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    • 1. 发明授权
    • Method of producing thick-film gas sensor element having improved
stability
    • 具有提高稳定性的厚膜气体传感器元件的制造方法
    • US5202154A
    • 1993-04-13
    • US565994
    • 1990-08-13
    • Toshitaka MatsuuraKeizo FurusakiMineji NasuAkio Takami
    • Toshitaka MatsuuraKeizo FurusakiMineji NasuAkio Takami
    • G01N27/12
    • G01N27/12
    • The invention relates to a method of producing a gas sensor element having a porous film formed by a thick-film technique on a ceramic substrate surface so as to cover selected portions of electrode films precedingly formed on the substrate surface. The electrode material is a noble metal such as platinum. Both the electrode films and the gas sensitive porous thick-film are formed by known methods. To improve the contact between the gas sensitive porous thick-film and the electrode films both mechanically and electrically and stabilize the internal resistance of the sensor element by depositing a noble metal such as platinum at the interface between the porous thick-film and each electrode film, the porous thick-film is impregnated with a solution of a noble metal compound such as chloroplatinic acid and thereafter maintained in a reducing gas atmosphere having a controlled humidity in the range from 5 to 90% (relative humidity) at a temperature in the range from 10.degree. C. to 135.degree. C.
    • 本发明涉及一种制造气体传感器元件的方法,该气体传感器元件具有通过厚膜技术在陶瓷基板表面上形成的多孔膜,以覆盖在基板表面上形成的电极膜的选定部分。 电极材料是贵金属如铂。 通过已知的方法形成电极膜和气敏多孔厚膜。 为了通过机械和电气来改善气体敏感性多孔厚膜和电极膜之间的接触,并且通过在多孔厚膜和每个电极膜之间的界面上沉积贵金属如铂来稳定传感器元件的内阻 多孔厚膜用氯铂酸等贵金属化合物的溶液浸渍,然后保持在5〜90%(相对湿度)范围内的受控湿度的还原气体气氛中,温度范围 从10℃到135℃
    • 5. 发明授权
    • Gas sensing element
    • 气体传感元件
    • US4958514A
    • 1990-09-25
    • US273621
    • 1988-11-17
    • Akio TakamiToshitaka MatsuuraKeizo Furusaki
    • Akio TakamiToshitaka MatsuuraKeizo Furusaki
    • G01N27/12
    • G01N27/12
    • A gas sensing element, such as may be used to sense the presence of oxygen contained in the exhaust from a burner or internal combustion engine, whereby, by preventing the re-sintering of functional layers of the sensing element, a deterioration of the performance of the element under high-temperature operating conditions is prevented. The inventive sensing element includes a ceramic susbtrate, an electrode layer formed on the ceramic substrate, a first functional layer overlying the ceramic susbtrate and the electrode layer and which contains a transition metal oxide as a main component, and a second functional layer that cover the first functional layer and which contains 1 to 30 wt % of an anti-sintering agent and has a transition metal oxide as a main component.
    • 诸如可以用于感测来自燃烧器或内燃机的废气中所含的氧的存在的气体感测元件,由此通过防止感测元件的功能层的再烧结,性能的恶化 在高温运行条件下防止了元件。 本发明的传感元件包括陶瓷芯片,形成在陶瓷基片上的电极层,覆盖陶瓷电极和电极层的第一功能层,其中含有过渡金属氧化物作为主要成分,第二功能层覆盖 第一功能层,含有1〜30重量%的耐烧结剂,并具有过渡金属氧化物作为主要成分。
    • 7. 发明授权
    • Oxygen sensor
    • 氧传感器
    • US5679226A
    • 1997-10-21
    • US528500
    • 1995-09-14
    • Keizo FurusakiTatsuya OkumuraHideya TanakaYasuhiro Yamada
    • Keizo FurusakiTatsuya OkumuraHideya TanakaYasuhiro Yamada
    • G01N27/409G01N27/407
    • G01N27/4078G01N27/4062G01N27/407
    • An oxygen sensor includes a tubular metal shell, a tubular housing having an end attached to the metal shell and another end sealed by a seal member. A solid electrolyte tube is attached to the metal shell and has on inner and outer surfaces thereof electrode layers and lead layers connected to the electrode layers, respectively. A pair of lead wires extend through the seal member between inside and outside of a housing assembly constituted by the metal shell and housing while being sealingly held by the seal member. A pair of metallic leads are disposed inside of the housing assembly for connection between the lead layers and the lead wires, the metallic leads having at one end thereof electrode connecting portions having a spring property, the electrode connecting portions being attached to the inner and outer surfaces of the solid electrolyte tube and held in contact with the lead layers under spring pressure. A stopper is interposed between the seal member and the open end of the solid electrolyte tube so as to obstruct axial movement of the electrode connecting portions of the metallic leads relative to the solid electrolyte tube when the lead wires are pulled outward of the housing assembly.
    • 氧传感器包括管状金属外壳,管状外壳,其端部连接到金属外壳,另一端由密封构件密封。 固体电解质管附着在金属壳上,其内表面和外表面分别与电极层连接,电极层和引线层。 一对引线在由密封构件密封地保持的同时由金属壳和壳体构成的壳体组件的内部和外部之间延伸穿过密封构件。 一对金属引线设置在壳体组件的内部,用于引线层和引线之间的连接,金属引线的一端具有弹簧特性的电极连接部分,电极连接部分附接到内外 固体电解质管的表面并在弹簧压力下与引线层保持接触。 当密封构件和固体电解质管的开口端之间插入有止动件,以便当引线被拉出到壳体组件的外部时,阻止金属引线的电极连接部分相对于固体电解质管的轴向移动。
    • 9. 发明授权
    • Packaging for polymer electrolytic cell and method of forming same
    • 聚合物电解槽的包装及其形成方法
    • US06673488B2
    • 2004-01-06
    • US09911239
    • 2001-07-23
    • Keizo Furusaki
    • Keizo Furusaki
    • H01M202
    • H01M2/08H01M2/0212H01M2/0275
    • A battery comprised of a generally rectangular electrochemical cell that has two battery leads attached to current collectors extending from one side thereof. A package formed from a sheet laminate has a cavity formed therein that defines an opening for receiving the cell and portions of the leads. A flange extends around the opening. A cover overlays the cavity and the flange. The cover is joined to the flange and forms a seal that hermetically seals the electrochemical cell within the cavity. The package has two, non-rectangular corners. The cover and the flange in the vicinity of the corners are shaped to allow the flange to be bent along the at least three sides in a manner wherein the flange is positioned adjacent the three sides, but the flange is not tucked or overlapped onto itself at the two, non-rectangular corners.
    • 一种由通常为矩形的电化学电池组成的电池,其具有连接到从其一侧延伸的集电器的两个电池引线。 由片材层压体形成的包装件具有形成在其中的空腔,其限定用于接收电池和引线的部分的开口。 凸缘围绕开口延伸。 盖子覆盖了空腔和法兰。 盖子连接到凸缘并形成密封件,其密封腔内的电化学电池。 包装有两个非矩形角。 角部附近的盖和凸缘成形为允许凸缘沿着至少三个侧面弯曲,其中凸缘定位成邻近三个侧面,但是凸缘不被卷起或重叠在自身上 两个非矩形角。