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    • 4. 发明专利
    • Method for manufacturing heat exchanger, the heat exchanger, and carburetor
    • 制造热交换器,热交换器和碳刷的方法
    • JP2011247545A
    • 2011-12-08
    • JP2010123201
    • 2010-05-28
    • Horiba Stec Co Ltd株式会社堀場エステック
    • EHATA YOSHIHIROITO TAKETOMO
    • F28D7/14B22D19/00F28F21/08
    • PROBLEM TO BE SOLVED: To provide a method for manufacturing a heat exchanger, which contributes to the production of the heat exchanger capable of exerting efficient heat exchange characteristics with a good yield.SOLUTION: Piping 1, which has an internal channel 11 allowing a flow of a fluid serving as a heat exchange object and which can be wholly or partially deformed when undergoing an external force or in the case of the absence of a support, is housed in a storage portion 4S of a storage body 4 in the state of being supported by a supporting body 2 for preventing the deformation of the piping 1. A metal 6 for heat conduction, which transfers heat between a heat source and the piping 1, is formed by being cast in the storage portion 4S.
    • 要解决的问题:提供一种制造热交换器的方法,其有助于能够以良好的产率产生具有有效的热交换特性的热交换器。 解决方案:管道1具有内部通道11,允许作为热交换对象的流体流动,并且当经受外力时可以完全或部分变形,或者在不存在支撑的情况下, 在由支撑体2支撑的状态下容纳在存储体4的储存部分4S中,以防止管道1变形。用于热传导的金属6,其在热源和管道1之间传递热量 通过在储存部分4S中铸造形成。 版权所有(C)2012,JPO&INPIT
    • 6. 发明专利
    • Heat exchanger
    • 热交换器
    • JP2005083667A
    • 2005-03-31
    • JP2003316376
    • 2003-09-09
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • KIDO OSAOKIDA TAKUMIISHII HIROKOHAMAKAWA TOMOKOIMAI SEISHI
    • F24H9/00F28D7/02F28D7/10F28D7/14F28F1/00F28F13/06
    • F28F13/06F28D7/14
    • PROBLEM TO BE SOLVED: To provide a highly efficient heat exchanger for enhancing heat exchange efficiency between two fluids.
      SOLUTION: This heat exchanger is composed of an inner pipe 4 having a double wall 5 for bringing a first wall 5a and a second wall 5b into close contact with each other, and an outer pipe 6 having the inner pipe 4 inside, substantially coaxially with the inner pipe 4. The heat exchanger is constituted so that the fluid A flows inside the inner pipe 4, and the fluid B flows in an annular part between the inner pipe 4 and the outer pipe 6. Thus, high heat exchange efficiency can be provided by securing the sufficient contact area between a flow passage of the fluid A and a flow passage of the fluid B, with a very simple constitution having the double wall 5 for securing safety between the fluid A and the fluid B.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种用于提高两种流体之间的热交换效率的高效热交换器。 解决方案:该热交换器由具有用于使第一壁5a和第二壁5b彼此紧密接触的双壁5的内管4和内管4内部的外管6组成, 与内管4基本同轴。热交换器构成为使流体A流入内管4内,流体B在内管4与外管6之间的环状部分流动。因此,高热交换 可以通过确保流体A的流动通道和流体B的流动通道之间的足够的接触面积来提供效率,其结构非常简单,具有用于确保流体A和流体B之间的安全性的双壁5。 P>版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • HEAT EXCHANGER
    • JP2000146466A
    • 2000-05-26
    • JP32607398
    • 1998-10-30
    • MIURA KOGYO KK
    • MAKI TAKEHIKOHONDO KAZUYUKINAKAI TETSUSHI
    • F28D7/14A61L2/06F22B1/08F28D7/10F28F9/02
    • PROBLEM TO BE SOLVED: To install in a narrow gap by providing a double tube having an inner tube provided in an outer tube and a header divided to first and second header chambers, communicating an end of the outer tube with the first chamber and communicating an end of the inner tube with the second chamber through the first chamber. SOLUTION: In the case of applying to a boiler 1, the boiler 1 has a plurality of outer tubes 3, inner tubes 4 are respectively coaxially provided in the tubes 3 to form double tubes 5. An upper end of each tube 3 is connected to an upper header 6, and a lower end is connected to a lower header 7. An upper end of each tube 4 is connected to an upper header 8 through the header 6, and a lower end is connected to the header 7. The header 7 is constituted as an integral header 9, and divided therein into header chambers 11, 12 by a partition plate 10. The lower end of each tube 3 communicates with the chamber 11. The lower end of each tube 4 is coupled to the plate 10 in the state passing through the chamber 11 to communicate with the chamber 12.