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    • 4. 发明申请
    • CHARGING STATION FOR MOBILE DEVICES THAT ALLOWS ACCESS TO DEVICE SERVICES
    • 用于移动设备的充电站,允许访问设备服务
    • US20090298553A1
    • 2009-12-03
    • US12130627
    • 2008-05-30
    • Joseph UngariWinston WangRobert Buck
    • Joseph UngariWinston WangRobert Buck
    • H04M1/00
    • H02J7/00H02J7/0042H02J7/02H02J7/025H02J50/10H04M1/2477H04M1/27455H04M1/7253H04M2250/22
    • A charging station for mobile devices that allows a user to access mobile device services while a mobile device is contacting a charging pad or is otherwise being charged at the charging station. The charging station includes a charging pad where a mobile device is placed to initiate automatic charging without having to connect the mobile device to a charging cable. The charging station also includes a display and communication components for wirelessly linking the charging station with the mobile device. When the mobile device is within proximity of the charging station, the charging station establishes a connection with the mobile device to allow the services offered by the mobile device to be accessed via the charging station. The display on the charging station may be larger than the display of the mobile device or may be configured with different dimensions than the display on the mobile device.
    • 一种用于移动设备的充电站,其允许用户在移动设备接触充电垫时或者在充电站处于充电状态时访问移动设备服务。 充电站包括充电垫,其中放置移动设备以开始自动充电,而不必将移动设备连接到充电电缆。 充电站还包括用于将充电站与移动设备无线连接的显示器和通信组件。 当移动设备在充电站附近时,充电站建立与移动设备的连接,以允许移动设备提供的服务经由充电站访问。 充电站上的显示器可能大于移动设备的显示器,或者可以配置为具有与移动设备上的显示器不同的尺寸。
    • 5. 发明授权
    • Flow sensor
    • 流量传感器
    • US07363824B2
    • 2008-04-29
    • US11570868
    • 2005-06-16
    • Robert BuckBerthold SchockerPeter Buhl
    • Robert BuckBerthold SchockerPeter Buhl
    • G01F1/37
    • G01F1/26F16K15/025F16K37/0041
    • A flow sensor for flowing media with a cylindrical housing (2) and with a sensor element located in the housing (2), the housing (2) preferably having an outside thread (3) and being screwable into a union (4) of a pipe (5) or into an opening of a connecting piece (43). The flow sensor (1) has very high measurement accuracy while still being economically producible. There is a lifting body (6) which projects into the flowing medium, the lifting body (6) being movably guided on the housing (2) and depending on the flow (7) of the medium to be monitored, can be moved against the reset force of a reset element which is located between the housing (2) and the lifting body (6), and the sensor element is made as a noncontact proximity switch (18, 20) which produces a signal that is dependent on the position of the lifting body (6).
    • 一种流动传感器,用于使具有圆柱形壳体(2)和位于壳体(2)中的传感器元件的介质流动,壳体(2)优选地具有外螺纹(3)并且可旋转到联接件 管(5)或连接件(43)的开口。 流量传感器(1)具有非常高的测量精度,同时仍然可以经济地生产。 有一个伸入流动介质的提升体(6),提升体(6)可移动地被引导到壳体(2)上,并且取决于被监测介质的流动(7)可以反对 位于壳体(2)和提升体(6)之间的复位元件的复位力,并且传感器元件被制成非接触式接近开关(18,20),其产生取决于位置 提升体(6)。
    • 6. 发明授权
    • Heat transfer measurement device, in particular flow monitor
    • 传热测量装置,特别是流量监测器
    • US4856329A
    • 1989-08-15
    • US172457
    • 1988-03-24
    • Robert BuckGerd Marhofer
    • Robert BuckGerd Marhofer
    • G01P5/12G01F1/68G01F1/69G01P13/00
    • G01P13/006
    • A heat transfer measurement device, in particular a flow monitor for the electrical measurement of heat losses in a flowing medium, with a metallic, circular cylindrical measurement device housing having an outside thread, with a first temperature measurement element, a heating element and a second temperature measurement element. The flow monitor in accordance with the invention is on the one hand quick in a thermal sense and can be manufactured relatively simply on the other. This is because the first temperature measurement element, the heating element and the second temperature measurement element are disposed on one side of a carrier foil which is a good electrical insulator as well as a good conductor of heat and in that the carrier foil is brought into thermally conductive contact with the measuring device housing with its side facing away from the temperature measurement elements and the heating element, at least in those areas where the temperature measuring elements and the heating element are disposed.
    • 一种热传递测量装置,特别是一种用于电流测量流动介质中热损失的流量监测器,具有带有外螺纹的金属圆柱形测量装置壳体,其具有第一温度测量元件,加热元件和第二温度测量元件 温度测量元件。 根据本发明的流量监测器一方面在热感上快速,并且可以相对简单地制造在另一个上。 这是因为第一温度测量元件,加热元件和第二温度测量元件设置在作为良好的电绝缘体的载体箔的一侧以及良好的导热体上,并且载体箔被引入 至少在设置有温度测量元件和加热元件的那些区域中,测量装置壳体的侧面远离温度测量元件和加热元件的导热接触。
    • 7. 发明授权
    • Electronic monitoring system with direct-current power supply
    • 具有直流电源的电子监控系统
    • US4551637A
    • 1985-11-05
    • US487122
    • 1983-04-21
    • Robert BuckJean L. Lamarche
    • Robert BuckJean L. Lamarche
    • H03K17/94H03K17/945H03K3/26
    • H03K17/945
    • A contactless motion detector is energized in series with a load from a source of direct current via a pair of supply leads connected across a binary switching circuit in parallel with a voltage-generating network designed to deliver operating current to the detector in either switching position. The switching circuit comprises a main electronic switch, designed as a transistor, which is turned on or off by an output signal of the detector and in turn controls an ancillary electronic switch (transistor or thyristor) whose conduction intensifies the load current. When both electronic switches are transistors, they are interconnected in a positive-feedback loop driving them into conduction as soon as the main transistor is turned on; the base current of the ancillary transistor then contributes significantly to the load current while its collector current helps maintain the energization of the detector. The voltage-generating network includes a current limiter as well as a constant-voltage generator, e.g. a Zener diode.
    • 非接触式运动检测器与来自直流电源的负载通过一对电源引线通过二极开关电路并联连接,该电源线与设计成在任一开关位置向检测器传送工作电流的电压发生网络并联。 开关电路包括被设计为晶体管的主电子开关,其由检测器的输出信号导通或断开,并且进而控制其传导增强负载电流的辅助电子开关(晶体管或晶闸管)。 当两个电子开关都是晶体管时,它们在正反馈环路中相互连接,一旦主晶体管导通,驱动它们进入导通状态; 辅助晶体管的基极电流然后对负载电流有显着贡献,而其集电极电流有助于维持检测器的通电。 电压生成网络包括限流器以及恒压发生器,例如, 齐纳二极管。
    • 8. 发明授权
    • Electronic monitoring system with low energy consumption in quiescent
state
    • 静态状态下能耗低的电子监控系统
    • US4193023A
    • 1980-03-11
    • US887832
    • 1978-03-17
    • Robert BuckGerd Marhofer
    • Robert BuckGerd Marhofer
    • H01H36/00H03K17/945H03K17/95
    • H03K17/951
    • A contactless motion detector, such as an oscillator sensitive to an approaching metallic element, is connected across a storage capacitor which can be charged from a source of pulsating direct current through a constant-current unit whose current flow is throttled when the charging voltage of the capacitor reaches a predetermined level. A thyristor connected across the series combination of storage capacitor and constant-current unit has a gate connected to a tap on a voltage divider lying in parallel with the capacitor so as to fire when the capacitor voltage rises substantially above the aforementioned level in order to break down a Zener diode forming part of that divider. Such a rise occurs when a transistor, inserted between the capacitor and a higher-voltage output of the constant-current unit, is turned on by a switching transistor responsive to a trigger signal from the detector. Untimely firing of the thyristor due to voltage fluctuations in the supply circuit can be prevented by an ancillary transistor, responsive to the same trigger signal, which normally either cuts off a protective transistor between the capacitor and the thyristor gate or establishes a shunt path in parallel with the voltage divider and the storage capacitor.
    • 无接触运动检测器,例如对接近金属元件敏感的振荡器,跨越存储电容器连接,该存储电容器可以从脉动直流电源通过恒流单元充电,该恒流单元当其电流流过节流时, 电容器达到预定水平。 连接在存储电容器和恒流单元的串联组合之间的晶闸管具有连接到与电容器并联的分压器上的抽头的栅极,以便当电容器电压大大高于上述电平时启动以便断开 下降一个齐纳二极管,形成该分压器的一部分。 这种上升发生在插入在电容器和恒流单元的较高电压输出之间的晶体管由响应于来自检测器的触发信号的开关晶体管导通时。 可以通过辅助晶体管来防止由于供电电路中的电压波动引起的晶闸管的不时触发,这是由于相同的触发信号,通常会切断电容器和晶闸管门之间的保护晶体管,或建立并联的分路 与分压器和存储电容器。
    • 9. 发明授权
    • Electronic monitoring system
    • 电子监控系统
    • US4110678A
    • 1978-08-29
    • US782400
    • 1977-03-29
    • Robert Buck
    • Robert Buck
    • H02M1/08G05F1/56H03K17/06H03K17/725H03K17/945H01H36/00
    • H03K17/06H03K17/725H03K17/945
    • A contactless motion detector, such as an oscillator sensitive to an approaching metallic element, is connected across a storage capacitor charged from a source of pulsating direct current through a current-limiting device and shunted by a Zener diode. Connected across the series combination of storage capacitor and current-limiting device is an ancillary thyristor, triggerable by the detector, forming part of a firing circuit for a main thyristor in parallel therewith; that firing circuit further includes another Zener diode and a stabilizing resistor in series with the ancillary thyristor. Conduction of the main thyristor, upon the triggering of the ancillary thyristor, reduces to near-zero the resistance in series with a load, such as a relay, which is traversed by the current drawn from the source. With both thyristors cut off between pulsations of the source current, the storage capacitor is briefly recharged through a decoupling diode upon a retriggering of the ancillary thyristor before the firing of the main thyristor.
    • 诸如对接近金属元件敏感的振荡器的非接触运动检测器跨越从脉冲直流电源充电并通过限流装置充电并由齐纳二极管分流的存储电容器连接。 连接在存储电容器和限流装置的串联组合中的是辅助晶闸管,由检测器触发,形成与其并联的主晶闸管的点火电路的一部分; 该点火电路还包括与辅助晶闸管串联的另一个齐纳二极管和稳定电阻器。 主晶闸管的导通,在触发辅助晶闸管时,与负载(例如继电器)串联的电阻接近零,该继电器由从源极引出的电流穿过。 在两个晶闸管在源电流的脉动之间切断时,在主晶闸管触发之前,辅助晶闸管重新触发时,存储电容器通过去耦二极管短暂充电。
    • 10. 发明申请
    • Flow Sensor
    • 流量传感器
    • US20080011076A1
    • 2008-01-17
    • US11570868
    • 2005-06-16
    • Robert BuckBerthold SchockerPeter Buhl
    • Robert BuckBerthold SchockerPeter Buhl
    • G01F1/26
    • G01F1/26F16K15/025F16K37/0041
    • A flow sensor for flowing media with a cylindrical housing (2) and with a sensor element located in the housing (2), the housing (2) preferably having an outside thread (3) and being screwable into a union (4) of a pipe (5) or into an opening of a connecting piece (43). The flow sensor (1) has very high measurement accuracy while still being economically producible. There is a lifting body (6) which projects into the flowing medium, the lifting body (6) being movably guided on the housing (2) and depending on the flow (7) of the medium to be monitored, can be moved against the reset force of a reset element which is located between the housing (2) and the lifting body (6), and the sensor element is made as a noncontact proximity switch (18, 20) which produces a signal that is dependent on the position of the lifting body (6).
    • 一种流动传感器,用于使具有圆柱形壳体(2)和位于壳体(2)中的传感器元件的介质流动,壳体(2)优选地具有外螺纹(3)并且可旋转到联接件 管(5)或连接件(43)的开口。 流量传感器(1)具有非常高的测量精度,同时仍然可以经济地生产。 有一个伸入流动介质的提升体(6),提升体(6)可移动地被引导到壳体(2)上,并且取决于被监测介质的流动(7)可以反对 位于壳体(2)和提升体(6)之间的复位元件的复位力,并且传感器元件被制成非接触式接近开关(18,20),其产生取决于 提升体(6)。