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    • 5. 发明申请
    • Device and Method for Controlling Compressor of Vehicles
    • 车辆压缩机控制装置及方法
    • US20120000210A1
    • 2012-01-05
    • US12951505
    • 2010-11-22
    • Jae Woong KimChang Won LeeKi Lyong Jang
    • Jae Woong KimChang Won LeeKi Lyong Jang
    • B60H1/32F25B49/02
    • F04B35/002B60H1/00764B60H1/00778B60H1/00835B60H1/00849B60H1/00878B60H1/3208B60H2001/3266B60H2001/327F04B49/065F04B2203/0604F04B2203/0605F04B2203/0607F04B2205/10F04B2207/03
    • A method for controlling a compressor of vehicles improves fuel efficiency by accumulating a cold air energy when a speed-reducing condition occurs and using the accumulated cold air energy when a release condition occurs. A device for controlling a compressor of vehicles may include a sensor module including a cabin temperature sensor detecting a cabin temperature of the vehicle, an outdoor temperature sensor detecting an outdoor temperature of the vehicle, an evaporator temperature sensor detecting a temperature of a cooling medium in an evaporator (evaporator temperature), a vehicle speed sensor detecting a vehicle speed, and a brake sensor detecting an operation of a brake pedal, an injector injecting a fuel for driving the vehicle, an air conditioning system including a condenser condensing and liquefying the cooling medium, an evaporator evaporating the liquefied cooling medium, the compressor compressing the cooling medium, a temperature control door controlling a temperature of air flowing into a cabin of the vehicle, an intake door selectively distributing an inner air or an outer air into the cabin of the vehicle, and a blower blowing the air to the intake door, and a controller controlling operations of the injector and the air conditioning system, wherein the controller accumulates a cold air energy by increasing an operation of the compressor in a case that a speed-reducing condition occurs, and the air conditioning system uses the accumulated cold air energy by decreasing the operation of the compressor in a case that a release condition occurs.
    • 用于控制车辆的压缩机的方法通过在减速条件发生时累积冷空气能量并且当释放状态发生时使用累积的冷空气能量来提高燃料效率。 用于控制车辆的压缩机的装置可以包括传感器模块,其包括检测车辆的车厢温度的车厢温度传感器,检测车辆的室外温度的室外温度传感器,检测冷却介质的温度的蒸发器温度传感器 蒸发器(蒸发器温度),检测车速的车速传感器和检测制动踏板操作的制动传感器,喷射用于驱动车辆的燃料的喷射器;空调系统,包括冷凝和液化冷却 介质,蒸发液化冷却介质的蒸发器,压缩冷却介质的压缩机,控制流入车辆舱室的空气的温度的温度控制门,选择性地将内部空气或外部空气分配到舱室中的进气门 车辆和将进气门吹入空气的鼓风机,以及控制油门的控制器 喷射器和空调系统的口径,其中控制器在减速条件发生的情况下通过增加压缩机的运行来累积冷空气的能量,空调系统通过减少 在发生释放状态的情况下,压缩机的运转。
    • 8. 发明申请
    • WIPER BLADE PACKING CASE
    • 刮刀包装盒
    • US20120043237A1
    • 2012-02-23
    • US13266774
    • 2010-04-27
    • Kim Tae HunSang Cheol LeeJae Woong Kim
    • Kim Tae HunSang Cheol LeeJae Woong Kim
    • A45C11/26
    • B65D85/68B65D5/0209B65D5/106B65D5/4208B65D2585/6885
    • The present invention relates to a wiper blade packing case for packing a vehicle wiper blade. The wiper blade packing case comprises: a plate-type lower panel which has a pair of longer sides and a pair of shorter sides, and which is curved in a lateral direction with respect to the lengthwise direction of the surface thereof; a plate-type upper panel which is bendable along one longer side of the lower panel, which has a receiving portion for receiving the wiper blade in cooperation with the lower panel, which is curved in a lateral direction with respect to the lengthwise direction of the surface thereof such that the receiving portion has an elliptical cross-sectional surface, and which covers one side of the lower panel; and a pair of covers, each of which has an elliptical cross-sectional surface corresponding to the cross-sectional surface of the receiving portion, and each of which is bent and extends from each of the shorter sides of the upper panel to close openings formed at both sides of the receiving portion. The present invention simplifies a packing structure, reduces manufacturing costs as well as the volume when packed so as to reduce space in transporting, storage, and display.
    • 本发明涉及一种用于包装车辆刮水片的刮水片包装盒。 刮水片包装盒包括:板型下面板,其具有一对较长的边和一对较短的边,并且相对于其表面的长度方向在横向方向上弯曲; 板状上板,其能够沿着下板的一个较长侧弯曲,所述板状上板具有用于与下板协作地容纳刮水片的接收部,所述接收部相对于所述下板的长度方向在左右方向上弯曲 表面,使得接收部分具有椭圆形横截面,并且覆盖下面板的一侧; 以及一对盖,每个盖具有对应于接收部分的横截面的椭圆形横截面,并且每个盖弯曲并从上板的每个短边延伸以形成开口 在接收部分的两侧。 本发明简化了包装结构,降低了制造成本以及包装时的体积,以减少运输,储存和展示的空间。
    • 9. 发明授权
    • Lithium ion secondary battery
    • 锂离子二次电池
    • US08101301B2
    • 2012-01-24
    • US13100919
    • 2011-05-04
    • Won Chull HanChan Jung KimJae Woong KimJun Ho KimJin Hee KimHa Young Lee
    • Won Chull HanChan Jung KimJae Woong KimJun Ho KimJin Hee KimHa Young Lee
    • H01M2/16
    • H01M2/166H01M2/145H01M2/18H01M10/0525
    • A lithium ion secondary battery is provided. The lithium ion secondary battery generally comprises an electrode assembly, a container for accommodating the electrode assembly; and an electrolyte. The electrode assembly comprises two electrodes having opposite polarities and a separator. The separator comprises a porous membrane comprising clusters of ceramic particles. The porous membrane is formed by bonding the particle clusters with a binder. Each particle cluster is formed either by sintering or by dissolving and re-crystallizing all or a portion of the ceramic particles. The ceramic particles comprise a ceramic material having a band gap. Each particle cluster may have the shape of a grape bunch or a lamina, and may be formed by laminating scale or flake shaped ceramic particles.
    • 提供锂离子二次电池。 锂离子二次电池通常包括电极组件,用于容纳电极组件的容器; 和电解质。 电极组件包括具有相反极性的两个电极和分离器。 分离器包括包含陶瓷颗粒簇的多孔膜。 多孔膜通过将颗粒团与粘合剂结合而形成。 每个颗粒簇通过烧结或通过溶解和重结晶全部或一部分陶瓷颗粒而形成。 陶瓷颗粒包括具有带隙的陶瓷材料。 每个颗粒簇可以具有葡萄束或层的形状,并且可以通过层压鳞片或片状陶瓷颗粒形成。
    • 10. 发明授权
    • Lithium ion secondary battery
    • 锂离子二次电池
    • US07964311B2
    • 2011-06-21
    • US11283604
    • 2005-11-17
    • Won Chull HanChan Jung KimJae Woong KimJun Ho KimJin Hee KimHa Young Lee
    • Won Chull HanChan Jung KimJae Woong KimJun Ho KimJin Hee KimHa Young Lee
    • H01M2/16
    • H01M2/166H01M2/145H01M2/18H01M10/0525
    • A lithium ion secondary battery is provided. The lithium ion secondary battery generally comprises an electrode assembly, a container for accommodating the electrode assembly; and an electrolyte. The electrode assembly comprises two electrodes having opposite polarities and a separator. The separator comprises a porous membrane comprising clusters of ceramic particles. The porous membrane is formed by bonding the particle clusters with a binder. Each particle cluster is formed either by sintering or by dissolving and re-crystallizing all or a portion of the ceramic particles. The ceramic particles comprise a ceramic material having a band gap. Each particle cluster may have the shape of a grape bunch or a lamina, and may be formed by laminating scale or flake shaped ceramic particles.
    • 提供锂离子二次电池。 锂离子二次电池通常包括电极组件,用于容纳电极组件的容器; 和电解质。 电极组件包括具有相反极性的两个电极和分离器。 分离器包括包含陶瓷颗粒簇的多孔膜。 多孔膜通过将颗粒团与粘合剂结合而形成。 每个颗粒簇通过烧结或通过溶解和重结晶全部或一部分陶瓷颗粒而形成。 陶瓷颗粒包括具有带隙的陶瓷材料。 每个颗粒簇可以具有葡萄束或层的形状,并且可以通过层压鳞片或片状陶瓷颗粒形成。