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    • 1. 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。
    • 3. 发明授权
    • Cooling apparatus boiling and condensing refrigerant
    • 冷却装置沸腾冷凝制冷剂
    • US06357517B1
    • 2002-03-19
    • US09426193
    • 1999-10-25
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko SuzukiShigeru Kadota
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko SuzukiShigeru Kadota
    • F28D1500
    • H01L23/427F28D15/0233F28D15/0266H01L2924/0002H01L2924/00
    • A cooling apparatus includes a refrigerant tank having a surface to which heating devices are attached and containing liquid refrigerant which is boiled and evaporated by heat transferred from the heating devices, and a radiator for radiating the heat of the boiled and vaporized refrigerant. The radiator has an inflow return chamber provided with a small-diameter opening having a diameter smaller than that of the inflow return chamber. The liquid refrigerant of the gas-liquid mixed refrigerant is dammed by the small-diameter opening of the inflow return chamber and the dammed liquid refrigerant is returned through a return passage to the refrigerant tank. Since the liquid refrigerant contained in the gas-liquid mixed refrigerant is suppressed from flowing by means of the small-diameter opening, the gaseous refrigerant can transfer heat directly to the walls of the radiating passages, so that the deterioration of the radiating performance can be prevented.
    • 冷却装置包括:制冷剂罐,其具有附接有加热装置的表面,并且包含通过从加热装置传递的热量而沸腾和蒸发的液体制冷剂;以及散热器,用于照射煮沸和蒸发的制冷剂的热量。 散热器具有流入回流室,其设置有直径比流入回流室小的直径的小直径开口。 气液混合制冷剂的液体制冷剂被流入回流室的小直径开口阻挡,并且被阻止的液体制冷剂通过返回通道返回到制冷剂罐。 由于气体混合制冷剂中所含的液体制冷剂通过小直径开口被抑制而流动,所以气态制冷剂可以将热量直接传递到散热通道的壁,从而辐射性能的劣化可以是 防止了
    • 6. 发明授权
    • Cooling apparatus using boiling and condensing refrigerant
    • 使用沸腾和冷凝制冷剂的冷却装置
    • US5713413A
    • 1998-02-03
    • US579301
    • 1995-12-27
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko SuzukiHajime SugitoKazuo KobayashiShigeru Kadota
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko SuzukiHajime SugitoKazuo KobayashiShigeru Kadota
    • F28D15/02H01L23/427H05K7/20F28D15/00
    • H05K7/20936F28D15/0233F28D15/0266F28F13/06
    • According to the present invention, a cooling apparatus includes a refrigerant tank composed of at least a couple of thin plate materials facing each other and bonded together at bonding parts thereof, a heating body mounted on an outer surface of the thin plates, refrigerant sealed in the refrigerant tank for absorbing heat generated by the heating body, the refrigerant vaporizing in the refrigerant tank, a heat radiator mounted on the refrigerant tank in fluid communication therewith for condensing and liquefying boiling vapor ascending from the refrigerant tank, and a refrigerant flow control plate composed of a plate material and disposed in an upper part of the refrigerant tank in contact with the thin plate materials facing each other. The refrigerant flow control plate partitions an inside of the refrigerant tank into a vapor outlet and a liquid inlet. The vapor outlet is defined by one surface of the refrigerant flow control plate and the thin plate materials facing each other to flow out the boiling vapor boiled and ascending within the refrigerant tank into the heat radiator, and the liquid inlet is defined by the other surface of the refrigerant flow control plate and the thin plate materials facing each other to introduce the condensed liquid into the refrigerant tank.
    • 根据本发明,冷却装置包括由至少一对彼此面对的薄板材料构成的制冷剂罐,其粘合部分粘合在一起,安装在薄板的外表面上的加热体,密封在 用于吸收由加热体产生的热量的制冷剂罐,在制冷剂罐中蒸发的制冷剂,安装在与其流体连通的制冷剂罐中的散热器,用于冷凝和液化从制冷剂罐上升的沸腾蒸气;以及制冷剂流量控制板 由板材组成并且设置在与彼此面对的薄板材料接触的制冷剂罐的上部中。 制冷剂流量控制板将制冷剂罐的内部分隔成蒸汽出口和液体入口。 蒸汽出口由制冷剂流量控制板的一个表面和彼此面对的薄板材料限定,以将在制冷剂罐内沸腾并沸腾的沸腾蒸汽流出到散热器内,并且液体入口由另一个表面 的制冷剂流量控制板和薄板材料相互面对以将冷凝的液体引入制冷剂罐中。
    • 7. 发明授权
    • Cooling apparatus using boiling and condensing refrigerant
    • 使用沸腾和冷凝制冷剂的冷却装置
    • US5832989A
    • 1998-11-10
    • US811879
    • 1997-03-05
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko Suzuki
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko Suzuki
    • F28D15/02H01L23/427F28D15/00
    • F28F1/128F28D15/0266H01L23/427F28F9/26H01L2924/0002
    • An object of the present invention is to provide a cooling apparatus using a boiling and condensing refrigerant which can be economically manufactured. Another object is to improve reliability of soldering. A refrigerant tank, on which hot objects to be cooled is mounted, is connected to a radiator for condensing the vaporized refrigerant through a coupler made of two plates bonded together by soldering. The coupler connecting the tank and the radiator can be made easily and economically even if it has a complex shape, because the coupler is composed of two stamped plates. To bond two plates together by soldering process, it is necessary to secure an air-tightness and a high reliability. Improved configurations of the coupler and ways of fastening the two plates effectively are provided in the present invention.
    • 本发明的目的是提供一种使用可经济地制造的沸腾冷凝制冷剂的冷却装置。 另一个目的是提高焊接的可靠性。 将要冷却的热物体安装在其上的制冷剂罐连接到散热器,用于通过由通过焊接接合在一起的两个板制成的联接器冷凝蒸发的制冷剂。 连接罐和散热器的联接器即使具有复杂的形状也可以容易且经济地制造,因为耦合器由两个冲压板组成。 为了通过焊接工艺将两块板结合在一起,必须确保气密性和高可靠性。 在本发明中提供了耦合器的改进的构造和有效地紧固两个板的方式。
    • 8. 发明授权
    • Cooling apparatus using boiling and condensing refrigerant
    • 使用沸腾和冷凝制冷剂的冷却装置
    • US5613552A
    • 1997-03-25
    • US501718
    • 1995-07-12
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko Suzuki
    • Hiroyuki OsakabeKiyoshi KawaguchiMasahiko Suzuki
    • F28D15/02H01L23/427F28D15/00
    • H01L23/427F28D15/0233F28D15/0266H01L2924/0002
    • A power pack is mounted on the side wall of a refrigerant tank in which the internal pressure is reduced and a refrigerant is held in such a way that a heat transfer panel on which a power element is mounted can contact the refrigerant. The refrigerant boiled and gasified by heat from the contact part of the heat transfer panel 19 is guided into a radiation part planted on the top of the refrigerant tank 11. The radiation part is composed of a plurality of hollow tubular bodies having flat cross sections. The plurality of radiation tubes are laid out in parallel with each other at specified intervals, the upper ends thereof being closed and the lower ends thereof being open to the inside of the refrigerant tank so that the gasified refrigerant is guided thereinto. Here, the natural convection of the air is generated in the up/downward directions by the plurality of the radiation tubes, and the effective heat radiation is achieved thereby.
    • 动力组件安装在制冷剂罐的侧壁上,其中内部压力降低,并且制冷剂被保持成使得其上安装有功率元件的传热面板可以接触制冷剂。 通过热量从传热面板19的接触部分沸腾并气化的制冷剂被引导到制冷剂罐11顶部放置的辐射部分中。辐射部分由具有平坦横截面的多个中空管状体构成。 多个辐射管以规定的间隔彼此平行布置,其上端封闭,其下端向制冷剂罐的内部开口,从而将气化制冷剂引导到其中。 这里,通过多个辐射管在上下方向上产生空气的自然对流,从而实现有效的热辐射。
    • 9. 发明授权
    • Cooling apparatus using boiling and condensing refrigerant and method
for manufacturing the same
    • 使用沸腾和冷凝制冷剂的冷却装置及其制造方法
    • US6073683A
    • 2000-06-13
    • US674821
    • 1996-07-03
    • Hiroyuki OsakabeKiyoshi KawaguchiTakahide OharaShigeru KadotaMasahiko Suzuki
    • Hiroyuki OsakabeKiyoshi KawaguchiTakahide OharaShigeru KadotaMasahiko Suzuki
    • F28D15/02H01L23/44F28D15/00
    • H01L23/44F28D15/0266H01L2924/0002
    • A cooling apparatus using boiling and condensing refrigerant for cooling a heat generating unit, includes a refrigerant tank having a wall surface, for containing the refrigerant therein, a heat generating unit boiling the refrigerant in the refrigerant tank by heating, and a radiator disposed in communication with the refrigerant tank for condensing and liquefying the boiling refrigerant in the tank. An interior of the refrigerant tank is partitioned into a vapor passage for leading the boiling refrigerant to the radiator, a condensed liquid passage in which the condensed and liquefied refrigerant flows downwardly, and a communication path formed at a lower side thereof for communicating between the vapor passage and the condensed liquid passage. The condensed liquid passage is defined by a part of the wall surface. Since the refrigerant liquid passage is formed by the wall surface, the heat from the refrigerant in the refrigerant tank, which is received by the condensed refrigerant having condensed and liquefied in the condensed liquid passage, is reduced.
    • 一种使用沸腾冷凝制冷剂冷却发热单元的冷却装置,包括具有用于容纳制冷剂的壁面的制冷剂罐,通过加热使制冷剂罐中的制冷剂沸腾的发热体,以及连通状态的散热器 用于冷凝和液化罐中沸腾的制冷剂的制冷剂罐。 制冷剂罐的内部被分隔成用于将沸腾的制冷剂引导到散热器的蒸气通道,冷凝的液化制冷剂向下流动的冷凝液体通道,以及形成在其下侧的连通路径,用于在蒸气 通道和冷凝液体通道。 冷凝的液体通道由壁表面的一部分限定。 由于制冷剂液体通道由壁面形成,所以来自在冷凝液体通道中被冷凝和液化的冷凝制冷剂所接收的制冷剂罐中的制冷剂的热量减少。