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
    • 25. 发明申请
    • PARTICLE TRAP
    • 颗粒捕捉
    • US20090147435A1
    • 2009-06-11
    • US12327888
    • 2008-12-04
    • Stephen E. KrauseRussell J. LowKasegn D. Tekletsadik
    • Stephen E. KrauseRussell J. LowKasegn D. Tekletsadik
    • H01G7/02
    • H01J37/3171H01J37/16H01J2237/022H01J2237/028H01J2237/038
    • An apparatus and method for trapping particles in a housing is disclosed. A high voltage terminal/structure is situated within a housing. A conductive material, having a plurality of holes, such as a mesh, is disposed a distance away from an interior surface of the housing, such as the floor of the housing, forming a particle trap. The conductive mesh is biased so that the electrical field within the trap is either non-existent or pushing toward the floor, so as to retain particles within the trap. Additionally, a particle mover, such as a fan or mechanical vibration device, can be used to urge particles into the openings in the mesh. Furthermore, a conditioning phase may be used prior to operating the high voltage terminal, whereby a voltage is applied to the conductive mesh so as to attract particles toward the particle trap.
    • 公开了一种用于将颗粒捕获在壳体中的装置和方法。 高压端子/结构位于壳体内。 具有诸如网的多个孔的导电材料设置成远离壳体的内表面(例如壳体的地板)一定距离,形成颗粒捕集器。 导电网被偏置,使得陷阱内的电场不存在或者朝向地板推动,以便将颗粒保持在陷阱内。 此外,诸如风扇或机械振动装置的颗粒移动器可用于将颗粒推入网中的开口中。 此外,可以在操作高电压端子之前使用调节阶段,由此将电压施加到导电网,以将颗粒吸引到颗粒捕集器。
    • 26. 发明授权
    • Electrostatic fluid acclerator for and a method of controlling fluid flow
    • 静电流体增压器和控制流体流动的方法
    • US07532451B2
    • 2009-05-12
    • US11437828
    • 2006-05-22
    • Igor A. KrichtafovitchVladimir L. Gorobets
    • Igor A. KrichtafovitchVladimir L. Gorobets
    • H01G7/02
    • B03C3/017B03C3/08B03C3/12B03C3/368B03C3/41B03C3/68B03C2201/04B03C2201/14H05H1/48H05H5/00H05H2001/481
    • An electrostatic fluid acceleration and method of operation thereof includes at least two synchronously powered stages with final or rear-most electrodes of one stage maintained at substantially the same instantaneous voltage as the immediately adjacent initial or forward-most electrodes of a next stage in an airflow direction. A single power supply or synchronized and phase controlled power supplies provide high voltage power to each of the stages such that both the phase and amplitude of the electric power applied to the corresponding electrodes are aligned in time. The frequency and phase control allows neighboring stages to be closely spaced at a distance of from 1 to 2 times an inter-electrode distance within a stage, and, in any case, minimizing or avoiding production of a back corona current from a corona discharge electrode of one stage to an electrode of a neighboring stage. Corona discharge electrodes of neighboring stages may be horizontally aligned, complementary collector electrodes of all stages being similarly horizontally aligned between and horizontally offset from the corona discharge electrodes.
    • 静电流体加速及其操作方法包括至少两个同步动力的级,其中一级的最终或最后电极保持在与气流中的下一级的紧邻的初始或最前端的电极基本相同的瞬时电压 方向。 单个电源或同步和相位控制的电源为每个级提供高电压功率,使得施加到相应电极的电功率的相位和幅度都及时对准。 频率和相位控制允许相邻级在一级内的电极间距离的1至2倍的距离内紧密间隔,并且在任何情况下,最小化或避免从电晕放电电极产生后电晕电流 一级到相邻级的电极。 相邻级的电晕放电电极可以水平对准,所有级的互补的集电极电极类似地在电晕放电电极之间水平对准并且水平偏移。