会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明申请
    • Method for operating a broadband lambda probe
    • 操作宽带探测器的方法
    • US20050252771A1
    • 2005-11-17
    • US10510397
    • 2003-03-06
    • Hans-Martin WiedenmannLothar DiehlThomas Moser
    • Hans-Martin WiedenmannLothar DiehlThomas Moser
    • G01N27/406G01N27/407G01N27/419G01N27/26
    • G01N27/419G01N27/4065G01N27/407
    • A method for operating a broadband lambda sensor for determining the concentration of oxygen in the exhaust gas of an internal combustion engine operated with a fuel-air mixture is provided. In this method, a pump voltage (UP) is applied to the pump cell of the sensor, this voltage-being set dependent on a Nernst voltage (UN) tapped at the Nernst cell, and, dependent on the oxygen content of the exhaust gas, driving a cathodic or anodic pump current IP via the pump cell. In order to maintain the measurement sensitivity of the sensor even during secondary fuel injection in lean operation and/or in “fast light off” operation, the polarity of the pump voltage (UP) is repeatedly reversed during the duration of a secondary fuel injection and/or of the “fast light off” operation, so that an anodic pump current briefly arises that pumps oxygen ions into the measurement chamber, occupied by the measurement electrode of the Nernst cell and the inner electrode of the pump cell, in which chamber the oxygen ions oxidize the hydrocarbons.
    • 提供一种用于操作用于确定用燃料 - 空气混合物操作的内燃机的排气中的氧浓度的宽带λ传感器的方法。 在该方法中,将泵电压(U P P)施加到传感器的泵单元,该电压设定取决于能斯特电压(U N N N) 在能斯特电池,并且取决于废气的氧含量,通过泵电池驱动阴极或阳极泵电流I P P。 为了即使在稀燃操作和/或“快关灯”操作中的二次燃料喷射期间也保持传感器的测量灵敏度,泵电压(U P P)的极性在 二次燃料喷射的持续时间和/或“快速熄灭”操作的持续时间,使得短暂地出现阳极泵电流,其将氧离子泵送到测量室中,该能量由能斯特电池的测量电极和内部电极 泵室,其中氧离子氧化烃。
    • 8. 发明授权
    • Seal for a sensor element of a gas sensor
    • 气体传感器传感器元件的密封
    • US5846391A
    • 1998-12-08
    • US836425
    • 1997-04-29
    • Karl-Hermann FrieseHelmut WeylHans-Martin WiedenmannAnton Hans
    • Karl-Hermann FrieseHelmut WeylHans-Martin WiedenmannAnton Hans
    • G01N27/409G01N27/407
    • G01N27/4078
    • A seal for a sensor element for a gas sensor for determining the oxygen content in a gas to be measured including exhaust gases of internal combustion engines, the seal including a metallic housing having defined therein a longitudinal bore; a sensor element inserted into the longitudinal bore; and a sealing arrangement provided in the longitudinal bore, surrounding at least a portion of the sensor element, and comprised of at least one seal element comprised of steatite and an additional seal element comprised of boron nitride arranged in contact with one another and in a stack having a side near the gas to be measured so that, when there is one seal element comprised of steatite, the one seal element comprised of steatite is positioned on the side of the stack near the gas to be measured, and so that, when there are two seal elements comprised of steatite, the additional seal element is positioned between the two seal elements comprised of steatite, wherein the at least one seal element comprised of steatite and the additional seal element comprised of boron nitride are inserted into the longitudinal bore of the housing as deformable rings and are pressed-in therein, and wherein, during the pressing-in, the deformable rings are deformed in such a way that the at least one seal element comprised of steatite and the additional seal element comprised of boron nitride are pushed against the sensor element and the housing.
    • PCT No.PCT / DE96 / 00567 Sec。 371日期1997年04月29日 102(e)日期1997年4月29日PCT 1996年3月21日PCT公布。 公开号WO97 / 08542 日期1997年3月6日用于气体传感器的传感器元件的密封件,用于确定包括内燃机废气的待测气体中的氧含量,所述密封件包括金属壳体,其中限定有纵向孔; 插入纵向孔中的传感器元件; 以及设置在所述纵向孔中的密封装置,围绕所述传感器元件的至少一部分,并且包括至少一个由滑石组成的密封元件和由氮化硼组成的另外的密封元件,所述氮化硼彼此接触并且在堆叠 具有靠近要测量的气体的一侧,使得当存在由滑石组成的一个密封元件时,由滑石组成的一个密封元件位于靠近待测量气体的堆叠侧,并且当那里 是由滑石组成的两个密封元件,附加的密封元件位于由滑石组成的两个密封元件之间,其中由滑石组成的至少一个密封元件和由氮化硼组成的另外的密封元件被插入到 壳体作为可变形环并被压入其中,并且其中,在压入期间,可变形环以这样的方式变形,使得至少一个 由滑石组成的气体元件和由氮化硼组成的另外的密封元件被推靠在传感器元件和壳体上。
    • 9. 发明授权
    • Seal for a sensor element of a gas sensor
    • 气体传感器传感器元件的密封
    • US5795454A
    • 1998-08-18
    • US569074
    • 1995-12-04
    • Karl-Hermann FrieseHelmut WeylRomuald FriesHans-Martin WiedenmannAnton Hans
    • Karl-Hermann FrieseHelmut WeylRomuald FriesHans-Martin WiedenmannAnton Hans
    • G01N27/409G01N27/12G01N27/407F16J15/14
    • G01N27/4078G01N27/407G01N27/4077Y10S277/936Y10S277/938Y10S277/939Y10S277/941Y10S277/943
    • A seal for a sensor element of a gas sensor for determining the oxygen content in gases including exhaust gases of an internal combustion engine, which seal seals the sensor element in a longitudinal bore of a housing, the seal including a sealing stack which is positioned within the longitudinal bore of the housing and around the sensor element in use and which is comprised of two sealing bodies and an additional seal positioned between the two sealing bodies. The two sealing bodies are comprised of a pre-sintered ceramic material. The additional seal is comprised of a pre-pressed powder material and has a porosity which is lower than that of the two sealing bodies. The two sealing bodies and the additional seal are compressed together within the longitudinal bore in use, whereby at least the additional seal is deformed so that the sensor element is sealed in a gap-free manner within the longitudinal bore. The pre-pressed powder material of the additional seal may consist essentially of a ductile metal, which may be one of nickel or copper, or graphite which may be fiber-reinforced.
    • PCT No.PCT / DE94 / 00537 Sec。 371 1995年12月4日第 102(e)日期1995年12月4日PCT 1994年5月11日PCT公布。 公开号WO94 / 29710 日期1994年12月22日用于确定包括内燃机的废气在内的气体中的氧含量的气体传感器的传感器元件的密封件,该密封件将传感器元件密封在壳体的纵向孔中,所述密封件包括密封件 堆叠,其位于壳体的纵向孔内并且在使用中围绕传感器元件,并且由两个密封体和位于两个密封体之间的附加密封件组成。 两个密封体由预烧结的陶瓷材料组成。 附加密封件由预压粉末材料组成,并且具有低于两个密封体的孔隙率。 两个密封体和附加密封件在使用中在纵向孔内压缩在一起,由此至少附加的密封件变形,使得传感器元件以无间隙的方式密封在纵向孔内。 附加密封件的预压粉末材料可以由可以是镍或铜之一的延性金属或可以是纤维增强的石墨组成。
    • 10. 发明授权
    • Process for producing PTC temperature sensor elements for PTC
temperature sensor
    • 用于生产PTC温度传感器PTC温度传感器元件的工艺
    • US5172466A
    • 1992-12-22
    • US715798
    • 1991-06-14
    • Karl-Hermann FrieseHans-Martin WiedenmannGunther Stecher
    • Karl-Hermann FrieseHans-Martin WiedenmannGunther Stecher
    • G01K7/16G01J5/02G01J5/20G01K7/18G01K7/22G01N27/416G01N27/417H01C1/024H01C1/034H01C7/02
    • G01K7/183H01C7/021Y10T29/49085
    • A PTC temperature sensor and a process for producing PTC temperature sensing elements from ceramic films for a PTC temperature sensor are proposed. The PTC temperature sensing elements are so designed that the PTC resistor track is hermetically encapsulated with respect to the gas being measured and the ambient air. Ceramic films based on an insulator ceramic, in particular based on Al.sub.2 O.sub.3, and ceramic films based on a solid electrolyte can be used to produce the temperature sensing elements. The PTC temperature sensor according to the invention is distinguished, in particular, by the fact that, while the manufacturing procedure is cheap, it is not subject to aging due to the effect of varying O.sub.2 partial pressures, has a high resistance to aging of the resistance characteristic in rich and lean gas mixtures, for example in motor vehicle exhaust gases, at 300.degree.-1000.degree. C. and has a construction free from extraneous potential, is characterized by short response times owning to its low heat capacity and is suitable for incorportion in very narrow housing as a consequence of small dimensions.
    • 提出了一种用于PTC温度传感器的PTC温度传感器和用于从陶瓷膜生产PTC温度传感元件的工艺。 PTC温度感测元件被设计成使得PTC电阻轨道相对于被测量的气体和环境空气被气密地封装。 可以使用基于绝缘体陶瓷,特别是基于Al 2 O 3的陶瓷膜和基于固体电解质的陶瓷膜来制造温度感测元件。 根据本发明的PTC温度传感器的特征在于,特别是由于制造过程便宜,由于变化的O2分压的影响,其不会老化,因此具有高耐老化性 富含和贫气混合物的阻力特性,例如在机动车排气中,在300°-1000℃,具有无外力的结构,其特征在于具有低热容量的响应时间短,适用于 由于小尺寸,狭窄房屋的配额不合。