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    • 7. 发明公开
    • 무부압 라디에이터캡
    • 无负压散热器盖
    • KR1020170068653A
    • 2017-06-20
    • KR1020150174770
    • 2015-12-09
    • 현대자동차주식회사기아자동차주식회사
    • 한수동김형국
    • F01P11/02
    • F01P11/0238B65D51/1644
    • 바디의내측에관통홀이형성된가압부재가마련되어, 냉각수의압력상승에따라가압됨으로써, 냉각수가리저버탱크측으로이동되도록하는압력밸브; 헤드부와넥부로구성되되, 상기넥부가상기관통홀을하방에서상방으로관통하고, 냉각수의압력에따라상하방향으로이동되어상기관통홀을개방또는폐쇄하는진공밸브; 상기압력밸브와상기진공밸브사이에마련되고, 상기관통홀에대응되는지점에삽입홀이형성된실링부재; 상기압력밸브의관통홀과상기실링부재의삽입홀에삽입되는리테이너; 및상기진공밸브의개폐시상기진공밸브가수직으로이동될수 있도록가이드하는가이드수단;을포함하는무부압라디에이터캡이소개된다.
    • 1。一种压力阀,其特征在于,具备:在所述主体的内侧形成有贯通孔的按压部件,该按压部件通过所述冷却水的压力而被按压而使所述冷却水向所述储存罐移动; Doedoe构成的头部和颈部,其中,所述真空阀的颈部的,并通过从底部通孔穿透向上,根据冷却水的压力在垂直方向上以打开或关闭所述通孔被移动; 设置在所述压力阀与所述真空阀之间并且在与所述通孔对应的位置处具有插入孔的密封构件; 插入压力阀的通孔和密封件的插入孔中的保持器; 当真空阀打开或关闭时,引导装置用于引导真空阀垂直移动。
    • 9. 发明公开
    • 연료전지 시스템의 열관리계 제어방법
    • 燃料电池管理系统控制方法
    • KR1020120032360A
    • 2012-04-05
    • KR1020100093961
    • 2010-09-28
    • 현대자동차주식회사기아자동차주식회사
    • 남기영김치명김성균이승용한수동나성욱김학구박용선
    • H01M8/04G01R31/36G05D7/00B60L11/18
    • PURPOSE: A control method of thermal management system for a fuel cell is provided to minimize the generation of danger of users due to abnormal operation, electrical shock of driving components and electric device by the leakage of electricity which is the problem due to the increase of electric conductivity, thereby preventing frequent shutdown of the system. CONSTITUTION: A control method of thermal management system for a fuel cell comprises a step of outputting stack and circulating coolant and after starting a fuel cell system; a step of inputting the temperature of coolant and electrical conductivity detected by a temperature detection part and an electric conductivity detection part; a step of detecting whether the temperature of coolant is higher than set valve-opening temperature; a step of opening a flow channel of a converter in case the temperature of coolant is higher than the valve-opening temperature; a step of detecting whether the electrical conductivity of coolant is higher than standard value; and a step of controlling open promotion when the electrical conductivity is higher than standard value.
    • 目的:提供一种用于燃料电池的热管理系统的控制方法,以最小化由于异常操作引起的用户危险的产生,由于电力泄漏导致的驱动部件和电气设备的电击,这是由于增加的问题 电导率,从而防止系统的频繁关闭。 构成:用于燃料电池的热管理系统的控制方法包括输出堆叠和循环冷却剂以及启动燃料电池系统之后的步骤; 输入由温度检测部和电导率检测部检测出的冷却剂的温度和电导率的步骤; 检测冷却剂的温度是否高于设定开阀温度的步骤; 在冷却剂的温度高于开阀温度的情况下打开转炉流道的步骤; 检测冷却剂的电导率是否高于标准值的步骤; 以及当电导率高于标准值时控制开放促进的步骤。
    • 10. 发明公开
    • 연료전지차량의 열 및 물 관리시스템
    • 燃料电池车辆热管理系统
    • KR1020120022001A
    • 2012-03-09
    • KR1020100082340
    • 2010-08-25
    • 현대자동차주식회사기아자동차주식회사
    • 한수동김성균
    • H01M8/04B60L11/18F01P7/16
    • F01P7/16B60L11/18F01P11/04F01P2050/22H01M8/0267Y02E60/50
    • PURPOSE: A heat and water managing system of a fuel cell vehicle is provided to improve differential pressure performance by reducing the bending of a cooling water path in a stack and reduce man-hour and weight by reducing the number of bolts and clamps required for stack mounting. CONSTITUTION: A heat and water managing system of a fuel cell vehicle comprises a COD heater(20). The COD heater is installed on a cooling water line connecting a stack and a radiator and is connected to the inlet of the cooling water of the stack. The COD heater is composed of COD(Cathod oxygen depletion)(10), a heater, and a cooling-water duct(30). The COD prevents a decrease in the durability of a stack. The heater heats the cooling water. The cooling-water duct is directly connected to the inlet of the cooling water of the stack. The COD, the heater, and the cooling-water duct are integrated in a module type.
    • 目的:提供燃料电池车辆的热水管理系统,通过减少堆叠中的冷却水路径的弯曲来提高压差性能,通过减少堆叠所需的螺栓和夹具的数量来减少工时和重量 安装。 构成:燃料电池车辆的热水管理系统包括COD加热器(20)。 COD加热器安装在连接堆叠和散热器的冷却水管线上,并连接到堆叠的冷却水入口。 COD加热器由COD(阴极氧耗尽)(10),加热器和冷却水管道(30)组成。 COD防止堆叠的耐久性降低。 加热器加热冷却水。 冷却水管直接连接到堆的冷却水入口。 COD,加热器和冷却水管道集成在一个模块类型中。