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    • 22. 发明授权
    • Tube for heat exchangers and method of manufacturing same
    • 热交换器用管及其制造方法
    • US06467170B2
    • 2002-10-22
    • US09463190
    • 2000-01-21
    • Soichi KatoMuneo SakuradaShin KuriharaSadao HaiyaTakashi SugitaShoji AkiyamaTakahumi Umehara
    • Soichi KatoMuneo SakuradaShin KuriharaSadao HaiyaTakashi SugitaShoji AkiyamaTakahumi Umehara
    • B23P1526
    • F28D1/0391Y10T29/49384Y10T29/49391
    • A tube for a heat exchanger which is formed to have beads for dividing passages for a medium in the tube by roll forming, wherein base portions of the beads are formed to have a thickness (B) greater than a thickness of a plate material for the tube. The roll forming has a first step of sequentially bending the plate to have a depressed shape to form portions-to-be-bead which are to be intermediate forms of the beads, a second step of performing a width drawing of the portions-to-be-bead and a third step of compressing the portions-to-be-bead, after the second step, in a direction of the height of the beads, wherein a width (w′) of the depressions of the portions-to-be-bead (21a) in the first step is larger than a width (w) of depressions of beads (21) after forming, and a height (h′) of portions-to-be-bead (21b) after the second step is determined to be higher than a height (h) of the beads (21) after forming. Thus, the tube for a heat exchanger having a pressure resistance of the base portions of the beads improved and a method for producing the tube for a heat exchanger which can decrease an uneven thickness of the plate when the beads are formed are obtained.
    • 一种用于热交换器的管,其形成为具有用于通过辊轧成型在管中分配用于介质的通道的珠,其中,所述珠的基部形成为具有大于所述板的材料的厚度的厚度(B) 管。 辊成型具有顺序地弯曲板以具有凹陷形状以形成为珠的中间形式的部分珠的第一步骤,第二步是进行部分 - 并且在第二步骤之后,在珠的高度方向上压缩部分待珠的第三步骤,其中待部分的凹陷的宽度(w')为 第一步骤中的胎圈(21a)大于成形后的胎圈(21)的凹部的宽度(w),第二工序后的部分胎圈(21b)的高度(h')为 确定为高于成形后的珠粒(21)的高度(h)。 因此,获得了具有小珠基部的耐压性的热交换器的管,并且获得了当形成珠时能够减小板的不均匀厚度的用于热交换器的管的制造方法。
    • 28. 发明授权
    • Microchanneled active fluid heat exchanger method
    • 微通道活性流体换热器方法
    • US06381846B2
    • 2002-05-07
    • US09843055
    • 2001-04-26
    • Thomas I. InsleyRaymond P. Johnston
    • Thomas I. InsleyRaymond P. Johnston
    • B23P1526
    • F28F3/048F28F3/12F28F21/065F28F2260/02Y10T29/4935Y10T29/49366
    • A heat exchanger utilizing active fluid transport of a heat transfer fluid is manufactured with multiple discrete flow passages provided by a simple but versatile construction. The microstructured channels are replicated onto a film layer which is utilized in the fluid transfer heat exchanger. The surface structure defines the flow channels which are generally uninterrupted and highly ordered. These flow channels can take the form of linear, branching or dendritic type structures. A cover layer having favorably thermal conductive properties is provided on the structured bearing film surface. Such structured bearing film surfaces and the cover layer are thus used to define microstructure flow passages. The use of a film layer having a microstructured surface facilitates the ability to highly distribute a potential across the assembly of passages to promote active transport of a heat transfer fluid. The thermally conductive cover layer then effects heat transfer to an object, gas, or liquid in proximity with the heat exchanger.
    • 采用传热流体的主动流体输送的热交换器由具有多个独立的流动通道制成,该流体通过简单而通用的结构提供。 微结构通道被复制到用于流体传递热交换器中的膜层上。 表面结构定义了通常不间断和高度排序的流动通道。 这些流动通道可以采用线性,支化或树枝状结构的形式。 在结构化轴承膜表面上提供具有良好导热性能的覆盖层。 因此,这种结构化轴承膜表面和覆盖层用于限定微结构流动通道。 使用具有微结构化表面的膜层有助于跨过通道组件高度分布电势以促进传热流体的主动输送的能力。 然后,导热覆盖层对热交换器附近的物体,气体或液体进行热传递。
    • 29. 发明授权
    • Method of making fluid heat exchanger
    • 制造流体换热器的方法
    • US06378203B1
    • 2002-04-30
    • US09520889
    • 2000-03-07
    • James W. B. LuHomayoun SanatgarNeil HoltGary F. Johnson
    • James W. B. LuHomayoun SanatgarNeil HoltGary F. Johnson
    • B23P1526
    • F28F3/044B23K1/0012B23K2101/14B23P15/26F28D1/022F28D1/05358F28D9/0043F28F2240/00Y10T29/49366Y10T29/49393
    • An aluminum alloy fluid heat exchanger comprises first and second elongate, generally flat, aluminum alloy fluid heat exchanger tubes, each having an upper and a lower surface and having a fluid port inlet and a fluid port outlet. The first tube has a series of small protrusions formed at its lower surface and the second tube has a matching series of protrusions formed at its upper surface, the first tube being stacked on top of the second tube with the protrusions on the first tube in contact with the protrusions on the second tube. A thin sheet of a dissimilar metal, preferably cold rolled steel having a thickness of about 0.3 millimeters is installed between the protrusions on the first and second tubes. The protrusions provide a spacing of at least about 0.42 millimeters between major portions of the first and second heat exchanger tubes. A corresponding method of constructing an aluminum alloy heat exchanger is described.
    • 铝合金流体热交换器包括第一和第二细长的,大致平坦的铝合金流体热交换器管,每个具有上表面和下表面,并具有流体端口入口和流体端口出口。 第一管具有在其下表面处形成的一系列小突起,并且第二管具有形成在其上表面处的匹配系列的突起,第一管叠置在第二管的顶部上,第一管上的突起接触 其中第二管上的突起。 在第一和第二管之间的突起之间安装有不同金属薄板,优选具有约0.3毫米厚度的冷轧钢板。 突起在第一和第二热交换器管的主要部分之间提供至少约0.42毫米的间隔。 描述了构造铝合金热交换器的相应方法。
    • 30. 发明授权
    • Production line of air conditioner
    • 空调生产线
    • US06374483B1
    • 2002-04-23
    • US09597844
    • 2000-06-20
    • Sang-Yeol LeeHong-Rae KimJong-Gweon Kim
    • Sang-Yeol LeeHong-Rae KimJong-Gweon Kim
    • B23P1526
    • B23P21/004F24F1/00Y10T29/49829Y10T29/5196Y10T29/53113Y10T29/53365Y10T29/534Y10T29/53435Y10T29/53539
    • A production line of an air conditioner mounted with a work bench for mass-producing indoor units and outdoor units, the work bench including a pallet supply section; an outdoor unit work part mounted at one side of the pallet supply section with a parts assembly section, refrigerant tube vacuum forming and refrigerant infusion section, refrigerant infusion tube removal section, control unit assembly section, refrigerant leakage inspection section, cabinet assembly section, packing section, forwarding and loading section in that order; an indoor unit work part mounted at the other side of the pallet supply section with first pallet feeding section, parts assembly section, noise inspection section, second pallet feeding section, packing section and forwarding and loading section in that order, and integrally installed from parts assembly section of the outdoor unit work part to cabinet assembly section; performance inspection section mounted between the cabinet assembly section and packing section of the outdoor work part and also mounted between the second pallet feeding section and the packing section of the indoor unit work part for simultaneously inspecting the outdoor units and indoor units in performance thereof, and finished products feeding and separating section mounted between the performance inspection section and packing section of the outdoor unit work part and also mounted between the performance inspection section and the packing section of the indoor unit work part for separating the outdoor units and indoor units from pallets and feeding the same.
    • 一种安装有用于批量生产室内单元和室外单元的工作台的空调生产线,工作台包括托盘供应部分; 安装在托盘供应部分一侧的室外机工作部件,具有部件组装部分,制冷剂管真空成型和制冷剂注入部分,制冷剂输注管拆除部分,控制单元组件部分,制冷剂泄漏检查部分,机柜组装部分,包装 部分,转发和装载部分; 在托盘供给部的另一侧安装有第一托盘供给部,部件组装部,噪声检查部,第二托盘供给部,包装部以及前进装载部的室内机工作部,并且从部件一体地安装 室外机组件部分组装到柜组装部分; 性能检查部,安装在室外组装部和室外工件的包装部之间,并且还安装在第二托盘供给部和室内机工作部的包装部之间,用于同时检查室外机和室内机的性能; 成品供给分离部,安装在性能检查部和室外机工作部的包装部之间,并安装在性能检查部与室内机工作部的包装部之间,将室外机和室内机与托盘分离, 喂养相同。