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    • 3. 发明公开
    • 비철거용 단열재 거푸집 패널 및 그의 제조 방법
    • 非绝热热绝缘模板及其制造工艺
    • KR1020010048685A
    • 2001-06-15
    • KR1019990053471
    • 1999-11-29
    • 김대유송병창
    • 김대유송병창이상훈
    • B29C44/00
    • E04G9/10B29C44/02B29C65/02B29C66/7294B29C66/746B29K2503/08B29L2031/10
    • PURPOSE: A process is to provide a non-dismantled thermal insulating mold form panel applied for installing a construction structure by using rigid urethane foam which the volcanic mineral foam, in particular a silas foam and adenite fabrics are compounded. CONSTITUTION: A processes comprises a step of forming silas mineral foam by heating the silas of volcanic deposits at a temperature of 900°C-1100°C, a step of mixing the silas foam and adenite fabrics with a polyol mixture for 1-3 minutes by a forcible agitator, a step of forming a panel by slowly foaming under a constant pressure of 10-100kgf in a mold frame so that the foaming pressure is not be dissipated after the urethane compounds which a mixture of the polyol mixture, the silas foam and the adenite fabrics is reacted to alcohol and isocyanite prepolymer are mixed. Further, the panel with non separable insulation material is composed of 10-22% of silas foam, 28-32% of isocyanite prepolymer, 38-42% of polyol mixture and 12-16% of adenite fabrics.
    • 目的:一种方法是提供一种非拆卸的隔热模具板,用于通过使用刚性聚氨酯泡沫来安装施工结构,其中火山矿物泡沫,特别是硅酸盐泡沫和腺丝织物复合。 构成:一种方法包括通过在900℃-1 1100℃的温度下加热火山沉积物的硅藻土形成硅酸盐矿物泡沫的步骤,将硅藻土泡沫和腺丝织物与多元醇混合物混合1-3分钟的步骤 通过强制搅拌器,通过在模具架中以10-100kgf的恒定压力缓慢发泡来形成面板的步骤,使得在多元醇混合物,硅酸盐泡沫体的混合物的氨基甲酸酯化合物之后,发泡压力不会消散 并使腺丝织物与醇反应,将异氰酸酯预聚物混合。 此外,具有不可分离绝缘材料的面板由10-22%的硅酸盐泡沫,28-32%的异氰酸酯预聚物,38-42%的多元醇混合物和12-16%的腺苷织物组成。
    • 6. 发明公开
    • 친환경 천연재료를 이용한 생분해성 일회용 용기 및 그 제조 방법
    • 使用生态自然材料的生物可降解容器及其制造方法
    • KR1020130042749A
    • 2013-04-29
    • KR1020110106809
    • 2011-10-19
    • 한근수
    • 한근수
    • B29C44/02B29C69/02
    • B29C44/02B29K2003/00B29K2503/08B29K2995/006B29L2031/712B65D65/466Y02W90/13
    • PURPOSE: A biodegradable disposable container using environment-friendly materials and a manufacturing method thereof are provided to improve freshness of food, to increase freshness retention period of the container, and to improve fertilization of soil by absorbing heavy metal. CONSTITUTION: A manufacturing method of a biodegradable disposable container using environment-friendly materials comprises: a step of pulverizing mica based clay mineral; a step of obtaining dough by mixing the mineral powder with additives such as starch, plant extracting reinforcement powder, wet strength material, and ferroelectric material; a step of pressurizing the dough at 145-160 deg. C under a pressure of 130-170 kg/cm2 in a foam molding device; and a step of getting a molded product after completing the foam molding of the dough.
    • 目的:提供一种使用环保材料的生物降解性一次性容器及其制造方法,以提高食品的新鲜度,增加容器的保鲜期,并通过吸收重金属来改善土壤受精。 构成:使用环保材料的生物可降解一次性容器的制造方法包括:粉碎云母基粘土矿物的步骤; 通过将矿物粉末与淀粉,植物提取增强粉末,湿强度材料和铁电材料等添加剂混合而获得面团的步骤; 在145-160度加压生面团的步骤。 在130-170kg / cm2的压力下,在发泡成型装置中; 以及在完成面团的发泡成型之后得到成型产品的步骤。
    • 8. 发明公开
    • 기능성 합성수지 용기
    • 功能性塑料容器
    • KR1020130002087A
    • 2013-01-07
    • KR1020110063116
    • 2011-06-28
    • (주)이동한일
    • 김충길
    • B29C67/24B65D81/24B65D1/00C08K3/00
    • B65D81/24B29C45/0001B29K2023/06B29K2023/12B29K2025/06B29K2067/003B29K2069/00B29K2075/00B29K2077/00B29K2105/0041B29K2105/162B29K2503/08B29L2031/712B65D11/20
    • PURPOSE: A functional synthetic resin container is provided to obtain antimicrobial and deodorization functions by emitting infrared rays and anions as additives of natural materials are added into a synthetic resin. CONSTITUTION: A method for manufacturing a functional synthetic resin container comprises following steps. Additives of natural materials are added into synthetic resins so that synthetic resin chips(1) are formed. The synthetic resin chips are fused, and a container with a constant shape is formed. Tourmaline, charcoal, germanium, elvan, kaolinite, anion radiating stone which are atomized in a nanometer size compose the additives of natural materials. [Reference numerals] (AA) Material; (BB) Weight%; (CC) Synthetic resin such as polyethylene; (DD) Tourmaline; (EE) Willow charcoal; (FF) Germanium; (GG) Elvan; (HH) Kaolinite; (II) Anion radiating stone
    • 目的:提供功能性合成树脂容器,通过发射红外线和阴离子获得抗菌和除臭功能,将天然材料的添加剂加入到合成树脂中。 构成:制造功能性合成树脂容器的方法包括以下步骤。 将天然材料添加剂加入到合成树脂中,从而形成合成树脂片(1)。 将合成树脂片熔合,形成恒定形状的容器。 电气石,木炭,锗,埃尔文,高岭石,以纳米级雾化的阴离子辐射石组成天然材料的添加剂。 (附图标记)(AA)材料; (BB)重量%; (CC)合成树脂如聚乙烯; (DD)电气石; (EE)柳木; (FF)锗; (GG)Elvan; (HH)高岭石; (二)阴离子辐射石
    • 9. 发明授权
    • Hardly combustible construction interior material and the manufactury method thereof
    • 可燃混凝土结构内部材料及其制造方法
    • KR100953529B1
    • 2010-04-21
    • KR20090118051
    • 2009-12-01
    • YERIM FORESTRY
    • LEE BYEONG WAN
    • B29C43/30B29C67/24
    • B29D99/001B05D1/18B29B7/88B29C43/003B29K2023/12B29K2105/0026B29K2311/10B29K2503/08
    • PURPOSE: An incombustible construction interior material and a manufacturing method thereof are provided to produce far infrared ray using loess and adsorb harmful material using charcoal. CONSTITUTION: A method of manufacturing an incombustible construction interior material comprises a step of shaping non-woven fabric. The non-woven fabric shaping step is as follows. After polypropylene fiber is mixed with linen fiber, the mixture is mixed with loess, charcoal, or the mixture of the loess and charcoal at the ratio of 1kg:100~200g. The last mixture is pressurized with a mold(210) and a nonwoven fabric layer(110) is molded. Fire-retardant fluid is generated mixing sodium silicate with a solution. A water repellent material of 20~25g is mixed with the fire-retardant fluid of 1kg. The fabric layer is immersed in the fire-retardant fluid, so fire retardant nonwoven fabric(100) is manufactured.
    • 目的:提供不燃性建筑内部材料及其制造方法,以使用黄土生产远红外线,并使用木炭吸附有害物质。 构成:制造不燃性建筑内部材料的方法包括成形无纺织物的步骤。 无纺布成型步骤如下。 将聚丙烯纤维与亚麻纤维混合后,将混合物与黄土,木炭或黄土与木炭的混合物以1kg:100〜200g的比例混合。 最后一个混合物用模具(210)加压,并且模制非织造织物层(110)。 产生混合硅酸钠与溶液的阻燃流体。 20〜25g的防水材料与1kg的阻燃流体混合。 将织物层浸入阻燃流体中,制造阻燃无纺织物(100)。
    • 10. 发明授权
    • 음 이온을 방출하는 인체에 유익한 몰딩 및 그 제조방법
    • 通过发射阴离子对人体有益的模具及其制造方法
    • KR100837495B1
    • 2008-06-12
    • KR1020070070560
    • 2007-07-13
    • 노상철
    • 노상철
    • C04B14/14C04B14/10C04B24/24E04F19/02
    • B29C47/0004B29K2025/06B29K2503/08E04F19/02
    • A method for manufacturing moldings capable of emitting anions is provided to produce easily the moldings capable of changing polluted inside air into fresh air and sterilizing various bacteria contained in air. A method for manufacturing moldings capable of emitting anions includes the steps of: blending various raw materials and melting the blending; and extruding the molten material into a desired shape. The blending and melting step includes: a first blending and melting step of blending 15-35 parts by weight of expanded polystyrene with 60-85 parts by weight of high impact polystyrene, and melting the blending at 150-180 °C; and a second blending and melting step of blending the molten material of the first blending and melting step with 0.5-2.5 parts by weight, based on 100 parts by weight of the total raw materials, of general purpose polystyrene, and melting the second blending at 150-180 °C.
    • 提供一种制造能够发出阴离子的模制品的方法,以容易地制造能够将被污染的内部空气变成新鲜空气并对包含在空气中的各种细菌进行灭菌的模制品。 制造能够发出阴离子的模制品的方法包括以下步骤:混合各种原料并熔融混合物; 并将熔融材料挤压成所需的形状。 共混熔融步骤包括:将15-35重量份发泡聚苯乙烯与60-85重量份高抗冲聚苯乙烯混合并在150-180℃下熔融共混的第一共混和熔融步骤; 以及第二共混熔融步骤,将第一共混熔融步骤的熔融材料与基于100重量份总原料的通用聚苯乙烯混合0.5-2.5重量份,并将第二共混物熔化 150-180℃。