| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Laminations | US45189565 | 1965-04-29 | US3313052A | 1967-04-11 | MALSTER ROBERT L |
| 1,151,772. Laminates. INTERNATIONAL POLAROID CORP. 29 April, 1966 [29 April, 1965], No. 19034/66. Heading B5N. [Also in Division G2] A laminar structure comprises a generally planar information-bearing surface which comprises a photographic print and which is laminated to a substantially transparent sheet-like element at least a portion of the surface area of which is light polarizing . The information-bearing surface which may also carry lettering may be of paper, wood or metal. Specified lightpolarizing materials are oriented polyvinyl alcohol containing metal, metal complexes, iodine or dichroic dye, partially dehydrated polyvinyl alcohol, oriented cellulose stained with dichroic dye, cellulose acetate containing dichroic crystals, hydrolysed cellulose acetate and glass carrying an oriented dichroic dye. The photograph may be of the silver transfer type supported on polyvinyl alcohol. Bonding may be effected by pressure-sensitive adhesives e.g. butadiene-acrylonitrile copolymers, epoxy based adhesives, cyanoacrylate polymers or a copolymer of methyl vinyl ether with maleic anhydride. A transparent layer e.g. of polyvinyl chloride, blends of polyvinyl chloride with polyvinyl acetate, copolymers of vinyl chloride with vinyl acetate, polystyrene or glass may be bonded to the polarizing element. The laminates may be embossed. In the embodiment of Fig. 5, only a portion 14 of the transparent layer is stained with a dichroic dye. | ||||||
| 122 | Transparent encasement for documents and the like | US26623663 | 1963-03-19 | US3221428A | 1965-12-07 | FISCHLER WANDA B; MANN MARILYN M |
| 123 | Automatic credit card accounting system | US67665557 | 1957-08-06 | US2975282A | 1961-03-14 | SCHAFFER LYLE E |
| 124 | Identification passes | US25792851 | 1951-11-23 | US2712514A | 1955-07-05 | ENGLISH JR JOSEPH MARTIN |
| 125 | Identification device | US39344041 | 1941-05-14 | US2283898A | 1942-05-26 | SALVATORE ARICO |
| 126 | The use of radio frequency wave absorption marker for authentication of security documents | JP2014501656 | 2012-03-30 | JP2014517085A | 2014-07-17 | ファン、ホセ、ロメロ、ファネゴ; ビセンテ、ガルシア、フエス; ホセ、フランシスコ、フェルナンデス、ロサーノ; ハビエル、ガモ、アランダ; ミゲル、アンヘル、ロドリゲス、バルベロ |
| 本発明は、少なくとも2つのタイプの酸化物材料粒子の組合せを含む、不活性化できないセキュリティ組成物であって、前記粒子が、異なる大きさ及び/又はモルホロジーを有し、前記の無機酸化物材料が、少なくとも1種の遷移金属又は1種のランタニド元素、及び無線周波数波吸収特性を有する組成物の使用に関する。 本発明は、また、これらの組成物を組み入れたセキュリティ物品、書類又は要素、さらには、それらの検知のための方法及びシステムにも関する。 | ||||||
| 127 | Phosphor and the substrate in which the refractive index for anti-counterfeiting applications in alignment | JP2012544690 | 2010-12-14 | JP2013514211A | 2013-04-25 | ケーン,ジェームズ; ラポポート,ウィリアム・ロス; ラウ,カーステン |
| 隠れた偽造防止対策として、プラスチック基板の中または表面に組み込むことができる蛍光体組成物を提供する。 プラスチック基板は透明にすることができ、蛍光体組成物は、透明性を維持するために、プラスチック基板の屈折率に効果的に整合する屈折率を有する。 蛍光体組成物は、赤外線領域に吸収を有し、よって、赤外発光源による本組成物の励起および検出を可能にする。 | ||||||
| 128 | 表示体及び表示体付き物品 | JP2011543176 | 2010-10-21 | JPWO2011065160A1 | 2013-04-11 | 渡邉 学; 学 渡邉; 美保子 永吉; 隆志 上原; 落合 英樹; 英樹 落合 |
| 本発明に係る表示体(10)は、200nm乃至500nmの範囲内の最小中心間距離で二次元的に配置されるとともに各々が順テーパ形状を有する複数の凹部又は凸部が設けられた第1界面部(IF1)を含む第1光学効果層(12)と、第1界面部(IF1)の少なくとも一部を被覆する反射性材料層(13)と、第1界面部(IF1)のうち反射性材料層(13)によって被覆された第1部分の位置で、第1光学効果層(12)を間に挟んで反射性材料層(13)と向き合っているか又は反射性材料層(13)を間に挟んで第1光学効果層(12)と向き合った部分を備え、コレステリック液晶、パール顔料及び多層干渉膜の少なくとも1つを含む第2光学効果層(17)と、を備えることで、より高い偽造防止効果を実現する。 | ||||||
| 129 | 物品の認証方法及び物品の識別構造 | JP2003533223 | 2002-09-26 | JPWO2003030097A1 | 2005-01-20 | 秀一 星野; 逸雄 竹内; 健二 山本屋; 根田 徳大; 徳大 根田; 横井 泰治; 泰治 横井 |
| 物品の新規且つ有用な認証方法及びそのような認証方法を実施するのに適する物品の識別構造を提供する。物品に、少なくとも1つの構成元素の同位体含有比率が天然の値と異なる識別材料を含む識別構造を付与し、識別構造に含まれる識別材料から得られる識別情報を所定の場所に記録しておき、物品の識別構造から識別情報を検出して、それを記録された識別情報と照合し、物品の真正性を判定する。 | ||||||
| 130 | Laminate including glass layer having crack line | JP19763299 | 1999-07-12 | JP2000062093A | 2000-02-29 | VERLINDEN BARTHOLOMEUS; TAHON JEAN-PIERRE; VERMEULEN LEO |
| PROBLEM TO BE SOLVED: To include a glass layer and to improve flexibility by a method in which the first and second layers are included, the first layer is a glass layer, and a crack line is formed in the glass layer. SOLUTION: A laminate 50 includes a glass layer 10, the second layer 20, and an additional glass layer, the glass layer 10 is laminated on the surface 21 of the second layer 20, and the additional glass layer 40 is laminated on the surface 24 opposite to the surface 21 of the second layer 20. Crack lines 11, 41 are formed in the glass layer and the additional glass layer 40, respectively. The crack lines are arranged in a hexagonal pattern and have a depth equal to the thickness of each glass layer. When the laminate is deformed, in the glass layers, each hexagon can move around the crack line. Especially, when a hexagonal elements are small enough, the flexibility of the laminate is determined chiefly by the flexibility of the second layer 20 which is a polymer layer and others. The laminate 50 having good flexibility can be obtained by this method. | ||||||
| 131 | Laser record medium and data card containing thin glass layer | JP30264298 | 1998-10-23 | JPH11259914A | 1999-09-24 | TAHON JEAN-PIERRE; VERLINDEN BART; VERMEULEN LEO; HERMANN VAN GOLB |
| PROBLEM TO BE SOLVED: To prevent the disappearane of data caused by a mechanical damage or the like exerted from the external by providing a protective layer made of a thin and soft glass layer to a data card which is provided with a heat mode laser record medium layer on a supporting body. SOLUTION: A heat mode laser record medium layer is made of a highly reflective thin metallic layer and is formed on a supporting body interposing a black layer to improve light reflective contrast. For example, the energy required to write data is reduced by forming it through Bi vacuum deposition. A glass layer is preferably made of borosilicate glass. The thickness of the layer is formed to less than 850 μm, the total thickness of a data card is set to less than 800 μm, based on the ISO standard and the flexibility is obtained so that the card is wound around a cylindrical core having the radius of 1.5 m without being broken. The glass layer covers the record medium layer to efficiently protect the layer from a solvent, oxygen, water or the like which are external causes for the disappearane of data. | ||||||
| 132 | Conservation card | JP15937989 | 1989-06-21 | JP2805212B2 | 1998-09-30 | アーヴィング エドワード; ジェイムズ スミス テレンス |
| A security card comprises a data-carrying sheet having a gelatin layer thereon and a transparent polymeric film having a gelatin layer thereon, said sheet and said film being bonded together by an adhesive composition polymerized between and in contact with the gelatin layers, the adhesive composition comprising a carboxylic acid having at least one polymerizable acrylic group. | ||||||
| 133 | Photo card creation method | JP19777085 | 1985-09-09 | JPH06103386B2 | 1994-12-14 | 悠二 押越 |
| PURPOSE:To efficiently produce a card fitted with a photograph, by producing a display sheet in such a way that the photograph and literal pictures, such as name, etc., of a person are combined by means of a computer and the combined pictures are printed on a color printing paper, and joining a core sheet to the back of the display sheet after the display sheet is put in a frame sheet, and then, joining cover sheets to both the core sheet and frame sheet. CONSTITUTION:On the printed surface of a display sheet 1 the photograph 1a of a person, literal pictures 1b indicating the personal information, such as name, etc., of the person, and graphic picture 1c are printed. These piectures 1a-1c are combined by means of a computer. The display sheet 1 is put in the opening 2a of a frame sheet 2 and a core sheet 3 is thermally press-sticked to the back of the display sheet 1. Then the 1st and 2nd transparent cover sheets 4 and 5 are respectively put on the upper surface of the frame sheet 2 and lower surface of the core sheet 3 by thermal press-sticking. To the surface of the 2nd cover sheet 5 magnetic stripes 7 are joined. | ||||||
| 134 | Shea has a contour dependent directional image - To and fabrication method thereof | JP21288486 | 1986-09-11 | JPH0686099B2 | 1994-11-02 | エドガー クツク ジヤツク; アイアン ブラツドシヨウ トーマス; デビツド オレンステイーン ブルース |
| 135 | Method of manufacturing a multi-layered identification card | JP6011283 | 1983-04-07 | JPH0611593B2 | 1994-02-16 | TOOMASU MAURAA; HANSUUYURUGEN HORUBAIN; YOZEFU RASU |
| A multilayer identification card bearing information such as letters, numbers, patterns, pictures and so on, in which at least part of the information is present in the form of a structure in relief in a foamable synthetic material. The foamable synthetic material is transparent or dyed in the visible spectral range and is present in the identification card in the form of a layer covering either its entire surface or part of it. The information in relief is produced by means of a laser beam recorder, the energy dosage of which is used to induce the locally controllable foaming process in the synthetic material compounded with chemical or physical blowing agents. The protection against forgery may be further increased by additionally photocuring the foamable synthetic layer. | ||||||
| 136 | JPH0582655B2 - | JP1505587 | 1987-01-24 | JPH0582655B2 | 1993-11-19 | JEROMU DOREKUSURAA |
| A system in which wallet-sized visually readable information relating to a person is created on material disposed on one side of a wallet-size card and machine readable information relating to the person is recorded on a laser recordable optical data storage strip disposed on the opposite side of the card. The visually readable information may be a fingerprint or face photograph created by conventional photography or with a laser. The data storage strip is disposed in the card and may be a pre-formed strip of laser recording material. Information spots recorded on the strip may be insurance, medical, banking, security or other transaction information. Both the machine readable information and the eye readable information are read simultaneously by two optical systems, one disposed on each side of the card. | ||||||
| 137 | JPH0530640B2 - | JP15401883 | 1983-08-23 | JPH0530640B2 | 1993-05-10 | YAAYA HAHIRI TEERANI |
| The multilayer identification card comprises several synthetic layers compounded by the effects of heat and pressure. An inside interface of at least one of these layers exhibits depressions which are filled with the material of the adjacent layer during the laminating process. The adjacent layers are selected in such a way that they are of different transparency. Thus a light and shadow effect is produced in incident light which is reversed in transmitted light. | ||||||
| 138 | JPH0337233B2 - | JP16908683 | 1983-09-13 | JPH0337233B2 | 1991-06-04 | MAIKERU TOOMASU GEIRU; KAARU HAINRITSUHI KUNOTSUPU; MARUCHIN EPUNEETA |
| A reflective-diffractive coating layer, situated at the interface between a substrate layer and an overcoat layer of the device, is divided into a set of small, slightly separated regions. This allows a direct bond of the overcoat layer to the substrate layer within the separation areas, which direct bond provides a more secure bond than that provided by a bond of the coating layer to the substrate and overcoat layers. | ||||||
| 139 | JPH0256228B2 - | JP19544181 | 1981-12-04 | JPH0256228B2 | 1990-11-29 | NEMOTO SHIRO; YASUJIMA HIROYUKI; YOSHIDA KANENORI; WATANABE JIRO |
| PURPOSE:To obtain an information recording card which is excellent in transferring property, fixing property, long-term using stability, and falsifying preventiveness by providing an ink absorptive and a lubricant layer on the surface of a card base. CONSTITUTION:A thickness of 10-30 microns of an ink absorptive and holding layer 3 is provided on a base 2, and a thickness of 5 microns or less of a lubricant layer 4 capable of preventing the staining of the ground texture and also of allowing the ink to pass is provided on the layer 3. The lubricant layer 4 is composed of nitro cellulose fine particles of a grain size of 5 microns or less, a nearly whitish solid lubricant particle, and a saturated polyester resin into which these fine particles are uniformly dispersed. The surface roughness is a maximum height of 3-7 and a central line average roughness of 0.8-1.5 microns, as specified by JIS-BO601. The preferred weight proportion of the nitro cellulose fine particles to the saturated polyester resin and also that of the solid lubricant particles to the nitro cellulose fine particles and saturated polyester resin are 0.5:1-1.5:1 and 0.3:1-2.0:1, respectively. | ||||||
| 140 | Card | JP26150087 | 1987-10-16 | JPS63165186A | 1988-07-08 | HAINTSU BATESU; REINAA EDERUBERUGU |
| Card made from a combination of at least two layers of unplasticized PVC film that are bonded together by the application of pressure. At least one layer of a flexible plastic is incorporated in this combination. This layer of flexible plastic consists preferably of PVC modified with acrylate VC copolymers. | ||||||
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