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    • 3. 发明授权
    • Fuel cell system and method of controlling the same
    • 燃料电池系统及其控制方法
    • US09017887B2
    • 2015-04-28
    • US12883213
    • 2010-09-16
    • Hideyuki TanakaToru Bisaka
    • Hideyuki TanakaToru Bisaka
    • H01M8/04
    • H01M8/04701H01M8/04067H01M8/04089H01M8/04231Y02E60/50
    • A fuel cell system includes an exhaust pipe through which anode purge gas is discharged into the atmosphere, a heat medium passage through which heat medium is flowed, a circulation pump for circulating the heat medium through the heat medium passage, a heat exchanger provided in the heat medium passage, a heat exchanger fan for generating airflow through the heat exchanger, and a guide by which the airflow is guided so as to diffuse the anode purge gas. The circulation pump and the heat exchanger fan are operated during anode purge in such a way that the heat exchanger fan is operated regardless of the heat medium temperature, and a flow rate of the heat medium flowing through the heat medium passage is zero or lower than a flow rate when output of a fuel cell is maximum.
    • 燃料电池系统包括排气管,通过该排气管将阳极净化气体排放到大气中,通过热介质流过的热介质通道,用于使热介质循环通过热介质通道的循环泵, 热介质通道,用于产生通过热交换器的气流的热交换器风扇,以及用于引导气流以引导阳极吹扫气体的引导件。 循环泵和热交换器风扇在阳极吹扫期间操作,使得热交换器风扇无论热介质温度如何运行,并且流过热介质通道的热介质的流量为零或低于 当燃料电池的输出为最大时的流量。
    • 4. 发明授权
    • Laser radar for three-dimensional scanning
    • 激光雷达三维扫描
    • US08681319B2
    • 2014-03-25
    • US13423656
    • 2012-03-19
    • Hideyuki TanakaYoshiki Mitsuno
    • Hideyuki TanakaYoshiki Mitsuno
    • G01C3/08
    • G01S7/4817G01S17/42
    • In a laser radar, a first scanning member scans a laser beam in a virtual plane passing through an axis. A control means controls displacements of the first scanning member to change a scan beam angle in the plane. A second scanning member deflects the scanned laser beam and again scans the deflected laser beam toward an external space. A light collecting means collects reflected light. A driving means rotates both the second scanning member and the light collecting means about the axis. The second scanning member has a deflecting surface to deflect the laser beam. The deflecting surface is formed around the axis and has a plurality of reflecting surfaces coaxially arranged centering on the axis. The reflecting surfaces have different inclinations with respect to a horizontal plane perpendicular to the axis.
    • 在激光雷达中,第一扫描构件扫描通过轴的虚拟平面中的激光束。 控制装置控制第一扫描构件的位移以改变平面中的扫描光束角度。 第二扫描构件使扫描的激光束偏转并再次将偏转的激光束扫描到外部空间。 集光装置收集反射光。 驱动装置使第二扫描构件和集光装置绕轴线旋转。 第二扫描构件具有使激光束偏转的偏转表面。 偏转面围绕轴线形成,并且具有以轴为中心同轴设置的多个反射面。 反射面相对于垂直于轴的水平面具有不同的倾斜度。
    • 5. 发明授权
    • Internal combustion engine
    • 内燃机
    • US08601810B2
    • 2013-12-10
    • US12612184
    • 2009-11-04
    • Hideyuki TanakaNoriyuki InoueYohei Akashi
    • Hideyuki TanakaNoriyuki InoueYohei Akashi
    • F02B23/00F02B33/44
    • F02B37/18F02B37/14F02B39/10Y02T10/144
    • Provided is an internal combustion engine for improving fuel-economy performance in any of the case where supercharging performed by an electric supercharger is required and the case where the supercharging is not required. The internal combustion engine includes: an electric supercharger; a supercharger; an electric motor; and a controller, the electric supercharger being for compressing an intake air by rotation of the supercharger caused with rotation of the exhaust turbine by an exhaust gas energy to perform supercharging and for rotationally driving the supercharger with electric-motor assistance by the electric motor; an exhaust bypass passage provided to bypass the exhaust turbine; and an opening and closing the exhaust bypass passage unit. In the internal combustion engine, the opening and closing the exhaust bypass passage unit opens the exhaust bypass passage until the supercharging is started by the electric supercharger.
    • 本发明提供一种用于在需要由电动增压器进行的增压以及不需要增压的情况下提高燃油经济性的内燃机。 内燃机包括:电动增压器; 增压器 电动马达 以及控制器,所述电动增压器用于通过所述排气涡轮机的旋转引起的增压器的旋转而通过排气能量压缩进气,以进行增压,并且通过所述电动机的电动机辅助来旋转地驱动所述增压器; 排气旁路通道,其设置成绕过所述排气涡轮机; 以及打开和关闭排气旁通通道单元。 在内燃机中,打开和关闭排气旁路通道单元打开排气旁路通道,直到通过电动增压器开始增压。
    • 6. 发明申请
    • LOADING GUIDE SYSTEM
    • 装载指导系统
    • US20120290178A1
    • 2012-11-15
    • US13522505
    • 2011-01-19
    • Hideaki SuzukiYoshinori FurunoKozo NakamuraShinya YudaHiroki UchiyamaHideyuki TanakaKatsuaki TanakaToshikazu Minoshima
    • Hideaki SuzukiYoshinori FurunoKozo NakamuraShinya YudaHiroki UchiyamaHideyuki TanakaKatsuaki TanakaToshikazu Minoshima
    • E02F9/26
    • E02F9/265E02F9/2045G01G19/08G01G19/083G01G23/3728
    • Provided is a system by which a loading machine (202) guides a hauling machine (201) on the weight and the position of materials loaded on the hauling machine (202). The system includes: loaded state detection means (5, 6) for detecting the weight “p” and position “x” of materials already loaded on the hauling machine; hauling basic information storage means (7) for storing hauling basic information concerning the loaded state of the hauling machine; loading performance information storage means (11) for storing the loading performance information concerning the loading capacity of the loading machine; next operation calculation means (10) for calculating the next loading weight and the next loading position at which the loading machine should load materials in the next operation based on the hauling basic information, the loading performance information, and the weight and the position of materials on the hauling machine; and a display unit (12) that guides the operator of the loading machine on the next loading weight and the next loading position. This system enables the loading machine to load materials onto the hauling machine with high working efficiency.
    • 提供了一种系统,通过该系统,装载机(202)引导牵引机(201)重量和装载在牵引机(202)上的材料的位置。 该系统包括:用于检测已经装载在牵引机上的材料的重量p和位置x的装载状态检测装置(5,6) 运送基本信息存储装置(7),用于存储关于牵引机的装载状态的运输基本信息; 装载性能信息存储装置(11),用于存储关于装载机的装载能力的装载性能信息; 下一个操作计算装置(10),用于计算下一个装载重量和下一个装载位置,在该装载位置下,装载机将根据拖运基本信息,装载性能信息以及材料的重量和位置在下一个操作中装载材料 在牵引机上 以及显示单元(12),其引导装载机的操作者处于下一个装载重量和下一个装载位置。 该系统使装载机以高工作效率将材料装载到牵引机上。
    • 7. 发明授权
    • Vehicular steering apparatus
    • 车辆转向装置
    • US08209089B2
    • 2012-06-26
    • US12015784
    • 2008-01-17
    • Hideyuki TanakaTakanori MatsunagaKyohei Koyama
    • Hideyuki TanakaTakanori MatsunagaKyohei Koyama
    • A01B69/00B62D6/00B62D11/00B62D12/00B63G8/20B63H25/04G05D1/00G06F7/00G06F17/00G06F19/00
    • B62D6/008B62D5/0463B62D6/04
    • A vehicular steering apparatus can accurately detect occurrence of a disturbance even where steering torque is limited, and can achieve a low cost and simple construction. The apparatus includes a road surface reaction torque detector that detects an actual road surface reaction torque received by tires of a vehicle from a road surface, a vehicle speed detector that detects a vehicle speed, a steering wheel angle detector that detects a steering angle of a steering wheel, a target road surface reaction torque calculation section that calculates a target road surface reaction torque based on the vehicle speed and the steering wheel angle, and a disturbance occurrence detection section that detects occurrence of a disturbance to the vehicle and outputs a disturbance state signal. The disturbance occurrence detection section includes a sign comparison section that compares signs of the actual and target road surface reaction torques.
    • 车辆转向装置即使在转向转矩受到限制的情况下,也能够准确地检测出发生的干扰,能够实现低成本,结构简单。 该装置包括路面反作用转矩检测器,其检测来自路面的车辆的轮胎接收到的实际路面反作用转矩,检测车速的车速检测器,检测车辆的转向角的方向盘角度检测器 方向盘,基于车速和方向盘角度计算目标路面反作用转矩的目标路面反作用转矩计算部,以及检测车辆的干扰发生的扰动发生检测部,并输出干扰状态 信号。 干扰发生检测部分包括比较实际和目标路面反作用转矩的符号的符号比较部分。
    • 8. 发明申请
    • HIGH-PRESSURE LIQUID JET CLEANER AND HIGH-PRESSURE LIQUID JET CLEANING METHOD FOR CLEANING THIN FILM SOLAR CELL PANEL
    • 高压液体清洗机和清洁薄膜太阳能电池板的高压液体喷射清洗方法
    • US20120125365A1
    • 2012-05-24
    • US13263625
    • 2010-03-31
    • Hideaki IkeKeiji TsujitaHideyuki TanakaMorimasa KugeMitsuru NomuraMasaaki Tomonaga
    • Hideaki IkeKeiji TsujitaHideyuki TanakaMorimasa KugeMitsuru NomuraMasaaki Tomonaga
    • B08B3/02B08B7/04
    • B08B3/022B08B3/024F24S40/20H02S40/10Y02E10/40Y02E10/50
    • Provided is a high-pressure liquid jet cleaner which is capable of assuredly removing particles adhered to the inside of a large number of scribe lines formed at consistent intervals in a thin film solar cell panel and which eliminates a fear that the surface of a thin film formed at the surface of the solar cell panel may be damaged or that the thin film may be detached. Jet nozzles are arranged at consistent intervals in the longitudinal direction of a nozzle holder, corresponding to the positions of the respective scribe lines of the thin film solar cell panel. The nozzle holder is supported by supports provided at both ends of the nozzle holder in a manner to allow the nozzle holder to move in the longitudinal direction of the nozzle holder. While the solar cell panel is conveyed in relation to the nozzle holder in parallel to the scribe lines, a high-pressure liquid is jetted out in a straight line from the jet nozzles of the nozzle holder to the large number of respective scribe lines of the solar cell panel for cleaning, such that the high-pressure liquid jetting direction of each jet nozzle is parallel to that of the other jet nozzles.
    • 本发明提供一种高压液体喷射清洁器,其能够确实地除去粘附在薄膜太阳能电池板中以一定间隔形成的大量划线的内部的颗粒,并且消除了薄膜的表面的恐惧 形成在太阳能电池面板的表面可能被损坏或薄膜可能被分离。 对应于薄膜太阳能电池板的各个划线的位置,喷嘴保持器的纵向方向以一致的间隔布置喷嘴。 喷嘴保持器以能够使喷嘴保持件沿喷嘴保持架的长度方向移动的方式由设置在喷嘴保持架的两端的支撑体支撑。 当太阳能电池板相对于喷嘴保持器平行于划痕线传送时,高压液体从喷嘴保持器的喷嘴喷射到直线上的大量各个划线 用于清洁的太阳能电池板,使得每个喷嘴的高压液体喷射方向平行于其它喷嘴的喷射方向。