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
    • 1. 发明申请
    • Lock device of sliding mechanism
    • 滑动机构锁定装置
    • US20070216149A1
    • 2007-09-20
    • US11705560
    • 2007-02-12
    • Daisuke FujiiMiki MoriYasuki Motozawa
    • Daisuke FujiiMiki MoriYasuki Motozawa
    • B60R22/46B60R22/20
    • B60R22/1951B60R22/1955B60R22/24
    • In a lock device of a sliding mechanism, a pair of locking claws provided on a moving member are brought into resilient engagement with locking grooves of a locking groove group, whereby downward sliding of the moving member is permitted but upward sliding thereof is locked. The distance between the locking claws is longer than distance between the locking grooves, so that the moving member becomes locked against upward sliding at an interval smaller than the distance between the locking grooves. Thus, the moving member adapted to slide in one (downward) direction along a guide rail can be reliably locked against movement in the opposite (upward) direction at a very small interval.
    • 在滑动机构的锁定装置中,设置在移动构件上的一对锁定爪与锁定槽组的锁定槽弹性接合,从而允许移动构件的向下滑动,但是其向上滑动被锁定。 锁定爪之间的距离长于锁定槽之间的距离,使得移动构件以小于锁定槽之间的间隔的间隔被锁定以防止向上滑动。 因此,适于沿着导轨沿一个(向下)方向滑动的移动部件能够以相当的间隔在相反(向上)方向上被可靠地锁定。
    • 2. 发明授权
    • Lock device of sliding mechanism
    • 滑动机构锁定装置
    • US07673905B2
    • 2010-03-09
    • US11705560
    • 2007-02-12
    • Daisuke FujiiMiki MoriYasuki Motozawa
    • Daisuke FujiiMiki MoriYasuki Motozawa
    • B60R22/46B60R22/195
    • B60R22/1951B60R22/1955B60R22/24
    • In a lock device of a sliding mechanism, a pair of locking claws provided on a moving member are brought into resilient engagement with locking grooves of a locking groove group, whereby downward sliding of the moving member is permitted but upward sliding thereof is locked. The distance between the locking claws is longer than distance between the locking grooves, so that the moving member becomes locked against upward sliding at an interval smaller than the distance between the locking grooves. Thus, the moving member adapted to slide in one (downward) direction along a guide rail can be reliably locked against movement in the opposite (upward) direction at a very small interval.
    • 在滑动机构的锁定装置中,设置在移动构件上的一对锁定爪与锁定槽组的锁定槽弹性接合,从而允许移动构件的向下滑动,但是其向上滑动被锁定。 锁定爪之间的距离长于锁定槽之间的距离,使得移动构件以小于锁定槽之间的间隔的间隔被锁定以防止向上滑动。 因此,适于沿着导轨沿一个(向下)方向滑动的移动部件能够以相当的间隔在相反(向上)方向上被可靠地锁定。
    • 3. 发明申请
    • REAR WHEEL TOE ANGLE CONTROL DEVICE AND METHOD FOR CALIBRATING A REFERENCE POSITION OF AN ELECTRIC ACTUATOR IN A REAR WHEEL TOE ANGLE CONTROL DEVICE
    • 后轮角度控制装置和用于校准电动执行器在后轮转向角控制装置中的参考位置的方法
    • US20120059552A1
    • 2012-03-08
    • US13319227
    • 2010-04-27
    • Miki MoriYutaka Horiuchi
    • Miki MoriYutaka Horiuchi
    • G06F7/00
    • B62D17/00
    • [TASK]The wheel alignment of rear wheels can be properly set without using an alignment tester if the rear wheels are equipped with a rear wheel toe angle control device.[SOLUTION]In a calibration drive control, an ECU (12) actuates electric actuators (11) until the front wheel steering angle (δf) becomes zero or the rear wheel toe angles (δr) are symmetric to each other (steps S3 and D4) to thereby achieve a symmetric toe angle position (Ssym) (step S5). Then, the ECU (12) actuates the electric actuators (11) from the symmetric toe angle position (Ssym) by a same amount so as to cause the rear wheel toe angles to be a neutral value, and a reference position (S0) to be substantially equal to a standard operational position (Sstd) or an axial force (AF) to be substantially equal to a standard axial force (AFstd) (step S7). At this time, the operational position detected value (Sdtc) may be reset as the reference position (S0) (step S10).
    • [任务]如果后轮配备有后轮脚趾角度控制装置,则可以正确设置后轮的车轮定位。 [解决方案]在校准驱动控制中,ECU(12)致动电致动器(11)直到前轮转向角(δf)变为零或后轮趾角(δr)彼此对称(步骤S3和D4) ),从而实现对称束角位置(Ssym)(步骤S5)。 然后,ECU(12)从对称的脚趾角位置(Ssym)起动电动执行器(11)相同的量,以使后轮脚趾角度成为中立值,并且将基准位置(S0)设定为 基本上等于标准操作位置(Sstd)或轴向力(AF)基本上等于标准轴向力(AFstd)(步骤S7)。 此时,操作位置检测值(Sdtc)可以被重置为基准位置(S0)(步骤S10)。
    • 4. 发明授权
    • Method of manufacturing electron emitter and associated display
    • 制造电子发射器和相关显示器的方法
    • US06626724B2
    • 2003-09-30
    • US10234151
    • 2002-09-05
    • Masahiko YamamotoMiki MoriYumi FukudaHitoshi KobayashiYujiro HaraGoh ItohMasayuki SaitoToshiro HiraokaKoji Asakawa
    • Masahiko YamamotoMiki MoriYumi FukudaHitoshi KobayashiYujiro HaraGoh ItohMasayuki SaitoToshiro HiraokaKoji Asakawa
    • H01J926
    • H01J1/3042H01J9/025H01J9/185
    • A display device has an array formed on a substrate including a cathode wiring line layer, a gate wiring line layer and an insulating layer for electrically insulating the cathode wiring line layer and the gate wiring line layer from each other. Holes are formed at the crossing portion between the cathode wiring line layer and the gate wiring line layer so as to penetrate through the insulating layer, and resistive layer and an emitter layer are provided in the holes. The resistive layer has such a structure that conductive fine particles are dispersed in a base material of insulating fine particles, and the emitter layer is formed of a fine particle material. The insulating layer between the cathode electrode lines and the gate electrodes is formed of a silicon oxide film containing fluorine. When a large number of elements are formed over a large area in an electron emission device using fine particle emitters, there can be provided electron emission elements which can suppress the unevenness of the electron emission amount. According to the present invention, there can be provided a large-area and uniform display device which can be operated with a low driving voltage, and have a long lifetime.
    • 显示装置具有形成在包括阴极布线线层,栅极布线线层和绝缘层的基板上的阵列,用于使阴极布线层和栅极布线层彼此电绝缘。 在阴极布线层和栅极布线层之间的交叉部分处形成孔,以穿透绝缘层,并且在孔中设置电阻层和发射极层。 电阻层具有将导电性细颗粒分散在绝缘性细颗粒的基材中的结构,发射极层由细粒材料形成。 阴极电极线和栅电极之间的绝缘层由含氟的氧化硅膜形成。 当使用细粒子发射体的电子发射装置中,在大面积上形成大量的元件时,可以提供能够抑制电子发射量不均匀的电子发射元件。 根据本发明,可以提供一种能够以低驱动电压操作并且寿命长的大面积均匀的显示装置。
    • 5. 发明授权
    • Electron emission element having resistance layer of particular particles
    • 具有特定颗粒的电阻层的电子发射元件
    • US06563260B1
    • 2003-05-13
    • US09525531
    • 2000-03-15
    • Masahiko YamamotoMiki MoriYumi FukudaHitoshi KobayashiYujiro HaraGoh ItohMasayuki SaitoToshiro HiraokaKoji Asakawa
    • Masahiko YamamotoMiki MoriYumi FukudaHitoshi KobayashiYujiro HaraGoh ItohMasayuki SaitoToshiro HiraokaKoji Asakawa
    • H01J162
    • H01J1/3042H01J9/025H01J9/185
    • A display device has an array formed on a substrate including a cathode wiring line layer, a gate wiring line layer and an insulating layer for electrically insulating the cathode wiring line layer and the gate wiring line layer from each other. Holes are formed at the crossing portion between the cathode wiring line layer and the gate wiring line layer so as to penetrate through the insulating layer, and resistive layer and an emitter layer are provided in the holes. The resistive layer has such a structure that conductive fine particles are dispersed in a base material of insulating fine particles, and the emitter layer is formed of a fine particle material. The insulating layer between the cathode electrode lines and the gate electrodes is formed of a silicon oxide film containing fluorine. When a large number of elements are formed over a large area in an electron emission device using fine particle emitters, there can be provided electron emission elements which can suppress the unevenness of the electron emission amount. According to the present invention, there can be provided a large-area and uniform display device which can be operated with a low driving voltage, and have a long lifetime.
    • 显示装置具有形成在包括阴极布线线层,栅极布线线层和绝缘层的基板上的阵列,用于使阴极布线层和栅极布线层彼此电绝缘。 在阴极布线层和栅极布线层之间的交叉部分处形成孔,以穿透绝缘层,并且在孔中设置电阻层和发射极层。 电阻层具有将导电性细颗粒分散在绝缘性细颗粒的基材中的结构,发射极层由细粒材料形成。 阴极电极线和栅电极之间的绝缘层由含氟的氧化硅膜形成。 当使用细粒子发射体的电子发射装置中,在大面积上形成大量的元件时,可以提供能够抑制电子发射量不均匀的电子发射元件。 根据本发明,可以提供一种能够以低驱动电压操作并且寿命长的大面积均匀的显示装置。
    • 6. 发明授权
    • Thin film magnetic head having an improved heat dispersion and magnetic recording apparatus using the same
    • 具有改进的热分散性的薄膜磁头和使用其的磁记录装置
    • US06256171B1
    • 2001-07-03
    • US08937183
    • 1997-09-29
    • Hiroaki YodaAkio HoriYuichi OhsawaMasashi SahashiMasatoshi YoshikawaMiki Mori
    • Hiroaki YodaAkio HoriYuichi OhsawaMasashi SahashiMasatoshi YoshikawaMiki Mori
    • G11B539
    • B82Y25/00B82Y10/00G11B5/10G11B5/105G11B5/3106G11B5/3967G11B5/40G11B2005/3996Y10S977/934
    • A thin film magnetic head has a reproducing element or/and recording element which is held from the direction of its thickness between a first ceramic substrate and a second ceramic substrate. The reproducing element or/and recording element is positioned at substantially the center with respect to the direction of track width. The first and second ceramic substrates hold the reproducing element or/and recording element from, for example, the direction of track width. The reproducing element or/and recording element is provided with a yoke type reproducing part which has at least one pair of magnetic cores with a magnetic gap therebetween on the side of a medium opposed face and a magnetoresistance effect element to which a signal magnetic flux from a magnetic recording medium is led through the pair of magnetic cores. Heat due to a sense current and heat due to the contact between the reproducing element or/and recording element and the magnetic recording medium are efficiently dissipated to the first and second ceramic substrates, thereby retarding a temperature increase of the reproducing element or/and recording element. Abrasion in the neighborhood of the reproducing element or/and recording element is retarded by the first and second ceramic substrates. A magnetic recording apparatus is provided with a magnetic recording medium, and a magnetic head slider having the thin film magnetic head described above.
    • 薄膜磁头具有从第一陶瓷基板和第二陶瓷基板之间的厚度方向保持的再现元件或/和记录元件。 再现元件或/和记录元件相对于轨道宽度的方向基本上位于中心。 第一和第二陶瓷衬底从例如轨道宽度的方向保持再现元件或/和记录元件。 再现元件或/和记录元件设置有磁轭式再现部件,该磁轭式再现部件在介质相对面侧具有至少一对磁芯,其间具有磁隙,并且磁阻效应元件具有来自 磁记录介质被引导通过一对磁芯。 由于由于再现元件或/和记录元件与磁记录介质之间的接触而产生的感测电流和热的热量被有效地耗散到第一和第二陶瓷基板,从而延迟再现元件的温度升高或/和记录 元件。 在再现元件或/和记录元件附近的磨损被第一和第二陶瓷衬底延迟。 具有磁记录介质的磁记录装置和具有上述薄膜磁头的磁头滑块。
    • 8. 发明授权
    • Powered fuel combustion burner with nozzle flow guide
    • 动力式燃油燃烧器,带喷嘴导流器
    • US6152051A
    • 2000-11-28
    • US51744
    • 1998-04-20
    • Kenji KiyamaToshikazu TsumuraTadashi JimboKoji KuramashiShigeki MoritaMiki Mori
    • Kenji KiyamaToshikazu TsumuraTadashi JimboKoji KuramashiShigeki MoritaMiki Mori
    • F23D1/00F23C1/10
    • F23D1/00F23C2202/40F23C2900/09002F23D2201/20F23D2209/20
    • A combustion burner includes a mixture nozzle, a gas supply nozzle, and a flow guide. The mixture nozzle extends toward an interior of a furnace, and defines a mixture passage through which a mixture containing powdered solid fuel and gas for transferring the solid fuel flows. A distal end portion of the mixture nozzle is flared so that a flow passage area of the mixture passage increases progressively in a direction of flow of the mixture. The gas supply nozzle radially surrounds the mixture nozzle to define between the gas supply nozzle and the mixture nozzle a gas passage through which a combustion oxygen-containing gas flows toward the furnace. The flow guide is provided within the mixture nozzle at a position upstream of the flared portion of the mixture nozzle with respect to a flow of the mixture so as to make the mixture flow straight along an inner peripheral surface of the flared portion of the mixture nozzle.
    • PCT No.PCT / JP97 / 01489 Sec。 371日期:1998年4月20日 102(e)1998年4月20日PCT 1997年4月30日PCT PCT。 公开号WO98 / 08026 日期1998年2月26日燃烧器包括混合喷嘴,气体供给喷嘴和流动引导件。 混合物喷嘴朝向炉内部延伸,并且限定了混合物通道,含有固体燃料和固体燃料的混合物的混合物通过该混合通道流动。 混合喷嘴的远端部分展开,使得混合物通道的流动通道面积在混合物的流动方向上逐渐增加。 气体供给喷嘴径向地包围混合喷嘴,以在气体供给喷嘴和混合喷嘴之间限定燃烧含氧气体通过其流向炉的气体通道。 在混合喷嘴内,相对于混合物的流动,在混合喷嘴的扩口部分的上游位置处设置流动引导件,以使混合物沿着混合喷嘴的扩口部分的内周表面直线流动 。