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    • 1. 发明授权
    • Gas sensor
    • 气体传感器
    • US09140585B2
    • 2015-09-22
    • US13205920
    • 2011-08-09
    • Yasuhiro FujitaTakayoshi Atsumi
    • Yasuhiro FujitaTakayoshi Atsumi
    • G01D11/24G01N27/407
    • G01D11/245G01N27/4078
    • A gas sensor suppresses the deterioration of gas tightness caused by failure of a sealing material. The gas sensor includes: a housing; a sensor element arranged inside the housing; a sealing material filling a gap between the sensor element and the housing; an insulation member arranged on a proximal end side of the sealing material; and an annular metal ring arranged on a proximal end side of the insulation member. The sealing material, the insulation member and the metal ring are fixed under pressure by caulking from a proximal end side to a distal. A proximal-end facing surface of an inner peripheral portion of the metal ring is spaced apart from the caulking portion in an opposing region where an inner end of the caulking portion and the metal ring face each other in an opposed manner.
    • 气体传感器抑制由密封材料的故障引起的气密性的劣化。 气体传感器包括:壳体; 布置在所述壳体内的传感器元件; 填充传感器元件和壳体之间的间隙的密封材料; 绝缘构件,设置在所述密封材料的基端侧; 以及布置在所述绝缘构件的近端侧的环形金属环。 密封材料,绝缘构件和金属环通过从近端侧到远端的铆接而在压力下固定。 金属环的内周部的近端面相对于铆接部在铆接部的内端与金属环相对的面相对的区域间隔开。
    • 2. 发明授权
    • Gas sensor
    • 气体传感器
    • US08567231B2
    • 2013-10-29
    • US13582952
    • 2011-05-19
    • Hiroshi IsomuraAya SatoTakayoshi Atsumi
    • Hiroshi IsomuraAya SatoTakayoshi Atsumi
    • G01N7/00
    • G01N27/4067
    • A gas sensor includes an inner electrode formed on an inner surface of a base body. The inner electrode has an inner sensing portion formed in a gas contact inner region such that the inner sensing portion is located on the whole of a heat-facing area of the gas contact inner region facing a heating portion in a radial direction of the base body, a terminal contact portion formed in a rear end region such that the terminal contact portion is located in at least a part of the rear end region in a circumferential direction of the base body and a lead portion formed only on a part of the inner surface of the base body in the circumferential direction of the base body so as to connect the inner sensing portion and the terminal contact portion to each other.
    • 气体传感器包括形成在基体的内表面上的内电极。 内部电极具有形成在气体接触内部区域中的内部感测部分,使得内部感测部分位于与基体的径向方向上的加热部分相对的气体接触内部区域的整个面向热的区域的整体上 形成在后端区域中的端子接触部分,使得端子接触部分位于沿着基体的圆周方向的后端区域的至少一部分中,以及仅形成在内表面的一部分上的引线部分 在基体的圆周方向上形成基体,以将内部感测部和端子接触部彼此连接。
    • 3. 发明申请
    • GAS SENSOR
    • 气体传感器
    • US20130036795A1
    • 2013-02-14
    • US13205542
    • 2011-08-08
    • Naoki YAMADATakayoshi ATSUMIHideya INUKAITakeo MIZUIYoshiyasu FUJII
    • Naoki YAMADATakayoshi ATSUMIHideya INUKAITakeo MIZUIYoshiyasu FUJII
    • G01N27/00
    • G01N27/4077
    • [Objective] To provide a gas sensor in which a filter member provided in an aerial communication hole adapted to introduce the air for exposing a reference electrode of a detection element to the air is reliably protected through simple configuration.[Means for Solution] A filter member 87 having air permeability and waterproofness is disposed in an aerial communication hole 91 formed in a grommet 9 disposed in a rear end portion 38 of a housing tube 3. The housing tube 3 has a vent portion 34 provided for ensuring aerial communication while protecting the filter member 87. The vent portion 34 is connected, by means of arm portions 33, to an end portion (an opening end 32) of a side wall 39 of the housing tube 3. The side wall 39 surrounds the circumference of the grommet 9. Since the arm portions 33 are disposed in respective grooves 93 of the grommet 9, the grommet 9 is positioned relative to the housing tube 3. Thus, the vent portion 34 formed integral with the housing tube 3 is free from offset, inclination, torsion, etc., relative to the aerial communication hole 91.
    • [目的]提供一种气体传感器,其中设置在适于将用于将检测元件的参考电极暴露于空气的空气的空气连通孔中的过滤构件通过简单的构造被可靠地保护。 [解决方案]具有透气性和防水性的过滤构件87设置在形成在设置在容纳管3的后端部38中的护环9中的空中连通孔91中。容纳管3具有通气部34, 用于在保护过滤构件87的同时确保空中连通。通气部分34通过臂部分33连接到壳体管3的侧壁39的端部(开口端32)。侧壁39 围绕护环9的周围。由于臂部33设置在护环9的各个槽93中,因此,护环9相对于容纳管3定位。因此,与容纳管3一体形成的排气部34为 没有相对于空中连通孔91的偏移,倾斜,扭转等。
    • 4. 发明申请
    • GAS SENSOR UNIT
    • 气体传感器单元
    • US20110259084A1
    • 2011-10-27
    • US13091281
    • 2011-04-21
    • Takayoshi ATSUMIYasuhiro FUJITA
    • Takayoshi ATSUMIYasuhiro FUJITA
    • G01N33/00
    • G01N27/4067
    • A gas sensor unit including: a gas sensor which includes a gas detection element, a sensor terminal and a cylindrical surrounding body which surrounds a periphery of the rear end of the sensor terminal; and a sensor cap. The sensor cap includes a cap terminal and a cap body which has an insertion hole surrounding a part of the rear end of the surrounding body. The cap body is formed of a resin, and a cap body seal surrounding the surrounding body is fitted into the insertion hole. The cap body includes a rear end seal pressing portion that contacts a rear end side surface of the cap body seal; and a leading end seal pressing portion that contacts a leading end side surface of the cap body seal, which holds the cap body seal.
    • 一种气体传感器单元,包括:气体传感器,其包括气体检测元件,传感器端子和围绕所述传感器端子的后端的周边的圆柱形周围体; 和传感器盖。 传感器盖包括盖子端子和盖体,其具有围绕周围本体的后端的一部分的插入孔。 盖体由树脂形成,围绕着周围的主体的帽体密封装配到插入孔中。 盖体包括接触盖主体密封件的后端侧表面的后端密封按压部分; 以及前端密封按压部,其接触保持盖体密封的盖体密封件的前端侧面。
    • 6. 发明授权
    • Oxygen sensor and manufacturing method of sensor element
    • 氧传感器及传感器元件的制造方法
    • US06672137B1
    • 2004-01-06
    • US09869263
    • 2001-09-27
    • Hiroshi IsomuraTakayoshi AtsumiKoji ShionoMasamine Takagi
    • Hiroshi IsomuraTakayoshi AtsumiKoji ShionoMasamine Takagi
    • G01N900
    • G01N27/4077G01N33/0039Y02A50/247
    • The oxygen sensor of the present invention has excellent durability capable of effectively preventing contamination with lead or the like for a detection electrode even in low temperature exhaust gases, and having stable response over a long period of time. The contamination preventive layer provided in the sensor device comprises composite powders having coarse powders covered therearound with fine powders, and hollows not filled with fine powders are scattered in gaps among the composite powders. Both the coarse and fine powders comprise ceramic powders. Further, it is particularly preferred that the ceramic powders are powders of a titania powder having a peak at 1 &mgr;m or less and a composite ceramic powder containing alumina such as spinel having a peak at 10 &mgr;m or more. The contamination preventive layer can be formed by coating a slurry containing ceramic powders of different specific surface areas, an organic binder and a solvent such as methanol on the surface of the electrode protection layer followed by drying.
    • 本发明的氧传感器具有优异的耐久性,即使在低温废气中也能够有效地防止铅等检测电极的污染,并且长期稳定的响应。 设置在传感器装置中的防污染层包括具有细粉末的粗粉末的复合粉末,并且未填充有细粉末的中空部分散布在复合粉末之间的间隙中。 粗粉末和细粉末都包括陶瓷粉末。 此外,特别优选的是,陶瓷粉末是具有1mum以下的峰值的二氧化钛粉末的粉末,以及含有10个以上的峰值的尖晶石等的氧化铝的复合陶瓷粉末。 防污层可以通过在电极保护层的表面上涂布含有不同比表面积的陶瓷粉末,有机粘合剂和溶剂如甲醇的浆料,然后干燥而形成。
    • 7. 发明授权
    • Method for manufacturing gas sensor element
    • 制造气体传感器元件的方法
    • US06544586B1
    • 2003-04-08
    • US09249370
    • 1999-02-12
    • Takayoshi AtsumiKoji Shiono
    • Takayoshi AtsumiKoji Shiono
    • B05D512
    • G01N27/4077
    • A gas sensor element includes a solid electrolyte layer having a plurality of projections formed on its outer surface, an inner electrode formed on the inner surface of the solid electrolyte layer, an outer electrode formed on the outer surface of the solid electrolyte layer, an outer electrode formed on the outer surface of the solid electrolyte layer and a spinel protection layer formed on the outer electrode for protection. The projections are formed on the outer surface of the solid electrolyte layer such that they are formed in a single layer; an area occupied by the projections accounts for 10% to 85% of the outer surface of the solid electrolyte layer and the distance between the neighboring projections is 5 &mgr;m to 300 &mgr;m. Thus, the outer electrode is formed on the solid electrolyte layer in such a manner as to penetrate into pits formed between neighboring projections and is thus strongly bonded to the solid electrolyte layer, thereby improving thermal durability. Also, since pores are hardly formed or are not formed at all between projections, a strong bond is established among the solid electrolyte layer, the outer electrode, and the protection layer, thereby improving durability against high temperature and high humidity.
    • 气体传感器元件包括:固体电解质层,其外表面上形成有多个突起,形成在固体电解质层的内表面上的内电极,形成在固体电解质层的外表面上的外电极, 形成在固体电解质层的外表面上的电极和形成在外部电极上用于保护的尖晶石保护层。 突起形成在固体电解质层的外表面上,使得它们形成为单层; 突起所占的面积占固体电解质层外表面的10%〜85%,相邻突起之间的距离为5〜300μm。 因此,外部电极以固体电解质层形成为贯穿形成在相邻突起之间的凹坑的方式形成,因此牢固地结合到固体电解质层,从而提高热耐久性。 此外,由于孔几乎不形成,也不会形成在突起之间,所以在固体电解质层,外部电极和保护层之间形成牢固的结合,从而提高耐高温和高湿度的耐久性。
    • 9. 发明授权
    • Gas sensor
    • 气体传感器
    • US06726819B2
    • 2004-04-27
    • US09769393
    • 2001-01-26
    • Takayoshi AtsumiSatoshi Ishikawa
    • Takayoshi AtsumiSatoshi Ishikawa
    • G01N27407
    • G01N27/4077
    • A gas sensor is provided which comprises a sensor element for detecting a component of a gas and a cup-shaped protector for covering a detecting section of the sensor element. The protector is dual-walled and have cup-shaped inner and outer protector members. The inner and outer protector members are constructed and arranged so that g1>g2 where g1 is the distance between an inner surface of a circumferential wall of the outer protector member and an outer surface of a circumferential wall of the inner protector member and g2 is the distance between an inner surface of a bottom wall of the outer protector member and an outer surface of a bottom wall of the inner protector member. The outer protector member has at the circumferential wall thereof a plurality of first gas holes. The inner protector member has at the circumferential wall thereof a plurality of second gas holes.
    • 提供了一种气体传感器,其包括用于检测气体成分的传感器元件和用于覆盖传感器元件的检测部分的杯形保护器。 保护器是双壁的,并具有杯形内外保护件。 内保护构件和外保护构件被构造和布置成使得g1> g2,其中g1是外保护构件的周壁的内表面与内保护构件的周壁的外表面之间的距离,而g2是 外保护构件的底壁的内表面与内保护构件的底壁的外表面之间的距离。 外保护构件在其周向壁上具有多个第一气孔。 内部保护构件在其周向壁上具有多个第二气体孔。
    • 10. 发明申请
    • GAS SENSOR
    • 气体传感器
    • US20120036929A1
    • 2012-02-16
    • US13205920
    • 2011-08-09
    • Yasuhiro FujitaTakayoshi Atsumi
    • Yasuhiro FujitaTakayoshi Atsumi
    • G01D11/24
    • G01D11/245G01N27/4078
    • A gas sensor suppresses the deterioration of gas tightness caused by failure of a sealing material. The gas sensor includes: a housing; a sensor element arranged inside the housing; a sealing material filling a gap between the sensor element and the housing; an insulation member arranged on a proximal end side of the sealing material; and an annular metal ring arranged on a proximal end side of the insulation member. The sealing material, the insulation member and the metal ring are fixed under pressure by caulking from a proximal end side to a distal. A proximal-end facing surface of an inner peripheral portion of the metal ring is spaced apart from the caulking portion in an opposing region where an inner end of the caulking portion and the metal ring face each other in an opposed manner.
    • 气体传感器抑制由密封材料的故障引起的气密性的劣化。 气体传感器包括:壳体; 布置在所述壳体内的传感器元件; 填充传感器元件和壳体之间的间隙的密封材料; 绝缘构件,设置在所述密封材料的基端侧; 以及布置在所述绝缘构件的近端侧的环形金属环。 密封材料,绝缘构件和金属环通过从近端侧到远端的铆接而在压力下固定。 金属环的内周部的近端面相对于铆接部在铆接部的内端与金属环相对的面相对的区域间隔开。