KR100783486B1 - Squared dome shape ceramics plate for radiating the far infrared and anion - Google Patents
Squared dome shape ceramics plate for radiating the far infrared and anion Download PDFInfo
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Abstract
Description
본 발명은 일정한 조성비를 갖는 성분으로 이루어지는 원적외선과 음이온 방사 세라믹스를 사각돔형으로 제조하여 원적외선과 음이온이 집중적이고 효과적으로 방사될 수 있도록 한 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트를 제공하는데 그 목적이 있다.An object of the present invention is to provide a square dome-type far infrared ray and anion-emitting ceramic plate, which is made of far-infrared rays and anion-emitting ceramics composed of components having a constant composition ratio in a square dome shape so that far-infrared rays and negative ions can be concentrated and effectively radiated.
원적외선은 가시광선과 마이크로파의 중간 대역에 있는 것으로 파장 이론상 0.76 ~ 1000 미크론 대역의 전자기파로서 많은 관심과 논란 속에서도 그 적용 및 응용 분야가 점증되고 있는 것이며, 원적외선의 효과는 이론적이고 학술적이기보다는 경험적, 실용적 적용에 의한 가치가 높이 인정되어 생활용구나 도구 및 각종 산업 부분과 의료용구에 널리 이용이 확산되고 있는 것이다.Far infrared rays are in the middle band between visible light and microwave. In the theory of wavelength, electromagnetic waves in the band of 0.76 to 1000 microns are increasing in application and application even in the interest and controversy. The effect of far infrared is empirical and practical rather than theoretical and academic. Its value is highly recognized and it is widely used in daily use, tools, various industrial parts and medical equipment.
지금까지 각종 원적외선과 음이온 방사 세라믹스가 개발되어 여러 가지 형태로 각종 용도에 응용되어 왔으나, 이들은 원적외선과 음이온 방사 세라믹스 자체가 소유하고 있는 원적외선과 음이온을 집중적이고 효과적으로 방사하지 못하여, 원적 외선이 피사체 깊숙이 침투하기가 어려웠고, 또한 물리적, 화학적으로 생리 활성화를 도모하지 못함으로써, 의료, 미용, 식품조리, 건조, 보관과 가공, 수질개선 등과 같은 여러 분야에서 이들을 이용 및 적용하는데 부적합하였다. 더욱이 종래 원적외선과 음이온 방사 세라믹스는 그 자체가 소유하고 있는 원적외선과 음이온을 집중적으로 방사하지 못함으로써 그 효과를 최대한으로 활용하지 못하기 때문에 원적외선과 음이온을 인체의 피부 깊숙이 침투시켜 혈관을 팽창시킴으로써 혈행을 촉진시키고 체내의 노폐물이 배설되게 하여 건강을 증진시키고 질병을 예방하는 효과는 기대하기가 어려웠다. Until now, various far-infrared and anion-emitting ceramics have been developed and applied to various uses in various forms, but they do not intensively and effectively radiate far-infrared and anion owned by the far-infrared and anion-emitting ceramics themselves, so far-infrared rays penetrate deeply into the subject. It was difficult to do so and was not physically and chemically physiologically active, making it unsuitable for use and application in many fields such as medical, beauty, food preparation, drying, storage and processing, and water quality improvement. Moreover, the conventional far infrared and anion radiation ceramics do not intensively radiate their own far infrared rays and anions, so they do not take full advantage of their effects, so the far infrared rays and negative ions penetrate deeply into the skin of the human body to expand blood vessels. It was difficult to expect the effect of promoting health and preventing disease by promoting the excretion of waste products in the body.
따라서 본 발명은 5.6 ~ 25 미크론의 파장을 갖는 원적외선과 음이온 방사 세라믹스 원료를 일정 조합비로 혼합하여, 이 원적외선과 음이온 방사 세라믹스를 사각돔형으로 소성시킴으로써, 집중적이고 효과적으로 원적외선과 음이온을 방사할 수 있도록 하여 종래 최대로 활용하지 못한 원적외선과 음이온 방사 세라믹스의 효과를 더욱 증진시켜서 원적외선과 음이온이 물리, 화학적으로 생명체를 더 크게 활성화 시켜줌으로써 인체 접촉시 지속적인 방출 효과를 갖도록 하고 피부에 매끄러운 감을 더 하면서, 질병 예방 등 건강 증진을 가져오게 하고, 또한 상단 표면에 음각이나 양각으로 회사의 로고나 문양 등 브랜드를 침작시킬 수 있고, 각종 인쇄물을 부착할 수 있도록 하였기 때문에 응용 제품의 홍보와 의료, 이미용, 건강, 난방 등 다방면으로 활용 가능한 사각돔형 원적외선 방사 세라믹스 플레이트를 제공함으로써 상기한 종래의 문제점을 해결하였다.Therefore, the present invention is to mix the far-infrared and anion-emitting ceramic raw materials having a wavelength of 5.6 ~ 25 microns in a certain combination ratio, by firing the far-infrared and anion-emitting ceramics in a square dome shape, so that the far infrared and anion can be radiated intensively and effectively By further enhancing the effects of far-infrared and anion-radiation ceramics, which have not been utilized to the maximum, the far-infrared and anion activate the life more physically and chemically to have a continuous release effect upon contact with the human body and add a smooth feeling to the skin, preventing disease It is possible to invade the brand such as company logo or pattern by engraving or embossing on the upper surface, and to attach various printed materials, so that it can promote the promotion of application products, medical, beauty, health, heating, etc. Utilize in many ways The above problems have been solved by providing a rectangular domed far infrared radiation ceramic plate.
본 발명은 일정한 조성비, 바람직하기로는 74 : 12.5 : 1.4 : 2.1 : 5.3 : 4.7의 조성비를 갖는 이산화규소 : 알루미나 : 산화철 : 산화마그네슘 : 산화칼륨 : 산화베릴륨의 혼합물 15중량%와, 50중량%의 산화지르코늄, 3중량%의 산화철, 2중량%의 전기석, 10중량%의 장석과 20중량%의 점토로 이루어지는 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트에 관한 것이고, 또한, 본 발명은 74 : 12.5 : 1.4 : 2.1 : 5.3 : 4.7의 조성비를 갖는 이산화규소 : 알루미나 : 산화철 : 산화마그네슘 : 산화칼륨 : 산화베릴륨의 혼합물을 1170 ~ 1380℃의 고온에서 소성시켜 300 ~ 400 메쉬의 미분말로 하고, 이 미분말 15중량%에 50중량%의 산화지르코늄, 3중량%의 산화철, 2중량%의 전기석, 10중량%의 장석과 20중량%의 점토를 첨가하고 이에 소량의 물을 가하여 일정 시간 숙성시킨 다음, 이를 사각돔형 금형에서 성형하고 성형물을 1170 ~ 1380℃의 온도에서 소성하여 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트를 제조한다.According to the present invention, 15 wt% of a mixture of silicon dioxide: alumina: iron oxide: magnesium oxide: potassium oxide: beryllium oxide having a composition ratio of 74: 12.5: 1.4: 2.1: 5.3: 4.7 is preferably 50% by weight. The present invention relates to a square dome type far infrared ray and anion spinning ceramic plate composed of zirconium oxide, 3% by weight of iron oxide, 2% by weight of tourmaline, 10% by weight of feldspar and 20% by weight of clay, and the present invention also provides 74: 12.5: 1. : Dioxide: Alumina: Iron Oxide: Magnesium Oxide: Potassium Oxide: Beryllium mixture having a composition ratio of 2.1: 5.3: 4.7 is calcined at a high temperature of 1170 to 1380 ° C. to obtain a fine powder of 300 to 400 mesh. 50% by weight of zirconium oxide, 3% by weight of iron oxide, 2% by weight of tourmaline, 10% by weight of feldspar and 20% by weight of clay are added thereto, and a small amount of water is added to mature for a certain period of time. By molding in a mold, and firing the formed product at a temperature of 1170 ~ 1380 ℃ to produce a rectangular dome-shaped far-infrared radiation and anion ceramic plate.
본 발명을 더 구체적으로 설명하면,In more detail, the present invention,
74중량%의 이산화규소, 12.5중량%의 알루미나, 1.4중량%의 산화철, 2.1중량%의 산화마그네슘, 5.3중량%의 산화칼륨, 4.7중량%의 산화베릴륨의 혼합물을 1170 ~ 1380℃의 온도에서 3시간 이상 소성한 다음 이를 입도 300 ~ 400 메쉬 크기의 입자로 미분말화하여 원적외선 방사 세라믹스의 미분말 원료를 제조하고, 다음 여기서 얻은 15중량%의 미분말에 50중량%의 산화지르코늄, 3중량%의 산화철, 2중량%의 전기석, 10중량%의 장석과 20중량%의 점토를 순차적으로 가하고 잘 혼합한 후, 이에 적당량의 물을 가하여 20시간 숙성시켜서 수화성과 점성이 좋게 되도록 한 다음, 이를 균일한 크기와 모양을 갖는 사각돔형의 금형에 주입하여 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트를 제조하여 서냉시킨 후, 이를 소성로에 넣어 로온도를 단계적으로 승온시켜 1170 ~ 1380℃의 고온에서 일정시간 유지하여 소성하고 서냉한 후 표면 조도 처리와 연마 과정을 거치면 본 발명의 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트가 제조된다.A mixture of 74 wt% silicon dioxide, 12.5 wt% alumina, 1.4 wt% iron oxide, 2.1 wt% magnesium oxide, 5.3 wt% potassium oxide, and 4.7 wt% beryllium oxide was added at a temperature of 1170-1380 ° C. After firing for more than one hour and finely powdered into particles having a particle size of 300 ~ 400 mesh to prepare a fine powder raw material of far-infrared radiation ceramics, and then 50% by weight of zirconium oxide, 3% by weight of iron oxide, 2% by weight of tourmaline, 10% by weight of feldspar and 20% by weight of clay are added sequentially and mixed well. Then, an appropriate amount of water is added thereto and aged for 20 hours to give good hydration and viscosity. It is injected into a mold having a square dome shape to prepare a square dome type far infrared ray and anion radiation ceramics plate, and then it is slowly cooled and put into a firing furnace to gradually raise the furnace temperature to 1170 ~ 1380. Maintained at a high temperature to a certain period of time it is made up of the firing and then cooled geochimyeon the surface roughness treatment and polishing process rectangular dome-shaped far-infrared radiation ceramics and negative plate of the present invention.
본 발명의 실시예를 들면 아래와 같다.An embodiment of the present invention is as follows.
740g의 이산화규소, 125g의 알루미나, 14g의 산화철, 21g의 산화마그네슘, 53g의 산화칼륨과 47g의 산화베릴륨을 혼합기에서 교반하면서 20시간 동안 혼합한 다음, 이 혼합물을 1380℃의 온도에서 3시간 동안 유지하여 소성한 후, 이를 분쇄기에서 20시간 동안 분쇄하여 400 메쉬 입도의 미분말로 제조하고, 다음 입자의 중공상태, 입자크기(3미크론이하)와 기공상태를 검사한다. 여기서 제조된 미분말 150g에 500g의 산화지르코늄, 30g의 산화철, 20g의 전기석, 100g의 장석과 200g의 점토 미분말을 혼합하여 3시간 동안 교반하고 이에 15g의 물을 가하고, 균일하게 혼합되도록 교반하고 20시간 숙성시킨다. 다음 1170g/㎤로 벌크량을 조절하여 이를 미리 준비된 사각돔형 금형에 주입하여 성형한 후 정형과 기공 검사를 한 다음, 이를 소성로에 넣어 1170 ~ 1380℃의 온도에서 3시간 이상 소성시킨다. 소성물을 서냉한 후 이를 표면 조도 처리하고 연마하면 원하는 본 발명의 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트를 얻는다.740 g of silicon dioxide, 125 g of alumina, 14 g of iron oxide, 21 g of magnesium oxide, 53 g of potassium oxide, and 47 g of beryllium oxide were mixed for 20 hours with stirring in a mixer, and then the mixture was mixed at a temperature of 1380 ° C. for 3 hours. After maintaining and firing, it is pulverized in a grinder for 20 hours to prepare a fine powder of 400 mesh particle size, and then examine the hollow state, particle size (less than 3 microns) and pore state of the particles. 150 g of the fine powder prepared herein are mixed with 500 g of zirconium oxide, 30 g of iron oxide, 20 g of tourmaline, 100 g of feldspar and 200 g of clay fine powder, which is stirred for 3 hours, and 15 g of water is added thereto, followed by stirring to mix uniformly for 20 hours. Mature. Next, by adjusting the bulk amount to 1170g / ㎠ and injected into a pre-prepared rectangular dome-shaped mold, and then molding and porosity inspection, it is put in a firing furnace and baked at a temperature of 1170 ~ 1380 ℃ for more than 3 hours. After cooling the calcined product slowly and subjecting it to surface roughening and polishing, the desired rectangular domed far infrared ray and anion emitting ceramic plate of the present invention are obtained.
본 발명의 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트는 원적외선과 음이온 방사 세라믹스를 사각돔형으로 소성시킴으로서, 집중적이고 효과적으로 원적외선과 음이온을 방사할 수 있도록 하여 종래 최대로 활용하지 못한 원적외선과 음이온의 효과를 더욱 증진시켜서 원적외선과 음이온을 피사체 깊숙이 침투시켜서 물리적, 화학적으로 생리 활성화를 도모해 주기 때문에 의료, 미용, 식품조리, 건조, 보관과 가공, 수질개선 등 여러 분야에서 이를 이용 및 적용이 가능하며, 가장 잘 알려진 효과로는 인체의 피부 깊숙이까지 영향을 미치어 혈관을 팽창시키고, 혈행을 촉진시켜 체내의 노폐물을 배설되게 하여 건강을 증진시키고 질병을 예방하는 놀라운 효과를 나타낸다.The square dome type far infrared ray and anion radiation ceramics plate of the present invention by firing the far infrared ray and anion radiation ceramics in the square dome shape, and can be concentrated and effectively radiate far infrared rays and negative ions to further enhance the effect of far infrared rays and negative ions that have not been utilized to the maximum It penetrates far-infrared rays and negative ions deep into the subject to promote physical and chemical physiological activation, which makes it possible to use and apply them in various fields such as medical, beauty, food cooking, drying, storage and processing, and water quality improvement. Its effect is that it affects deep into the skin of the human body, dilates blood vessels, promotes blood circulation, and excretes waste products in the body, thereby improving health and preventing diseases.
또한 본 발명의 사각돔형 원적외선과 음이온 방사 세라믹스 플레이트는 이의 이용시 위험을 수반하지 않으면서 장소나 설비에 크게 구애받지 않고 사용할 수 있고, 그 성능을 즉시 또는 단기간 시험이 가능하여 그 효과를 신속하게 확인할 수 있다.In addition, the square dome type far infrared rays and anion radiation ceramics plate of the present invention can be used regardless of the place or equipment without any risks in its use, and its performance can be immediately or short-term tested so that the effect can be quickly confirmed. have.
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US10252945B2 (en) | 2012-09-26 | 2019-04-09 | Multiple Energy Technologies Llc | Bioceramic compositions |
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KR930000003B1 (en) * | 1989-07-15 | 1993-01-06 | 강기세 | Far-ir radiating ceramic composition and processing method therefore |
KR930000426A (en) * | 1991-06-24 | 1993-01-15 | 박찬역 | Method of manufacturing bead-type far infrared radiation ceramics |
KR930016372A (en) * | 1992-01-20 | 1993-08-26 | 김윤동 | High Radiation Far Infrared Bio-Ceramic Composition and Its Manufacturing Method |
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KR930000003B1 (en) * | 1989-07-15 | 1993-01-06 | 강기세 | Far-ir radiating ceramic composition and processing method therefore |
KR910010447A (en) * | 1989-11-30 | 1991-06-29 | 이헌조 | Method and device for selecting specific screen of VCR |
KR930000426A (en) * | 1991-06-24 | 1993-01-15 | 박찬역 | Method of manufacturing bead-type far infrared radiation ceramics |
KR930016372A (en) * | 1992-01-20 | 1993-08-26 | 김윤동 | High Radiation Far Infrared Bio-Ceramic Composition and Its Manufacturing Method |
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US10252945B2 (en) | 2012-09-26 | 2019-04-09 | Multiple Energy Technologies Llc | Bioceramic compositions |
US20150335742A1 (en) * | 2014-05-05 | 2015-11-26 | Shannon Vissman | Bioceramic compositions and biomodulatory uses thereof |
US9833509B2 (en) * | 2014-05-05 | 2017-12-05 | Multiple Energy Technologies Llc | Bioceramic compositions and biomodulatory uses thereof |
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