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    • 2. 发明申请
    • Fuel tank arrangement structure for vehicle
    • 车辆油箱布置结构
    • US20060097507A1
    • 2006-05-11
    • US11261475
    • 2005-10-31
    • Minoru ToyotaAkira ItoKazue SumidaYoshitaka Inoue
    • Minoru ToyotaAkira ItoKazue SumidaYoshitaka Inoue
    • B60P3/22
    • B60K15/063B60N2/3011B60N2/305B62D25/20
    • Disclosed is a fuel tank arrangement structure for a vehicle, which is designed to position a fuel tank 30 under a floor panel 4 forming a floor of a passenger compartment of the vehicle. In the fuel tank arrangement structure, at least a laterally inward portion of the floor panel 4 is formed as a convex floor portion 7 protruding upward from a general surface 8 of the floor panel 4, and at least a laterally inward portion of the fuel tank 30 is formed as a convex fuel-tank portion 30a protruding upward. The convex fuel-tank portion 30a is positioned within a space defined by the convex floor portion 7 while positioning the remaining portion of the fuel tank 30 at a height position lower than the general surface 8 of the floor panel 4, and a seat 9 (10) is positioned inside the passenger compartment and above the convex floor portion 7.
    • 公开了一种用于车辆的燃料箱配置结构,其被设计成将燃料箱30定位在形成车辆的乘客室的地板的地板面板4下方。 在燃料箱配置结构中,地板镶板4的至少横向内侧部分形成为从底板4的一般表面8向上突出的凸起的地板部分7,并且至少在燃料箱的横向内侧部分 30形成为向上突出的凸起的燃料箱部分30a。 凸起的燃料箱部分30a位于由凸出的地板部分7限定的空间内,同时将燃料箱30的剩余部分定位在低于地板镶板4的总表面8的高度位置处,并且座椅9 (10)位于乘客舱内部和凸起地板部分7的上方。
    • 6. 发明授权
    • Dispersing and grinding apparatus
    • 分散和研磨设备
    • US5069393A
    • 1991-12-03
    • US622426
    • 1990-12-05
    • Mitsuo KamiwanoYoshitaka Inoue
    • Mitsuo KamiwanoYoshitaka Inoue
    • B01F7/00B02C17/16B02C17/20
    • B02C17/166
    • A dispersing and grinding apparatus comprises a vessel having an inlet for receiving a material to be processed and an outlet for discharging the processed material. A rotor is rotatably disposed within the vessel and positioned relative to the inner wall of the vessel to define therebetween a narrow, annular flow path for the passage therethrough of a mixture of the material and a grinding medium. The rotor has a plurality of axially extending grooves on the periphery thereof for guiding the mixture in the circumferential direction as the rotor rotates. The rotor is separated into a plurality of processing zones in the axial direction thereof, and the grooves in each processing zone are phase shifted in the circumferential direction with respect to the grooves in adjacent processing zones. When the mixture transfers from one processing zone to an adjacent processing zone, the velocity difference of the mixture is adjusted so that the mixture advances, as a whole, at approximately equal velocity through the narrow, annular flow path whereby the material is uniformly ground and dispersed.
    • 8. 发明授权
    • Roll mill with automatic control of roll-to-roll distance and inter-roll pressure
    • 辊轧机可自动控制卷对卷距和卷间压力
    • US08172166B2
    • 2012-05-08
    • US12590155
    • 2009-11-03
    • Yoshitaka InoueChoji Hatsugai
    • Yoshitaka InoueChoji Hatsugai
    • B02C25/00
    • B02C4/32B02C4/42B02C25/00
    • A roll mill for a milling-dispersing treatment has a fixed roll fixed to a frame, and a transfer roll displaceable into and out of contact with the fixed roll in a direction perpendicular to the fixed roll by a servomotor and a ball screw. A laser sensor disposed between the fixed roll and the transfer roll measures the distance between the rolls, and a load sensor measures a pressing force between the rolls. An electronic automatic control device maintains a constant distance and a constant pressing force between the fixed roll and the transfer roll by feedback of detection signals sent from the respective sensors, wherein the servomotor is driven by the electronic automatic control device to adjust the position of the transfer roll.
    • 用于研磨分散处理的辊磨机具有固定到框架上的固定辊,以及通过伺服电动机和滚珠丝杠沿与固定辊垂直的方向可移位地与固定辊接触的转移辊。 设置在固定辊和转印辊之间的激光传感器测量辊之间的距离,负载传感器测量辊之间的按压力。 电子自动控制装置通过反馈从各个传感器发送的检测信号,在固定辊和转印辊之间保持恒定的距离和恒定的压力,其中伺服电机由电子自动控制装置驱动以调节 转印辊。
    • 10. 发明授权
    • Structure for controlling braking action of a mechanical brake of a
lever type hoist and traction machine
    • 用于控制杠杆式起重机和牵引机械的机械制动器的制动作用的结构
    • US5575457A
    • 1996-11-19
    • US309444
    • 1994-09-20
    • Yoshitaka InoueYoshiaki OkamotoYasuo WadaEikichi Kobayashi
    • Yoshitaka InoueYoshiaki OkamotoYasuo WadaEikichi Kobayashi
    • B66D3/14B66D1/14
    • B66D3/14
    • In a lever type hoist an operation handle (18) is provided between a stopper (17) provided at the axial end portion of a driving shaft (5) and a driving member (8) screwed on the driving shaft (5) so as to be movable in the axial direction but non-rotatable relatively to the driving shaft (5). A spring (19) for energizing the operation handle (18) toward the driving member (8) is provided to bring inclined surface (31a) of the engaging projection (31) provided on the operation handle (18) into elastic contact with an engaging stepped portion (37) of the driving member (8) during the time when the mechanical brake (13) is being operated, whereby the driving member (8) can be prevented from being reversely rotated while being accompanied by a returning operation of the operation lever (16) by the engaging resistance of a feed click (14) during the time when a hoist and traction operation is being conducted under the no-load condition.
    • 在杠杆式起重机中,操作手柄(18)设置在设置在驱动轴(5)的轴向端部的止动件(17)和与驱动轴(5)螺纹连接的驱动构件(8)之间,以便 可相对于驱动轴(5)沿轴向移动但不能旋转。 设置用于向操作部件(8)供给操作手柄(18)的弹簧(19),使设置在操作手柄(18)上的卡合突起(31)的倾斜面(31a)与卡合部 在机械制动器(13)被操作期间驱动部件(8)的台阶部(37),由此能够防止驱动部件(8)反向旋转,伴随着操作的返回操作 在无负载状态下进行提升和牵引操作时,通过进给点击(14)的啮合阻力来控制杆(16)。