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    • 2. 发明申请
    • PROTECTIVE STRIPE FOR BANK CARDS
    • 银行卡保护条
    • WO2014183174A1
    • 2014-11-20
    • PCT/BG2013/000055
    • 2013-12-18
    • SKIMPROT, LIMITED LIABILITY COMPANY
    • TSAPREV, Nikolay MarinovCHOBANOV, Dimitar Ivanov
    • G06K19/06
    • G06K19/06187G06K19/06196G07F7/0813G07F7/086G07F7/0866
    • (54) Invention relates to a protective stripe (1) for bank cards (2), can be applied mostly in the field of banking to prevent bank robberies of clients of banks and other financial institutions. The protective stripe (1) comprises several interconnected layers made of different materials and placed one above the other. The first, lowermost layer (3) is an adhesive layer and is glue by which the protective stripe is fixed to the debit or credit card (2). The next layer (4) is made of paper, plastic or foil. It is intended mostly to bear the other layers. The third layer (5) is the carrier of ex officio information necessary for the operation of ATMs but this information contains no financial data about the holder of the card (2). This layer (5) can also be a carrier of misleading personal information about the holder of the card (2). Most often this is a magnetic stripe. Then follows a protective layer (6) made by foil or varnish or other material appropriate to that end. The protective stripe (1) is stuck on the part where the standard magnetic stripe (7) of the card (2) is and covers the personal financial information recorded on it.
    • (54)本发明涉及一种用于银行卡(2)的保护条(1),可以主要应用于银行业领域,以防银行和其他金融机构的客户银行抢劫。 保护条(1)包括由不同材料制成的多个相互连接的层并且一个放在另一个之上。 第一最下层(3)是粘合剂层,并且是将保护条固定在借记卡或信用卡(2)上的胶水。 下一层(4)由纸,塑料或箔制成。 它主要是承担其他层。 第三层(5)是ATM运行所必需的当然信息的载体,但该信息不包含关于卡的持有者的财务数据(2)。 该层(5)也可以是关于卡的持有者的误导个人信息的载体(2)。 这通常是磁条。 然后遵循由箔或清漆或适合于该目的的其它材料制成的保护层(6)。 保护条(1)卡在卡(2)的标准磁条(7)的部分上并覆盖记录在其上的个人财务信息。
    • 4. 发明申请
    • PERMANENT RFID LUGGAGE TAG WITH SECURITY FEATURES
    • 永久性RFID行李标签具有安全特性
    • WO2011097454A2
    • 2011-08-11
    • PCT/US2011/023712
    • 2011-02-04
    • VANGUARD IDENTIFICATION SYSTEMS, INC.WARTHER, Richard, O.
    • WARTHER, Richard, O.
    • G06K19/07
    • G06K19/04G06K19/06028G06K19/06187G06K19/07726G06K19/07749G06K19/12G06K19/14
    • An integral, one-piece, resiliency flexible, planar, reusable, programmable radio frequency identification (RFID) luggage tag has a planar flexible sheet core of at least first and second microporous polymer material strips fixedly and permanently joined together completely surrounding first and second RFID transponder assemblies operating at different frequencies. The tag further includes a programmable electronic flexible sheet display in a visibly accessible position on the tag. The tag is further includes a cell phone number and/or email address of an ultimate designated recipient/user of the tag and instructions to contact the recipient via the number or address. The number and/or address are printed on the tag in a 2D bar code format and/or encoded into a programmable memory portion of at least one of the RFID assemblies to be outputted when polled.
    • 整体式单件式弹性柔性平面可重复使用的可编程射频识别(RFID)行李标签具有至少第一和第二微孔聚合物材料带的平面柔性片芯,其固定且永久地 完全围绕以不同频率工作的第一和第二RFID应答器组件。 该标签还包括位于标签上可见的位置的可编程电子柔性片材显示器。 标签还包括标签的最终指定接收者/用户的手机号码和/或电子邮件地址以及通过号码或地址与接收者联系的指令。 数字和/或地址以二维条形码格式打印在标签上和/或编码到至少一个RFID组件的可编程存储器部分中以在轮询时输出。
    • 8. 发明申请
    • OPTICALLY ENCODED GLASS-COATED MICROWIRE
    • 光学编织的玻璃包装微波
    • WO2006047355A3
    • 2006-07-13
    • PCT/US2005038072
    • 2005-10-25
    • DEMODULATION INC
    • CLARE ALEXIS GKING WESLEY ALA COURSE WILLIAM CLIEBERMANN HOWARD HO'KEEFE JAMES E JR
    • H01B7/00
    • G06K19/06018G06K19/06187Y10T29/49117Y10T29/49194
    • A drawn glass-coated metallic member has a thermal contraction coefficient differential such that the thermal contraction coefficient of the glass is less than that of the metallic member. The thermal contraction coefficient differential is maintained within a predetermined range during drawing. Drawn glass is placed under residual compression, interfacial bonding between said glass and said wire is substantially uniform, and surface cracking and bond breaks between metal and glass are substantially prevented. Optical properties of the glass coated microwire provide a basis for enabling multi-bit encoding capability. Advantageously data encoding is achieved optically, magneto-optically or using a combined magnetic and optical encoding mechanism. The duplex material constitution of the glass coated microwire permits imparting of data thereon by selection and processing of the glass. Data implantation is readily achieved in­line, during an initial drawing operation, or as a separate post-draw process. Reading of data on optically encoded glass coated microwire is readily accomplished by optical or magnetic methodology, or a combination thereof.
    • 拉制的玻璃涂覆的金属构件具有热收缩系数差,使得玻璃的热收缩系数小于金属构件的热收缩系数。 在拉伸期间,热收缩系数差保持在预定范围内。 拉制玻璃被置于残余压缩之下,所述玻璃和所述丝之间的界面结合基本上是均匀的,并且基本上防止了金属和玻璃之间的表面开裂和结合断裂。 玻璃涂层微丝的光学性质为实现多位编码能力提供了基础。 有利地,光学,磁光学或使用组合的磁和光编码机构实现数据编码。 玻璃涂布的微线的双面材料构成允许通过玻璃的选择和处理在其上赋予数据。 在初始绘图操作期间,或者作为单独的后绘制过程,数据注入很容易实现内联。 通过光学或磁性方法或其组合容易地实现对光学编码的玻璃包覆微丝的数据的读取。