会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • State measuring apparatus and operation control method for the same
    • 状态测量装置和操作控制方法相同
    • US07370535B2
    • 2008-05-13
    • US11653851
    • 2007-01-17
    • Masayoshi SuginoNoriyasu AmanoShinsuke Takakura
    • Masayoshi SuginoNoriyasu AmanoShinsuke Takakura
    • G01L11/00
    • G01L9/0008
    • An oscillation-type state measuring apparatus has an oscillation-type sensor, a reference oscillation signal generating circuit for producing reference oscillation signals, a beat signal generating circuit for generating beat signals having a beat frequency by synthesizing the sensor oscillation signals and the reference oscillation signals, a counter for measuring a period of the beat signals, and a physical quantity calculation circuit for calculating a physical quantity from the period of the beat signals and from the period of the reference oscillation signals. The reference oscillation signal generating circuit varies the frequency of the reference oscillation signals, and the physical quantity calculation circuit calculates the physical quantity based on the varied period of the reference oscillation signals.
    • 振荡型状态测量装置具有振荡型传感器,用于产生参考振荡信号的参考振荡信号产生电路,通过合成传感器振荡信号和基准振荡信号产生具有拍频的拍频信号的拍子信号发生电路 ,用于测量拍频信号的周期的计数器,以及物理量计算电路,用于根据拍子信号的周期和基准振荡信号的周期来计算物理量。 参考振荡信号发生电路改变参考振荡信号的频率,并且物理量计算电路基于参考振荡信号的变化周期来计算物理量。
    • 2. 发明申请
    • State measuring apparatus and operation control method for the same
    • 状态测量装置和操作控制方法相同
    • US20070220983A1
    • 2007-09-27
    • US11653851
    • 2007-01-17
    • Masayoshi SuginoNoriyasu AmanoShinsuke Takakura
    • Masayoshi SuginoNoriyasu AmanoShinsuke Takakura
    • G01L11/00
    • G01L9/0008
    • An oscillation-type state measuring apparatus has an oscillation-type sensor, a reference oscillation signal generating circuit for producing reference oscillation signals, a beat signal generating circuit for generating beat signals having a beat frequency by synthesizing the sensor oscillation signals and the reference oscillation signals, a counter for measuring a period of the beat signals, and a physical quantity calculation circuit for calculating a physical quantity from the period of the beat signals and from the period of the reference oscillation signals. The reference oscillation signal generating circuit varies the frequency of the reference oscillation signals, and the physical quantity calculation circuit calculates the physical quantity based on the varied period of the reference oscillation signals.
    • 振荡型状态测量装置具有振荡型传感器,用于产生参考振荡信号的参考振荡信号产生电路,通过合成传感器振荡信号和基准振荡信号产生具有拍频的拍频信号的拍子信号发生电路 ,用于测量拍频信号的周期的计数器,以及物理量计算电路,用于根据拍子信号的周期和基准振荡信号的周期来计算物理量。 参考振荡信号发生电路改变参考振荡信号的频率,并且物理量计算电路基于参考振荡信号的变化周期来计算物理量。
    • 5. 发明申请
    • VALVE TIMING CONTROLLER
    • 阀门时序控制器
    • US20110303171A1
    • 2011-12-15
    • US13158753
    • 2011-06-13
    • Kuniaki OKAShuhei OeMasayoshi SuginoKenichi Nara
    • Kuniaki OKAShuhei OeMasayoshi SuginoKenichi Nara
    • F01L1/34
    • F01L1/352F01L2001/0537F01L2001/34483F01L2101/00F01L2201/00F01L2250/02F01L2800/01F01L2820/032
    • A valve timing controller has a case which defines a fluid chamber therein. A magnetic viscosity fluid is enclosed in the fluid chamber. The magnetic viscosity fluid including magnetic particles and its viscosity varies according to a magnetic field applied thereto. A coil and a control circuit applies magnetic field to the magnetic viscosity fluid to variably control a viscosity thereof. A brake rotor is rotatably accommodated in the fluid chamber and receives a brake torque from the magnetic viscosity fluid according to the viscosity thereof. A phase adjusting mechanism is connected to the brake rotor for adjusting a relative rotational phase between the crankshaft and the camshaft according to the brake torque. When it is estimated that the engine will be started, the coil is energized to generated heat in the magnetic viscosity fluid.
    • 气门正时控制器具有在其中限定流体室的壳体。 磁性粘度流体封闭在流体室中。 包括磁性颗粒的磁性粘度流体及其粘度根据施加到其上的磁场而变化。 线圈和控制电路向磁性粘度流体施加磁场以可变地控制其粘度。 制动转子可旋转地容纳在流体室中,并根据其粘度从磁性粘性流体接收制动转矩。 相位调整机构与制动转子连接,用于根据制动转矩来调节曲轴与凸轮轴之间的相对旋转相位。 当估计发动机将起动时,线圈被通电以在磁性粘度流体中产生热量。