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    • 5. 发明授权
    • Receiver tank
    • 接收罐
    • US06295832B1
    • 2001-10-02
    • US09463322
    • 2000-01-24
    • Soichi KatoAkihiko Takano
    • Soichi KatoAkihiko Takano
    • F25B3904
    • F25B39/04F25B2339/044F25B2339/0441F25B2500/01
    • A receiver tank (2) formed into an airtight container having an inlet port (24) and an outlet port (25) for a refrigerant, wherein separates the refrigerant introduced in a gas-liquid mixture state is separated, and the separated liquid refrigerant is stored therein and discharged therefrom so to continuously supply it, and the airtight container is formed as a double tube of an inner tube (16) and an outer tube (17), which have their tops mutually communicated but their bottoms not; the inlet port is formed to communicate with the bottom portion of a passage formed between the two tubes; and the outlet port is formed at lower end portions of the inner and outer tubes to communicate with the interior of the inner tube. The structure of no communication between the outer tube and the inner tube was achieved by having a structure of fitting either of them with the other or by disposing a joint member. A structure for prevention of the inner tube from tilting is provided. And, airtightness is improved by forming a knurled portion on a contact portion of the members.
    • 形成为具有用于制冷剂的入口(24)和出口(25)的气密容器的接收罐(2),其中将以气液混合状态引入的制冷剂分离,分离的液体制冷剂为 储存在其中并从其中排出,以便连续地供应气密容器,并且气密容器形成为内管(16)和外管(17)的双管,它们的顶部相互连通,但其底部不是; 所述入口形成为与形成在所述两个管之间的通道的底部连通; 并且所述出口形成在所述内管和所述外管的下端部分处以与所述内管的内部连通。 外管和内管之间不连通的结构通过具有将它们中的任一个与另一个连接的结构或通过设置接头构件来实现。 提供了防止内管倾斜的结构。 并且,通过在构件的接触部分上形成滚花部分来改善气密性。
    • 6. 发明授权
    • Connector for heat exchanger
    • 热交换器连接器
    • US5950713A
    • 1999-09-14
    • US969468
    • 1997-11-13
    • Soichi Kato
    • Soichi Kato
    • F28F9/02B23K1/00F28F9/00F28F9/04F28F9/26B23K1/20
    • F28F9/0251B23K1/0012F28F9/002F28F9/0246
    • In a heat exchanger having a plurality of tubes 2 alternately laminated with fins 3, header pipes 4 connected to and in communication with both ends of the laminated tubes, inlet and outlet connectors 8 connected to the header pipes to supply and receive a heat exchanging medium to and from an external equipment, and the heat exchanging medium meanders a plurality of times between the inlet and outlet connectors; a groove 15 is formed in one of the inlet and outlet connectors 8, on the rim of the piping connecting face of the connector having its piping connecting face 11 facing downward with respect to the vertical line during brazing, so as to prevent the flux from entering into the inside of the piping connecting face from the outside of the piping connecting face.
    • 在具有交替层叠有翅片3的多个管2的热交换器中,连接到层叠管的两端并与其连通的总管4,连接到总管的入口和出口连接器8,以供应和接收热交换介质 来自外部设备,并且热交换介质在入口和出口连接器之间蜿蜒多次; 在连接器的配管连接面的边缘上的一个入口连接器8和出口连接器8中形成有槽15,该连接器的管道连接面11在钎焊期间相对于垂直线面向下,以防止焊剂 从管道连接面的外部进入管道连接面的内部。
    • 7. 发明授权
    • Heat exchanger
    • 热交换器
    • US5908070A
    • 1999-06-01
    • US868890
    • 1997-06-04
    • Soichi KatoShoji Akiyama
    • Soichi KatoShoji Akiyama
    • F28F1/02B21D5/08B21D53/04F28D1/03F28F1/40F28F3/04F28F9/26F28F9/04
    • F28F3/042B21D5/086B21D53/04F28D1/0316F28D1/0391
    • In order to achieve an improvement in productivity and a reduction in production costs, tubes are formed using brazing sheet while eliminating the problems normally associated with forming tubes from a brazing sheet. In each of the tube elements formed from a brazing sheet, at least one ridge projects out from a surface that is in contact with a fin toward the other surface that is in contact with a fin at the opposite side is formed, thereby achieving an improvement in the pressure withstand performance of the tube elements and in the heat exchanging rate. In addition, flat portions where no ridges are formed are provided at the two ends of each tube element to facilitate the work of mounting the tube elements. Moreover, the distance between the header pipes and the ridge end portions is set within a range of 2 mm to 10 mm, in order to ensure good balance between the pressure withstand performance and effective brazing.
    • 为了实现生产率的提高和生产成本的降低,使用钎焊板形成管,同时消除了与钎焊板形成管相关的常见问题。 在由钎焊片形成的每个管元件中,至少一个脊从与翅片接触的表面突出到与形成在相对侧的翅片相接触的另一个表面,从而实现改进 在管元件的耐压性能和热交换率方面。 此外,在每个管元件的两端设置没有形成脊的平坦部分,以便于安装管元件的工作。 此外,总管和脊端部之间的距离设定在2mm至10mm的范围内,以确保耐压性能和有效钎焊之间的良好平衡。
    • 8. 发明授权
    • Heat exchanger
    • 热交换器
    • US5865243A
    • 1999-02-02
    • US071030
    • 1998-05-04
    • Soichi KatoTakashi Sugita
    • Soichi KatoTakashi Sugita
    • F28F1/02F28D1/03F28F9/18
    • F28D1/0391F28D2021/0084
    • In a flat tube formed by machining a brazing sheet, ridges 12a-12c are formed at each of the opposing flat portions 11a and 11b of the flat tube 4 along the lengthwise direction of the flat tubes so that the ridges contact the inner surfaces of each of the opposite flat portions. The width of the grooves of the ridges 12a-12c formed at the surfaces of the flat portions is set so that it is at the smallest end portions of the flat tubes 4 to achieve flatness at the end portions of the flat tubes 4. The end portions of the fins 5 are bonded at these flattened portions 15 (areas A) formed at the end portions of the flat tubes 4. Header pipes and the flat tubes are thus brazed in a reliable manner while achieving reinforcement of the end portions of the flat tubes to be inserted into insertion holes formed in the header pipes. Through a structure in which ridges are formed at the end portions of the flat tubes and, at the same time, flatness is assured at the end portions, a good yield of the brazing material is realized at the contact areas of the header pipes and the flat tubes.
    • 在通过加工钎焊片形成的扁平管中,沿着扁平管的长度方向在扁平管4的相对的平坦部分11a和11b的每个相对的平坦部分11a和11b处形成脊12a-12c,使得脊部与每个 的相对的平坦部分。 形成在平坦部分的表面处的脊12a-12c的槽的宽度被设定为使得扁平管4的最小端部处于扁平管4的端部处的平坦度。结束 翅片5的一部分在形成于扁平管4的端部处的这些平坦部分15(区域A)处接合。因此,头管和扁平管可靠地钎焊,同时实现扁平端部的加强 管插入到插管中形成的插孔中。 通过在扁平管的端部形成脊的结构,并且同时在端部确保平坦度,在集管和接头的接触区域实现钎焊材料的良好收率 扁管。
    • 9. 发明授权
    • Heat exchanger
    • 热交换器
    • US5782295A
    • 1998-07-21
    • US811052
    • 1997-03-04
    • Soichi KatoTakashi Sugita
    • Soichi KatoTakashi Sugita
    • F28F9/02F28F9/04
    • F28F9/0212
    • In a heat exchanger which comprises by alternately laminating a plurality of tubes 2, 2 and fins 3, 3, communicatively connecting a header tank 4 to both ends of the laminated tubes, forming slits 11 at required points in the header tanks, and providing partition plates 9 in the slits to flow a heat-exchanging medium; recesses 12 are formed on the inner faces of the header tanks and near the slits where the partition plates 9 are positioned, and the partition plates 9 are provided with projections 15 to correspond with the recesses 12. Walls 4a, which are crushed when the partition plate 9 is inserted, are formed between the recess 12 and the slit 11.
    • 在通过交替层叠多个管2,2和翅片3,3的热交换器中,将集管箱4与层叠管的两端连通地连接,在集水箱的所需位置形成狭缝11,并且提供隔板 狭缝中的板9流动热交换介质; 在集水箱的内表面和分隔板9所在的狭缝附近形成有凹部12,并且分隔板9设置有与凹部12对应的突起15.当分隔件 插入板9,形成在凹部12和狭缝11之间。
    • 10. 发明授权
    • Heat-exchanger conduit for tube-stacking type heat exchanger and method
of manufacturing it
    • 管叠式换热器换热管及其制造方法
    • US5697433A
    • 1997-12-16
    • US361213
    • 1994-12-21
    • Soichi Kato
    • Soichi Kato
    • B21D53/06B23K1/00B23K1/16F28D1/03F28F3/02F28F3/04F28F9/18F28F3/14
    • F28D1/0391F28D1/0316F28F3/025F28F3/04
    • The invention provides a flat tube for a heat-exchanger conduit capable of being properly brazed and provides a sufficient heat-resistance, and a method of manufacturing it. A tube-stacking type heat exchanger comprising a plate made of an aluminum material including an aluminum alloy and which is cladded with a brazing material, wherein either a single plate is folded into two or two plates are placed one upon the other, the surface of one or both plates including projecting portion projecting from the surface of one plate to the surface of the other plate, the projecting portion is brought into pressure contact with the flat surface of the other plate or the projecting portion of the other plate, and the height of the end edge connecting portions of the plate is dimensioned smaller than the height of the projecting portion, to achieve the joining of the end edge connecting portions of the plate together.
    • 本发明提供一种能够适当地钎焊并提供足够的耐热性的热交换器导管的扁平管及其制造方法。 一种管叠层式热交换器,其包括由包括铝合金的铝材料制成的并且被钎焊材料包覆的板,其中将单个板折叠成两个或两个板彼此放置在一起, 一个或两个板包括从一个板的表面突出到另一个板的表面的突出部分,突出部分与另一个板的平坦表面或另一个板的突出部分压力接触,并且高度 板的端缘连接部分的尺寸小于突出部分的高度,以实现板的端缘连接部分的接合。