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    • 2. 发明授权
    • APPARATUS FOR DETECTING SALINITY
    • 检测盐度的装置
    • KR100760127B1
    • 2007-09-18
    • KR20060050008
    • 2006-06-02
    • LG ELECTRONICS INC
    • KIM JIN AHYUN JU HWANKIM JONG DAEJUNG IL HYOUNG
    • G01N33/02G01N31/00G01N33/00
    • An apparatus for detecting salinity of salted food is provided to increase detection precision by optimizing the shape of detecting electrode which contacts with the salted food, and enhance resistance against erosion by coating the electrode with silver or platinum. An apparatus for detecting salinity of salted food comprises: a pair of detecting electrodes(100) directly contacting with a subject to be detected; and a detecting circuit(200) for detecting the electric current flowing the salted food by applying the electric pressure to the pair of detecting electrodes, wherein the detecting electrode has a cylindrical shape, distance between electrode centers of 8-12 mm, the contacting area of 50-120 mm^2 and a dome-shaped end contacting with the salted food, and is prepared by coating the surface of titanium as a base material with one material selected from platinum and silver. The salted food is stored in a vessel(50) and the detecting electrodes are buried so that the ends of the detecting electrodes contact with the salted food.
    • 提供了一种用于检测盐渍食物的盐度的装置,通过优化与盐化食物接触的检测电极的形状来提高检测精度,并通过用银或铂涂覆电极增强抵抗侵蚀的能力。 一种用于检测盐渍食物的盐度的装置,包括:与检测对象直接接触的一对检测电极(100); 以及检测电路(200),用于通过对所述一对检测电极施加电压来检测流过所述咸食的电流,其中所述检测电极具有圆柱形形状,电极中心之间的距离为8-12mm,所述接触面积 50-120毫米2,圆顶形状的端部与盐渍食品接触,并通过用选自铂和银的一种材料涂覆钛作为基材的表面制备。 将咸食物储存在容器(50)中,并且检测电极被埋入,使得检测电极的端部与盐化的食物接触。
    • 4. 发明授权
    • REFRIGERATOR FOR WIRELESS POWER TRANSMISSION TO SENSOR FOR DETECTING CONDITION OF STORED FOOD
    • 用于无线电力传输的传感器用于检测储存条件的制冷机
    • KR100755143B1
    • 2007-09-04
    • KR20060049988
    • 2006-06-02
    • LG ELECTRONICS INC
    • JUNG IL HYOUNGYUN JU HWANKIM JIN AHKIM JONG DAE
    • F25D29/00F25D23/00F25D25/00
    • F25D29/005F25D2500/06F25D2700/08H02J50/10H02J50/20H02J50/30
    • A refrigerator capable of wirelessly supplying energy to a sensor for detecting conditions of stored foods is provided to measure data of the conditions of the stored foods, and to control inside temperature of the refrigerator to be suitable for long period storage of the foods by wirelessly transmitting and receiving energy between a sensor unit and a refrigerator main body. A refrigerator capable of wirelessly supplying energy to a sensor for detecting conditions of stored foods comprises an energy transmission unit(230), an energy reception unit(130) and a sensor unit(110). The energy transmission unit is installed in the refrigerator, receives energy from an outside power supply(300) and transmits it wirelessly. The energy reception unit is installed in a food container(100), and receives wirelessly transmitted energy. The sensor unit is installed in the food container, electrically coupled to the energy reception unit so as to measure at least one selected from salinity, acidity or temperature.
    • 提供一种能够无线地向传感器供给能量以检测存储食物的状态的冰箱,以测量储存食物的状态的数据,并且通过无线传送来控制冰箱的内部温度以适合长时间的食物储存 并且在传感器单元和冰箱主体之间接收能量。 一种能够无线地向传感器供给能量以检测存储食物的状态的冰箱,其特征在于,包括能量传递单元(230),能量接收单元(130)和传感器单元(110)。 能量传输单元安装在冰箱中,从外部电源(300)接收能量并进行无线传输。 能量接收单元安装在食物容器(100)中,并且接收无线发送的能量。 传感器单元安装在食物容器中,电耦合到能量接收单元,以便测量从盐度,酸度或温度中选出的至少一种。
    • 6. 发明授权
    • ASSEMBLY OF FOOD CONTAINER FOR REFRIGERATOR
    • 食品容器用于制冷机的组装
    • KR100788160B1
    • 2007-12-21
    • KR20070015466
    • 2007-02-14
    • LG ELECTRONICS INC
    • KIM JONG DAEYUN JU HWANJUNG IL HYOUNGKIM JIN AH
    • F25D23/04A23B7/10F25D29/00H04B1/40
    • F25D23/12A23B7/10F25D25/005G01N33/02H02J50/10H02J50/30H04B1/40H04Q2209/43Y10S435/817
    • A food container assembly for a refrigerator is provided to contact electrodes liquid components without direct contact of any solid components by a mask, thereby obtaining precise measurement result of food condition and preventing physical damage of the electrodes. A food container assembly for a refrigerator includes a food container(100) having side walls and a bottom plate for defining a receiving space, and a sensor part having a pair of electrodes mounted on the side walls and exposed to the receiving space in the food container to measure at least one or more data such as salinity, acidity or temperature of food received in the food container. A mask(150a) divides the receiving space of the food container into two space parts and has through-holes for fluid flow between the two spaces, wherein the electrodes are exposed to any one of the space parts.
    • 提供了一种用于冰箱的食物容器组件,用于通过面罩直接接触电极液体组分而不直接接触任何固体组分,从而获得食物状态的精确测量结果并防止电极的物理损伤。 一种用于冰箱的食物容器组件包括具有侧壁的食物容器(100)和用于限定容纳空间的底板,以及传感器部分,其具有安装在侧壁上并暴露于食物中的容纳空间的一对电极 容器以测量在食物容器中接收的食物的至少一种或多种数据,例如盐度,酸度或温度。 掩模(150a)将食物容器的容纳空间分成两个空间部分,并且在两个空间之间具有用于流体流动的通孔,其中电极暴露于任何一个空间部分。
    • 7. 发明授权
    • APPARATUS FOR DETECTING CONDITION OF STORED FOOD IN REFRIGERATOR
    • 用于检测冷藏库中储存条件的装置
    • KR100788159B1
    • 2007-12-21
    • KR20070018718
    • 2007-02-23
    • LG ELECTRONICS INC
    • KIM JIN AHYUN JU HWANKIM JONG DAEJUNG IL HYOUNG
    • F25D23/00A23B7/10F25D23/04
    • F25D29/00F25D23/12F25D25/005F25D2700/16G08C17/02G08C17/04H02J7/025H04Q2209/43
    • A device for detecting food condition in a refrigerator is provided to mount first and second casings to a food container and a refrigerator and modulate data transmitting/receiving elements, energy transmitting/receiving elements and sensors to the first and second casings, thereby measuring condition of food stored in a refrigerator to control refrigerating temperature of the refrigerator. A device for detecting food condition in a refrigerator includes a first casing(170) receiving a detecting circuit, a data transmitting part, an energy receiving part and mounted to a food container(100), and a second casing(270) receiving a data receiving part and an energy transmitting part and mounted to the refrigerator(200). The detecting circuit applies a voltage between a pair of detecting electrodes(111) and detects a current flowing through the electrodes, wherein the electrodes are mounted to a side wall of the food container to be exposed to an internal space of the food container for detecting salinity, acidity or temperature of food. The data transmitting part transmits the data detected by the detecting circuit wirelessly to the data receiving part. The energy transmitting part is connected to an external power supply to supply power to the energy receiving part wirelessly so that the energy receiving part supplies the energy to the detecting circuit and the data transmitting part.
    • 提供了一种用于检测冰箱中的食物状况的装置,用于将第一和第二肠衣安装到食品容器和冰箱,并将数据收发元件,能量发射/接收元件和传感器调制到第一和第二壳体,从而测量条件 食物储存在冰箱中以控制冰箱的制冷温度。 一种用于检测冰箱中的食物状况的装置,包括:接收检测电路的第一壳体(170),数据传送部分,能量接收部分,并安装到食物容器(100);以及第二壳体(270),接收数据 接收部件和能量传递部件,并安装到冰箱(200)。 检测电路在一对检测电极(111)之间施加电压,并检测流过电极的电流,其中电极安装在食物容器的侧壁上以暴露于用于检测的食物容器的内部空间 盐度,酸度或食物的温度。 数据发送部将无线检测电路检测出的数据发送给数据接收部。 能量传输部分连接到外部电源,以无线方式向能量接收部分供电,使得能量接收部分将能量提供给检测电路和数据发送部分。
    • 8. 发明公开
    • Solar cell and fabrication method thereof
    • 太阳能电池及其制造方法
    • KR20120058088A
    • 2012-06-07
    • KR20100119715
    • 2010-11-29
    • LG ELECTRONICS INC
    • KIM JIN AHNAM JEONG BEOMCHUNG IN DOYANG JU HONGSHIN SEUNG HWANJUNG IL HYOUNGKWON HYUNG JIN
    • H01L31/04H01L31/0224
    • Y02E10/50H01L31/022425H01L31/022466H01L31/02363H01L31/1884Y02E10/52
    • PURPOSE: A solar battery and a manufacturing method thereof are provided to prevent a carrier to be moved to the rear side of a substrate and to be reunited by forming a rear side field layer at the boundary face of the substrate and a rear side electrode unit. CONSTITUTION: An emitter layer(120) is formed on a substrate(110). A reflection barrier layer(130) is formed on the emitter layer. A front side electrode(140) passes through the reflection barrier layer and contacts with the emitter layer. The front side electrode has translucency and comprises a carbon nano tube. A rear side electrode(150) is formed on one side of the substrate. The rear side electrode comprises a rear side electrode unit(152) and a bus bar unit(154). A rear side field layer(160) is formed at the boundary face of the substrate and the rear side electrode unit.
    • 目的:提供一种太阳能电池及其制造方法,以防止载体向基板的后侧移动并且通过在基板的边界面处形成后侧场层和后侧电极单元而重新团聚 。 构成:在衬底(110)上形成发射极层(120)。 在发射极层上形成反射阻挡层(130)。 前侧电极(140)穿过反射阻挡层并与发射极层接触。 前侧电极具有半透明性,并且包括碳纳米管。 背面电极(150)形成在基板的一侧。 后侧电极包括后侧电极单元(152)和母线单元(154)。 在基板和后侧电极单元的边界面处形成后侧场层160。