a ceramic ball; preparing natural fragrance such as lavender, rose, peppermint or the like in the form of emulsion containing 5-50 wt% of the natural fragrance or a microcapsule containing 3-50 wt% of the natural fragrance; dipping the ceramic ball into a solution of the natural fragrance emulsion or microcapsule diluted at 10-100 wt%, stirring for about 5 minutes to 36 hours to adsorb the fragrance on the ceramic ball, and then drying at 25-130 deg.C for 10 seconds to 360 minutes and curing for 5 seconds to 30 minutes at 100-210 deg.C, or curing at 25-250 deg.C for 5 seconds to 600 minutes without drying in order to form the ceramic ball emitting fragrance and far infrared rays.

Description

Ceramic ball producing aroma and far-infrared ray and their preparation method

The present invention relates to the manufacture of a fragrant ceramic ball that radiates a large amount of far infrared rays, and more particularly to producing a ceramic ball that radiates a large amount of far infrared rays, and then emulsifying the natural fragrance exerting various therapeutic effects or The present invention relates to the manufacture of aromatic ceramic balls which can be microencapsulated and sufficiently adsorbed onto ceramic balls and dried.

Conventional ceramic balls are simply used for heat treatment or cosmetic and skin health according to the property of radiating far-infrared rays or for water purification according to the property of porosity. Therefore, it was difficult to confirm the far-infrared effect of the use of ceramic balls in a short time.

Therefore, the present invention is invented to solve such a conventional problem, the object of the present invention is a material capable of radiating a large amount of far-infrared, ocher, jade, ganban stone, tourmaline (tourmaline), zeolite, bentonite, illite, mica Gonguirin (calcium carbonate from plastic oyster shell powder), nano silver, nano copper, nano zinc, natural product powder such as charcoal, coarse stone (pegmatite), cordierite, celestial stone (black tin), and charcoal Emulsifying natural fragrances that have various therapeutic effects after producing ceramic balls alone or by mixing two or more types of antimicrobial ceramic powders such as silver, copper or zinc-containing titanium dioxide, silver or copper or zinc-containing Alternatively, microencapsulation is sufficiently adsorbed on ceramic balls and dried to maximize the efficacy. The.

1 is a manufacturing process diagram of a directional far infrared ceramic ball.

Far-infrared radiators for radiating large amounts of far-infrared radiation include ocher, jade, ganbanite, tourmaline, tourmaline, zeolite, bentonite, illite, mica, cotton fossil, megarite (pegmatite), cordierite, celestial stone (black tin), and charcoal The same natural or synthetic far-infrared radiation powder and antimicrobial ceramic powders such as gonkyorin (calcium carbonate obtained from calcined shell shell powder), nano silver, nano copper, silver or copper-containing titanium dioxide are used alone or in combination with each other in a blender. After mixing, the mixture is sufficiently mixed with water, degassed in a refining machine or a compressor, and the balls are formed in a cutter and a molding machine, and then dried at 100 to 300 ° C. or dried at 100 to 300 ° C. and a firing process of 500 to 1000 ° C. To prepare a ceramic ball through.

On the other hand, natural fragrances exhibiting various therapeutic effects were prepared in emulsions or microcapsules. First, in the process of preparing emulsions, a suitable emulsifier was selected according to the type of fragrance and added to the fragrance, followed by stirring. Emulsion was prepared by the reverse phase emulsification method to slowly emulsify, in the case of microcapsules were prepared by crosslinking reaction by adding a dispersant to the fragrance and stirring well while adding water and then adding a wall to make a capsule.

Put the ceramic ball thus prepared in a natural fragrance emulsion solution or microcapsule solution and stir well for 5 minutes to 36 hours depending on the type of fragrance. It is characterized by producing a fragrant ceramic ball that radiates a large amount of far infrared rays by curing at 25 ° C. or without drying at 25 ° C.

However, in the case of natural fragrances, the release rate of the emulsion appeared somewhat faster, and in the case of microcapsule, it showed a characteristic of continuously emitting the fragrance for more than 3 to 6 months.

The effect of the present invention is that the activity of water by a large amount of far-infrared radiation improves the purification and purification function, as well as the adsorption of various foreign substances in the water by a large number of pores, so that the filter action is good and the body's fatigue recovery and blood circulation and Promotes metabolism and facilitates vital activities to maintain a comfortable and healthy condition at all times, and emulsifies or microencapsulates natural fragrances that exert various therapeutic effects and adsorbs them on ceramic balls for air freshening, deodorizing and neurostable effects. In addition, various effects such as improving mental concentration, improving sexual function, and treating skin diseases and skin beauty can be obtained.

Claims (5)

Natural powders such as ocher, jade, elvanite, tourmaline (zeolite), zeolite, bentonite, illite, mica, cotton, macrorite (pegmatite), cordierite, sky stone (black tin), and charcoal, or synthetic far infrared radiant powder Antimicrobial ceramic powders such as Kyolin (calcium carbonate obtained from fired shell shell powder), nano silver, nano copper, silver or copper-containing titanium dioxide, alone or two or more are mixed well in a blender, and then mixed well by adding water. After degassing in a refining machine or a compressor, the balls are formed in a cutter and a molding machine, and then, the ceramic balls are manufactured through a drying process of 100 to 300 ° C., or the ceramic balls are subjected to a drying process of 100 to 300 ° C. and a firing process of 500 to 1000 ° C. The first process of manufacturing the, In order to exert various therapeutic effects, natural flavors such as lavender, rose, peppermint, bergamot, geranium, and selvia were prepared in emulsion or microcapsules. First, the emulsion manufacturing process, by selecting the appropriate emulsifier according to the type of fragrance added to the flavor and stirred well, the emulsion was prepared by the reverse phase emulsification method to emulsify with the addition of water gradually to prepare the emulsion with a natural flavor of 5 to 50% by weight. In the case of microcapsules, the second step of preparing a microcapsule having a natural flavor of 3 to 50% by weight through a crosslinking reaction by adding a dispersant to the fragrance, stirring it well while adding water, and adding a wall for making a capsule, Put the ceramic ball thus prepared in a diluted natural flavor emulsion solution or microcapsule solution to 10 to 100% by weight, and stir well for 5 minutes to 36 hours depending on the type of flavor. Scented ceramic ball that radiates a large amount of far-infrared rays by drying for 10 seconds to 360 minutes at ℃ and curing for 5 seconds to 30 minutes at 100 to 210 ℃ or for 5 seconds to 600 minutes at 25 to 250 ℃ without drying Ceramic ball and a manufacturing method for producing a fragrance and far infrared rays, characterized in that consisting of a third process of manufacturing. In claim 1, the ceramic ball is natural products such as ocher, jade, elvan, tourmaline, tourmaline, zeolite, bentonite, illite, mica, cotton, macrorite (pegmatite), cordierite, natural stone (black tin), and charcoal. Powders or synthetic far-infrared radiant powders and antimicrobial ceramic powders such as gonkyorin (calcium carbonate obtained from calcined shell shell powder), nano silver, nano copper, silver or copper-containing titanium dioxide, alone or in combination in a blender After mixing with water, the mixture is sufficiently mixed, degassed in a refining machine or a compressor, and the balls are formed in a cutter and a molding machine, and then ceramic balls are manufactured through a drying process at 100 to 300 ° C. or dried at 100 to 300 ° C. and 500 to 1000 ° C. Ceramic ball, characterized in that manufactured through a firing step of ℃. In claim 1, the fragrance is a natural fragrance such as lavender, rose, peppermint, bergamot, geranium, and selvia in order to exert various therapeutic effects. Looking at the manufacturing process of the emulsion, a suitable emulsifier according to the type of fragrance The natural fragrance emulsion, characterized in that the natural flavor is prepared by 5 to 50% by weight in a reverse phase emulsification method by selecting a non-ionic or anionic surfactant or a polymer dispersant as an additive to the fragrance and stirring well and then slowly adding water. In claim 1, the fragrance is a natural capsule such as lavender, rose, peppermint, bergamot, geranium, and selvia in order to exert various therapeutic effects. In the case of microcapsules, a dispersant is added to the perfume and water is added. Naturally flavored microcapsule, characterized in that the natural flavor is prepared by 3 to 50% by weight through a crosslinking reaction after adding the wall for making the capsule while stirring well. After adhering the ceramic ball to the natural flavor emulsion solution or microcapsule solution diluted to 10 to 100% by weight and stirring well for 5 minutes to 36 hours depending on the type of the flavor, the natural flavor is sufficiently adsorbed onto the ceramic ball, and then 25 It is prepared by drying at ˜130 ° C. for 10 seconds to 360 minutes and curing at 100 to 210 ° C. for 5 seconds to 30 minutes, or curing at 25 to 250 ° C. for 5 seconds to 600 minutes without drying. Fragrant ceramic balls that radiate far infrared rays.