ARMAMENT WITH WIRELESS CHARGING APPARATUS AND METHODOLOGY

    公开(公告)号:US20170155269A1

    公开(公告)日:2017-06-01

    申请号:US14955642

    申请日:2015-12-01

    Inventor: Joseph A. Swift

    Abstract: Disclosed herein is an integrated system armament capable of receiving an inductive charge, the integrated system armament comprising at least one induction energy receiving unit and at least one electrical conductor; wherein the at least one electrical conductor is of an advanced composite material with the advanced composite material having an electrical power management region, an electrical power management sub-region, an advanced composite material forming an electrical power management micro domain, or combinations thereof; and further wherein at least one of the advanced composite material forming electrical conductor(s) further comprises a thermal power management component having a thermal power management region, a thermal power management sub-region, a thermal power management micro domain, or combinations thereof; which in combination provides the integrated system armament. Further disclosed is a method of wirelessly charging an integrated system armament capable of receiving an inductive charge.

    Composite Interconnect Accessory Rail System
    2.
    发明申请
    Composite Interconnect Accessory Rail System 审中-公开
    复合互连配件轨道系统

    公开(公告)号:US20160033234A1

    公开(公告)日:2016-02-04

    申请号:US14447822

    申请日:2014-07-31

    CPC classification number: F41G11/003

    Abstract: The present invention is an article of manufacture comprised of advanced composites having structural, electrical, and thermal characteristics. More specifically, it is an interconnection system that comprises at least one advanced composite material with controlled mechanical, electrical, and thermal properties. When employed in specific configurations and combinations, the subject invention is particularly suited for advanced armaments systems

    Abstract translation: 本发明是由具有结构,电气和热特性的先进复合材料组成的制品。 更具体地,它是包括具有受控机械,电和热特性的至少一种先进复合材料的互连系统。 当以特定构造和组合使用时,本发明特别适用于先进的武器系统

    Multilayer electrical component, coating composition, and method of making electrical component
    3.
    发明授权
    Multilayer electrical component, coating composition, and method of making electrical component 有权
    多层电气元件,涂料组合物,以及制造电气元件的方法

    公开(公告)号:US08673416B2

    公开(公告)日:2014-03-18

    申请号:US12607559

    申请日:2009-10-28

    Abstract: Disclosed herein is an electrical component including a substrate comprising an electroconductive filler in a first polymeric binder, and a coating layer adhered to at least a portion of the substrate surface, the coating layer comprising a nanostructured electroconductive particulate dispersed in a polymeric binder, such as an epoxy resin. A method of making the component also is disclosed, comprising obtaining a substrate containing an electroconductive filler in a polymeric binder, dispersing a nanostructured electroconductive particulate filler in a liquid that includes a solvent and/or a reactive diluent to form a dispersion, mixing the dispersion with a liquid resin to form a coating mixture, applying the coating mixture to the substrate, and crosslinking the applied coating mixture to form the coated substrate.

    Abstract translation: 本文公开了一种电气部件,其包括在第一聚合物粘合剂中包含导电填料的基材和粘附至基材表面的至少一部分的涂层,所述涂层包含分散在聚合物粘合剂中的纳米结构导电颗粒,例如 环氧树脂。 公开了一种制备该组件的方法,包括获得在聚合物粘合剂中含有导电填料的基材,将纳米结构的导电颗粒填料分散在包括溶剂和/或反应性稀释剂的液体中以形成分散体,将分散体 用液体树脂形成涂料混合物,将涂料混合物施加到基材上,并交联涂覆的涂料混合物以形成涂布的基材。

    Compact, long life charging device
    5.
    发明授权
    Compact, long life charging device 有权
    紧凑,长寿命的充电装置

    公开(公告)号:US08135309B2

    公开(公告)日:2012-03-13

    申请号:US12472811

    申请日:2009-05-27

    CPC classification number: G03G15/0258 G03G2215/027 G03G2215/028

    Abstract: A coronode charging device includes a support member, a filament, an adjustment mechanism and a voltage source. The lament is disposed along the support member in a configuration that creates a plurality of active regions and a plurality of inactive regions of the filament. The active regions are simultaneously positionable adjacent the photoreceptor. The inactive regions may be farther from the photoreceptor than the active regions. The adjustment mechanism moves the filament such that portions of the filament that correspond to the active regions are moved to positions that correspond to the inactive regions, and some portions of the filament that were in the inactive regions are moved to positions that correspond to the active regions. This operations extends the life of the coronode charging device.

    Abstract translation: 冠状体充电装置包括支撑构件,灯丝,调节机构和电压源。 该纱线沿着支撑构件设置成以形成多个有源区域和多个无效区域的构造。 有源区域可以与感光体相邻定位。 非活性区域可以比活性区域远离感光体。 调节机构使细丝移动使得与活性区域相对应的细丝部分移动到与非活性区域对应的位置,并且处于非活性区域的丝线的一些部分被移动到与活性区域对应的位置 地区。 该操作延长了冠状体充电装置的使用寿命。

    Composite Containing Polymer, Filler and Metal Plating Catalyst, Method of Making Same, and Article Manufactured Therefrom
    6.
    发明申请
    Composite Containing Polymer, Filler and Metal Plating Catalyst, Method of Making Same, and Article Manufactured Therefrom 有权
    含复合聚合物,填料和金属电镀催化剂,制备方法及制品

    公开(公告)号:US20100143732A1

    公开(公告)日:2010-06-10

    申请号:US12331589

    申请日:2008-12-10

    Abstract: Disclosed herein is a component comprising a substantially homogeneous composition of at least one polymer selected from the group consisting of epoxies, acetals, polyesters, non-ionic rubbers, non-ionic polyurethanes, polyether sulfones, polyether ether ketones, polyether imides, polystyrenes, polyethylene terephthalates, polyamides, polyimides, polyvinylchlorides, polyphenylene oxides, polycarbonates, acrylonitrile-butadiene-styrene terpolymers, silicones, fluropolymers, and polyolefins, a filler, and a metal plating catalyst. A method of making a component also is described comprising obtaining a polymeric material, a liquid, a filler and a metal plating catalyst; combining the metal plating catalyst with the polymeric material, liquid, and filler to form a substantially homogeneous mixture; and evaporating and/or curing the mixture to form a solidified component. The method is useful for making small, precisely engineered, electronic components without requiring the use of caustic solutions or complex equipment.

    Abstract translation: 本文公开了包含基本上均匀的组合物的组分,所述组合物选自环氧树脂,缩醛,聚酯,非离子橡胶,非离子聚氨酯,聚醚砜,聚醚醚酮,聚醚酰亚胺,聚苯乙烯,聚乙烯 聚对苯二甲酸酯,聚酰胺,聚酰亚胺,聚氯乙烯,聚苯醚,聚碳酸酯,丙烯腈 - 丁二烯 - 苯乙烯三元共聚物,硅酮,氟聚合物和聚烯烃,填料和金属电镀催化剂。 还描述了制备组分的方法,其包括获得聚合物材料,液体,填料和金属电镀催化剂; 将金属电镀催化剂与聚合物材料,液体和填料结合以形成基本均匀的混合物; 并蒸发和/或固化混合物以形成固化组分。 该方法可用于制造小型,精确设计的电子元件,而不需要使用苛性碱溶液或复杂设备。

    Scalable Microbial Fuel Cell and Method of Manufacture
    7.
    发明申请
    Scalable Microbial Fuel Cell and Method of Manufacture 有权
    可扩展微生物燃料电池及其制造方法

    公开(公告)号:US20090324998A1

    公开(公告)日:2009-12-31

    申请号:US12468108

    申请日:2009-05-19

    CPC classification number: H01M8/16 Y02E60/527 Y02P70/56

    Abstract: A microbial fuel cell includes a cell housing having first and second chambers. The first chamber is adapted for containing a fluid including a biomas. The second chamber is adapted for containing an oxygenated fluid. A cathode extends into the cell housing second chamber. An electrode assembly includes a bound segment and an anode segment extending into the cell housing first chamber. The electrode assembly has multiple, substantially aligned, fibers. The outer surfaces of the fibers of the anode segment are adapted for receiving a biofilm. An electrically conductive tubular member envelops the fibers of the bound segment

    Abstract translation: 微生物燃料电池包括具有第一和第二室的电池壳体。 第一腔室适于容纳包含生物体的流体。 第二室适于容纳含氧流体。 阴极延伸到电池壳体的第二室中。 电极组件包括限定部分和延伸到电池壳体第一室中的阳极部分。 电极组件具有多个基本对准的纤维。 阳极段的纤维的外表面适于接收生物膜。 导电管状构件包封结合段的纤维

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