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    • 2. 发明授权
    • Voltage dependent nonlinear resistor
    • 电压相关非线性电阻
    • US4290041A
    • 1981-09-15
    • US9777
    • 1979-02-06
    • Kazuaki UtsumiNobuaki ShohataTomeji Ohno
    • Kazuaki UtsumiNobuaki ShohataTomeji Ohno
    • H01C7/10C04B35/453H01C7/102
    • H01C7/102
    • A "varistor" or voltage-dependent nonlinear resistor employs a ceramic base body having a voltage-dependent nonlinearity. First and second lead-out electrode layers are formed on first and second external surfaces, respectively, of the ceramic base body. Within and enclosed by the ceramic base body, a plurality of internal electrodes extend in parallel with each other and connect to the external lead-out electrodes. Also, the invention provides a method of manufacturing the voltage-dependent nonlinear resistor comprising the steps of forming a plurality of raw sheets of material, each having the desired voltage-dependent nonlinearity characteristics, after sintering. Internal electrodes of conducting material are printed on each of these sheets. The sheets are then laminated, cut and formed with external electrodes connecting the internal electrode to each other.
    • “压敏电阻”或电压依赖型非线性电阻采用具有电压依赖性非线性的陶瓷基体。 第一和第二引出电极层分别形成在陶瓷基体的第一和第二外表面上。 在陶瓷基体内并由陶瓷基体包围的多个内部电极彼此平行地延伸并连接到外部引出电极。 此外,本发明提供一种制造依赖于电压的非线性电阻器的方法,包括以下步骤:在烧结之后形成多个具有期望的电压依赖性非线性特性的材料原料片。 导电材料的内部电极印刷在每个这些片材上。 然后将片材层压,切割并形成有将内部电极彼此连接的外部电极。
    • 7. 发明授权
    • Packaged battery, stacked battery assembly, and film-covered battery
    • 封装电池,堆叠电池组件和薄膜电池
    • US08722241B2
    • 2014-05-13
    • US12523667
    • 2008-01-09
    • Masatomo MizutaKazuaki UtsumiMakihiro OtohataHiroshi Yageta
    • Masatomo MizutaKazuaki UtsumiMakihiro OtohataHiroshi Yageta
    • H01M2/08
    • H01M2/1241H01M2/0275H01M2/08H01M2/1061H01M2/1229H01M2/345
    • A packaged battery, an assembled battery, and a film-covered battery, which can prevent a dangerous state involving a high-pressure gas filled in the film-covered battery while ensuring a sealing reliability, are provided.The Packaged battery includes film-covered battery 1 including a battery element and exterior films forming a sealed space housing the battery element, and holding member 10 holding film-covered battery 1. The sealed space includes a housing section housing the battery element, and a pocket communicating with the housing section to expand when the pressure in the sealed space increases. The pocket includes a safety valve which activates when the pocket expands. Holding member 10 includes an opening and a cavity fitting the housing section therein. When the housing section is fitted into the cavity, at least part of the pocket and the safety valve protrude to the outside of the holding member from the opening.
    • 提供一种封装的电池,组装电池和薄膜覆盖的电池,其可以在确保密封可靠性的同时防止包含填充在薄膜覆盖的电池中的高压气体的危险状态。 封装电池包括具有电池元件的膜覆盖电池1和形成容纳电池元件的密封空间的外部膜和保持膜覆盖电池1的保持构件10.密封空间包括容纳电池元件的壳体部分和 当密封空间中的压力增加时,与壳体部分连通的口袋膨胀。 口袋包括一个安全阀,当口袋膨胀时激活。 保持构件10包括开口和将壳体部分装配在其中的空腔。 当壳体部分装配到空腔中时,口袋和安全阀的至少一部分从开口突出到保持构件的外部。
    • 9. 发明授权
    • Electroluminescent device with monolithic substrate
    • 具有单片基板的电致发光器件
    • US4757235A
    • 1988-07-12
    • US857374
    • 1986-04-30
    • Keiji NunomuraKazuaki UtsumiYoshio Sano
    • Keiji NunomuraKazuaki UtsumiYoshio Sano
    • H05B33/22H05B33/26
    • H05B33/26H05B33/22Y10S428/917
    • An electroluminescent device and corresponding methods for making the same are described. A thin film structure is disposed on top of a ceramic substrate having electrodes embedded therein. Ceramic material of high dielectric constant separates the internal electrodes from the thin-film structure including a transparent electrode layer, a luminescent layer, and at least one insulating layer. The ceramic material may be divided into first and second segments of different dielectric constant, and the internal electrodes may also be divided into separate segments. The manufacturing process includes the preparation of a ceramic green sheet having a dielectric constant greater than 200, printing electrodes on this sheet, and laminating and sintering this sheet together with other green sheets to form a monolithic member over which a further electroluminescent layer and transparent electrodes can be disposed.
    • 描述了一种电致发光器件及其相应的制造方法。 薄膜结构设置在具有嵌入其中的电极的陶瓷基板的顶部。 高介电常数的陶瓷材料将内部电极与包括透明电极层,发光层和至少一个绝缘层的薄膜结构分开。 陶瓷材料可以分成不同介电常数的第一和第二段,并且内部电极也可以被分成单独的段。 该制造方法包括制备介电常数大于200的陶瓷生片,该片上的印刷电极,以及与其他生片一起层压并烧结该片,以形成整体部件,在其上形成另外的电致发光层和透明电极 可以处理。
    • 10. 发明授权
    • Printer using ink balls
    • 打印机使用墨水球
    • US4723135A
    • 1988-02-02
    • US9732
    • 1987-02-02
    • Takeshi YanoKazuaki Utsumi
    • Takeshi YanoKazuaki Utsumi
    • B41J2/225B41J2/295G01D15/16
    • B41J2/295B41J2/225
    • A printer using ink balls includes ink balls, an injection pipe, an ink ball driving mechanism, a force applying mechanism, and a heating unit. The ink balls are made of an ink material and having a spherical shape at room temperature. The injection pipe injects said ink balls. The ball driving mechanism supplies each ink ball to a predetermined injection position in the injection pipe. The flying force applying mechanism applies a force to cause said ink ball located at the predetermined injection position to fly in response to a drive signal representing a printing timing. The heating unit heats and melts said flying ink ball.
    • 使用墨水的打印机包括墨球,喷射管,墨球驱动机构,施力机构和加热单元。 油墨球由油墨材料制成,在室温下为球形。 注射管注射所述墨球。 球驱动机构将每个墨球提供给喷射管中的预定喷射位置。 飞行力施加机构响应于表示打印定时的驱动信号而施加力以使位于预定喷射位置的所述墨球飞行。 加热单元加热并熔化所述飞行墨水球。