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    • 3. 发明授权
    • Fibrillated pultruded electronic components and static eliminator devices
    • 纤维拉挤电子部件和静电消除装置
    • US5354607A
    • 1994-10-11
    • US21445
    • 1993-02-24
    • Joseph A. SwiftThomas E. OrlowskiStanley J. WallaceWilbur M. PeckJohn E. CourtneyDavid E. Rollins
    • Joseph A. SwiftThomas E. OrlowskiStanley J. WallaceWilbur M. PeckJohn E. CourtneyDavid E. Rollins
    • G03G15/00H01H1/02H01H1/029H01H1/10B32B9/00
    • H01H1/02G03G15/75H01H1/029H01H1/10Y10T428/26Y10T428/268Y10T428/30
    • Static eliminator device includes a nonmetallic pultruded composite member having a plurality of conductive carbon fibers provided within a polymer matrix of thermosetting resin, wherein the plurality of carbon fibers are oriented within the polymer matrix in a longitudinal direction of the pultruded composite member and extend continuously therethrough. The pultruded composite member has at least one laser fibrillated end including a brush-like structure of densely distributed filament contacts formed from an exposed length of the carbon fibers for contact with the surface. The brush-like structure has either a straight edge configuration or a shaped configuration. The static eliminator device may include a base member for holding the pultruded composite member, wherein the base member electrically communicates with the plurality of conductive fibers to permit the electrical charge to pass therefrom. The static eliminator device utilizes a plurality of the pultruded composite members attached to the base member, each having a rod shape, or a single pultruded composite member having a planar shape. Alternatively, the static eliminator device may essentially be of single piece construction, wherein the pultruded composite member is planar in shape.
    • 静电消除装置包括:非金属拉挤复合构件,其具有设置在热固性树脂的聚合物基体内的多个导电碳纤维,其中多个碳纤维沿着拉挤复合构件的纵向方向定向在聚合物基体内,并且连续延伸穿过 。 拉挤复合构件具有至少一个激光原纤化端,其包括由暴露的碳纤维长度形成的致密分布的细丝接触的刷状结构,用于与表面接触。 刷状结构具有直边构造或成形构型。 静电消除装置可以包括用于保持拉挤复合构件的基底构件,其中基底构件与多个导电纤维电连通以允许电荷从其中通过。 静电消除装置使用多个拉挤复合构件,其连接到基座构件上,每个具有杆形,或者具有平面形状的单个拉挤复合构件。 或者,静电消除装置可以基本上是单件结构,其中拉挤成型复合构件的形状是平面的。
    • 6. 发明授权
    • Switches and sensors utilizing pultrusion contacts
    • 开关和传感器利用拉挤成型接触
    • US5420465A
    • 1995-05-30
    • US297734
    • 1994-08-30
    • Stanley J. WallaceJohn E. CourtneyWilbur M. PeckJoseph A. Swift
    • Stanley J. WallaceJohn E. CourtneyWilbur M. PeckJoseph A. Swift
    • B41J29/38H01H1/06H05F3/04H01H35/00
    • H01H1/06Y10T307/766
    • Electronic switches and sensors have pultruded contact members. A switch includes first and second contact members, at least one of which including a pultruded contact member having an insulating body and a plurality of conductive fibers carried within the insulating body. The pultruded contact member is fibrillated at least at one end thereof to expose the conductive fibers for establishing electrical contact when brought into physical contact with the other of the first and second contact members. A sensor for detecting the presence of an article in a detection zone includes a contact at one side of the detection zone, and a pultrusion including a plurality of electrically conductive fibers and a host material carrying the plurality of fibers, supported at another end of the detection zone. One end of the pultrusion has a fibrillated end portion extending across the detection zone in electrical connection with the contact that is displaced by the article when the article is present in the detection zone to disconnect the electrical connection. The sensor is particularly well adapted to sense a sheet of paper or the like, for example, in an electrostatographic reproducing machine, and can be connected to a source of electrical potential so that the conductive fibers serve to discharge any static charges existing on the sheet of paper.
    • 电子开关和传感器具有拉挤接触构件。 开关包括第一和第二接触构件,其中至少一个包括具有绝缘体的拉挤接触构件和在绝缘体内承载的多个导电纤维。 至少在其一端拉伸挤压的接触构件被原纤化以暴露导电纤维,以便在与第一和第二接触构件中的另一个物理接触时建立电接触。 用于检测检测区域中物品的存在的传感器包括在检测区域的一侧的接触,以及包括多个导电纤维的拉挤成型和承载多根纤维的主体材料, 检测区。 拉挤成型的一端具有延伸穿过检测区域的原纤化末端部分,当制品存在于检测区域中以断开电连接时,该接触件与由物件移位的触头电连接。 传感器特别适合于感测一张纸等,例如在静电复制机中,并且可以连接到电势源,使得导电纤维用于排出片上存在的任何静电荷 的纸。
    • 9. 发明授权
    • Synchronized process for catalysis of electroless metal plating on
plastic
    • 塑料上化学镀金的同步方法
    • US5462773A
    • 1995-10-31
    • US996990
    • 1992-12-28
    • Joseph A. SwiftThomas E. Orlowski
    • Joseph A. SwiftThomas E. Orlowski
    • C08J7/04C23C18/16C23C18/20C23C18/30H05K3/18B05D1/18
    • C23C18/1608C23C18/1612C23C18/204C23C18/206C23C18/30C23C18/405H05K3/185H05K2201/0129H05K2203/107
    • A method of forming at least one electrically conductive path in a thermoplastic substrate having a melting point below 325.degree. C., by synchronously depositing on the substrate in the predetermined pattern of said conductive path from an atomized stream of a precursor of a catalyst for the electroless deposition of conductive metals and locally heating the deposited precursor in the pattern corresponding to the conductive path, the catalyst precursor having a decomposition temperature below the melting point of the thermoplastic and within the temperature range where the thermoplastic softens, heating the portion of the thermoplastic substrate corresponding to said conductive path to a temperature sufficient to decompose said catalyst precursor to the catalyst and soften the thermoplastic; said substrate, catalyst precursor and temperature being selected such that on heating to the temperature the precursor decomposes to the catalyst, the thermoplastic softens and at least partially melts without substantial decomposition to enable the catalyst to penetrate the surface of the thermoplastic and become anchored thereto to provide nucleation sites for the subsequent electroless deposition of conductive metal and depositing conductive metal by electroless deposition on the heated portion to form the conductive path.
    • 一种在具有低于325℃的熔点的热塑性基材中形成至少一个导电路径的方法,通过以所述导电路径的预定图案从所述导电路径的预定图案中的雾化流同步沉积在用于 导电金属的无电沉积并且以对应于导电路径的图案局部加热沉积的前体,催化剂前体具有低于热塑性塑料的熔点的分解温度,并且在热塑性软化的温度范围内,加热热塑性塑料的一部分 对应于所述导电路径的衬底至足以将所述催化剂前体分解成催化剂并软化热塑性塑料的温度; 所述衬底,催化剂前体和温度被选择为使得在加热到前体分解为催化剂的温度下,热塑性软化并且至少部分地熔融而没有实质的分解,使得催化剂能够穿透热塑性塑料的表面并被锚定到 提供成核位置用于随后的导电金属的无电沉积并通过无电沉积沉积导电金属在加热部分上以形成导电路径。