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    • 2. 发明授权
    • Device for fabricating a metalized film capacitor
    • 用于制造金属化薄膜电容器的装置
    • US6048402A
    • 2000-04-11
    • US94772
    • 1998-06-15
    • Shigeo OkunoToshiyuki NishimoriShigeo OkabeMasahiro KawaiNobuji SuzukiHidekazu Wada
    • Shigeo OkunoToshiyuki NishimoriShigeo OkabeMasahiro KawaiNobuji SuzukiHidekazu Wada
    • H01G4/012H01G4/015H01G4/32C23C16/00
    • H01G4/012H01G4/015H01G4/32Y10T29/435
    • A metallized film capacitor formed by laminating or winding a metallized film 1 with metal evaporated electrode on one or both sides thereof so that a pair of metal evaporated electrodes 2 are opposite to each other, wherein electrode lead-out portions 3 are provided at both ends of the capacitor, each metal evaporated electrode is composed of a low resistance area abutting on the electrode lead-out portion and a remaining high resistance area having higher resistance than it, a split electrode pattern with a plurality of minute blocks 8 formed in a longitudinal direction and width direction and fusing areas 9 between the adjacent minute blocks is formed on at least one of the metal evaporated electrodes, and electrode partitioning lines 7 are formed at regular intervals in a longitudinal direction of the film. The metallized film is fabricated by depositing substance such as oil for preventing evaporation of metal on the evaporation side of a plastic film 10 through a rotary screen cylinder with any pattern formed by mesh processing and immediately thereafter depositing evaporated metal, thereby forming a split fuse pattern serving as a safeguard mechanism during high speed evaporation.
    • 金属化薄膜电容器通过在金属化膜1的一面或两面上层叠或卷绕金属蒸镀电极而形成,使得一对金属蒸镀电极2彼此相对,其中,电极引出部3设置在两端 每个金属蒸发电极由邻接在电极引出部分上的低电阻区域和具有比其高的电阻的剩余高电阻区域组成,分割电极图案具有纵向形成的多个微小块8 方向宽度方向和相邻的微小块之间的融合区域9形成在至少一个金属蒸镀电极上,并且在膜的长度方向上以规则的间隔形成电极分隔线7。 金属化膜通过沉积诸如油的物质来制造,以通过具有通过网状处理形成的任何图案的旋转丝网滚筒来防止金属在塑料膜10的蒸发侧上的蒸发,然后立即沉积蒸发的金属,从而形成分割的熔丝图案 作为高速蒸发时的保障机制。
    • 3. 发明授权
    • Metallized film capacitor
    • 金属化电容器
    • US5905628A
    • 1999-05-18
    • US907902
    • 1997-08-11
    • Shigeo OkunoToshiyuki NishimoriShigeo OkabeMasahiro KawaiNobuji SuzukiHidekazu Wada
    • Shigeo OkunoToshiyuki NishimoriShigeo OkabeMasahiro KawaiNobuji SuzukiHidekazu Wada
    • H01G4/012H01G4/015H01G4/32H01G4/005H01G4/008
    • H01G4/012H01G4/015H01G4/32Y10T29/435
    • A metallized film capacitor formed by laminating or winding a metallized film 1 with metal evaporated electrode on one or both sides thereof so that a pair of metal evaporated electrodes 2 are opposite to each other, wherein electrode lead-out portions 3 are provided at both ends of the capacitor, each metal evaporated electrode is composed of a low resistance area abutting on the electrode lead-out portion and a remaining high resistance area having higher resistance than it, a split electrode pattern with a plurality of minute blocks 8 formed in a longitudinal direction and width direction and fusing areas 9 between the adjacent minute blocks is formed on at least one of the metal evaporated electrodes, and electrode partitioning lines 7 are formed at regular intervals in a longitudinal direction of the film. The metallized film is fabricated by depositing substance such as oil for preventing evaporation of metal on the evaporation side of a plastic film 10 through a rotary screen cylinder with any pattern formed by mesh processing and immediately thereafter depositing evaporated metal, thereby forming a split fuse pattern serving as a safeguard mechanism during high speed evaporation.
    • 金属化薄膜电容器通过在金属化膜1的一面或两面上层叠或卷绕金属蒸镀电极而形成,使得一对金属蒸镀电极2彼此相对,其中,电极引出部3设置在两端 每个金属蒸发电极由邻接在电极引出部分上的低电阻区域和具有比其高的电阻的剩余高电阻区域组成,分割电极图案具有纵向形成的多个微小块8 方向宽度方向和相邻的微小块之间的融合区域9形成在至少一个金属蒸镀电极上,并且在膜的长度方向上以规则的间隔形成电极分隔线7。 金属化膜通过沉积诸如油的物质来制造,以通过具有通过网状处理形成的任何图案的旋转丝网滚筒来防止金属在塑料膜10的蒸发侧上的蒸发,然后立即沉积蒸发的金属,从而形成分割的熔丝图案 作为高速蒸发时的保障机制。
    • 6. 发明授权
    • Metallized film capacitor
    • 金属化电容器
    • US4434452A
    • 1984-02-28
    • US225440
    • 1981-01-15
    • Takeshi HamabeHidekazu WadaMikio NaruseToshiyuki Nishimori
    • Takeshi HamabeHidekazu WadaMikio NaruseToshiyuki Nishimori
    • H01G4/005H01G4/015H01G4/18H01G7/00H01G1/015H01G1/14
    • H01G4/015Y10T29/435
    • A disclosed metallized film capacitor comprisesa number of first insulating foil film segments coated with metal electrode layers on at least each one surface thereof, the metal electrode layers with a same pattern on same sides of the first insulating foil film segments constituting a first electrode segment group, and the metal electrode layers with another same pattern on same sides of the first insulating foil film segments constituting a second electrode segment group, anda first and a second metal contact layers respectively disposed in contact with the first and the second electrode segment groups at side edges thereof, andthe capacitor is provided with fusing proof function for the purpose of prevention of emitting smoke from and/or burning of the capacitor, which is improved by features that the metal electrode layers comprises previously-processed portions at side edges thereof adjacent the first and the second metal contact layers, and that the previously-processed portions are electrically cut off, when dielectric breakdown occurs between respective pairs of confronting metal electrode layers, which dielectric breakdown makes at least one metal electrode layer of one pair among the respective pairs of the confronting metal electrode layers electrically separate from the first and the second electrode segment groups.
    • 所公开的金属化薄膜电容器包括在其至少每个表面上涂覆有金属电极层的多个第一绝缘箔膜段,在第一绝缘箔膜段的相同侧上具有相同图案的金属电极层构成第一电极段 并且构成第二电极段组的第一绝缘箔膜段的相同侧上具有另一相同图案的金属电极层以及分别设置成与第一和第二电极段组接触的第一和第二金属接触层 在其侧边缘处,并且电容器具有防熔功能,其目的是防止从电容器发出烟雾和/或燃烧,其特征在于金属电极层包括其侧边缘处的预先加工的部分 邻近第一和第二金属接触层,以及先前处理的端口 当介电击穿发生在各对面对的金属电极层之间时,ns被电断开,该介电击穿使相应的成对的一对相对的金属电极层中的至少一个金属电极层与第一和第二 电极段组。
    • 8. 发明授权
    • Dielectric resonator comprising a resonant dielectric pillar mounted in
a conductively coated dielectric case
    • 介电谐振器包括安装在导电涂覆的电介质外壳中的谐振介电柱
    • US4639699A
    • 1987-01-27
    • US537711
    • 1983-09-30
    • Toshio NishikawaYouhei IshikawaHidekazu Wada
    • Toshio NishikawaYouhei IshikawaHidekazu Wada
    • H01P7/10
    • H01P7/10
    • A dielectric resonator is disclosed which includes a case having a resonator main body portion, an upper lid and a lower lid. Inside the case is a cylindrical dielectric material. The case is formed of a dielectric material having the same coefficient of linear expansion as the cylindrical dielectric material. In one embodiment, main body portion comprises a dielectric case side portion with the cylindrical dielectric material disposed concentrically in a concavity defined by the case side portion, with the cylindrical dielectric material being integrally coupled to the dielectric case side portion by four connecting portions. More specifically, in this embodiment, the case side portion of the main body portion and the cylindrical portion are simultaneously and integrally formed of the same dielectric material. A conductive film is formed to enclose a region surrounding the cylindrical dielectric material. In one embodiment, the conductive film is formed on the whole outer surface of the dielectric case side portion and conductive films and are also formed on the lower surface of the upper lid and the upper surface of the lower lid.
    • 公开了一种介质谐振器,其包括具有谐振器主体部分,上盖和下盖的壳体。 在这种情况下是一种圆柱形电介质材料。 壳体由具有与圆柱形电介质材料相同的线性膨胀系数的电介质材料形成。 在一个实施例中,主体部分包括介电壳体侧部分,其中圆柱形电介质材料同心地设置在由壳体侧部分限定的凹部中,圆柱形电介质材料通过四个连接部分一体地耦合到电介质外壳侧部分。 更具体地,在本实施例中,主体部分的壳体侧部分和圆筒部分由相同的电介质材料同时整体形成。 形成导电膜以包围围绕圆柱形电介质材料的区域。 在一个实施例中,导电膜形成在介电壳体侧部分的整个外表面和导电膜上,并且还形成在上盖的下表面和下盖的上表面上。
    • 9. 发明授权
    • Dielectric resonator
    • 介质谐振器
    • US4613838A
    • 1986-09-23
    • US770839
    • 1985-08-29
    • Hidekazu WadaYouhei Ishikawa
    • Hidekazu WadaYouhei Ishikawa
    • H01P1/20H01P7/10H01P7/06
    • H01P7/10
    • A dielectric resonator employing TM.sub.010 mode or its variation mode, and including a cavity resonator and a columnar inner dielectric member accommodated within the cavity resonator a region being formed at an end face of the inner dielectric member so as not to contact the cavity resonator, and a resonant frequency adjusting member being adapted to be movable toward or away from the region, thus adjusting the resonant frequency through variation of a capacitance value in a path passing through the columnar dielectric member, the resonant frequency adjusting member, and the cavity resonator.
    • 采用TM010模式或其变化模式的介质谐振器,并且包括空腔谐振器和容纳在空腔谐振器内的柱状内部电介质构件,该区域形成在内部电介质构件的端面处以不与空腔谐振器接触,以及 谐振频率调节构件适于朝向或远离该区域移动,从而通过通过柱状电介质构件,共振频率调节构件和空腔谐振器的路径中的电容值的变化来调节谐振频率。
    • 10. 发明申请
    • Water-Based Coating Composition for Surface Treatment of Metallic Material
    • 金属材料表面处理水性涂料组合物
    • US20080119628A1
    • 2008-05-22
    • US11535864
    • 2005-03-16
    • Hidekazu WadaShuichi Ito
    • Hidekazu WadaShuichi Ito
    • C08G18/00
    • C09D175/04C08G18/0814C08G18/12C09D5/08C23C26/00C08G18/3225
    • In order to provide a water-based coating composition for surface treatment of metallic materials having excellent chemical resistance, corrosion resistance, solvent resistance and adhesion, a cationic aqueous urethane resin (F) is prepared, which is obtained by chain-elongation of a cationic urethane prepolymer (D) using water or a polyamine compound (E), the cationic urethane prepolymer (D) being formed by neutralized a tertiary amino group by an acid or quaternarized the tertiary amino group by quaternarizing agent, the tertiary amino group being included in a urethane prepolymer comprising, as components thereof, a compound (A) having two or more active hydrogen atoms, an organic polyisocyanate (B), and a chain elongation agent (C) having the tertiary amino group.
    • 为了提供具有优异的耐化学性,耐腐蚀性,耐溶剂性和粘合性的金属材料的表面处理用水性涂料组合物,制备阳离子性水性聚氨酯树脂(F),其通过阳离子性的链延长获得 使用水或多胺化合物(E)的氨基甲酸酯预聚物(D),阳离子型氨基甲酸酯预聚物(D)通过酸中和叔氨基或通过季铵化剂季铵化叔氨基而形成,叔氨基包括在 作为其成分的具有两个以上活性氢原子的化合物(A),有机多异氰酸酯(B)和具有叔氨基的链延长剂(C)的氨基甲酸酯预聚物。