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    • 3. 发明授权
    • Corrugated heat exchanger element having grooved inner and outer surfaces
    • 波纹热交换器元件具有开槽的内表面和外表面
    • US06488079B2
    • 2002-12-03
    • US09902869
    • 2001-07-10
    • L. Robert Zifferer
    • L. Robert Zifferer
    • F28F1318
    • F28F1/06F28F1/42F28F1/426F28F2210/06Y10T29/49391
    • A corrugated heat exchanger element may have grooves and ribs on the interior and exterior surfaces of the tube. The corrugations on the tube may be linear corrugations or helical corrugations. The texturing of the interior and exterior surfaces of the tube, and the corrugations in the tube may provide a heat exchanger element that has a large surface area. The surface texturing and corrugations may also provide a heat exchanger element that promotes internal mixing of fluids that flow by and through the element. Increased internal mixing and increased surface area of an element may allow the heat exchanger element to have a high heat transfer coefficient. A heat exchanger element or heat exchanger elements may be assembled into a heat exchanger that has a high overall heat transfer coefficient. Ends of the heat exchanger element may be pointed to facilitate attachment of the element to a support structure.
    • 波纹状热交换器元件可以在管的内表面和外表面上具有凹槽和肋。 管上的波纹可以是线性波纹或螺旋波纹。 管的内表面和外表面的纹理以及管中的波纹可以提供具有大表面积的热交换器元件。 表面纹理和波纹还可以提供一种热交换器元件,其促进流过并穿过元件的流体的内部混合。 增加的内部混合和元件的增加的表面积可允许热交换器元件具有高的传热系数。 热交换器元件或换热器元件可以组装成具有高总传热系数的热交换器。 可以指向热交换器元件的端部,以便于将元件附接到支撑结构。
    • 7. 发明授权
    • Heat exchanger made of an aluminum alloy
    • 铝合金换热器
    • US06523605B2
    • 2003-02-25
    • US09802907
    • 2001-03-12
    • Takeyoshi DokoKoji OkadaTakeshi IguchiTakaaki SakaneYoshihiro KinoshitaTaketoshi ToyamaAkira UchikawaSatoshi NohiraHomare Koutate
    • Takeyoshi DokoKoji OkadaTakeshi IguchiTakaaki SakaneYoshihiro KinoshitaTaketoshi ToyamaAkira UchikawaSatoshi NohiraHomare Koutate
    • F28F1318
    • F28F21/084F28F9/0234Y10S165/916Y10T29/49393
    • There is disclosed a heat exchanger made of an aluminum alloy having a radiator part (10) and an oil cooler part (11) in combination and manufactured integrally by the brazing method, wherein a refrigerant tank (13) for covering and sealing the oil cooler part is made of an aluminum alloy, an aluminum alloy containing Si in an amount from more than 7.0 wt % to 12.0 wt %, Fe in an amount from more than 0.05 wt % to 0.5 wt %, Cu in an amount from more than 0.4 wt % to 8.0 wt %, Zn in an amount from more than 0.5 wt % to 10.0 wt %, and the balance of aluminum and inevitable impurities is used as a filler material of brazing sheets that are used for the oil cooler part and are brazed in the tank, and the refrigerant tank is assembled integrally with the radiator part and the oil cooler part by brazing with the brazing material. The heat exchanger made of an aluminum alloy by using an aluminum material instead of a resin tank, can be easily recycled, is excellent in corrosion resistance, and can be manufactured without requiring a step of caulking a tank.
    • 公开了一种由铝合金制成的热交换器,其具有散热器部分(10)和油冷却器部分(11),并通过钎焊方法整体制造,其中用于覆盖和密封油冷却器的制冷剂罐(13) 部分由铝合金,含有大于7.0重量%至12.0重量%的Si的铝合金,大于0.05重量%至0.5重量%的Fe,大于0.4的Cu 重量%至8.0重量%,大于0.5重量%至10.0重量%的Zn,其余为铝和不可避免的杂质,用作用于油冷却器部分并钎焊的钎焊板的填料 在储罐中,通过与钎焊材料钎焊,将制冷剂罐与散热器部件和油冷却器部件一体地组装。 通过使用铝材代替树脂罐,由铝合金制成的热交换器可以容易地再循环,耐腐蚀性优异,并且可以制造而不需要对槽进行铆接的步骤。
    • 8. 发明授权
    • Heat exchanger tube
    • 热交换器管
    • US06308775B1
    • 2001-10-30
    • US08829699
    • 1997-03-26
    • Ulrich Naumann
    • Ulrich Naumann
    • F28F1318
    • F28F13/04F28F1/40
    • The exchanger tube has a smooth outside surface and a structured inside surface. The inside surface is formed from parallel primary and secondary ribs that run at an angle with respect to the longitudinal tube axis and respectively comprise inclined, planar flanks, channels that are limited laterally by the primary and secondary ribs and troughs shaped into the primary and secondary ribs. The radial extension of the secondary ribs is less than that of the primary ribs. The troughs are triangular. The center longitudinal planes of the troughs are disposed at an angle with respect to the longitudinal tube axis. The summits of the primary and secondary ribs are rounded. Rounded chamfers are provided between the flanks of the primary and secondary ribs and the channel beds.
    • 交换器管具有光滑的外表面和结构化的内表面。 内表面由相对于纵向管轴线成一定角度的平行的初级和次级肋条形成,并且分别包括倾斜的平面侧面,通过主要和次要肋条和槽形横向限定的通道形成初级和次级 肋骨。 次级肋的径向延伸小于主肋的径向延伸。 槽是三角形的。 槽的中心纵向平面相对于纵向管轴线成一角度设置。 主肋和次肋的顶点是圆形的。 圆形倒角设置在主肋和副肋的侧面和通道床之间。
    • 9. 发明授权
    • Heat exchanger tube and method for manufacturing a heat exchanger
    • 热交换器管和制造热交换器的方法
    • US06173763B1
    • 2001-01-16
    • US08888365
    • 1997-07-03
    • Tetsuo SanoHideaki MotohashiKokichi Furuhama
    • Tetsuo SanoHideaki MotohashiKokichi Furuhama
    • F28F1318
    • F28F1/40F28F1/32F28F1/325
    • There is disclosed a heat exchanger tube for conducting refigerant in a heat exchanger. The inner surface of the tube has a convex portion having a broad tip and a plurality of inner fins. The area of the tip of the convex portion is larger than that of the tip of the inner fins. The height of the convex portion can be set at more than that of the inner fin. A heat exchanger according to the invention has a plurality of plate fins, each having a hole therein. Heat exchanger tubes pass through the holes of the plate fins. A method of manufacturing a heat exchanger comprises the steps of stacking a plurality of plate fins, each having a hole, with a predetermined space therebetween. Heat exchanger tubes are inserted through the holes. Then, the tubes are expanded to engage the plate fins. A refrigerating circuit utilizing a heat exchanger is also described.
    • 公开了一种用于在热交换器中进行冷凝器的热交换器管。 管的内表面具有具有宽尖端和多个内翅片的凸部。 凸部的前端部的面积大于内翅片的前端部的面积。 凸部的高度可以设定为大于内翅片的高度。 根据本发明的热交换器具有多个板翅片,每个板翅片均具有孔。 热交换器管穿过板翅片的孔。 制造热交换器的方法包括以下步骤:将具有孔的多个板状散热片堆叠在其间具有预定的间隔。 热交换器管插入孔中。 然后,将管扩张以接合板翅。 还描述了利用热交换器的制冷回路。
    • 10. 发明授权
    • Heat transfer tube
    • 传热管
    • US06167950A
    • 2001-01-02
    • US08672383
    • 1996-05-28
    • Neelkanth S. GupteXin LiuSteven J. SpencerRobert H. L. ChiangDaniel Gaffaney
    • Neelkanth S. GupteXin LiuSteven J. SpencerRobert H. L. ChiangDaniel Gaffaney
    • F28F1318
    • F28F13/182F28F1/36F28F1/42F28F1/422F28F17/005
    • A heat transfer tube (10) for use in an application, such as a shell and tube type air conditioning system condenser, in which a fluid flowing through the heat exchanger external to the tubes condenses by transfer of heat to a cooling fluid flowing through the tubes. The tube has at least one fin convolution (20) extending helically around its external surface (13). A pattern of notches (30) extends at an oblique angle (&agr;) across the fin convolutions at intervals about the circumference of the tube. There is a spike (22) between each pair of adjacent notches. The fin convolution, notches and spikes are formed in the tube by rolling the wall of the tube between a mandrel and, first, a gang of finning disks (63) and, second, a notching wheel (66). Because, during the manufacture of the tube, of the interaction of the rotating and advancing tube and the notching wheel, the angle (&bgr;) of inclination of the axis of the tip of the spike is oblique with respect to the notch angle. The maximum width (Wt) of the spike is greater than the width (Wr) of the proximal portion of the fin convolution.
    • 一种用于诸如管壳式空调系统冷凝器的应用中的传热管(10),其中流过管外部的热交换器的流体通过将热传递到流过 管。 管具有围绕其外表面(13)螺旋延伸的至少一个翅片卷(20)。 切口(30)的图案以围绕管圆周的间隔跨越翅片卷绕以倾斜角(α)延伸。 每对相邻凹口之间有一个尖峰(22)。 通过在心轴和第一组翅片(63)之间滚动管的壁而在管中形成翅片卷积,切口和钉,并且第二切口轮(66)在管中形成。 因为在管的制造期间,旋转和前进管与开槽轮的相互作用,尖峰的轴线的倾斜角度(β)相对于切口角度是倾斜的。 尖峰的最大宽度(Wt)大于翅片卷积的近端部分的宽度(Wr)。