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    • 3. 发明申请
    • Method of forming thin film layer on external surface of sensor and sensor manufactured therewith
    • 在传感器和传感器的外表面上形成薄膜层的方法
    • US20060201806A1
    • 2006-09-14
    • US10544846
    • 2004-02-27
    • Masanori IwaseKiyoshi MatsushitaHideki WatanabeYukio TerauchiHiroaki Kosaka
    • Masanori IwaseKiyoshi MatsushitaHideki WatanabeYukio TerauchiHiroaki Kosaka
    • G01N27/26B05D5/12B05D5/00
    • G01N27/4115
    • It is an object of the present invention to provide a method for forming a thin-film layer on the outer surface of a sensor, by which a thin-film layer formed on the surface of a sensor used for measuring the concentration of elements contained in the measurement object such as a molten metal, slag, or gas, can be easily provided with a complex pattern shape of small thickness and a uniformly arranged pattern shape. The method is provided for forming a thin-film layer of a sensor composed of a solid electrolyte which is a molded body having an inner space, a reference substance filled in the inner space, a reference electrode connected to the reference substance and led out to the outside of the inner space, and a thin-film layer comprising a ceramic powder or a metal powder as the main component and formed on the outer surface of the solid electrolyte in such a manner that part of the outer surface is exposed. This thin-film layer is formed by printing.
    • 本发明的目的是提供一种在传感器的外表面上形成薄膜层的方法,通过该方法形成在用于测量包含的元素的浓度的传感器的表面上的薄膜层 诸如熔融金属,渣或气体的测量对象可以容易地具有小厚度和均匀排列的图案形状的复杂图案形状。 该方法用于形成由固体电解质构成的传感器的薄膜层,所述固体电解质是具有内部空间的成型体,填充在内部空间中的参考物质,与参考物质连接的参考电极, 内部空间的外部,以及包含陶瓷粉末或金属粉末作为主要成分的薄膜层,并且以暴露外表面的一部分的方式形成在固体电解质的外表面上。 该薄膜层通过印刷形成。
    • 9. 发明授权
    • Immersion sensor for molten metals
    • 用于熔融金属的浸入式传感器
    • US5332449A
    • 1994-07-26
    • US958421
    • 1992-10-08
    • Paul C. VerstrekenGuido J. Neyens
    • Paul C. VerstrekenGuido J. Neyens
    • G01N27/411G01N33/20H01L35/02
    • G01N33/206G01N27/4115
    • An immersion sensor for molten metals has an electrically conducting support pin, whose one end is mounted in a refractory mounting material, and whose other free end has a first coating of a reference material and on top of this a second coating of a solid electrolyte material. The support pin has a third coating of a refractory material in the area of its mounted end, and this third coating on the one side extends into the mounting material, and on the other side extends into the solid electrolyte material. In order to obtain a quick reading and a stable EMF-value, the solid electrolyte material covers at least the end area of refractory coating nearest the free end of the support pin. A process for the manufacture of an intermediate for the immersion sensor applies the various coating materials of the immersion sensor in the order given above.
    • 用于熔融金属的浸没传感器具有导电支撑销,其一端安装在耐火材料安装材料中,其另一自由端具有参考材料的第一涂层,并且在该第一涂层上固定电解质材料 。 支撑销在其安装端的区域中具有耐火材料的第三涂层,并且一侧上的该第三涂层延伸到安装材料中,而另一侧延伸到固体电解质材料中。 为了获得快速读数和稳定的EMF值,固体电解质材料至少覆盖最靠近支撑销自由端的耐火涂层的端部区域。 用于制造浸入式传感器的中间体的方法以上述顺序施加浸没式传感器的各种涂层材料。