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    • 65. 发明申请
    • Evaporator Unit
    • 蒸发器单元
    • US20090090130A1
    • 2009-04-09
    • US12286868
    • 2008-10-02
    • Thuya AungTomohiko NakamuraYoshiyuki OkamotoHideaki SatoNobuharu Kakehashi
    • Thuya AungTomohiko NakamuraYoshiyuki OkamotoHideaki SatoNobuharu Kakehashi
    • F25B39/02F25B41/00
    • F25B39/02F25B5/00F25B2500/18
    • An evaporator unit includes a first heat exchanger configured to perform heat exchange between refrigerant flowing thereinto from a refrigerant inlet and air, a bypass passage through which the refrigerant flowing from the refrigerant inlet flows while bypassing the first heat exchanger, a second heat exchanger configured to perform heat exchange between air and mixed refrigerant in which the refrigerant after passing through the first heat exchanger and the refrigerant having passed through the bypass passage are mixed, and a flow amount adjustment portion configured to adjust a flow amount of the refrigerant flowing through the first heat exchanger and a flow amount of the refrigerant flowing through the bypass passage. Accordingly, the first heat exchanger and the second heat exchanger can be configured to have respectively portions in which a dryness of the refrigerant is in a range between 0.6 and 0.9.
    • 蒸发器单元包括:第一热交换器,被配置为执行从制冷剂入口流到其中的制冷剂与空气之间的热交换;旁路通道,制冷剂入口流动的制冷剂绕过第一热交换器流动;第二热交换器, 进行空气与通过第一热交换器的制冷剂和通过旁通通路的制冷剂混合的混合制冷剂之间的热交换;流量调整部,被配置为调节流过第一热交换器的制冷剂的流量, 热交换器和流过旁路通路的制冷剂的流量。 因此,第一热交换器和第二热交换器可以被构造成分别具有在0.6至0.9之间的范围内的制冷剂的干燥部分。
    • 68. 发明授权
    • Cooling device boiling and condensing refrigerant
    • 冷却装置沸腾冷凝制冷剂
    • US06397934B2
    • 2002-06-04
    • US09726151
    • 2000-11-29
    • Hiroyuki OsakabeYoshiyuki OkamotoKiyoshi Kawaguchi
    • Hiroyuki OsakabeYoshiyuki OkamotoKiyoshi Kawaguchi
    • F28D1500
    • F28D15/0266
    • A cooling device includes a boiling unit and a condensing unit. A diffusion plate having a plurality of holes is formed into a thin-long shape, and is disposed in an upper tank of the condensing unit at an approximate center in an up-down direction so that an inner space of the upper tank of the condensing unit is divided into upper and lower parts in the up-down direction. Each hole opened in the diffusion plate has an opening area smaller than a sectional surface area of an introduction port of a gas-refrigerant introduction pipe, opened in the upper tank of the condensing unit. Thus, gas refrigerant flowing into the upper tank of the condensing unit through the gas-refrigerant introduction pipe is diffused to all the upper part of the upper tank along the surface of the diffusion plate while passing through the holes of the diffusion plate downwardly. As a result, an entire area of the condensing unit can be effectively used, and heat-radiating performance of refrigerant in the condensing unit can be improved.
    • 冷却装置包括沸腾单元和冷凝单元。 具有多个孔的扩散板形成为细长形状,并且在上下方向的大致中心处配置在聚光单元的上侧容器中,使得上部容器的冷凝的内部空间 单元在上下方向上分为上下部分。 在扩散板上开设的每个孔的开口面积小于在冷凝单元的上部箱中开口的气体制冷剂导入管的导入口的截面积。 因此,通过气体制冷剂导入管流入冷凝单元的上部箱体的气体制冷剂沿着扩散板的表面向下扩散到上部箱体的所有上部,同时通过扩散板的孔。 结果,可以有效地使用冷凝单元的整个区域,并且可以提高冷凝单元中的制冷剂的散热性能。