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    • 3. 发明授权
    • Air flow rate measuring device having bypass passage
    • 具有旁路通路的空气流量测量装置
    • US07234349B2
    • 2007-06-26
    • US11108797
    • 2005-04-19
    • Noboru KitaharaHideki MatsuuraTomomi Taniguchi
    • Noboru KitaharaHideki MatsuuraTomomi Taniguchi
    • G01F1/68
    • G01F1/72F02M35/021G01F1/6842G01F5/00
    • A measurement body is provided with a sub-outlet arranged between a U-turn portion of a bypass passage and a main outlet. The sub-outlet includes a first sub-outlet positioned on a path of air, which flows on the inside of the bypass passage, and a second sub-outlet positioned on a path of air, which flows on the outside of the bypass passage. The respective sub-outlets open in a sidewall surface of the measurement body along the thickness-wise direction. However, the first sub-outlet and the second sub-outlet are arranged in different positions with respect to the flow direction of measurement air. With this structure, a substantial length of the bypass passage can be adjusted in accordance with positions of the first sub-outlet and the second sub-outlet, so that compensation of intake pulsation is enhanced in accuracy. Thereby, measurement error caused by influences of intake pulsation can be reduced.
    • 测量体设置有设置在旁路通路的U形转弯部分和主出口之间的副出口。 副出水口包括位于旁路通道内部流动的空气路径上的第一子出口和位于旁路通道外侧流动的空气路径上的第二子出口。 各个分支部沿厚度方向在测量体的侧壁表面开口。 然而,第一副出口和第二副出口相对于测量空气的流动方向布置在不同的位置。 利用这种结构,可以根据第一副出口和第二副出口的位置来调节旁路通道的相当长度,从而提高了进气脉动的补偿精度。 由此,可以降低由进气脉动的影响引起的测量误差。
    • 5. 发明申请
    • Air flow rate measuring device having bypass passage
    • 具有旁路通路的空气流量测量装置
    • US20050252289A1
    • 2005-11-17
    • US11108797
    • 2005-04-19
    • Noboru KitaharaHideki MatsuuraTomomi Taniguchi
    • Noboru KitaharaHideki MatsuuraTomomi Taniguchi
    • F02M35/04G01F1/68G01F1/684G01F1/688G01F5/00
    • G01F1/72F02M35/021G01F1/6842G01F5/00
    • A measurement body is provided with a sub-outlet arranged between a U-turn portion of a bypass passage and a main outlet. The sub-outlet includes a first sub-outlet positioned on a path of air, which flows on the inside of the bypass passage, and a second sub-outlet positioned on a path of air, which flows on the outside of the bypass passage. The respective sub-outlets open in a sidewall surface of the measurement body along the thickness-wise direction. However, the first sub-outlet and the second sub-outlet are arranged in different positions with respect to the flow direction of measurement air. With this structure, a substantial length of the bypass passage can be adjusted in accordance with positions of the first sub-outlet and the second sub-outlet, so that compensation of intake pulsation is enhanced in accuracy. Thereby, measurement error caused by influences of intake pulsation can be reduced.
    • 测量体设置有设置在旁路通路的U形转弯部分和主出口之间的副出口。 副出水口包括位于旁路通道内部流动的空气路径上的第一子出口和位于旁路通道外侧流动的空气路径上的第二子出口。 各个分支部沿厚度方向在测量体的侧壁表面开口。 然而,第一副出口和第二副出口相对于测量空气的流动方向布置在不同的位置。 利用这种结构,可以根据第一副出口和第二副出口的位置来调节旁路通道的相当长度,从而提高了进气脉动的补偿精度。 由此,可以降低由进气脉动的影响引起的测量误差。
    • 6. 发明授权
    • Cylindrical inner surface scanner and imaging control method in
cylindrical inner surface scanner
    • 圆柱形内表面扫描仪和成像控制方法
    • US5592324A
    • 1997-01-07
    • US310716
    • 1994-09-22
    • Yukihiko InagakiHideki Matsuura
    • Yukihiko InagakiHideki Matsuura
    • G02B26/10H04N1/06G02B26/08
    • G02B26/10
    • A holder (10) is movably inserted in a through hole (22A) of a base portion (22) of a scanning head which is movable along a central axis (27) of a cylindrical inner surface drum, through a ball guide (13). Projections (25, 10B) of the base portion (22) and the holder (10) are coupled with each other by a ball screw (15). Further, a lens holder (2) is inserted/supported in a through hole (10E), and an imaging lens (1) is fixedly provided in the lens holder (2). A pulse motor (24) which is coupled to the ball screw (15) is rotated by the number of pulses as applied. As the result, the holder (10) and the lens holder (2) are moved toward the central axis (27), followed by movement of an imaging position of the lens (1). An iris (16) is fixedly provided on an incident side end surface of the lens holder (2) adjacently to the lens (1), so that its stop diameter is varied by a DC motor (18)
    • 保持器(10)可移动地插入扫描头的基部(22)的通孔(22A)中,扫描头的基部可以通过滚珠导向件(13)沿圆筒形内表面滚筒的中心轴线(27)移动, 。 基部(22)和保持器(10)的突出部(25,10B)通过滚珠丝杠(15)彼此联接。 此外,透镜架(2)插入/支撑在通孔(10E)中,并且成像透镜(1)固定地设置在透镜架(2)中。 联接到滚珠丝杠(15)的脉冲马达(24)以所施加的脉冲数旋转。 结果,保持器(10)和透镜保持器(2)朝向中心轴线(27)移动,随后移动透镜(1)的成像位置。 在透镜架(2)的与透镜(1)相邻的入射侧端面上固定设置有虹膜(16),从而其直径由直流电机(18)变化,
    • 8. 发明申请
    • Sealing structure and apparatus using the same
    • 密封结构和使用其的设备
    • US20080008224A1
    • 2008-01-10
    • US11318553
    • 2005-12-28
    • Hideki MatsuuraNoboru KitaharaYasushi Goka
    • Hideki MatsuuraNoboru KitaharaYasushi Goka
    • G01K17/00
    • G01F1/684G01F5/00G01F15/18
    • A substrate includes a first surface portion, which covers a heat receiving portion of a radiation member together with a resinous member. The substrate further includes a second surface portion, which is on the outer periphery of the first surface portion. The substrate makes contact with the resinous member via the second surface portion. The first surface portion and the heat receiving portion have a first contact boundary therebetween. The second surface portion and the resinous member have a second contact boundary that surrounds the first contact boundary. The second contact boundary is sealed using a sealing member. The sealing member is restricted from flowing into a boundary between the first contact boundary and the second contact boundary.
    • 衬底包括第一表面部分,其与树脂构件一起覆盖辐射构件的受热部分。 基板还包括在第一表面部分的外周上的第二表面部分。 基板经由第二表面部分与树脂构件接触。 第一表面部分和热接收部分之间具有第一接触边界。 第二表面部分和树脂构件具有围绕第一接触边界的第二接触边界。 第二接触边界使用密封件密封。 密封构件被限制流入第一接触边界和第二接触边界之间的边界。
    • 9. 发明授权
    • Image recording apparatus with jet and suction
    • 具有喷射和抽吸的图像记录装置
    • US07230636B2
    • 2007-06-12
    • US10793842
    • 2004-03-08
    • Hiroshi IwasaHideki Matsuura
    • Hiroshi IwasaHideki Matsuura
    • B41J2/435
    • G03F7/24
    • A gas is generated from a printing plate by exposure of the printing plate. A gas diffusing suction unit jets air from air jet ports to diffuse the gas generated from the printing plate by irradiation of laser light. The gas diffused by the air is sucked along with the air from a gas suction opening of the gas diffusing suction unit. At this time, a gas suction velocity is set to 1.2 or more times an air jet velocity to suck the gas/air efficiently. The gas/air may be sucked efficiently by setting a volume of suction to 30 or more times a volume of air jet.
    • 通过印版印刷从印版产生气体。 气体扩散吸引单元从空气喷射口射出空气,通过照射激光来扩散从印版产生的气体。 由空气扩散的气体与来自气体扩散抽吸单元的气体吸入口的空气一起吸入。 此时,气体吸入速度被设定为空气喷射速度的1.2倍以上,以有效地吸入气体/空气。 通过将抽吸量设定为空气喷射体积的30倍或更多倍,可以有效地吸入气体/空气。
    • 10. 发明授权
    • Airflow meter
    • 气流计
    • US07043978B2
    • 2006-05-16
    • US11115352
    • 2005-04-27
    • Yasushi GokaHideki MatsuuraNoboru Kitahara
    • Yasushi GokaHideki MatsuuraNoboru Kitahara
    • G01F1/68
    • G01F1/6842G01F5/00
    • An airflow meter has a bypass passage disposed in an air passage and a sensing portion disposed in the bypass passage to detect an airflow amount. The bypass passage is provided with a restriction portion to gradually decrease a passage width of the bypass passage in an airflow direction in the bypass passage. The restriction portion includes a first restriction portion and the second restriction portion disposed at an immediately downstream side of a narrowest portion of the first restriction portion. The first restriction portion gradually decreases the passage width in the airflow direction. The second restriction portion increases the passage width than the passage width at the narrowest portion in a stepped manner. The sensing portion is located in a bound in which the restriction portion is disposed.
    • 气流计具有布置在空气通道中的旁通通道和设置在旁路通道中的检测部分以检测气流量。 旁路通道设置有限制部,以在旁通通路中沿着气流方向逐渐减小旁通通路的通路宽度。 限制部分包括第一限制部分和设置在第一限制部分的最窄部分的紧下游侧的第二限制部分。 第一限制部逐渐减小风向的通过宽度。 第二限制部分使通道宽度以阶梯方式在最窄部分处的通道宽度增加。 感测部位于设置有限制部的边界。