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    • 4. 发明公开
    • METHOD FOR MANUFACTURING LAYERED BUS BAR UNIT
    • 制造成层母排单元的方法
    • EP3300086A1
    • 2018-03-28
    • EP16796102.8
    • 2016-05-16
    • Suncall CorporationStanley Electric Co., Ltd.
    • NAKAGAWA, MasayaWAKABAYASHI, ShojiroYUASA, MamoruWATANABE, Toshifumi
    • H01B13/00C25D13/00C25D13/06C25D13/12H01B3/30H01B3/40
    • C25D13/04B32B15/08C09D5/44C25D13/12C25D13/22H01B3/30H01B3/305H01B3/306H01B3/40H01B13/0036H02G5/005
    • A multi-layer bus bar unit capable of being easily made into a product coping with a demand for different specifications, reducing production costs including initial costs such as a cost for manufacturing a die, and ensuring long-term reliability is provided.
      Coating films 11 and 21 are deposited on a first bus bar 10 and a second bus bar 20, each formed from a metal flat plate, by an electrodeposition coating process with a polyamidimide electrodeposition coating material. The coating film 11 of the first bus bar 10 is subjected to a heating treatment to form a completely-cured resin covering layer 12, and the coating film 21 of the second bus bar 20 is subjected to a heating treatment to form a semi-cured resin covering layer 22. The first bus bar 10 and the second bus bar 20 are overlapped with each other and then subjected to a pressure and heating treatment so that the semi-cured resin covering layer 22 is completely cured. In this manner, a multi-layer bus bar unit 1 having a two-layer structure in which the first bus bar 10 and the second bus bar 20 adhere to each other by the resin covering layers 12 and 22 is formed.
    • 本发明提供一种多层母线单元,能够容易地应对不同规格的要求的产品,降低包括模具制造成本等初期成本在内的制造成本,确保长期可靠性。 利用聚酰胺酰亚胺电沉积涂覆材料通过电沉积涂覆工艺将涂覆膜11和21沉积在均由金属平板形成的第一母线10和第二母线20上。 对第一汇流条10的涂膜11进行加热处理以形成完全固化的树脂覆盖层12,并且对第二汇流条20的涂膜21进行加热处理以形成半固化 树脂覆盖层22.第一汇流条10和第二汇流条20彼此重叠,然后经受加压和加热处理,使得半固化树脂覆盖层22完全固化。 以这种方式,形成具有其中第一汇流条10和第二汇流条20通过树脂覆盖层12和22彼此粘合的双层结构的多层汇流条单元1。
    • 7. 发明公开
    • ELONGATED, ULTRA HIGH CONDUCTIVITY ELECTRICAL CONDUCTORS FOR ELECTRONIC COMPONENTS AND VEHICLES, AND METHODS FOR PRODUCING THE SAME
    • 用于电子元件和车辆的伸长,超高导电性导电体及其制造方法
    • EP3252778A1
    • 2017-12-06
    • EP17161457.1
    • 2017-03-16
    • The Boeing Company
    • BRALEY, Daniel J.BELK, John H.HASAN, Zeaid F.TANIELIAN, Minas H.
    • H01B1/02C22C9/00H05K1/09C22C47/00C22C49/00
    • H05K1/09B22F3/20C22C9/00C22C26/00C22C30/02C22C32/0084C22C49/14C22C2026/002H01B1/026H01B13/0036H01B13/14
    • Elongated, ultra-high conductivity electrical conductors (100) for use in advanced electronic components and vehicles, and methods for producing the same, are disclosed herein. The elongated electrical conductors (100) include a conductor body (110) that defines a longitudinal axis (102). The conductor body (110) includes an isotropically conductive matrix material (120) and a plurality of anisotropically conductive particles (130) interspersed within the isotropically conductive matrix material (120). Each anisotropically conductive particle (130) defines a respective axis (170) of enhanced electrical conductivity that is aligned with the longitudinal axis (102) of the conductor body (110). The methods include providing a bulk matrix-particle composite (98) that includes the isotropically conductive matrix material (120) and the plurality of anisotropically conductive particles (130). The methods further include forming the bulk matrix-particle composite (98) into an elongated electrical conductor (100) and aligning the plurality of anisotropically conductive particles (130) such that the respective axis (170) of enhanced electrical conductivity thereof is at least substantially aligned with the longitudinal axis (102) of the elongated electrical conductor (100).
    • 本文公开了用于先进电子部件和车辆的细长超高电导率电导体(100)及其制造方法。 细长电导体(100)包括限定纵向轴线(102)的导体主体(110)。 导体本体(110)包括散布在各向同性导电基体材料(120)内的各向同性导电基体材料(120)和多个各向异性导电颗粒(130)。 各向异性导电颗粒(130)限定与导体主体(110)的纵向轴线(102)对齐的增强的导电性的相应轴(170)。 该方法包括提供包含各向同性导电基体材料(120)和多个各向异性导电颗粒(130)的块状基体 - 颗粒复合物(98)。 该方法进一步包括将块状基体 - 颗粒复合物(98)形成为细长电导体(100)并且对准多个各向异性导电颗粒(130),使得其增强的导电率的相应轴线(170)至少基本上 与细长电导体(100)的纵向轴线(102)对齐。