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    • 2. 发明授权
    • Mount-free tire pressure monitoring system
    • 无轮胎压力监测系统
    • US08723661B2
    • 2014-05-13
    • US13284994
    • 2011-10-31
    • Man Lung ShamXiang ChenZiyang GaoShi Wo Chow
    • Man Lung ShamXiang ChenZiyang GaoShi Wo Chow
    • B60C23/00B60C23/02B60C23/10
    • B60C23/0491
    • A tire pressure monitoring sensor moveable inside a tire includes a housing holding a pressure sensing/transmitting unit, one or more batteries and an antenna for transmitting a signal indicating interior tire pressure. In one embodiment, the components are assembled within the housing such that the center of gravity is along a housing geometric center. During tire rotation, the monitor independently rotates within the tire and is particularly useful for slow-rotating tires, such as those used in gantry systems. Alternatively, the pressure monitoring sensor components are assembled within the housing such that the center of gravity is offset from a housing geometric center. Centripetal force generated during tire rotation causes the monitor to rotate with the tire itself and is useful for faster-rotating tires, such as motor vehicle tires. A tire pressure monitoring system includes the monitor and a receiver positioned outside the tire for receiving the monitoring signals.
    • 可在轮胎内部移动的轮胎压力监测传感器包括保持压力感测/发送单元的壳体,一个或多个电池和用于发送指示内胎轮胎压力的信号的天线。 在一个实施例中,组件被组装在壳体内,使得重心沿壳体几何中心。 在轮胎旋转期间,监视器在轮胎内独立地旋转,并且对于慢旋转轮胎(例如在龙门架系统中使用的轮胎)特别有用。 或者,压力监测传感器部件组装在壳体内,使得重心偏离壳体几何中心。 在轮胎转动期间产生的向心力使得监视器与轮胎本身一起旋转,并且对于诸如汽车轮胎的更快转轮胎是有用的。 轮胎压力监测系统包括监视器和位于轮胎外部的接收器,用于接收监视信号。
    • 4. 发明授权
    • Self-powered impulse detection system with piezoelectric energy harvester
    • 具有压电能量采集器的自供电脉冲检测系统
    • US08072122B2
    • 2011-12-06
    • US13100295
    • 2011-05-03
    • Ziyang GaoTung Ching LuiXiang ChenNgok Man Sze
    • Ziyang GaoTung Ching LuiXiang ChenNgok Man Sze
    • H02N2/18H01L41/107
    • H02N2/183H01L41/1136
    • A self-powered impulse detecting system comprising a signal transmitter; an energy storage component; and an energy harvester comprising a top plate configured to receive a stress impulse by an external object on its top surface; a bottom plate positioned opposite to the top plate and leaving room in between the bottom plate and the top plate; an elastic element positioned in between the top plate and the bottom plate; a bendable substrate attached at a first end to the bottom surface of the top plate, the bendable substrate is configured to bend freely, colliding with the top plate and a stopper; a piezoelectric element positioned on the bendable substrate; a deadweight attached to a second end of the bendable substrate; wherein collisions between the bendable substrate, the top plate and the stopper cause the bendable substrate to bend along with the piezoelectric element to generate power.
    • 一种自供电脉冲检测系统,包括信号发射器; 储能部件; 以及能量收集器,其包括顶板,所述顶板构造成在其顶表面上由外部物体接收应力冲击; 与顶板相对定位并在底板和顶板之间留下空间的底板; 定位在顶板和底板之间的弹性元件; 可弯曲基板,其在第一端部附接到所述顶板的底面,所述可弯曲基板被构造成自由弯曲,与所述顶板和止动件碰撞; 位于所述可弯曲基板上的压电元件; 附着于可弯曲基底的第二端的载重体; 其中可弯曲基板,顶板和止动件之间的碰撞使得可弯曲基板与压电元件一起弯曲以产生电力。
    • 5. 发明申请
    • SELF-POWERED IMPULSE DETECTION SYSTEM
    • 自激脉冲检测系统
    • US20110204752A1
    • 2011-08-25
    • US13100295
    • 2011-05-03
    • Ziyang GaoTung Ching LuiXiang ChenNgok Man Sze
    • Ziyang GaoTung Ching LuiXiang ChenNgok Man Sze
    • H02N2/18
    • H02N2/183H01L41/1136
    • A self-powered impulse detecting system comprising a signal transmitter; an energy storage component; and an energy harvester comprising a top plate configured to receive a stress impulse by an external object on its top surface; a bottom plate positioned opposite to the top plate and leaving room in between the bottom plate and the top plate; an elastic element positioned in between the top plate and the bottom plate; a bendable substrate attached at a first end to the bottom surface of the top plate, the bendable substrate is configured to bend freely, colliding with the top plate and a stopper; a piezoelectric element positioned on the bendable substrate; a deadweight attached to a second end of the bendable substrate; wherein collisions between the bendable substrate, the top plate and the stopper cause the bendable substrate to bend along with the piezoelectric element to generate power.
    • 一种自供电脉冲检测系统,包括信号发射器; 储能部件; 以及能量收集器,其包括顶板,所述顶板构造成在其顶表面上由外部物体接收应力冲击; 与顶板相对定位并在底板和顶板之间留下空间的底板; 定位在顶板和底板之间的弹性元件; 可弯曲基板,其在第一端部附接到所述顶板的底面,所述可弯曲基板被构造成自由弯曲,与所述顶板和止动件碰撞; 位于所述可弯曲基板上的压电元件; 附着于可弯曲基底的第二端的载重体; 其中可弯曲基板,顶板和止动件之间的碰撞使得可弯曲基板与压电元件一起弯曲以产生电力。
    • 6. 发明授权
    • Non-resonant energy harvesting devices and methods
    • 非共振能量采集装置及方法
    • US07936109B1
    • 2011-05-03
    • US12751240
    • 2010-03-31
    • Ziyang GaoMan Lung ShamXiang Chen
    • Ziyang GaoMan Lung ShamXiang Chen
    • H01L41/08
    • H02N2/183
    • Disclosed is an energy harvesting device which can produce electrical power from vibrational energy over a wide range of frequencies. The energy harvester includes a housing having opposing slots. A bendable substrate is at least partially positioned within the housing and at least partially extends through the opposing housing slots. A piezoelectric element is positioned on the bendable substrate and a weight cooperates with the bendable substrate. A stopper is positioned on each end of the bendable substrate that extends outside the housing; the stoppers are configured to maintain a portion of the bendable substrate within the housing such that the bendable substrate is freely movable within the housing. Vibrational energy causes collisions between the bendable substrate and the housing such that the forces on the piezoelectric element generate power.
    • 公开了能够在宽频率范围内从振动能产生电力的能量收集装置。 能量收集器包括具有相对的狭槽的壳体。 可弯曲基底至少部分地定位在壳体内并且至少部分地延伸通过相对的壳体槽。 压电元件位于可弯曲的基底上,并且重量与可弯曲的基底相配合。 止动器定位在可弯曲基底的延伸到壳体外部的每个端部上; 止动件构造成将可弯曲基底的一部分保持在壳体内,使得可弯曲基底在壳体内可自由移动。 振动能量引起可弯曲基板和壳体之间的碰撞,使得压电元件上的力产生电力。
    • 7. 发明授权
    • Apparatus and method for generating electricity using piezoelectric material
    • 使用压电材料发电的装置和方法
    • US07902727B1
    • 2011-03-08
    • US12539315
    • 2009-08-11
    • Man-Lung ShamZiyang GaoTung Ching LuiChang Hwa Chung
    • Man-Lung ShamZiyang GaoTung Ching LuiChang Hwa Chung
    • H01L41/08
    • H02N2/18A43B3/0015H01L41/113
    • An apparatus and method for generating electricity using piezoelectric material. The apparatus comprises a first elongate member and a second elongate member that are joining together at first and second points which are spaced apart from each other. The second elongate member comprises a piezoelectric element, or has a piezoelectric element mounted thereon. When pressure is applied to the first elongate member, the second elongate member is stretched and the stretching force is applied to the piezoelectric element. This generates electricity. A similar arrangement with a third elongate member may be provided on the other side of the second elongate member. The apparatus may be placed in a shoe or underneath a floor, so that the variation in pressure caused by walking may be used in generate electricity.
    • 一种使用压电材料发电的装置和方法。 该装置包括在彼此间隔开的第一和第二点处接合在一起的第一细长构件和第二细长构件。 第二细长构件包括压电元件,或者安装有压电元件。 当对第一细长构件施加压力时,拉伸第二细长构件并将拉伸力施加到压电元件。 这产生电力。 与第三细长构件类似的布置可以设置在第二细长构件的另一侧上。 该装置可以放置在鞋中或在地板下方,从而可以将用于步行的压力变化用于发电。