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    • 1. 发明授权
    • Guideway transit system and automated vehicle used in this system
    • 本系统使用的轨道交通系统和自动化车辆
    • US06237504B1
    • 2001-05-29
    • US09407951
    • 1999-09-28
    • Toshio TanahashiNorihiko NakamuraKeiji AokiHiromitsu Kimpara
    • Toshio TanahashiNorihiko NakamuraKeiji AokiHiromitsu Kimpara
    • B61B1200
    • B62D1/265
    • A guideway transit system which can reduce a scale of an infrastructure while maintaining ride comfort for passengers of a vehicle is provided. The guideway transit system includes a noncontact vehicle guiding system and a contact vehicle guiding system. The noncontact vehicle guiding system detects information relating to a lateral position of a vehicle on a road and steers the vehicle to move along a predetermined path on the road based on the detected information. The contact vehicle guiding system which restricts a lateral position of the vehicle by a contact between a guide wheel which laterally projects from the vehicle and a guide wall provided on a side of the road. The guideway transit system further includes a controller which prohibits steering of the vehicle by the noncontact vehicle guiding system when a lateral position of the vehicle is restricted by the contact vehicle guiding system. An automated vehicle which is used in the guideway transit system is also provided.
    • 提供一种可以减少基础设施的规模,同时保持车辆乘客的乘坐舒适性的轨道交通系统。 轨道交通系统包括非接触车辆引导系统和接触车辆引导系统。 非接触车辆引导系统基于检测到的信息来检测与道路上的车辆的横向位置有关的信息,并且引导车辆沿道路上的预定路径移动。 接触式车辆引导系统通过在车辆侧面突出的导向轮与设置在道路侧的引导壁之间的接触来限制车辆的横向位置。 轨道交通系统还包括一个控制器,当车辆的横向位置被接触车辆引导系统限制时,该控制器禁止非接触式车辆引导系统对车辆的转向。 还提供了用于导轨传送系统的自动车辆。
    • 2. 发明授权
    • Vehicle guidance system
    • 车辆导向系统
    • US5815825A
    • 1998-09-29
    • US607027
    • 1996-02-26
    • Akihide TachibanaKeiji Aoki
    • Akihide TachibanaKeiji Aoki
    • G08G1/00B60W30/00G05D1/02G06F165/00
    • G08G1/22G05D1/024G05D1/0257G05D1/0261G05D1/0293G05D1/0246G05D1/0278G05D2201/0213
    • A vehicle running guidance system using magnetic markers for the purpose of reducing the number of magnetic markers to be laid on a road surface. The magnetic nails are laid as magnetic markers on a road. The radio wave generator tags are also laid. The radio wave generator tags transmit road curve data for a distance of about 100 m in the running direction. Power for the radio wave generator tags is supplied from a magnetic generator on a vehicle. On the vehicle, the relative displacement from a magnetic nail is detected by a magnetic sensor, and at the same time the road curve data from radio wave generator tags is received by a radio wave receiving device. The controller determines the amount of steering, based on relative displacement with respect to magnetic nails and road curve data, and supplies it to the actuator. Transmission of road curve data contributes to reducing the number of magnetic nails.
    • 一种使用磁性标记的车辆行驶引导系统,用于减少铺设在路面上的磁性标记的数量。 磁性钉子作为磁性标记铺设在道路上。 无线电波发生器标签也被放置。 无线电波发生器标签在运行方向上传输距离大约100米的道路曲线数据。 无线电波发生器标签的功率从车辆上的磁力发生器提供。 在车辆上,通过磁传感器检测与磁铁钉相对的位移,同时由无线电波接收装置接收来自无线电波发生器标签的道路曲线数据。 控制器基于相对于磁指甲和道路曲线数据的相对位移来确定转向量,并将其提供给致动器。 道路曲线数据的传输有助于减少磁指甲的数量。
    • 4. 发明授权
    • Apparatus for detecting fuel mixture ratio
    • 燃料混合比检测装置
    • US4749274A
    • 1988-06-07
    • US006064
    • 1987-01-22
    • Keiji AokiShinji Ikeda
    • Keiji AokiShinji Ikeda
    • G01N21/41G01N21/43
    • G01N21/43G01N2021/414
    • A prism has at least two optical planes and one of the planes is a boundary plane with mixed fuel. On one of two planes, a light emitting element is mounted and illuminates light to the boundary plane through the prism. A light receiving element receives light reflected from the boundary plane and converts the reflected light into electrical signals. Then a detector modifies the electrical signals from the light emitting element according to the detecting result and outputs them as detecting signals representative of the fuel mixture ratio. The temperature of the mixed fuel may be detected by a temperature sensor in which case the electrical signals are also modified to compensate for temperature changes of the mixed fuel.
    • 棱镜具有至少两个光学平面,其中一个平面是具有混合燃料的边界平面。 在两个平面之一上,安装发光元件,并通过棱镜将光照射到边界平面。 光接收元件接收从边界平面反射的光并将反射光转换成电信号。 然后,检测器根据检测结果修改来自发光元件的电信号,并将它们作为表示燃料混合比的检测信号输出。 混合燃料的温度可以由温度传感器检测,在这种情况下,电信号也被修改以补偿混合燃料的温度变化。
    • 7. 发明授权
    • Method and apparatus for detecting the ignition time point of an engine
    • 用于检测发动机点火时间点的方法和装置
    • US4556035A
    • 1985-12-03
    • US609185
    • 1984-05-11
    • Keiji AokiShinji Ikeda
    • Keiji AokiShinji Ikeda
    • F02B3/06F02D21/08F02D35/02F02P17/10F02P5/04F02D1/06
    • F02P17/10F02D35/022F02D35/028F02B3/06
    • A method of detecting the ignition time point of an engine by detecting the ignition of the engine by the detection of the burning flame light of the fuel in the combustion chamber of the engine and by photoelectrically converting the burning flame light thus detected into an electrical signal so as to determine the ignition time point of the fuel, which comprises the steps of: (a) converting the burning flame light detected by the flame sensor into a voltage signal through photoelectric converting means; (b) applying said voltage signal to a comparator and comparing said electrical signal with a reference voltage; (c) varying said reference voltage in accordance with the running conditions of the engine; and (d) detecting the ignition time point from the resulting output signal from said comparator, and an apparatus for the same. With this construction, the ignition time point of the engine can be accurately detected and improvements in the fuel consumption rate as well as the transmission efficiency can be realized thereby.
    • 通过检测发动机的燃烧室中的燃料的燃烧火焰光并通过将被检测的燃烧火焰光光电转换成电信号来检测发动机的点火来检测发动机的点火时间点的方法 以确定燃料的点燃时间点,其包括以下步骤:(a)通过光电转换装置将由火焰传感器检测到的燃烧火焰光转换成电压信号; (b)将所述电压信号施加到比较器并将所述电信号与参考电压进行比较; (c)根据发动机的运行条件改变所述参考电压; 和(d)从所得到的比较器的输出信号中检测点火时间点及其装置。 利用这种结构,可以准确地检测发动机的点火时间点,从而可以实现燃料消耗率的提高以及传动效率。
    • 8. 发明授权
    • Electronic control fuel supply system
    • 电控燃油供应系统
    • US4077364A
    • 1978-03-07
    • US721229
    • 1976-09-08
    • Keiji Aoki
    • Keiji Aoki
    • F02D41/34F02D41/14F02B3/00F02B33/00
    • F02D41/1482
    • An electronic control fuel supply system for use in an internal combustion engine. The system includes a .lambda. sensor adapted to digitally vary an output signal in response to the air-fuel ratio of an air-fuel mixture being supplied to the engine, and an integrating circuit. The input of the integrating circuit is connected to the output of the .lambda. sensor and has a time constant whereby the open duration of a fuel injection valve provided in the engine intake system is controlled by the output voltage of the integrating circuit. In this fuel supply system, the time constant of the integrating circuit is changed from a first value to a smaller second value after the start of acceleration of the internal combustion engine and during the time that the air-fuel ratio of the mixture is larger than a predetermined value. The integrating circuit is connected to a fuel-amount control circuit which in turn is connected to the fuel injection valve which opens into the intake system of the engine.
    • 一种用于内燃机的电子控制燃料供应系统。 该系统包括适于根据供给发动机的空气燃料混合物的空燃比数字地改变输出信号的λ传感器和积分电路。 积分电路的输入连接到λ传感器的输出,并具有时间常数,由此,设置在发动机进气系统中的燃料喷射阀的打开持续时间由积分电路的输出电压控制。 在该燃料供给系统中,在内燃机的加速开始后,在混合气体的空燃比大于的时间内,积分电路的时间常数从第一值变为较小的第二值 预定值。 积分电路连接到燃料量控制电路,该燃料量控制电路又连接到通向发动机的进气系统的燃料喷射阀。
    • 9. 发明授权
    • Gas component detection apparatus
    • 气体组分检测装置
    • US4066413A
    • 1978-01-03
    • US662956
    • 1976-03-01
    • Yoshihiro SegawaSusumu SatoEturo YasudaTadashi HattoriKeiji Aoki
    • Yoshihiro SegawaSusumu SatoEturo YasudaTadashi HattoriKeiji Aoki
    • F02D41/14G01N27/12G01N27/16
    • F02D41/1455G01N27/12
    • A gas component detection apparatus for detecting gas components contained in an exhaust gas from a combustion device and determining an air-fuel ratio of an air-fuel mixture supplied thereto. A gas component detecting element composed of a semiconductive metal oxide is contacted by the exhaust gas andexhibits variable electric resistances according to the concentrations of the gas components. The electric resistance is taken out as an electric signal through two electrodes disposed either on the surface of the detecting element exposed to the exhaust gas or within the detecting element adjacent that exposed surface. A porous coating layer having an exhaust gas permeability covers the surface of the detecting element exposed to the exhaust gas so as to prevent poisonous substances contained in the exhaust gas from depositing on that exposed surface of the detecting element. The coating layer is formed of a metal oxide having electrically insulating properties and carries therein a catalyst promoting an oxidation reaction of the exhaust gas. The detecting element exhibits an abruptly changed electric resistance when the actual air-fuel ratio of the air-fuel mixture supplied into the combustion device is deviated from a stoichiometrical air-fuel ratio, thereby enabling the control of the air-fuel ratio of the air-fuel mixture.
    • 10. 发明授权
    • Vehicle traveling guidance system
    • 车辆导航系统
    • US5987374A
    • 1999-11-16
    • US884478
    • 1997-06-27
    • Eisaku AkutsuKeiji Aoki
    • Eisaku AkutsuKeiji Aoki
    • G08G1/09G05D1/02G08G1/01G08G1/16
    • G08G1/0104G08G1/164
    • A traveling guidance system provides a traveling vehicle with various types of data indicating the flow of traffic to smooth travel. The speed and pass time data of the preceding vehicle is sent to an electronic wave tag laid on a road surface. The electronic wave tag then sends the data to the succeeding vehicle when it passes over the electronic wave tag. Furthermore, the received data is sent to a control center through communication equipment, which predicts the occurrence of traffic congestion based on the speed and pass time data of vehicles at each point and sends the prediction to electronic wave tags at points where the occurrence of traffic congestion is predicted. Traffic data from the control center is sent to passing vehicles through the electronic wave tag and each passing vehicle controls its travel based on the traffic data.
    • 行驶导引系统为行驶车辆提供各种数据,指示交通流量平稳行进。 将前一车辆的速度和通过时间数据发送到铺设在路面上的电子波标签。 电子波标签经过电子波标签后,将数据发送给后续车辆。 此外,接收到的数据通过通信设备通过通信设备发送到控制中心,该设备基于每个点的车辆的速度和通过时间数据来预测交通拥堵的发生,并将该预测发送到电子波标签处, 预测拥堵。 来自控制中心的交通数据通过电子波标签发送给过往的车辆,每个过往车辆根据交通数据控制其行驶。