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    • 1. 发明授权
    • Vehicle body floor structure
    • 车体地板结构
    • US08118125B2
    • 2012-02-21
    • US12705717
    • 2010-02-15
    • Hiroyoshi SuzukiSayaka Okuzaki
    • Hiroyoshi SuzukiSayaka Okuzaki
    • B60R16/04
    • B62D25/20B60K1/04B60K15/063B60N2/4235B62D25/025B62D25/2036
    • Vehicle body floor structure has a floor tunnel provided on a laterally central portion of a vehicle body floor panel and extending in a front-rear direction of a vehicle body, a desired stored component being stored in the floor tunnel. The stored component has a passageway formed therein to extend in a width direction of the vehicle body. The floor structure also has a cross member passed through the passageway of the stored component, the stored component is supported on the cross member via a resilient member, and the cross member is fixedly fastened at its opposite ends to the inner surfaces of opposed side walls of the floor tunnel.
    • 车体地板结构具有设置在车体地板面板的横向中央部并且沿车体的前后方向延伸的地板通道,所希望的存储部件被存储在地板隧道中。 所存储的部件具有形成在其中的通道,以在车体的宽度方向上延伸。 地板结构还具有穿过所存储的部件的通道的横向构件,所存储的部件经由弹性构件支撑在横梁上,并且横向构件在其相对端部固定地紧固到相对的侧壁的内表面 的地板隧道。
    • 2. 发明授权
    • Operating pedal device for automobile
    • 汽车踏板装置
    • US07383752B2
    • 2008-06-10
    • US11054364
    • 2005-02-10
    • Hiroyoshi Suzuki
    • Hiroyoshi Suzuki
    • G05G1/14B60K28/10B60T7/12B60T7/22
    • B60T7/065B60R21/09G05G1/32G05G1/36G05G1/44G05G1/46Y10T74/20528Y10T74/20888
    • An operating pedal device for an automobile, which is designed to suppress rearward movement of a depression portion of an operating pedal caused by rearward movement of a dashboard upon a frontal collision of the automobile. An operating member is opposed to a control lever forward-rearward swingably supported on a dashboard or a pedal bracket for supporting an operating pedal. The operating member is supported on a steering hanger beam in the rear of the control lever to swing the control lever forward in response to rearward movement of the dashboard upon frontal collision of an automobile. The operating pedal is provided with an engagement portion to be brought into engagement with the control lever upon forward swing of the control lever to force forward swing of the operating pedal.
    • 一种用于汽车的操作踏板装置,其被设计成抑制在汽车的正面碰撞时由仪表板的向后运动引起的操作踏板的凹陷部分的向后运动。 操作构件与向前后摆动地支撑在用于支撑操作踏板的仪表板或踏板支架上的控制杆相对。 操作构件被支撑在控制杆后部的转向衣架梁上,以响应于仪表板在汽车正面碰撞时的向后运动而向前摆动控制杆。 操作踏板设置有接合部分,以在控制杆向前摆动时与控制杆接合以迫使操作踏板的向前摆动。
    • 3. 发明申请
    • Laser beam inspection equipment
    • 激光束检测设备
    • US20060164109A1
    • 2006-07-27
    • US10542650
    • 2004-01-16
    • Hirotoshi TeradaHiroyoshi SuzukiToshimichi Ishizuka
    • Hirotoshi TeradaHiroyoshi SuzukiToshimichi Ishizuka
    • G01R31/265G01R33/12
    • G01R31/311
    • The present invention relates to a laser beam inspection apparatus for inspecting a defect on a sample such as semiconductor integrated circuits by using a laser beam. The laser beam inspection apparatus irradiates a laser beam to a sample supplied with a constant current or applied by a constant voltage, and then detects indirectly a change in current or a change in electric field corresponding to a change in the value of resistance developed by scanning the laser beam along the surface of the sample. For example, the change in current is conducted indirectly in such a manner that a magnetic field detecting apparatus detects the change in the magnetic field caused by a current flowing the power supply line provided between a constant voltage source and a sample, and whereby it becomes possible to specify the defective area of the sample based on the detection of the change in the magnetic field.
    • 本发明涉及一种用于通过使用激光束检查诸如半导体集成电路的样本上的缺陷的激光束检查装置。 激光束检查装置将激光束照射到供给恒定电流的样品或通过恒定电压施加,然后间接检测电流的变化或电场的变化,与扫描所产生的电阻值的变化相对应 沿着样品表面的激光束。 例如,电流的变化是以磁场检测装置检测由流过设置在恒定电压源和试样之间的电源线的电流引起的磁场变化的方式间接进行的,从而成为 可以基于磁场变化的检测来指定样本的缺陷区域。
    • 4. 发明授权
    • Device for detecting alcoholic content
    • 用于检测酒精含量的装置
    • US5074659A
    • 1991-12-24
    • US644769
    • 1991-01-23
    • Hiroyoshi SuzukiKenji OgawaHiroko Maekawa
    • Hiroyoshi SuzukiKenji OgawaHiroko Maekawa
    • G01N21/43
    • G01N21/43
    • The present invention is directed to a device for detecting alcoholic content in a fuel by finding its refractive index, which is of such a construction that a refractive interface for the fuel is formed on the half way of a light transmission body; a light emitting element is provided at one end of the light transmission body, from which incident light is introduced into said refractive interface; and a single dimensional light position sensing detector is provided at the other end of the light transmitting body, into which the light refracted at the refractive interface is introduced; or it is of such a construction that a light emitting element and a single dimensional light position sensing detector are provided at one end of a light transmission body; a refractive interface and a reflecting surface are provided at the other end of the light transmission body, wherein an incident light from the light emitting element, which has entered into the refractive interface and has been refracted there, is reflected at the reflecting surface, after which the reflected light is again caused to enter into the refractive interface, and is subsequently caused to enter into the single dimensional light position sensing detector.
    • 5. 发明授权
    • Optical transceiver apparatus for detecting distance between two cars
    • 用于检测两辆车之间距离的光收发器
    • US5039217A
    • 1991-08-13
    • US498674
    • 1990-03-26
    • Hiroko MaekawaHiroyoshi SuzukiKenji Ogawa
    • Hiroko MaekawaHiroyoshi SuzukiKenji Ogawa
    • G01C3/06G01B11/00G01B11/26G01C3/18
    • G01C3/18
    • An apparatus for detecting the distance between one's car and the car ahead, together with the angle between the axes of the two cars. The apparatus has a pair of driving optical systems disposed at a predetermined distance from each other, each driving optical system comprising an optical system having a light projector which projects pulse light having a specific code toward the car which is ahead of the one's car and a light receiver which receives the reflected pulse light from the car ahead, the light projector and receiver being disposed in so close proximity to each other that the respective optical axes can be considered to be on substantially the same axis, and a driving system for adjusting the angle of projection of the light projector on the basis of a signal from the light receiver. The apparatus further has a central processing unit which measures the angle of projection of the pulse light from the light projector when the light receiver of each of the driving optical systems detects the reflected pulse light, thereby detecting the distance between the one's car and the car ahead, together with the angle between the axes of the two cars.
    • 一种用于检测轿厢与前方轿厢之间的距离的装置,以及两车的轴线之间的角度。 该装置具有彼此隔开预定距离的一对驱动光学系统,每个驱动光学系统包括一个光学系统,该光学系统具有一个投光器,该光学系统将具有特定代码的脉冲光投射到在汽车前方的轿厢,以及 光接收器,其从前方接收反射的脉冲光,所述光投射器和接收器设置成彼此非常接近,使得各个光轴可以被认为在基本上相同的轴上;以及驱动系统,用于调整 基于来自光接收器的信号的投影仪的投影角度。 该装置还具有中央处理单元,当每个驱动光学系统的光接收器检测到反射的脉冲光时,该中央处理单元测量来自该投影仪的脉冲光的投影角度,从而检测该车辆与该车辆之间的距离 在前面,与两辆车的轴线之间的角度。
    • 6. 发明授权
    • Storage apparatus and method for controlling the same using loopback diagnosis to detect failure
    • 使用环回诊断来检测故障的存储装置及其控制方法
    • US08443237B2
    • 2013-05-14
    • US12744341
    • 2010-05-12
    • Yusuke KonishiHiroshi IzutaHiroyoshi Suzuki
    • Yusuke KonishiHiroshi IzutaHiroyoshi Suzuki
    • G06F11/00
    • G06F11/079G06F11/0727
    • An objective is to allow a storage apparatus to accurately locate a failure site upon occurrence of a failure. Provided is a storage apparatus 10 including: a controller 11 that performs data input and data output into and from a storage drive 171 in response to a data input/output request sent from an external device 2; and expanders 112, 121 each having a switch circuit 1122 provided with a physical port (Phy 1121). In this storage apparatus 10, the controller 11 performs a loopback diagnosis on the expanders 112, 121, and performs a connection-based diagnosis on a target device by sending a connection frame thereto, the target device being a device detected as having a failure. When a response to the connection frame includes information indicating a failure, the controller 11 disables the physical port to which the target device is coupled, or the physical port of the switch circuit 1121 existing on a path from the controller 11 to the target device.
    • 目的是允许存储设备在发生故障时准确地定位故障现场。 提供了一种存储装置10,包括:响应于从外部设备2发送的数据输入/输出请求,执行数据输入和从存储驱动器171输出数据的控制器11; 和扩展器112,121,每个扩展器具有设置有物理端口(Phy 1121)的开关电路1122。 在该存储装置10中,控制器11对扩展器112,121进行环回诊断,并且通过向目标装置发送连接帧来对目标装置进行基于连接的诊断,目标装置是被检测为具有故障的装置。 当对连接帧的响应包括指示故障的信息时,控制器11禁用与目标设备耦合的物理端口或存在于从控制器11到目标设备的路径上的开关电路1121的物理端口。
    • 7. 发明申请
    • STORAGE APPARATUS AND METHOD FOR CONTROLLING THE SAME
    • 存储装置及其控制方法
    • US20110283150A1
    • 2011-11-17
    • US12744341
    • 2010-05-12
    • Yusuke KonishiHiroshi IzutaHiroyoshi Suzuki
    • Yusuke KonishiHiroshi IzutaHiroyoshi Suzuki
    • G06F11/26
    • G06F11/079G06F11/0727
    • An objective is to allow a storage apparatus to accurately locate a failure site upon occurrence of a failure. Provided is a storage apparatus 10 including: a controller 11 that performs data input and data output into and from a storage drive 171 in response to a data input/output request sent from an external device 2; and expanders 112, 121 each having a switch circuit 1122 provided with a physical port (Phy 1121). In this storage apparatus 10, the controller 11 performs a loopback diagnosis on the expanders 112, 121, and performs a connection-based diagnosis on a target device by sending a connection frame thereto, the target device being a device detected as having a failure. When a response to the connection frame includes information indicating a failure, the controller 11 disables the physical port to which the target device is coupled, or the physical port of the switch circuit 1121 existing on a path from the controller 11 to the target device.
    • 目的是允许存储设备在发生故障时准确地定位故障现场。 提供了一种存储装置10,包括:响应于从外部设备2发送的数据输入/输出请求,执行数据输入和从存储驱动器171输出数据的控制器11; 和扩展器112,121,每个扩展器具有设置有物理端口(Phy 1121)的开关电路1122。 在该存储装置10中,控制器11对扩展器112,121进行环回诊断,并且通过向目标装置发送连接帧来对目标装置进行基于连接的诊断,目标装置是被检测为具有故障的装置。 当对连接帧的响应包括指示故障的信息时,控制器11禁用与目标设备耦合的物理端口或存在于从控制器11到目标设备的路径上的开关电路1121的物理端口。
    • 8. 发明申请
    • VEHICLE ELECTRIC POWER SUPPLY SYSTEM
    • 车用电力系统
    • US20110233996A1
    • 2011-09-29
    • US13038586
    • 2011-03-02
    • Takeshi KATOHiroyoshi SUZUKITakamichi SHIMADA
    • Takeshi KATOHiroyoshi SUZUKITakamichi SHIMADA
    • B60L1/00
    • B60L11/1887B60L11/1892B60L11/1896Y02T90/34
    • A vehicle electric power supply system includes: an electric power generating source; a battery; a first voltage converter configured to raise a voltage of the electric power generating source; a second voltage converter configured to raise a voltage of the battery; and an electric power converter configured to supply voltages, which are obtained by conversions by the respective first and second voltage converters, to a vehicle load. A power control unit, which includes the first voltage converter, the second voltage converter and the electric power converter, and the battery are integrated into a unitary component, and are placed in a front portion of a vehicle while isolated from a vehicle interior. Accordingly, it is possible to widen the vehicle interior and a luggage containing space in the vehicle's rear portion, and to avoid increase in the weight of the vehicle.
    • 一种车辆电力供应系统,包括:发电源; 一个电池 第一电压转换器,被配置为升高所述发电源的电压; 配置成升高电池电压的第二电压转换器; 以及电力转换器,被配置为将通过各个第一和第二电压转换器的转换获得的电压提供给车辆负载。 包括第一电压转换器,第二电压转换器和电力转换器的电力控制单元和电池被集成到一体的部件中,并且被放置在与车辆内部隔离的车辆的前部。 因此,可以使车辆内部和车辆后部的行李容纳空间扩大,并且避免车辆重量的增加。
    • 9. 发明申请
    • Fuel cell vehicle having support frame which couples side frames in width direction of vehicle
    • 燃料电池车辆具有在车辆的宽度方向上联接侧架的支撑框架
    • US20070215397A1
    • 2007-09-20
    • US11702823
    • 2007-02-06
    • Hiroyoshi Suzuki
    • Hiroyoshi Suzuki
    • B60L11/18H01M8/02
    • B60K1/00B60K11/04B60Y2306/01B62D21/152
    • A fuel cell vehicle includes: a motor chamber provided in a front part of the vehicle; side frames extending on right and left sides of the vehicle in a front-to-back direction of the vehicle; a fuel cell; a motor for driving the vehicle, wherein the motor is driven using electric power generated by the fuel cell, and the fuel cell, the motor, and the side frames are installed in the motor chamber; and a support frame for coupling rear portions of the side frames with each other in a width direction of the vehicle, and for supporting the fuel cell installed on the support frame, wherein the motor is arranged below the support frame. The fuel cell vehicle may further include a guide member for guiding the motor toward a lower-back side of the support frame when a front collision of the vehicle occurs.
    • 燃料电池车辆包括:设置在车辆前部的电动机室; 在车辆的前后方向上在车辆的左右两侧延伸的侧框架; 燃料电池 用于驱动车辆的电动机,其中使用由所述燃料电池产生的电力来驱动所述电动机,并且所述燃料电池,所述电动机和所述侧架被安装在所述电动机室中; 以及支撑框架,用于在车辆的宽度方向上彼此连接侧框架的后部,并且用于支撑安装在支撑框架上的燃料电池,其中电动机布置在支撑框架的下方。 燃料电池车辆还可以包括引导构件,用于当车辆的前部碰撞发生时将马达朝向支撑框架的下后侧引导。
    • 10. 发明授权
    • Laser beam inspection equipment
    • 激光束检测设备
    • US07230436B2
    • 2007-06-12
    • US10542650
    • 2004-01-16
    • Hirotoshi TeradaHiroyoshi SuzukiToshimichi Ishizuka
    • Hirotoshi TeradaHiroyoshi SuzukiToshimichi Ishizuka
    • G01R31/302
    • G01R31/311
    • The present invention relates to a laser beam inspection apparatus for inspecting a defect on a sample such as semiconductor integrated circuits by using a laser beam. The laser beam inspection apparatus irradiates a laser beam to a sample supplied with a constant current or applied by a constant voltage, and then detects indirectly a change in current or a change in electric field corresponding to a change in the value of resistance developed by scanning the laser beam along the surface of the sample. For example, the change in current is conducted indirectly in such a manner that a magnetic field detecting apparatus detects the change in the magnetic field caused by a current flowing the power supply line provided between a constant voltage source and a sample, and whereby it becomes possible to specify the defective area of the sample based on the detection of the change in the magnetic field.
    • 本发明涉及一种用于通过使用激光束检查诸如半导体集成电路的样本上的缺陷的激光束检查装置。 激光束检查装置将激光束照射到供给恒定电流的样品或通过恒定电压施加,然后间接检测电流的变化或电场的变化,与扫描所产生的电阻值的变化相对应 沿着样品表面的激光束。 例如,电流的变化是以磁场检测装置检测由流过设置在恒定电压源和试样之间的电源线的电流引起的磁场变化的方式间接进行的,从而成为 可以基于磁场变化的检测来指定样本的缺陷区域。