나노 입자의 제조 방법
    81.
    发明公开
    나노 입자의 제조 방법 有权
    制备纳米颗粒的方法

    公开(公告)号:KR1020120115068A

    公开(公告)日:2012-10-17

    申请号:KR1020110093018

    申请日:2011-09-15

    CPC classification number: B22F9/24 B22F1/0018 B22F2304/054 B82Y40/00

    Abstract: PURPOSE: A manufacturing method of nano-particles is provided to economically mass produce nano-particles with excellent dispersibility. CONSTITUTION: A manufacturing method of nano-particles comprises the following steps: mixing a surface modification agent which includes a nano particle precursor and vegetable oil or animal oil with solvent in order to manufacture a precursor solution(s1); introducing the precursor solution to a reactor under the supercritical or subcritical condition in order to manufacture surface modified nano-particles(s2); separating and collecting nano-particles after cooling(s3); and washing and drying the collected nano-particles(s4). The surface modified agent comprises one or more selected from a group which is composed of soybean oil, palm oil, sunflower seed oil, cottonseed oil, arachis oil, rapeseed oil, sesame oil, perilla oil, palm oil, flaxseed oil, olive oil, grape seed oil, unpolished rice oil, castor oil, tallow, lard, chicken fat, duck oil and fish oil group. [Reference numerals] (AA) Start; (BB) End; (S1) Manufacturing a precursor solution; (S2) Introducing the precursor solution to super critical or subcritical reactor; (S3) Separating and collecting after cooling; (S4) Washing and drying the collected nano-particle

    Abstract translation: 目的:提供纳米颗粒的制造方法,以经济地大量生产具有优异分散性的纳米颗粒。 构成:纳米颗粒的制造方法包括以下步骤:将包含纳米颗粒前体的表面改性剂和植物油或动物油与溶剂混合以制备前体溶液(s1); 在超临界或亚临界条件下将前体溶液引入反应器以制备表面改性的纳米颗粒(s2); 冷却后分离收集纳米颗粒(s3); 并洗涤和干燥收集的纳米颗粒(s4)。 表面改性剂包含选自由大豆油,棕榈油,向日葵籽油,棉籽油,花生油,菜籽油,芝麻油,紫苏油,棕榈油,亚麻籽油,橄榄油, 葡萄籽油,未抛光米油,蓖麻油,牛油,猪油,鸡脂,鸭油和鱼油组。 (附图标记)(AA)开始; (BB)结束; (S1)制造前体溶液; (S2)将前体溶液引入超临界或亚临界反应器; (S3)冷却后分离收集; (S4)洗涤和干燥收集的纳米颗粒

    히트펌프 시스템 및 그 제어방법
    82.
    发明公开
    히트펌프 시스템 및 그 제어방법 无效
    热泵系统及其控制方法

    公开(公告)号:KR1020120092974A

    公开(公告)日:2012-08-22

    申请号:KR1020110012940

    申请日:2011-02-14

    Abstract: PURPOSE: A heat pump system and a control method thereof are provided to reduce energy consumption of a compressor and improve driving performance while minimizing the speed reduction loss, the restarting loss, and the acceleration loss of the compressor. CONSTITUTION: A heat pump system comprises an auxiliary refrigerant supplying unit(150). The auxiliary refrigerant supplying unit comprises a bypass pipe(160), a first control valve(170), a second control valve(180), and a high pressure insulation cylinder(190). When the partial load operation of a compressor is performed, some quantity of the refrigerant discharged from the compressor is filled in the high pressure insulation cylinder and in case the restarting the compressor is performed, and when the compressor restarted, the refrigerant filled in the high pressure insulation cylinder is supplied to the compressor.

    Abstract translation: 目的:提供一种热泵系统及其控制方法,以减少压缩机的能量消耗并提高驱动性能,同时最小化压缩机的减速损失,重启损失和加速损失。 构成:热泵系统包括辅助制冷剂供应单元(150)。 辅助制冷剂供给单元包括旁通管(160),第一控制阀(170),第二控制阀(180)和高压绝缘筒(190)。 当进行压缩机的部分负荷运转时,从压缩机排出的一定数量的制冷剂被填充在高压绝缘筒中,并且在重新启动压缩机的情况下,当压缩机重新启动时,填充在高压 将压力绝缘筒供给压缩机。

    방향성 나노 소결체 제조장치 및 그 제조방법
    83.
    发明公开
    방향성 나노 소결체 제조장치 및 그 제조방법 无效
    制造方向纳米烧结体的装置及其制造方法

    公开(公告)号:KR1020120033539A

    公开(公告)日:2012-04-09

    申请号:KR1020100095103

    申请日:2010-09-30

    Inventor: 노철우 김민수

    Abstract: PURPOSE: A manufacturing device for a nano sintered body with directionality and a manufacturing method thereof are provided to have a uniform directionality and form a rod shaped sintered body by forming a high speed flow field in a sintering process of the nanoparticles. CONSTITUTION: A manufacturing device for a nano sintered body with directionality comprises a sintering furnace(100) which includes a blowhole(120) and an exhaust pipe(130), a stage(110) which is installed inside the sintered body and is used for installing a base substrate(600), a gas passage(200) which forms a pulmonary circulatory circuit, a blower(300) which is installed inside the sintering furnace in order to form a gas flow field, and a heater(400) for heating inside the sintering furnace. A hollow part which is used as a gas channel is formed inside the gas passage, and the gas passage interlinks the blowhole with the exhaust pipe at outside the sintering furnace. The surface of the base substrate is arranged to be inclined in accordance with the flow direction of gas which is provided to the base substrate.

    Abstract translation: 目的:提供具有方向性的纳米烧结体的制造装置及其制造方法,以具有均匀的方向性,并通过在纳米颗粒的烧结过程中形成高速流场形成棒状烧结体。 构成:具有方向性的纳米烧结体的制造装置包括:烧结炉(100),其包括气孔(120)和排气管(130);台架(110),其安装在烧结体的内部,用于 安装基底基板(600),形成肺循环回路的气体通道(200),安装在烧结炉内部以形成气体流场的鼓风机(300),以及用于加热的加热器 烧结炉内。 在气体通道内部形成用作气体通道的中空部分,气体通道将排气管的气孔与烧结炉外部相互连接。 基底基板的表面被设置成根据设置到基底基板的气体的流动方向倾斜。

    섬유토우 적층장치
    84.
    发明授权

    公开(公告)号:KR101918353B1

    公开(公告)日:2018-11-14

    申请号:KR1020160127496

    申请日:2016-10-04

    CPC classification number: B29C70/382 B29C70/38 B29C70/504 B29C70/528

    Abstract: 제1섬유토우가감겨진복수의제1크릴과제2섬유토우가감겨진복수의제2크릴이구비된공급유닛; 상기공급유닛의하방에위치하며, 상기제1크릴로부터공급된상기제1섬유토우및 상기제2크릴로부터공급된상기제2섬유토우를수지제에함침시키는함침유닛; 및상기함침유닛의하방에위치하고, 상기수지제에함침된상기제1섬유토우및 상기수지제에함침된상기제2섬유토우를피적층물의표면에대한적층롤러의롤링을통해적층하는적층유닛;을포함하는섬유토우적층장치가소개된다.

    차량의 도어 글라스용 구동장치
    87.
    发明公开
    차량의 도어 글라스용 구동장치 审中-实审
    车辆门玻璃驱动装置

    公开(公告)号:KR1020170139345A

    公开(公告)日:2017-12-19

    申请号:KR1020160071764

    申请日:2016-06-09

    Abstract: 차량의도어글라스용구동장치가개시된다. 본발명의실시예에따른차량의도어글라스용구동장치는모터의구동력에의해구동되는차량의도어글라스용구동장치에있어서, 하우징의일측에설치된모터의구동력을감속하여전달하는회전축상의외주면에세레이션이가공되고, 상기회전축의둘레를따라상기하우징의상에복수개의고정핀이구성되는감속구동부; 상기감속구동부의고정핀에장착된전자석과, 상기회전축상에세레이션결합되어상기전자석을수용하는클러치하우징을구비하며, 상기클러치하우징으로부터외측회전중심에연결되는중간축의선단에세레이션단을형성하는전자식클러치; 윈도우글라스용와이어가감긴상태로, 상기전자식클러치의세레이션단에세레이션결합되는윈도우글라스용드럼; 및도어래치상의캐치에연결되는신칭용와이어가감긴상태로, 상기전자식클러치의클러치하우징과의사이에리턴스프링을개재하여상기중간축상에회전가능하게설치되며, 상기전자석의작동에의해상기모터의구동력이선택적으로전달되는신칭용드럼을포함한다.

    Abstract translation: 公开了一种用于车辆的门玻璃的驱动装置。 在通过门玻璃供应驱动根据本发明的一个实施方式的车辆的撞击铜马达的力来驱动所述车辆的门玻璃的驱动装置中,在旋转轴的外周表面上的齿面传递给减速安装在所述外壳的一侧上的电动机的驱动力 并且沿着旋转轴的圆周在壳体上形成多个固定销; 耦合锯齿上的安装一个固定销上的减小驱动所述电磁铁和所述旋转轴包括用于容纳所述电磁体,以形成在该轴远端从离合器壳体连接到旋转的外中心的中间的锯齿阶段离合器壳体 电子离合器; 线材被卷绕为,锯齿结合到滚筒用于窗玻璃的窗玻璃状态是电磁离合器的锯齿端; 和一个捕获状态信chingyong导线绕其连接到所述门闩锁,并且经由通过上述电磁操作枢转地安装到电机的中轴线的电磁离合器的离合器壳体之间的复位弹簧 还有一个电影鼓,有选择地传输驱动力。

    충격흡수 유닛, 충격흡수 유닛 제조방법 및 충격흡수 보강재
    88.
    发明公开
    충격흡수 유닛, 충격흡수 유닛 제조방법 및 충격흡수 보강재 有权
    减震装置,制造减震装置和减震加强件的方法

    公开(公告)号:KR1020170117269A

    公开(公告)日:2017-10-23

    申请号:KR1020160044860

    申请日:2016-04-12

    Abstract: 차체를구성하는이너멤버와아우터멤버의내부에형성되어충격을흡수하는충격흡수유닛으로서, 상기이너멤버의내면에서상기아우터멤버를향해개방된수용공간이형성되도록돌출된복합재재질의제1흡수체; 및상기아우터멤버의내면에서상기이너멤버방향으로상기수용공간에삽입되도록돌출된복합재재질의제2흡수체;를포함하는충격흡수유닛이소개된다.

    Abstract translation: 形成在所述内部部件和构成车身作为冲击吸收单元,用于吸收冲击,在突出使得接收空间朝向内方部件的内表面上形成所述外部构件打开所述复合材料的第一吸收外部构件; 以及复合材料的第二吸收性材料,其从外部构件的内表面向内部构件突出以便插入容纳空间中。

Patent Agency Ranking