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    • 2. 发明授权
    • Method and apparatus for manufacturing a glass body
    • 用于制造玻璃体的方法和装置
    • US07926302B2
    • 2011-04-19
    • US10581666
    • 2004-11-29
    • Katrin ScholzStefan AurasSven HaertigJens Voigtlaender
    • Katrin ScholzStefan AurasSven HaertigJens Voigtlaender
    • C03B23/04C03B23/057C03B23/11
    • C03B23/207C03B23/091C03B23/092C03B23/097
    • A method for manufacturing a glass body for a potentiometric sensor, including: loading a first spindle of a glass lathe with outer and inner glass tubes, so that the glass tubes are arranged coaxially with one another and with the axis of rotation of the first spindle, the inner glass tube and the outer glass tube each has a media-side end, and the two media-side ends have defined axial positions relative to one another; loading a second spindle with an auxiliary glass tube, so that the axis of rotation of the second spindle is arranged coaxially with the axis of rotation of the first spindle; moving the auxiliary glass tube to be contiguous with the outer glass tube; fusion joining of the outer glass tube with the auxiliary glass tube; producing a connection between the outer glass tube, or the auxiliary glass tube, and the inner glass tube; removing a remainder of the auxiliary glass tube; producing a media-side opening of the inner glass tube; and forming a media-side edge of the opening. Optionally, the method includes, additionally, the automatic blowing of a glass membrane on the media-side edge.
    • 一种用于制造电位传感器的玻璃体的方法,包括:将玻璃车床的第一主轴与外玻璃管和内玻璃管装载,使得玻璃管彼此同轴布置并且与第一主轴的旋转轴线 内玻璃管和外玻璃管各自具有介质侧端部,并且两个介质侧端部具有相对于彼此限定的轴向位置; 加载具有辅助玻璃管的第二主轴,使得第二主轴的旋转轴线与第一主轴的旋转轴同轴布置; 将辅助玻璃管移动为与外玻璃管邻接; 外玻璃管与辅助玻璃管的熔接; 在外玻璃管或辅助玻璃管与内玻璃管之间产生连接; 除去辅助玻璃管的剩余部分; 产生内玻璃管的介质侧开口; 以及形成所述开口的介质侧边缘。 可选地,该方法还包括在介质侧边缘上自动吹送玻璃膜。
    • 3. 发明申请
    • Method and Apparatus for Manufacturing a Glass Body
    • 制造玻璃体的方法和装置
    • US20070271960A1
    • 2007-11-29
    • US10581666
    • 2004-11-29
    • Katrin ScholzStefan AurasSven HaertigJens Voigtlaender
    • Katrin ScholzStefan AurasSven HaertigJens Voigtlaender
    • C03B23/207
    • C03B23/207C03B23/091C03B23/092C03B23/097
    • A method for manufacturing a glass body for a potentiometric sensor, including: loading a first spindle of a glass lathe with outer and inner glass tubes, so that the glass tubes are arranged coaxially with one another and with the axis of rotation of the first spindle, the inner glass tube and the outer glass tube each has a media-side end, and the two media-side ends have defined axial positions relative to one another; loading a second spindle with an auxiliary glass tube, so that the axis of rotation of the second spindle is arranged coaxially with the axis of rotation of the first spindle; moving the auxiliary glass tube to be contiguous with the outer glass tube; fusion joining of the outer glass tube with the auxiliary glass tube; producing a connection between the outer glass tube, or the auxiliary glass tube, and the inner glass tube; removing a remainder of the auxiliary glass tube; producing a media-side opening of the inner glass tube; and forming a media-side edge of the opening. Optionally, the method includes, additionally, the automatic blowing of a glass membrane on the media-side edge.
    • 一种用于制造电位传感器的玻璃体的方法,包括:将玻璃车床的第一主轴与外玻璃管和内玻璃管装载,使得玻璃管彼此同轴布置并且与第一主轴的旋转轴线 内玻璃管和外玻璃管各自具有介质侧端部,并且两个介质侧端部具有相对于彼此限定的轴向位置; 加载具有辅助玻璃管的第二主轴,使得第二主轴的旋转轴线与第一主轴的旋转轴同轴布置; 将辅助玻璃管移动为与外玻璃管邻接; 外玻璃管与辅助玻璃管的熔接; 在外玻璃管或辅助玻璃管与内玻璃管之间产生连接; 除去辅助玻璃管的剩余部分; 产生内玻璃管的介质侧开口; 以及形成所述开口的介质侧边缘。 可选地,该方法还包括在介质侧边缘上自动吹送玻璃膜。
    • 4. 发明申请
    • Method for operating a measuring point
    • 操作测量点的方法
    • US20100063762A1
    • 2010-03-11
    • US12461528
    • 2009-08-14
    • Torsten PechsteinKatrin ScholzThilo TrappRonny Grosse-Uhlmann
    • Torsten PechsteinKatrin ScholzThilo TrappRonny Grosse-Uhlmann
    • G06F19/00A61B5/00G06F15/00
    • G01N27/4165
    • A method for operating a measuring point for determining at least one measured variable of a medium, wherein the measuring point includes a base unit, which is connected releasably with a sensor unit, and which is provided for communication of a signal representing the value of the measured variable to a process monitoring facility. The following steps are included: at least one-time registering and storing, in a first data storage unit of the base unit, of a value of a diagnostic parameter stored in the sensor unit or produced by the sensor unit; on the basis of the at least one value of the diagnostic parameter stored in the first data storage unit, conforming a prognosis value or prognosis interval stored in a second data storage unit of the base unit, and storing the conformed prognosis value or prognosis interval in the second data storage unit of the base unit in place of the previously stored prognosis value or prognosis interval.
    • 一种用于操作用于确定介质的至少一个测量变量的测量点的方法,其中所述测量点包括基本单元,所述基本单元可释放地与传感器单元连接,并且被提供用于通信代表所述介质的值的信号 测量变量到过程监控设备。 包括以下步骤:在基本单元的第一数据存储单元中至少一次性地存储存储在传感器单元中或由传感器单元产生的诊断参数的值; 基于存储在第一数据存储单元中的诊断参数的至少一个值,与存储在基本单元的第二数据存储单元中的预后值或预后间隔一致,并将合格的预后值或预后间隔存储在 基本单元的第二数据存储单元代替先前存储的预后值或预后间隔。
    • 7. 发明授权
    • Method for operating a measuring point
    • 操作测量点的方法
    • US09164057B2
    • 2015-10-20
    • US12461528
    • 2009-08-14
    • Torsten PechsteinKatrin ScholzThilo TrappRonny Grosse-Uhlmann
    • Torsten PechsteinKatrin ScholzThilo TrappRonny Grosse-Uhlmann
    • G01D18/00G01N27/416
    • G01N27/4165
    • A method for operating a measuring point for determining at least one measured variable of a medium is disclosed. The measuring point includes a base unit, which is connected releasably with a sensor unit, and which is provided for communication of a signal representing the value of the measured variable to a process monitoring facility. The following steps are included: at least one-time registering and storing in the base unit a value of a diagnostic parameter stored in the sensor unit or produced by the sensor unit; on the basis of this value conforming a prognosis value or prognosis interval stored in the base unit, and storing the conformed prognosis value or prognosis interval in the base unit in place of the previously stored prognosis value or prognosis interval.
    • 公开了一种用于操作用于确定介质的至少一个测量变量的测量点的方法。 测量点包括基本单元,其与传感器单元可释放地连接,并且被提供用于将表示测量变量的值的信号通信给过程监控设备。 包括以下步骤:至少一次性地在基本单元中注册和存储存储在传感器单元中或由传感器单元产生的诊断参数的值; 基于该值与基本单元中存储的预后值或预后间隔相一致,并将适合的预后值或预后间隔存储在基本单位中,代替先前存储的预后值或预后间隔。
    • 9. 发明申请
    • ELECTRODE AND SINGLE-ROD MEASURING CHAIN FOR DETERMINING ELECTROCHEMICAL POTENTIALS
    • 用于确定电化学势的电极和单向测量链
    • US20100126850A1
    • 2010-05-27
    • US12312638
    • 2007-11-15
    • Reiner FranzheldKatrin ScholzIngrid Wunderlich
    • Reiner FranzheldKatrin ScholzIngrid Wunderlich
    • C25B11/03C25B11/04
    • G01N27/36
    • An electrode comprising: a least a first, preferably cylindrical, glass body, in which at least a first chamber is formed; at least a first electrolyte, which is located in the first chamber; at least a first potential-forming element, which is arranged in the chamber, and forms a first potential when contacted by the first electrolyte; at least a first closing element, which is axially fixed in the first chamber for enclosing the first electrolyte and the first potential-forming element and sealedly closes the first chamber; wherein, additionally, the first closing element is conductive, the first potential-forming element conductingly contacts the first closing element, and the electrode furthermore includes at least a first electrical conductor, which electrically contacts the first closing element on the side of the first closing element facing away from the first electrolyte.
    • 一种电极,包括:至少第一,优选圆柱形的玻璃体,其中至少形成有第一腔室; 至少第一电解质,其位于第一室中; 至少第一电位形成元件,其布置在所述室中,并且当与所述第一电解质接触时形成第一电位; 至少第一封闭元件,其被轴向地固定在所述第一室中以封闭所述第一电解质和所述第一电位形成元件并密封地封闭所述第一室; 另外,所述第一闭合元件是导电的,所述第一电势形成元件与所述第一闭合元件导通地接触,并且所述电极还包括至少第一电导体,所述第一电导体在所述第一闭合侧面与所述第一闭合元件电接触 元件背离第一电解质。
    • 10. 发明授权
    • Electrode and single-rod measuring chain for determining electrochemical potentials
    • 用于确定电化学电位的电极和单杆测量链
    • US08231769B2
    • 2012-07-31
    • US12312638
    • 2007-11-15
    • Katrin ScholzReiner FranzheldIngrid Wunderlich
    • Katrin ScholzReiner FranzheldIngrid Wunderlich
    • G01N27/333G01N27/36G01N27/401
    • G01N27/36
    • An electrode comprising: a least a first, preferably cylindrical, glass body, in which at least a first chamber is formed; at least a first electrolyte, which is located in the first chamber; at least a first potential-forming element, which is arranged in the chamber, and forms a first potential when contacted by the first electrolyte; at least a first closing element, which is axially fixed in the first chamber for enclosing the first electrolyte and the first potential-forming element and sealedly closes the first chamber; wherein, additionally, the first closing element is conductive, the first potential-forming element conductingly contacts the first closing element, and the electrode furthermore includes at least a first electrical conductor, which electrically contacts the first closing element on the side of the first closing element facing away from the first electrolyte.
    • 一种电极,包括:至少第一,优选圆柱形的玻璃体,其中至少形成有第一腔室; 至少第一电解质,其位于第一室中; 至少第一电位形成元件,其布置在所述室中,并且当与所述第一电解质接触时形成第一电位; 至少第一封闭元件,其被轴向地固定在所述第一室中以封闭所述第一电解质和所述第一电位形成元件并密封地封闭所述第一室; 另外,所述第一闭合元件是导电的,所述第一电势形成元件与所述第一闭合元件导通地接触,并且所述电极还包括至少第一电导体,所述第一电导体在所述第一闭合侧面与所述第一闭合元件电接触 元件背离第一电解质。