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    • 2. 发明申请
    • Exterior element sensor
    • 外部元件传感器
    • US20060006318A1
    • 2006-01-12
    • US11172818
    • 2005-07-05
    • Kiyomitsu IshikawaHiroshi Takata
    • Kiyomitsu IshikawaHiroshi Takata
    • G02B6/42
    • G01N21/552B60S1/0822B60S1/0837B60S1/0888
    • An exterior element sensor can include an optical element mounted on a window. The optical element can include a cylindrical lens having both ends shaped spherically and a central portion that exerts little or no influence on exterior element detection (such as rain, snow, ice, water, liquid, debris, or other materials) when visible light transmits therethrough. In addition, infrared or other light can be used to detect exterior elements located on the window. A black filter can be employed, if desired, which blocks visible light and transmits infrared light therethrough to separate visible light from infrared light, thereby allowing the exterior element sensor to be used together with an exterior light sensor without losing accuracy.
    • 外部元件传感器可以包括安装在窗户上的光学元件。 光学元件可以包括圆柱形透镜,其两端成球形,中心部分在可见光透射时对外部元件检测(例如雨,雪,冰,水,液体,碎片或其他材料)施加很小或不影响 通过。 此外,红外线或其他光线可用于检测位于窗口上的外部元件。 如果需要,可以使用黑色滤光器,其阻挡可见光并透射红外光以将可见光与红外光分离,从而允许外部元件传感器与外部光传感器一起使用而不会损失精度。
    • 3. 发明授权
    • Optical droplet sensor and method
    • 光学液滴传感器和方法
    • US07492459B2
    • 2009-02-17
    • US11276837
    • 2006-03-16
    • Hiroshi TakataKiyomitsu IshikawaYorimi Yokoyama
    • Hiroshi TakataKiyomitsu IshikawaYorimi Yokoyama
    • G01N21/55
    • G01N21/552B60S1/0822B60S1/0837
    • An optical droplet sensor can include a light emitter, a light receiver and a light guide, and can be adhered onto an inner surface of a windshield via a light transmissive adhesive layer. The light guide can include a light entry surface and a light exit surface formed of respective convex-shaped arbitrary curved surfaces, a light entry/exit surface formed of a flat plane, and a reflecting surface that can be made of a metal film. The light emitted from the light emitter is given an optimized light distribution at the light entry surface and introduced into the light guide. The light is then reflected from the metal film-applied reflecting surface toward an outer surface of the windshield. The light totally reflected at the outer surface returns to the light exit surface and is given an optimized light distribution at the light exit surface. The light is then externally transmitted/released from the light guide and collected on a light-receiving surface of the light receiver.
    • 光学液滴传感器可以包括光发射器,光接收器和光导,并且可以通过透光粘合剂层粘附到挡风玻璃的内表面上。 导光体可以包括光入射面和由各凸状任意曲面形成的光出射面,由平面形成的光入射面和可由金属膜构成的反射面。 从光发射器发射的光在光入射表面处被给予优化的光分布并且被引入到光导中。 然后将光从金属膜施加的反射表面反射到挡风玻璃的外表面。 在外表面全反射的光返回光出射面,并在光出射面给出优化的光分布。 然后光从光导外部传输/释放,并被收集在光接收器的光接收表面上。
    • 4. 发明授权
    • Car air conditioner
    • 汽车空调
    • US5588302A
    • 1996-12-31
    • US445923
    • 1995-05-22
    • Yoshitaka SuzukiMasako KondoTakashi EndoToshihiro ZamaYuji ShimodaHiroshi Takata
    • Yoshitaka SuzukiMasako KondoTakashi EndoToshihiro ZamaYuji ShimodaHiroshi Takata
    • B60H1/32B60H3/00B60H1/00
    • B60H1/3207
    • A car air conditioner is free from the problem of insufficient and frustrating defrosting effect of a conventional air conditioner that becomes apparent when wet air is blown onto the misted front window pane of the car in a rainy season by selecting a defroster position on the outlet vent selection switch of the air conditioner. In the control circuit of the air conditioner, the defroster contact 2a of the outlet vent selection switch 2 is connected to a pulse shaping circuit 9 for generating a pulse whenever selected and the pulse shaping circuit 9 is by turn connected to the reset terminal PR of a D flip-flop circuit 8, while the inverted output terminal Q2 of the D flip-flop circuit 8 is connected to an AC relay 5 by way of a NOR-gate 10 that calculates the logical sum of the logical value "L" generated when the compressor contact 3a of flow rate control switch 3 is closed. Thus, when the flow rate control switch 3 is closed and the defroster contact 2a of the outlet vent selection switch 2 is selected, the circuit automatically drive the compressor to solve the problem.
    • 汽车空调器没有常规空调器的不足和令人沮丧的除霜效果的问题,当通过选择排气口上的除霜器位置在雨季中将湿气吹到汽车的雾化前窗玻璃上时变得明显 空调选择开关。 在空气调节器的控制电路中,出气口选择开关2的除霜器触点2a连接到脉冲整形电路9,脉冲整形电路9每当选择时产生脉冲,脉冲整形电路9依次连接到复位端子PR D触发器电路8,而D触发器电路8的反相输出端子Q2通过NOR门10连接到AC继电器5,NOR-门10计算产生的逻辑值“L”的逻辑和 当流量控制开关3的压缩机接点3a关闭时。 因此,当流量控制开关3闭合并且排出口选择开关2的除霜器触点2a被选择时,电路自动驱动压缩机来解决问题。
    • 5. 发明申请
    • OPTICAL DROPLET SENSOR AND METHOD
    • 光学传感器和方法
    • US20060215164A1
    • 2006-09-28
    • US11276837
    • 2006-03-16
    • Hiroshi TakataKiyomitsu IshikawaYorimi Yokoyama
    • Hiroshi TakataKiyomitsu IshikawaYorimi Yokoyama
    • G01N21/55
    • G01N21/552B60S1/0822B60S1/0837
    • An optical droplet sensor can include a light emitter, a light receiver and a light guide, and can be adhered onto an inner surface of a windshield via a light transmissive adhesive layer. The light guide can include a light entry surface and a light exit surface formed of respective convex-shaped arbitrary curved surfaces, a light entry/exit surface formed of a flat plane, and a reflecting surface that can be made of a metal film. The light emitted from the light emitter is given an optimized light distribution at the light entry surface and introduced into the light guide. The light is then reflected from the metal film-applied reflecting surface toward an outer surface of the windshield. The light totally reflected at the outer surface returns to the light exit surface and is given an optimized light distribution at the light exit surface. The light is then externally transmitted/released from the light guide and collected on a light-receiving surface of the light receiver.
    • 光学液滴传感器可以包括光发射器,光接收器和光导,并且可以通过透光粘合剂层粘附到挡风玻璃的内表面上。 导光体可以包括光入射面和由各凸状任意曲面形成的光出射面,由平面形成的光入射面和可由金属膜构成的反射面。 从光发射器发射的光在光入射表面处被给予优化的光分布并且被引入到光导中。 然后将光从金属膜施加的反射表面反射到挡风玻璃的外表面。 在外表面全反射的光返回光出射面,并在光出射面给出优化的光分布。 然后光从光导外部传输/释放,并被收集在光接收器的光接收表面上。
    • 7. 发明授权
    • Exterior element sensor
    • 外部元件传感器
    • US07348586B2
    • 2008-03-25
    • US11172818
    • 2005-07-05
    • Kiyomitsu IshikawaHiroshi Takata
    • Kiyomitsu IshikawaHiroshi Takata
    • G01N15/06
    • G01N21/552B60S1/0822B60S1/0837B60S1/0888
    • An exterior element sensor can include an optical element mounted on a window. The optical element can include a cylindrical lens having both ends shaped spherically and a central portion that exerts little or no influence on exterior element detection (such as rain, snow, ice, water, liquid, debris, or other materials) when visible light transmits therethrough. In addition, infrared or other light can be used to detect exterior elements located on the window. A black filter can be employed, if desired, which blocks visible light and transmits infrared light therethrough to separate visible light from infrared light, thereby allowing the exterior element sensor to be used together with an exterior light sensor without losing accuracy.
    • 外部元件传感器可以包括安装在窗户上的光学元件。 光学元件可以包括圆柱形透镜,其两端成球形,中心部分在可见光透射时对外部元件检测(例如雨,雪,冰,水,液体,碎片或其他材料)施加很小或不影响 通过。 此外,红外线或其他光线可用于检测位于窗口上的外部元件。 如果需要,可以使用黑色滤光器,其阻挡可见光并透射红外光以将可见光与红外光分离,从而允许外部元件传感器与外部光传感器一起使用而不会损失精度。
    • 9. 发明授权
    • Method and apparatus for identifying characteristic value
    • 用于识别特征值的方法和装置
    • US06920413B2
    • 2005-07-19
    • US10018754
    • 2001-05-22
    • Shizuo SumidaAkio NagamatsuHiroshi Takata
    • Shizuo SumidaAkio NagamatsuHiroshi Takata
    • G06F17/50G05B17/02G05B23/02H03F1/26
    • G05B17/02
    • A characteristic value identification method and an apparatus therefor which can develop each model to be integrated into an entire model, similar to a product in which individual parts are combined, are provided. A functional model of a part is prepared based on a potential quantity and a flow quantity representing a strength and a quantity of energy applied to the part, a steady internal characteristic value of the functional model in a steady state is identified, and a transient internal characteristic value of the functional model in a transient state is identified by using the identified steady internal characteristic value. Furthermore, the functional model having the characteristic value identified by such an identification apparatus is incorporated into a virtual testing system as a virtual prototype, an internal characteristic value of the virtual prototype is evaluated by providing a driving operation condition and an environment condition, actual machine test data obtained by the driving operation condition and the environment condition are compared with the internal characteristic value, and a re-identification is performed depending on the comparison result if necessary.
    • 提供了类似于组合各个部件的产品的特征值识别方法及其装置,其可以开发要整合到整个模型中的每个模型。 基于表示施加到部件的能量的强度和能量的潜在量和流量来准备零件的功能模型,识别在稳定状态下的功能模型的稳定的内部特征值,以及瞬态内部 通过使用识别的稳定内部特征值来识别瞬态中的功能模型的特征值。 此外,具有由这种识别装置识别的特征值的功能模型作为虚拟原型并入到虚拟测试系统中,通过提供驱动操作条件和环境条件来评估虚拟原型的内部特征值,实际机器 将通过驾驶操作条件和环境条件获得的测试数据与内部特征值进行比较,并且如果需要,则根据比较结果进行重新识别。