会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Rotary-type total heat exchanger
    • 旋转型全热交换器
    • US20060175038A1
    • 2006-08-10
    • US11211968
    • 2005-10-20
    • Tay-Jian LiuShun-Yuan JanShang-Chih LiangChih-Feng Fan
    • Tay-Jian LiuShun-Yuan JanShang-Chih LiangChih-Feng Fan
    • F23L15/02
    • F24F13/30F24F1/0059F24F2203/104Y10S165/903
    • A rotary-type total heat exchanger (10) includes two blowers (21, 22), a rotary wheel (33), an air-guiding member (41) and an air-regulating member (42). The blowers are used to provide a first airflow and a second airflow into the total heat exchanger. The rotary wheel defines therein a plurality of air passageways (331). Upon rotation, the rotary wheel is capable of exchanging heat and moisture between the airflows when the airflows separately flow though the air passageways of the rotary wheel. The air-guiding member is in fluid communication with one of the blowers for guiding one of the airflows toward the rotary wheel. The air-regulating member is located between the rotary wheel and the air-guiding member for distributing the guided airflow over the air passageways of the rotary wheel.
    • 旋转型全热交换器(10)包括两个鼓风机(21,22),一个旋转轮(33),一个空气引导构件(41)和一个空气调节构件(42)。 鼓风机用于向全热交换器提供第一气流和第二气流。 旋转轮在其中限定有多个空气通道(331)。 当旋转时,当气流分别流过旋转轮的空气通道时,转轮能够在气流之间交换热量和湿气。 空气引导构件与其中一个鼓风机流体连通,用于将一个气流引向旋转轮。 空气调节构件位于旋转轮和引导构件之间,用于将被引导的气流分布在旋转轮的空气通道上。
    • 2. 发明授权
    • Rotary-type total heat exchanger
    • 旋转型全热交换器
    • US07530385B2
    • 2009-05-12
    • US11211968
    • 2005-10-20
    • Tay-Jian LiuShun-Yuan JanShang-Chih LiangChih-Feng Fan
    • Tay-Jian LiuShun-Yuan JanShang-Chih LiangChih-Feng Fan
    • F23L15/02F24H3/02
    • F24F13/30F24F1/0059F24F2203/104Y10S165/903
    • A rotary-type total heat exchanger (10) includes two blowers (21, 22), a rotary wheel (33), an air-guiding member (41) and an air-regulating member (42). The blowers are used to provide a first airflow and a second airflow into the total heat exchanger. The rotary wheel defines therein a plurality of air passageways (331). Upon rotation, the rotary wheel is capable of exchanging heat and moisture between the airflows when the airflows separately flow though the air passageways of the rotary wheel. The air-guiding member is in fluid communication with one of the blowers for guiding one of the airflows toward the rotary wheel. The air-regulating member is located between the rotary wheel and the air-guiding member for distributing the guided airflow over the air passageways of the rotary wheel.
    • 旋转型全热交换器(10)包括两个鼓风机(21,22),一个旋转轮(33),一个空气引导构件(41)和一个空气调节构件(42)。 鼓风机用于向全热交换器提供第一气流和第二气流。 旋转轮在其中限定有多个空气通道(331)。 当旋转时,当气流分别流过旋转轮的空气通道时,转轮能够在气流之间交换热量和湿气。 空气引导构件与其中一个鼓风机流体连通,用于将一个气流引向旋转轮。 空气调节构件位于旋转轮和引导构件之间,用于将被引导的气流分布在旋转轮的空气通道上。
    • 4. 发明申请
    • HEAT EXCHANGE MODULE
    • 热交换模块
    • US20070012427A1
    • 2007-01-18
    • US11308070
    • 2006-03-05
    • Tay-Jian LiuChih-Feng FanChih-Peng LeeChao-Nien Tung
    • Tay-Jian LiuChih-Feng FanChih-Peng LeeChao-Nien Tung
    • H05K7/20
    • H01L23/427H01L2924/0002H01L2924/00
    • A heat exchange module (1) includes a fan duct, an evaporator (22), a condenser (26) and an electric fan (50). The fan duct includes a lower portion (10) and an upper portion (30). The lower portion cooperates with the upper portion to define therebetween an air passage (90). The evaporator contains therein a working fluid. The condenser is in fluid communication with the evaporator. The evaporator and the condenser are received in the air passage defined by the fan duct. The working fluid turns into vapor in the evaporator upon receiving heat from a heat-generating component (70) and the vapor turns into condensate upon releasing the heat to the condenser. The electric fan is attached to the fan duct. The electric fan produces an airflow flowing through the air passage for removing the heat away from the condenser.
    • 热交换模块(1)包括风扇管道,蒸发器(22),冷凝器(26)和电风扇(50)。 风扇导管包括下部(10)和上部(30)。 下部与上部配合以在其间限定空气通道(90)。 蒸发器包含工作流体。 冷凝器与蒸发器流体连通。 蒸发器和冷凝器容纳在由风扇管道限定的空气通道中。 当从发热部件(70)接收热量时,工作流体在蒸发器中变成蒸气,并且在将热量释放到冷凝器时,蒸汽变成冷凝物。 电风扇安装在风扇导管上。 电风扇产生流过空气通道的气流,用于从冷凝器中除去热量。
    • 5. 发明授权
    • Heat exchange module
    • 热交换模块
    • US07743818B2
    • 2010-06-29
    • US11308070
    • 2006-03-05
    • Tay-Jian LiuChih-Feng FanChih-Peng LeeChao-Nien Tung
    • Tay-Jian LiuChih-Feng FanChih-Peng LeeChao-Nien Tung
    • F28D15/00
    • H01L23/427H01L2924/0002H01L2924/00
    • A heat exchange module (1) includes a fan duct, an evaporator (22), a condenser (26) and an electric fan (50). The fan duct includes a lower portion (10) and an upper portion (30). The lower portion cooperates with the upper portion to define therebetween an air passage (90). The evaporator contains therein a working fluid. The condenser is in fluid communication with the evaporator. The evaporator and the condenser are received in the air passage defined by the fan duct. The working fluid turns into vapor in the evaporator upon receiving heat from a heat-generating component (70) and the vapor turns into condensate upon releasing the heat to the condenser. The electric fan is attached to the fan duct. The electric fan produces an airflow flowing through the air passage for removing the heat away from the condenser.
    • 热交换模块(1)包括风扇管道,蒸发器(22),冷凝器(26)和电风扇(50)。 风扇导管包括下部(10)和上部(30)。 下部与上部配合以在其间限定空气通道(90)。 蒸发器包含工作流体。 冷凝器与蒸发器流体连通。 蒸发器和冷凝器容纳在由风扇管道限定的空气通道中。 当从发热部件(70)接收热量时,工作流体在蒸发器中变成蒸气,并且在将热量释放到冷凝器时,蒸汽变成冷凝物。 电风扇安装在风扇导管上。 电风扇产生流过空气通道的气流,用于从冷凝器中除去热量。