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    • 6. 发明授权
    • Unitary air conditioning system
    • 单一空调系统
    • US07228709B2
    • 2007-06-12
    • US11033162
    • 2005-01-12
    • Yoon-Jei HwangChan-Ho SongWon-Hee Lee
    • Yoon-Jei HwangChan-Ho SongWon-Hee Lee
    • F25B1/10
    • F25B13/00F24F3/065F25B2313/006F25B2313/0233F25B2400/0751
    • A unitary air conditioning system comprises an outdoor unit including a compressor for compressing a refrigerant, an outdoor heat exchanger for heat exchange of the refrigerant and an expander connected to the outdoor heat exchanger, for expanding the refrigerant; a duct installed inside a zone of a building; a central blower unit having a heat exchanger connected to the outdoor unit through a first refrigerant pipe and a blower for supplying the air heat-exchanged by the heat exchanger to the duct; and an individual blower unit including a heat exchanger connected to the outdoor unit through a second refrigerant pipe and a fan for sending the air heat-exchanged by the heat exchanger and disposed in a zone in the building, for individually cooling or heating the zone. Accordingly, cooling or heating operation is performed on each zone of the building, and simultaneously, additional individual heating or cooling operation can be performed on a specific space, so that a cost can be reduced, and cooling or heating in the building can be efficiently performed.
    • 一体式空调系统包括:室外单元,包括用于压缩制冷剂的压缩机,用于制冷剂的热交换的室外热交换器和连接到室外热交换器的用于膨胀制冷剂的膨胀器; 安装在建筑物区域内的管道; 中央鼓风机单元,其具有通过第一制冷剂管连接到室外单元的热交换器和用于将由热交换器热交换的空气供给到管道的鼓风机; 以及单独的鼓风机单元,其包括通过第二制冷剂管连接到室外单元的热交换器和用于发送由热交换器热交换并被设置在建筑物的区域中的空气的风扇,用于单独冷却或加热该区域。 因此,在建筑物的每个区域进行冷却或加热操作,并且可以在特定空间上进行附加的个体加热或制冷操作,从而可以降低成本,并且可以有效地进行建筑物的冷却或加热 执行。
    • 7. 发明授权
    • Apparatus for converting refrigerant pipe of air conditioner
    • 用于转换空调制冷剂管的设备
    • US07165419B2
    • 2007-01-23
    • US11023521
    • 2004-12-29
    • Chan-Ho SongSeung-Youp HyunWon-Hee LeeJeong-Taek ParkYoon-Jei Hwang
    • Chan-Ho SongSeung-Youp HyunWon-Hee LeeJeong-Taek ParkYoon-Jei Hwang
    • F25B1/10
    • F25B41/04F04B39/123F04B41/06F25B49/022F25B2400/04F25B2400/075F25B2500/26F25B2600/0261
    • An apparatus for converting a refrigerant pipe of an air conditioner comprises: a valve housing installed at a position where respective refrigerant discharge pipes of plural compressors are put together, having a valve space portion therein, and composed of a first refrigerant inlet, a second refrigerant inlet, a refrigerant outlet, a bypass outlet, and a detour refrigerant outlet at upper and lower sides thereof; a bypass pipe for connecting the refrigerant outlet of the valve housing to refrigerant suction pipes of the compressors so that a refrigerant discharged from each refrigerant discharge pipe of the compressors can be introduced into the refrigerant suction pipes of the compressors; an open/close valve slidably installed in the valve space portion of the valve housing so that a refrigerant discharged from the refrigerant discharge pipe can be selectively introduced into the refrigerant circulation pipe of the condenser or the bypass pipe; and an open/close valve driving means installed at the valve housing and driving the open/close valve.
    • 一种用于转换空调的制冷剂管的装置,包括:安装在多个压缩机的各个制冷剂排放管的位置处的阀壳,其中具有阀空间部分,并且由第一制冷剂入口,第二制冷剂 入口,制冷剂出口,旁路出口和迂回制冷剂出口在其上侧和下侧; 旁通管,用于将阀壳体的制冷剂出口连接到压缩机的制冷剂吸入管,使得从压缩机的每个制冷剂排出管排出的制冷剂可以被引入到压缩机的制冷剂吸入管中; 可滑动地安装在阀壳体的阀空间部分中的开/关阀,使得从制冷剂排出管排出的制冷剂可以选择性地引入冷凝器或旁通管的制冷剂循环管中; 以及安装在阀壳体上并驱动打开/关闭阀的打开/关闭阀驱动装置。
    • 9. 发明申请
    • Unitary air conditioning system
    • 单一空调系统
    • US20050235680A1
    • 2005-10-27
    • US11033162
    • 2005-01-12
    • Yoon-Jei HwangChan-Ho SongWon-Hee Lee
    • Yoon-Jei HwangChan-Ho SongWon-Hee Lee
    • F24F1/00F24F3/00F24F3/06F25B13/00F25D17/06F25B1/10
    • F25B13/00F24F3/065F25B2313/006F25B2313/0233F25B2400/0751
    • A unitary air conditioning system comprises an outdoor unit including a compressor for compressing a refrigerant, an outdoor heat exchanger for heat exchange of the refrigerant and an expander connected to the outdoor heat exchanger, for expanding the refrigerant; a duct installed inside a zone of a building; a central blower unit having a heat exchanger connected to the outdoor unit through a first refrigerant pipe and a blower for supplying the air heat-exchanged by the heat exchanger to the duct; and an individual blower unit including a heat exchanger connected to the outdoor unit through a second refrigerant pipe and a fan for sending the air heat-exchanged by the heat exchanger and disposed in a zone in the building, for individually cooling or heating the zone. Accordingly, cooling or heating operation is performed on each zone of the building, and simultaneously, additional individual heating or cooling operation can be performed on a specific space, so that a cost can be reduced, and cooling or heating in the building can be efficiently performed.
    • 一体式空调系统包括:室外单元,包括用于压缩制冷剂的压缩机,用于制冷剂的热交换的室外热交换器和连接到室外热交换器的用于膨胀制冷剂的膨胀器; 安装在建筑物区域内的管道; 中央鼓风机单元,其具有通过第一制冷剂管连接到室外单元的热交换器和用于将由热交换器热交换的空气供给到管道的鼓风机; 以及单独的鼓风机单元,其包括通过第二制冷剂管连接到室外单元的热交换器和用于发送由热交换器热交换并被设置在建筑物的区域中的空气的风扇,用于单独冷却或加热该区域。 因此,在建筑物的每个区域进行冷却或加热操作,并且可以在特定空间上进行附加的个体加热或制冷操作,从而可以降低成本,并且可以有效地进行建筑物的冷却或加热 执行。
    • 10. 发明授权
    • Methods of forming active matrix display devices with reduced
susceptibility to image-sticking and devices formed thereby
    • 形成具有降低的图像粘附敏感性的有源矩阵显示装置的方法和由此形成的装置
    • US5917564A
    • 1999-06-29
    • US950334
    • 1997-10-14
    • Dong-Gyu KimWon-Hee Lee
    • Dong-Gyu KimWon-Hee Lee
    • H01L27/06G02F1/1333G02F1/1343G02F1/1368G02F1/136
    • G02F1/134363G02F1/1368G02F2001/133397
    • Methods of forming active matrix display devices with reduced susceptibility to image sticking include the steps of forming a gate electrode on a face of a substrate and then forming a first insulating layer on the gate electrode and on the face to electrically isolate the gate electrode from adjacent regions. A first amorphous semiconductor layer is then formed on the first insulating layer. In particular, the first amorphous semiconductor layer, which acts as the active region of the TFT, is patterned to extend opposite the gate electrode. A channel protection layer is also formed on the first amorphous semiconductor layer. The channel protection layer is designed to protect the channel portion of the active region in the first amorphous semiconductor layer from potential damage which may occur during subsequent process steps. Then, the first insulating layer and the channel protection layer are etched simultaneously until the face of the substrate is exposed. Here, the step of forming a gate electrode includes the steps of forming a first conductive layer having a thickness of about 2000 .ANG. on the face of the substrate and then patterning the first conductive layer to define a gate electrode of a thin-film transistor and a common electrode. The first insulating layer is then formed on the gate electrode and the common electrode, but is subsequently removed from the common electrode to reduce image-sticking effects which may impair display performance in in-plane switching (IPS) TFT-LCD display devices.
    • 形成具有降低的图像残留敏感性的有源矩阵显示装置的方法包括以下步骤:在衬底的表面上形成栅电极,然后在栅电极和面上形成第一绝缘层,以将栅电极与相邻电极隔离 地区。 然后在第一绝缘层上形成第一非晶半导体层。 特别地,用作TFT的有源区的第一非晶半导体层被图案化以与栅电极相对延伸。 沟道保护层也形成在第一非晶半导体层上。 沟道保护层被设计成保护第一非晶半导体层中的有源区的沟道部分免受在随后的工艺步骤期间可能发生的潜在损害。 然后,同时蚀刻第一绝缘层和沟道保护层,直到基板的表面露出。 这里,形成栅电极的步骤包括以下步骤:在衬底的表面上形成厚度为约2000的第一导电层,然后对第一导电层进行构图以限定薄膜晶体管的栅电极, 一个共同的电极。 然后在栅电极和公共电极上形成第一绝缘层,随后从公共电极移除,以减少可能损害平面内切换(IPS)TFT-LCD显示装置中的显示性能的图像粘附效果。