141 |
Producing nonndestructive identfication card having photograph and card made by same |
JP5409280 |
1980-04-23 |
JPS564142A |
1981-01-17 |
SEINTOREI KUROODO; DOUTAIN MONIKU |
A tamperproof identification card such as a passport or credit card is provided. A diazo photosensitive composition is intimately mixed with a thermo-adhesive resin and is carefully deposited as a uniformly thin layer in one or more zones on a plastic support material. The zones of the photosensitive compositions are developed to reproduce identifying information such as a photograph, identification number, etc. A plastic protective film is then laminated to the support to protect the identifying information. Since the adhesive resin material is intimately mixed throughout the photosensitive composition, the protective plastic film cannot be removed without destroying the information. |
142 |
Certifying card |
JP2348380 |
1980-02-28 |
JPS55137995A |
1980-10-28 |
UORUFUGANGU GAUFU; RUDOBIHI DEBURIINTO |
An identification card having photographically recorded individualizing data is provided. The photographically recorded data are interspersed with a security pattern in transparent ink. This pattern is printed onto the photographic layer before the photographic data are recorded. The photographic recording process is carried out in such a way that there is no darkening under the security pattern. The security pattern, recognizable through the transparent printing ink, is thus also impressed upon the photographically recorded data. |
143 |
Certificate card |
JP16174379 |
1979-12-14 |
JPS5590400A |
1980-07-08 |
ROORANDO MORABU; GETSUTSU FUON DEMU BUTSUSHIE |
Disclosed is an identity card having grid images thereon comprised of a linear grid structure. In various embodiments, the grid depths of the individual grid images differ and can produce several different image colors. The card in a further embodiment can comprise a number of layers which are laminated together around a card core which has a window located therein. A number of variations of grid images can be included and/or superposed in the window in order to provide a security identification system which is extremely difficult to forge. Also disclosed are numerous combinations of grid structures some of which include grid images which may be absorption images and/or phase images. |
144 |
Certificate having hologram and method of and device for forming same as well as method of reading hologram of certificate |
JP3419079 |
1979-03-23 |
JPS54130950A |
1979-10-11 |
DETOREFU FUROOTOMAN; HARUTOUITSUHI RIYURU; ANGERIKA SHIYUTAIMAA |
|
145 |
Method and device for forming hologram |
JP4983577 |
1977-04-28 |
JPS52152736A |
1977-12-19 |
TORUUMAN FURANKU KERII |
|
146 |
Identification card safe against forgery and method of producing same |
JP12220976 |
1976-10-12 |
JPS5248336A |
1977-04-18 |
HARUTOUITSUHI RIYURU |
|
147 |
JPS4914200A - |
JP3015173 |
1973-03-16 |
JPS4914200A |
1974-02-07 |
|
1427581 Credit cards GAO GES FUR AUTOMATION UND ORGANISATION mbH 15 March 1973 [16 March 1972] 12452/73 Heading B6A A credit card or the like is produced from a relatively thick plastics sheet 1, which may be transparent, a paper sheet 2 having variations 8 in the level of at least one of its surfaces, and a relatively thin transparent plastics sheet 3 the paper sheet 2 being laminated between the other two sheets so that its surface variations are reproduced on the surface of the relatively thin sheet 3. The variations may be due to watermarks 4, security threads or printing 9. A signature strip may be provided either on security printed paper embedded in the outside surface of one of the sheets 1, 3 or on a portion of the sheet 2 not laminated (Fig. 4). Additionally a photograph may be incorporated either as a separate sheet included during the laminating process or as a layer coated on one of the sheets before lamination. The card may be used as a printing plate. The laminated card may have a rim 7. |
148 |
발광성 붕산염, 이러한 붕산염을 혼입한 발광성 재료 및 물품 |
KR1020157014109 |
2013-04-08 |
KR1020150092129A |
2015-08-12 |
케인제임스; 라우카르스텐; 라포포트윌리엄로스 |
발광성 붕산염, 이러한 붕산염을 혼입한 발광성 재료 및 물품이 본 명세서에 제공된다. 발광성 붕산염의 구체예는 B
9 O
16 포함 결정 격자를 갖는 호스트 붕산염을 포함한다. 네오디뮴 및/또는 이테르븀이 호스트 붕산염 내에 존재하며, 1 이상의 치환성 원소가 임의로 호스트 붕산염 내에 네오디뮴 및/또는 이테르븀과 함께 존재한다. 1 이상의 치환성 원소는 네오디뮴 및 이테르븀과는 상이하다.
|
149 |
홀로그램을 갖는 시각적으로 변화가능한 윈도우를 함유하는 보안 문서 및/또는 중요 문서 |
KR1020157003895 |
2013-08-15 |
KR1020150047487A |
2015-05-04 |
치오바라스,게오르기오스; 푸트라이너,하인츠; 플란켄,키라; 얀케,슈테판; 바이저,마르크-슈테판; 패케,토마스 |
본발명은신규보안요소로서시각적으로변화가능한윈도우내에홀로그램을갖는보안문서및/또는중요문서, 및또한그를제조하는방법에관한것이다. |
150 |
연성 기판에 대한 보안 개선 |
KR1020137002130 |
2011-06-24 |
KR1020130040230A |
2013-04-23 |
오말,랄프마무드 |
데이터 프로세싱 단말기의 저가(low-cost) 인쇄 장치를 이용하여 가치 문서 내의 광학 보안 요소를 생성하는 방법을 설명한다. 상기 방법은 미리 인쇄된 잉크 부분을 갖는 연성 기판을 제공하는 단계; 상기 미리 인쇄된 잉크 부분은 상기 보안 요소의 광학 보안 기능을 제공하지 않는 비노출된 상태로 제공된다; 기계에 의해 제어되는 방식으로 레이저 방사선에 노출되는 상기 미리 인쇄된 비노출 잉크부의 일부를 결정하기 위하여 가변 레이저 방사 장치를 구성하는 단계; 및 기설정된 패턴을 상기 미리 인쇄된 잉크부로부터 생성하기 위해, 상기 미리 인쇄된 비노출 잉크부를 상기 기계에 의해 제어되는 방식으로 레이저 방사선에 노출하는 단계; 상기 패턴의 광학 특성은 상기 광학 보안 요소를 제공한다.
|
151 |
연성 기판에 대한 보안 개선 |
KR1020137004660 |
2011-06-24 |
KR1020130036354A |
2013-04-11 |
오말,랄프마무드 |
데이터 프로세싱 단말기의 저가(low-cost) 인쇄 장치를 이용하여 가치 문서 내의 광학 보안 요소를 생성하는 방법을 설명한다. 상기 방법은 미리 인쇄된 잉크 부분을 갖는 연성 기판을 제공하는 단계; 상기 미리 인쇄된 잉크 부분은 상기 보안 요소의 광학 보안 기능을 제공하지 않는 비노출된 상태로 제공된다; 기계에 의해 제어되는 방식으로 레이저 방사선에 노출되는 상기 미리 인쇄된 비노출 잉크부의 일부를 결정하기 위하여 가변 레이저 방사 장치를 구성하는 단계; 및 기설정된 패턴을 상기 미리 인쇄된 잉크부로부터 생성하기 위해, 상기 미리 인쇄된 비노출 잉크부를 상기 기계에 의해 제어되는 방식으로 레이저 방사선에 노출하는 단계; 상기 패턴의 광학 특성은 상기 광학 보안 요소를 제공한다.
|
152 |
연성 기판에 대한 보안 개선 |
KR1020137004661 |
2011-06-24 |
KR1020130034664A |
2013-04-05 |
오말,랄프마무드 |
데이터 프로세싱 단말기의 저가(low-cost) 인쇄 장치를 이용하여 가치 문서 내의 광학 보안 요소를 생성하는 방법을 설명한다. 상기 방법은 미리 인쇄된 잉크 부분을 갖는 연성 기판을 제공하는 단계; 상기 미리 인쇄된 잉크 부분은 상기 보안 요소의 광학 보안 기능을 제공하지 않는 비노출된 상태로 제공된다; 기계에 의해 제어되는 방식으로 레이저 방사선에 노출되는 상기 미리 인쇄된 비노출 잉크부의 일부를 결정하기 위하여 가변 레이저 방사 장치를 구성하는 단계; 및 기설정된 패턴을 상기 미리 인쇄된 잉크부로부터 생성하기 위해, 상기 미리 인쇄된 비노출 잉크부를 상기 기계에 의해 제어되는 방식으로 레이저 방사선에 노출하는 단계; 상기 패턴의 광학 특성은 상기 광학 보안 요소를 제공한다.
|
153 |
사전에 출력된 컬러 픽셀들을 선택적으로 보여주고 가림으로써 이루어지는 물리적 매체의 개인화 |
KR1020127012687 |
2010-09-29 |
KR1020120087947A |
2012-08-07 |
리벵구뜨조제프; 레쉬르장-뤽; 봄베이바트 |
본원에는 투명 및 불투명 사이로 변경하여 광자-감응 층으로부터 또는 출력 기판으로부터 불투명 컬러들을 선택적으로 보여주도록 신원 카드(identity card) 상의 광자-감응 층들을 선택적으로 노출하여 신원 카드상에 컬러 이미지를 만들어냄으로써 이루어지는 신원 카드의 개인화가 개시되어 있다. 다른 시스템들 및 방법들이 개시되어 있다.
|
154 |
Multilayer Body |
US15977621 |
2018-05-11 |
US20180264869A1 |
2018-09-20 |
Andreas Schilling; Wayne Robert Tompkin; Achim Hansen |
A multilayer body includes a transparent first layer. In the transparent first layer, a multiplicity of microlenses arranged in accordance with a microlens grid are impressed in a first region. Furthermore, the multilayer body includes a second layer, which is arranged below the first layer and in a fixed position with respect to the first layer and has a multiplicity of microimages arranged in accordance with a microimage grid and in each case in an at least regional overlap with one of the microlenses of the microlens grid for the purpose of generating a first optically variable information item. The grid pitches of the microimage grid and of the microlens grid in each case in at least one spatial direction are less than 300 μm. |
155 |
Security devices |
US14351298 |
2012-10-11 |
US09731539B2 |
2017-08-15 |
Adam Lister |
A method and security device, including: a semi-transparent layer exhibiting a first pattern of regions having high optical density and/or raised surface profile relative to layer intervening regions; and a color layer exhibiting a second pattern of elements of at least one color. First and second patterns partially overlap and are configured so the device, appearance varies at different viewing angles. First pattern has color layer following the contours of raised regions. Security device includes: a photosensitive film exhibiting pattern of regions of relatively high and low optical density, the pattern arising from photosensitive film exposure to radiation of a responsive predetermined wavelength from the photosensitive film; and a color layer overlapping the pattern exhibited by photosensitive film, which exhibits increase in optical density upon radiation exposure of a predetermined wavelength and concurrent or subsequent heating. Increases in optical density being due to the bubbles formation within the photosensitive film. |
156 |
VOLUME HOLOGRAM SHEET TO BE EMBEDDED, FORGERY PREVENTION PAPER, AND CARD |
US15435973 |
2017-02-17 |
US20170157971A1 |
2017-06-08 |
Nobuko OIKAWA; Minoru AZAKAMI |
An object of the present invention is to provide a thin volume hologram sheet to be embedded sufficiently resistant to a mechanical stress such as a stress including a tensile stress, a shear stress and a compression stress at the time of processing even under a heating condition, a forgery prevention paper and a card using the same. The object is achieved by providing a volume hologram sheet to be embedded comprising a volume hologram layer, and a substrate disposed only on one side surface of the volume hologram layer using an adhesion means, wherein a peeling strength of the volume hologram layer and the substrate is 25 gf/25 mm or more. |
157 |
Polycarbonate-based security documents and/or documents of value with a hologram in the card body |
US14422762 |
2013-08-19 |
US09551975B2 |
2017-01-24 |
Marc-Stephan Weiser; Georgios Tziovaras; Thomas Fäcke; Friedrich-Karl Bruder; Dennis Hönel; Horst Berneth; Thomas Rölle |
The invention relates to polycarbonate-based or copolycarbonate-based security documents and/or documents of value which contain at least one hologram integrated in the card body, and to a method for producing such security documents and/or documents of value. |
158 |
Method for Marking a Feature Substance, Security Feature, Document of Value and Method for Verifying Said Document |
US14888864 |
2014-05-05 |
US20160075163A1 |
2016-03-17 |
Kai Uwe STOCK; Martin STARK |
The invention concerns a method for marking a feature substance, present in particular in pulverized form, with at least one marker, with the feature substance being suitable for the authentication of value documents, comprising the step of mixing the feature substance with a small quantity of the marker present in the form of particles, so that the macroscopic detectability of the feature substance is not influenced by the marker and the marker is detectable in a value document having a security feature containing the marked feature substance by means of a spatially resolving analytical method which is adapted to resolve down to the single-particle level. |
159 |
Method for checking a value document, value document, use thereof, and value document system |
US14432253 |
2013-09-27 |
US20150276601A1 |
2015-10-01 |
Thomas Giering; Johann Kecht; Wolfgang Rauscher; Stephan Steinlein |
A method for checking, in particular the authenticity and/or the nominal value of a value document having luminescent feature substances, comprises: a1) the step of carrying out a location-specific measurement of first luminescence intensities at a first emission wavelength at different locations of the value document that have the location coordinates, to thereby obtain measurement value pairs; b1) the step of statistically analyzing the first luminescence intensities measured in dependence on the individual location coordinates, by determining at least one statistical parameter using a statistical method; and c1) the step of comparing the statistical parameter determined in the step b1) with one or more threshold values. |
160 |
SECURITY DOCUMENT AND/OR DOCUMENT OF VALUE CONTAINING A VISUALLY CHANGEABLE WINDOW WITH A HOLOGRAM |
US14422768 |
2013-08-15 |
US20150220057A1 |
2015-08-06 |
Georgios Tziovaras; Heinz Pudleiner; Kira Planken; Stefan Janke; Marc-Stephan Weiser; Thomas Fäcke |
The present invention relates to a security document and/or document of value with a hologram in a visually changeable window as a novel security element, and also to a method for producing the same. |