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    • 61. 发明公开
    • 찜질용 세라믹의 제조방법
    • 制备陶瓷的方法,用于制造微波炉的大量红外线和微波炉的微波炉
    • KR1020040091860A
    • 2004-11-02
    • KR1020030025500
    • 2003-04-22
    • 마이크로파우더 주식회사
    • 김태희
    • C04B35/14
    • C04B35/14C04B35/03C04B35/04C04B35/10C04B35/62695C04B2103/0097C04B2235/96
    • PURPOSE: A method for preparing ceramics for fomentation is provided to form a pack for fomentation which emits a great amount of far infrared rays, absorbs microwaves from a microwave oven for heat emission, is easily and safely handled and maintains heat emission for a long time. CONSTITUTION: The method for preparing ceramics for fomentation comprises the steps of: mixing 62-73 wt% of SiO2, 8-24 wt% of Al2O3, 3-11 wt% of K2O3, 1-6 wt% of CaO and 0-3 wt% of MgO as powdery base materials; adding one or two selected from SO3, Na2O and Fe2O3 powder thereto in a small amount as a binder; forming the mixture into spherical bodies having a diameter of 3-7 mm; drying the spherical bodies at room temperature naturally; and firing the dried product by using an alumina crucible in an electric furnace at 1100-1200 deg.C.
    • 目的:提供一种用于制作陶瓷的方法,以形成一种发射大量远红外线的包装,从微波炉吸收微波用于散热,易于安全地处理并长时间保持发热 。 构成:用于制备陶瓷的方法包括以下步骤:将62-73重量%的SiO 2,8-24重量%的Al 2 O 3,3-11重量%的K 2 O 3,1-6重量%的CaO和0-3 重量%的MgO作为粉末状基材; 从少量添加选自SO 3,Na 2 O和Fe 2 O 3粉末中的一种或两种作为粘合剂; 将混合物形成直径为3-7mm的球形体; 自然地在室温下干燥球体; 并在1100-1200℃的电炉中使用氧化铝坩埚烧制干燥产物。
    • 62. 实用新型
    • 활성탄소가 첨가된 코이어판이 삽입된 기능성 발포체안창
    • 添加了活性炭的功能性泡沫鞋垫
    • KR200361965Y1
    • 2004-09-13
    • KR2020040016699
    • 2004-06-15
    • 황보국정
    • 황보국정
    • A43B17/14B29C44/02A43B17/10
    • A43B17/14A43B17/08B29C44/0415C04B2103/0097
    • 본 고안은 신발 안(內)에 깔창으로 사용되는 발포체안창에 관한 사항으로써, 140~180% 로 축소된 발포체안창 성형용 금형에서 안창을 발포하였을 때, 성형된 안창용 발포체 중심부분의 일정한 면적에, 일정한 뚜께와 면적의 코코넛 중과피(中果皮)의 굵은섬유(이하 코이어라고 한다)에 활성탄소를 첨가하여 판상으로 제조된 코이어활성탄소판을 삽입할 수 있도록 하고, 삽입된 코이어활성탄소판이 유동하지 않도록 코이어활성탄소판에 코이어활성탄소판 고정구멍을 형성하고, 발포성형시 발포 성형한 안창용발포체와 코이어활성탄소판을 결합하였을 때 코이어활성탄소판의 고정구멍과 안창용 발포체의 코이어활성탄소판 고정용 돌출부분이 서로 일치하도록 하여, 안창발포용 금형을 제작한다. 제작된 안창용 금형을 가열(加熱)발포성형 프레스기에 부착한 다음, 부착된 안창용 금형에 미발포(未發泡)의 발포체배합물을 금형에 넣고, 일정시간 가압(加壓), 가열(加熱)한 후, 프레스 압력을 해제(解除)하면, 배합물은 가교(架橋) 발포하면서 금형과 동일한 형태의 안창성형용으로 삽입된 발포체배합물의 발포배율에 따라 발포가 되어 안창용발포체가 성형된다. 이와 같은 성형방식을 직접발포성형(直接發泡成形: direct expansion molding)이라고 한다. 이렇게 안창형태로 성형된 안창용발포체의 발바닥이 접하는 안창용 발포체면에 코이어활성탄소판을 삽입 결합하고, 원단을 접착하기 위하여 원단을 접착하는 안창용발포체면에 전처리제 또는 접착제를 도포한 후, 안창용 발포체에 접착작업 하기에 적합하도록, 사전에 원단의 이면(裏面)에 음이온과 원적외선방출 및 항균, 항취,항곰팡이 기능을 갖고 있는 기능성물질(예: 황토분말, 게르마늄분말, 나노실버, 키토산 등)을 혼합한 기능성 핫-멜트(Hot-Melt)접착제가 도포된 원단을 가운데부분에 공기가 유통될 수 있는 구멍의 자국만 있도록 하여 재단한 다음, 재단된 원단의 접착제가 도포된 면이 전처리제나 접착제가 도포된 안창용 발포체면과 마주 하도록 포개어 놓은 후, 이것을 가열챔버(Heat Chamber)내에서 가열시켜, 원단에 도포된 기능성 핫-멜트(Hot-Me lt) 접착제가 연화되어 점착력을 가지게 된다. 이때 원단과 발포체를 동시에 압착롤로 압착하여 안창용발포체와 원단을 접착시켜 신발용 기능성 발포체안창을 제조한다.
      이러한 방법으로 제조한 기능성 발포체안창(sponge insole)은 안창용 발포체의 발바닥이 접하는 표면인, 원단의 이면에 기능성물질이 혼합된 핫-멜트 접착제가 도포되어 있으며, 접착된 원단과 안창용 발포체 사이에 삽입된 코이어활성탄소판의 활성탄소와 코이어의 작용으로, 신발내에 세균 및 곰팡이의 번식을 억제 또는 살균하고, 원적외선과 음이온을 방출함으로써, 발의 건강을 증진시킬 수 있는 기능성물질이 첨가 및 삽입 부착된 발포체안창을 제조할 수 있다.
    • 63. 发明公开
    • 실내 내장용 원적외선 방사 항균 타일 제조방법
    • 用于室内装饰的红外发射抗菌片的制备方法
    • KR1020040065130A
    • 2004-07-21
    • KR1020030002840
    • 2003-01-15
    • 김선익
    • 김선익
    • C04B35/528
    • C04B35/52C04B35/62645C04B2103/0097C04B2103/67C04B2235/96
    • PURPOSE: A method for preparing a tile for interior decoration is provided, to obtain a tile which has an antibacterial effect and emits far infrared ray. CONSTITUTION: The method comprises the steps of pulverizing 40 wt% of white clay powder containing 90 wt% or more of carbon and 3 wt% or more of ash into 120 mesh or more, 38 wt% of quartz porphyry clay powder into 120 mesh or more, 10 wt% of clay powder into 120 mesh or more, 1 wt% of tourmaline powder into 325 mesh or more, and 10 wt% of quick lime powder into 200 mesh or more; mixing the obtained one with a natural material binder; molding the mixture; drying the molded one; coating an inorganic paint to the obtained solid one; secondly drying the coated one; silk printing a design to the solid one; and firing the silk printed one at a low temperature.
    • 目的:提供一种制备用于室内装饰的瓷砖的方法,以获得具有抗菌效果并发射远红外线的瓷砖。 构成:该方法包括将40重量%的含有90重量%以上的碳和3重量%以上的灰分的白色粘土粉末粉碎成120目以上,38重量%的石英斑岩粘土粉末粉碎成120目以上 更多的是,10重量%的粘土粉末变成120目以上,1重量%的电气石粉末进入325目以上,10重量%的生石灰粉末进入200目以上; 将得到的物质与天然材料粘合剂混合; 成型混合物; 干燥成型的; 将无机涂料涂布到所得固体涂料上; 二次干燥涂层; 丝印设计为实心; 并在低温下烧制丝印。
    • 64. 发明公开
    • 건축물의 내,외장재용 기능성 물질의 제조방법 및 그방법으로 제조된 건축물의 내,외장재
    • 功能材料的内部和外部结构的制造以及获得的结构产品
    • KR1020040050362A
    • 2004-06-16
    • KR1020020078176
    • 2002-12-10
    • 한융기
    • 한융기
    • C04B14/04
    • C04B14/04C04B14/30C04B20/026C04B2103/0097C04B2111/00025C04B2111/00258
    • PURPOSE: Provided is a manufacturing method of constructional interior and exterior materials which emit far infrared rays, and shield electromagnetic and water vein waves for health improvement by adding functional materials containing anhydrous SiO2, MgO, CaO, etc. to conventional construction materials. CONSTITUTION: The functional interior and exterior materials are manufactured by mixing the first functional powder, nephrite powder(300-5000mesh), with the second functional powder, elvan powder(300-5000mesh), in a ratio of 1 : 5-10 for 1-2hrs, wherein the first functional powder comprises less than 58% of SiO2, less than 24% of MgO, less than 14% of CaO, less than 5% of Fe2O3 and Al2O3, and trace components, and the second functional powder comprises less than 65% of SiO2, less than 17% of Al2O3, less than 6% of Na2O and K2O, and 3% of Fe2O3 and CaO. The first functional powder contains less than 20.0ppm of Pb, less than 5.0ppm of As, less than 2.0% of acid-soluble matter, less than 2.0% of moisture and 0.01-0.05% of Ti. The amount of produced functional powder added to constructional materials(tile, wall and floor paper and paint) is 0.1-40.0wt.%, based on the conventional construction materials and additives.
    • 目的:提供发射远红外线的建筑室内外材料的制造方法,通过向常规建筑材料中添加含有无水SiO 2,MgO,CaO等的功能材料,屏蔽电磁水静水波进行健康改善。 构成:通过将第一功能性粉末,软玉粉(300​​-5000目))与第二功能性粉末(埃尔凡粉末(300-5000目))以1:5-5比例混合1制备功能性内部和外部材料 -2小时,其中第一功能性粉末包含小于58%的SiO 2,小于24%的MgO,小于14%的CaO,小于5%的Fe 2 O 3和Al 2 O 3以及微量组分,第二功能粉末包含较少的 超过65%的SiO 2,小于17%的Al 2 O 3,小于6%的Na 2 O和K 2 O,3%的Fe 2 O 3和CaO。 第一功能性粉末含有小于20.0ppm的Pb,小于5.0ppm的As,小于2.0%的酸溶性物质,小于2.0%的水分和0.01-0.05%的Ti。 基于传统的建筑材料和添加剂,添加到建筑材料(瓷砖,墙壁和地板纸和油漆)中的功能粉末的添加量为0.1-40.0重量%。
    • 65. 发明公开
    • 다기능성 무기 조성물의 제조방법
    • 生产多功能无机组合物的方法
    • KR1020040048560A
    • 2004-06-10
    • KR1020020076456
    • 2002-12-04
    • 나노스피어 주식회사
    • 이명구
    • C04B14/04
    • C04B14/045C04B14/34C04B2103/0097C04B2103/67C04B2111/00258C04B2111/94
    • PURPOSE: Provided is a process for producing a multi-functional inorganic composition having conductivity, an antimicrobial property, an electromagnetic wave shielding function, a UV screening function, a far infrared ray emitting function, a bacteria inhibiting function, a moisture controlling function, an air refreshing function. CONSTITUTION: The multi-functional inorganic composition is produced by adding a functional additive to a conventional inorganic composition containing potassium silicate, biostone, an acryl emulsion, a dispersant, wherein the functional additive is inorganic fine particles produced by emulsion-polymerizing an effective amount of a functional additive being silver or copper, 50-90wt% of an inorganic filler being at least one or two selected from sodium silicate, potassium silicate, sodium- or potassium-based colloidal silica, aluminium hydroxide, and etc, 0.01-2wt% of a non-ionic surfactant being at least one or two selected from an amine oxide, an alkyl ester, and a polysorbate, 0.01-1wt% of an alkali metal salt being at least one or two selected from perchlorates of an alkali metal, and 1-50wt% of an ammonium salt being at least one or two selected from ammonium carbonate, ammonium bicarbonate, ammonium bifluoride, ammonium bisulfate, and etc.
    • 目的:提供一种具有导电性,抗菌性,电磁波屏蔽功能,紫外线屏蔽功能,远红外线发射功能,细菌抑制功能,水分控制功能的多功能无机组合物的制造方法 空气清爽功能。 构成:多功能无机组合物是通过向常规的含有硅酸钾,生物石,丙烯酰乳液,分散剂的无机组合物中添加功能性添加剂而制备的,其中功能性添加剂是通过乳液聚合有效量的 作为银或铜的功能添加剂,50-90重量%的无机填料为选自硅酸钠,硅酸钾,钠或钾基胶态二氧化硅,氢氧化铝等中的至少一种或两种,0.01〜2重量% 选自氧化胺,烷基酯和聚山梨酸酯中的至少一种或两种以上的非离子表面活性剂,0.01-1重量%的选自碱金属的高氯酸盐中的至少一种或两种的碱金属盐,和1 -50wt%的铵盐是选自碳酸铵,碳酸氢铵,氟化氢铵,硫酸氢铵等中的至少一种或两种。
    • 66. 发明公开
    • 다공질 자성광물의 제조방법
    • 生产多孔磁性矿物的方法
    • KR1020040043502A
    • 2004-05-24
    • KR1020020071778
    • 2002-11-18
    • 서희동
    • 서희동서영준서영진
    • C04B35/00C04B38/00C02F1/48C12N1/00
    • C04B38/0605C04B14/363C04B22/124C04B2103/0097C04B2111/00422
    • PURPOSE: Provided is a process for producing porous magnetic minerals emitting far infrared rays and anions, which can be used for a preparation of magnetic mineral water, a microorganism culturing process, and a water culture. CONSTITUTION: The process for producing the porous magnetic minerals comprises the steps of: mixing a mineral powder with 40-60 micrometer emitting far infrared rays and anions, such as phyllite, tourmaline, elvan, jade and 10-50wt% of a ferrite(MO.nFe2O3, M=Fe, Ba, Sr, etc.) magnetic material powder with 40-60 micrometer in size; adding 0.1-0.5wt% of an inorganic binder, 0.03-0.04wt% of an organic binder, and 0.1-1.0wt% of sodium silicate and mixing; adding 2-5wt% of ammonium chloride(NH4Cl) to form fine pores and mixing to prepare a dough; making the dough sphere or ring type pellets; drying, calcining, and polarizing.
    • 目的:提供可用于制备磁性矿泉水,微生物培养方法和水培养的远红外线和阴离子的多孔磁性矿物的制造方法。 构成:生产多孔磁性矿物的方法包括以下步骤:将矿物粉末与40-60微米的远红外线和阴离子混合,例如千枚岩,电气石,埃尔文,玉和10-50重量%的铁氧体(MO .nFe2O3,M = Fe,Ba,Sr等)磁性材料粉末,尺寸为40-60微米; 加入0.1-0.5重量%的无机粘合剂,0.03-0.04重量%的有机粘合剂和0.1-1.0重量%的硅酸钠并混合; 加入2-5wt%的氯化铵(NH4Cl)以形成细孔并混合以制备面团; 制作面团球或环型球团; 干燥,煅烧和极化。
    • 67. 发明公开
    • 광물질이 함유된 알루미늄 발포판넬조성물
    • 包含矿物的泡沫铝板
    • KR1020040036073A
    • 2004-04-30
    • KR1020020064868
    • 2002-10-23
    • 김재용강용오정상섭
    • 김재용강용오정상섭
    • C04B14/00
    • C04B38/02C04B14/18C04B14/20C04B22/04C04B2103/0097C04B2103/63C04B2103/67C04B2111/52E04B1/76E04B1/84
    • PURPOSE: Provided is a foamed aluminum panel, which contains a great amount of minerals emitting far infrared rays, is produced at a low cost, and has an ultra-light weight and excellent flame resistance, heat insulation and electron wave protection. CONSTITUTION: The foamed aluminum panel comprises 0.9-99.1% of aluminum combined with 0.9-99.1% of at least one mineral selected from the group consisting of vermiculite, pearlite and sepiolite, or a mixture thereof. The foamed aluminum panel optionally further comprises 1-15% of a thickener selected from the group consisting of air, carbon dioxide and argon, and 5-25% of a foaming agent selected from the group consisting of TiH2, ZrH2, polyvinyl chloride, polyvinyl acetate, phenolic resins and cellulose, based on 50-94% of the aluminum/mineral mixture.
    • 目的:提供一种泡沫铝面板,其含有大量的发射远红外线的矿物质,以低成本生产,具有超轻重量和优异的阻燃性,隔热性和电子波保护性。 构成:泡沫铝板包含0.9-99.1%的铝和0.9-99.1%的至少一种选自蛭石,珠光体和海泡石或其混合物的矿物。 发泡铝板任选地还包含1-15%的选自空气,二氧化碳和氩的增稠剂和5-25%的选自TiH 2,ZrH 2,聚氯乙烯,聚乙烯 乙酸酯,酚醛树脂和纤维素,基于50-94%的铝/矿物混合物。
    • 69. 发明公开
    • 음이온 방사체 및 그 제조방법
    • 阴极发射体及其生产方法
    • KR1020040022838A
    • 2004-03-18
    • KR1020020054403
    • 2002-09-10
    • 주식회사 나노세라
    • 김종철김기태
    • C04B35/14C04B35/00
    • C04B35/14C04B35/5156C04B35/6261C04B2103/0097
    • PURPOSE: An anion emitting material applied to health promotion is provided which radiates a large quantity of anions and far infrared rays at the same time by adding monazite-based rare earth mineral to far infrared emitter. CONSTITUTION: The far infrared and anion emitter is produced by the following steps of: mixing raw materials emitting far infrared rays such as 38-43parts by weight of silica, 2-4parts by weight of KNO3, 2-5parts by weight of alumina, 20-35parts by weight of boric acid, 14-27parts by weight of Na2CO3 and 5-11parts by weight of CaCO3 for 30-60min; sintering the mixture at 1200-1400deg.C for 1-3hrs; quenching it in water to prevent decrease of far infrared emissivity; grinding; adding 1-20parts by weight of monazite-based rare earth mineral for emission of anions; and grinding.
    • 目的:提供一种用于健康促进的阴离子发射材料,通过将独居石稀土矿物添加到远红外发射器中,同时辐射大量的阴离子和远红外线。 构成:通过以下步骤制造远红外线和阴离子发射体:混合发射远红外线的原料如38-43重量份二氧化硅,2-4重量份KNO 3,2-5重量份氧化铝,20 -35重量份硼酸,14-27重量份Na 2 CO 3和5-11重量份CaCO 3 30-60分钟; 在1200-1400℃烧结混合物1-3小时; 在水中淬火以防止远红外发射率降低; 磨; 加入1-20重量份的独居石稀土矿物排放阴离子; 和研磨。
    • 70. 发明公开
    • 이온물질을 재료로하는 파동에너지 실내 건축방법
    • 波浪能内部装饰方法使用离子体
    • KR1020040015771A
    • 2004-02-19
    • KR1020040000786
    • 2004-01-06
    • 권상학
    • 권상학
    • E04F13/02C04B22/08C04B41/00C04B103/00
    • E04F13/02C04B41/0027C04B2103/0097
    • PURPOSE: A wave energy interior decoration method using ionic matter is provided to promote the residents' health by removing odor, restraining virus and bacteria, absorbing/removing water vein waves and activating the human body by anions. CONSTITUTION: The wave energy interior decoration method using ionic matter comprises the steps of; attaching ion chips on the indoor wall surface using cement, then plastering with cement mortar; leveling up the indoor floor surface, arranging ion chips, then plastering with cement mortar; forming a ceiling by attaching ion chips on the backside of an interior finishing member used for a ceiling; and papering a ceiling and a wall using ion paste containing ion powder.
    • 目的:提供使用离子物质的波浪能内部装饰方法,通过除去气味,抑制病毒和细菌,吸​​收/去除水静脉和通过阴离子激活人体来促进居民的健康。 构成:使用离子物质的波浪能内部装饰方法包括以下步骤: 使用水泥将离子碎屑附着在室内壁表面,然后用水泥砂浆进行抹灰; 平整室内地板表面,安排离子碎片,然后用水泥砂浆抹灰; 通过在用于天花板的内饰板的背面附着离子片形成天花板; 并使用含有离子粉末的离子膏对天花板和墙壁进行造纸。