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    • 7. 发明公开
    • POWER-ELECTRONIC MODULE ARRANGEMENT
    • 电力电子模块布置
    • EP3196586A1
    • 2017-07-26
    • EP17150422.8
    • 2017-01-05
    • ABB Schweiz AG
    • Gradinger, ThomasAgostini, BrunoAgostini, FrancescoHabert, MathieuTorresin, Daniele
    • F28F13/06F28D15/02F28F1/02H05K7/20
    • F28F13/06F28D15/0233F28D15/0266F28D15/0275F28F1/022H05K7/20145H05K7/20936
    • It is proposed a cooling unit (100) for a power electronic module arrangement. The cooling unit includes a two-phase heat exchanger (101) including a plurality of tube elements (120), each of which having at least one tube extending in a width direction (301) of the cooling unit, within and communicating between an evaporator portion (121) and a condenser portion (122) of the cooling unit (100). The tube elements are arranged in a spaced-apart manner along a depth direction (303) of the cooling unit forming cooling paths (213) for allowing an external cooling medium (130) to flow through the cooling paths, the cooling paths traversing the condenser portion in a length direction (302) of the cooling unit (100). The cooling unit further includes flow guides (141; 142) for forcing an external cooling medium (130) arriving at the heat exchanger through the cooling paths and then away from the cooling unit.
    • 提出了用于功率电子模块装置的冷却单元(100)。 该冷却单元包括两相热交换器(101),该两相热交换器包括多个管元件(120),每个管元件具有沿冷却单元的宽度方向(301)延伸的至少一个管,并且在蒸发器 部分(121)和冷却单元(100)的冷凝器部分(122)。 管元件沿着形成冷却路径(213)的冷却单元的深度方向(303)以隔开的方式布置,以允许外部冷却介质(130)流过冷却路径,冷却路径横穿冷凝器 部分在冷却单元(100)的长度方向(302)上。 冷却单元还包括用于迫使外部冷却介质(130)通过冷却路径到达热交换器并且然后远离冷却单元的流动引导件(141; 142)。
    • 9. 发明公开
    • COOLING DEVICE AND METHOD FOR COOLING AT LEAST TWO POWER ELECTRONIC DEVICES
    • 冷却装置和方法用于冷却至少两个电子功率器件
    • EP3147621A1
    • 2017-03-29
    • EP15186625.8
    • 2015-09-24
    • ABB Schweiz AG
    • Agostini, FrancescoTorresin, DanieleHabert, MathieuAgostini, Bruno
    • F28F9/02F28D15/02
    • H05K7/20936F28D15/025F28D15/0266F28D15/0275F28F9/0278F28F13/10H05K7/209
    • A cooling device for cooling at least two power electronic devices (4) by a working fluid (61). The cooling device has a heat receiver portion of the Pulsating Heat Pipe circuit system (60) and a pair of thermo-conducting walls provided on mutually opposite sides of the heat receiver arrangement (20) and sandwiching the heat receiver portion between them. These walls are adapted for being thermally connected to a respective one of the power electronic devices. The cooling device further has a heat dissipator arrangement (40) with a heat dissipator portion of the Pulsating Heat Pipe circuit system (60) and a plurality of fins (42) thermally coupled to the heat dissipator portion for transferring heat from the heat dissipator portion to an external cooling fluid for cooling the working fluid in the heat dissipator portion. The Pulsating Heat Pipe circuit system (60) connects the heat receiver portion with the heat dissipator portion for transferring heat from the heat receiver portion to the heat dissipator portion by the Pulsating Heat Pipe action of the working fluid.
    • 用于由工作流体(61)的冷却的至少两个电力电子器件(4)的冷却装置。 所述冷却装置具有脉动热管电路系统(60)和设置在所述热接收器装置(20)和夹持在它们之间的热接收器部分的彼此相对的两侧的一对热传导壁的热接收器部分。 这些壁angepasst用于连接到一个热respectivement电力电子器件中的一个。 所述冷却装置还具有热从所述散热器的部分耦合到用于传递环热散热器部分的散热器装置(40)与所述脉动热管电路系统(60)的部分的散热器和散热片的多个(42) 到用于冷却所述工作流体在所述散热器中的部分的外部冷却流体。 脉动热管电路系统(60)与从所述工作流体的脉动热管作用在部分热接收器部分,以所述散热器的散热部用于传递环的热的接收器部分连接。