Class / Patent application number | Description | Number of patent applications / Date published |
283107000 | Having plastic laminate | 17 |
20080258457 | Method of manufacturing a security device - A method of manufacturing a security device comprises:
| 10-23-2008 |
20080309066 | Multilayer Information Page - The present invention relates to a multilayer information page ( | 12-18-2008 |
20090072527 | HOLOGRAPHIC IN-MOLD LABEL - The specification discloses an in-mold label (IML) having an improved holographic image. The label includes a base ply and a top ply laminated together. The base ply is an in-mold label material, and the top decorative ply is a different material that is smoother than the base ply material. A holographic material is on the top surface of the top ply, and a holographic image in formed in the holographic material to provide a bright, aesthetically attractive label. | 03-19-2009 |
20090315320 | INLAYS FOR SECURITY DOCUMENTS - Secure inlays for secure documents such as a passport comprising an inlay substrate may have laser ablated recesses within which a chip module is installed. Channels for an antenna wire may be formed in a surface of the substrate. Instead of using wire, the channels may be filled with a flowable, conductive material. Patches homogenous with the substrate layer may be used to protect and seal the chip and interconnection area. The inlay substrate may include two layers, and the antenna wire may be between the two layers. A moisture-curing polyurethane hot melt adhesive may be used to laminate a cover layer and the additional inlay substrate layers. The adhesive layer may include metal nanoscale powder and ink for electromagnetic shielding. Additional security elements may include material that is optically changeable by an electromagnetic field. Ferrite-containing layers may be incorporated in the inlay substrate. | 12-24-2009 |
20100045027 | Photonic Crystal Security Device - An optically variable security device comprises a photonic crystal which, upon receipt of incident light, generates a first optical effect, and which, when the device is subjected-to-an external stimulus, generates a second optical effect that is different from the first optical effect. At least one of the first and second optical effects is an optically variable effect observable over a set of directions. The optically variable effect is caused by the light being selectively reflected or transmitted by the crystal. | 02-25-2010 |
20120038141 | METHOD FOR MANUFACTURING A FUNCTIONAL LAMINATE, FUNCTIONAL LAMINATE AND ITS USE FOR SECURITY DOCUMENTS - The invention concerns a functional laminate and a method for manufacturing said functional laminate, the method comprising the following steps:—providing a substrate sheet ( | 02-16-2012 |
20160075166 | PROCESSES FOR PRODUCING SECURITY THREADS OR STRIPES - The present invention relates to the field of the protection of value documents and value commercial goods against counterfeit and illegal reproduction. In particular, the present invention relates to processes for producing security threads or stripes to be incorporated into or onto security documents and security documents comprising said security threads or stripes. The disclosed security threads or stripes comprise a first plurality of magnetic or magnetizable pigment particles having an orientation following a convex curvature when viewed from the side where the first hardened coating and the second hardened coating are at least partially jointly visible and a second hardened coating comprising the second plurality of magnetic or magnetizable pigment particles having an orientation following a concave curvature when viewed from the side of the security thread or stripe where the first hardened coating and the second hardened coating are at least partially jointly visible so as to form a plural rolling bar effect. | 03-17-2016 |
283108000 | And differentiable sections | 2 |
20100164220 | Secure Identification Document and Method for Producing It - The invention relates to a secure identification document having two main surfaces (S | 07-01-2010 |
20100230947 | SOIL AND/OR MOISTURE RESISTANT SECURE DOCUMENT - A soil and/or moisture resistant secure document and a method for producing such a secure document, are provided. The inventive method preferably employs a size press or other similar device to force a soil and/or moisture resistant formulation into the pores of the substrate and to remove excess formulation from opposing surfaces thereof. Soil and/or moisture resistant formulations when applied this way instead of by way of standard coating techniques do not obscure optically variable effects generated by non-porous OVDs that may be employed on or within these secure documents. In addition, thin layers of fibers (e.g., papermaking fibers) overlying and thus embedding portions of security devices in windowed secure documents that have been rendered soil and/or moisture resistant in accordance with this invention demonstrate increased durability. | 09-16-2010 |
283109000 | And transparent laminate | 7 |
20080296887 | Identification Card and Method for the Production Thereof - The invention relates to a safety document ( | 12-04-2008 |
20100295290 | POLYMER LAMINATE FOR A SECURITY AND/OR VALUABLE DOCUMENT AND METHOD FOR THE PRODUCTION THEREOF - In order to create novel security features in secure and/or valuable documents, a polymer layer composite, which has at least two polymer layers that are bonded to each other in a material fit is provided. At least one surface is printed with an absorbing printed layer within a visible region in and/or on the composite located on a polymer layer of the composite. The absorbing printed layer forms at least one printed region, and all printed regions of the printed surface of the polymer layer have a total surface area of at least 50% and not more than 95%. | 11-25-2010 |
20110266788 | SECURITY LAMINATES WITH INTERLAMINATED TRANSPARENT EMBOSSED POLYMER HOLOGRAM - A method for interlaminating a transparent embossed hologram, the transparent embossed hologram comprising a support having two sides, at least one of the two sides either itself being embossed or having a layer thereon which is embossed and a layer of a HRI-material contiguous with the embossed side or embossed layer, comprising the steps of: a) providing the outermost surface of the layer of inorganic HRI-material with a layer of an adhesive composition containing a solution or dispersion of at least one polymer in an organic solvent medium; b) drying the layer of the adhesive composition on the outermost surface of the HRI-material thereby providing a conditioned outermost surface of the layer of inorganic HRI-material with a transparent continuous adhesive layer; and c) laminating the transparent continuous laminatable layer to a foil, wherein the organic solvent medium is selected from the group consisting of ketones, ethers, heterocyclic ethers, lactams, amides, halo-aliphatic compounds, nitriles and esters; wherein at least one of the support and the foil is transparent; and wherein the HRI material is a material with a refractive index of at least 0.3 higher than that of the embossed material. A laminate and a security document comprising the laminate obtainable by the above-disclosed process are also disclosed. | 11-03-2011 |
20110291402 | Privacy Cover System - A privacy cover system for efficiently increasing the privacy of an information card by reducing the visibility of the card at offset angles. The privacy cover system generally includes a privacy cover to attach to an information card over at least a portion of information upon the information card, wherein the privacy cover aligns with the information of the information card. The privacy cover is adapted to allow viewing of the information of the information card through the privacy cover over a first range of angles (i.e. viewing angles) and is adapted to prevent viewing of the information of the information card through the privacy cover over a second range of angles (i.e. restricting angles). | 12-01-2011 |
20130082458 | OVD CONTAINING DEVICE - A holographic overlay is formed using casting a diffractive structure upon a first side of a polycarbonate substrate, and providing a reflection-enhancing coating on at least a part of the diffractive structure. A second side of the substrate provides a substantially flat external surface of the overlay capable of fusing to a conforming surface in the presence of heat and pressure without an adhesive. Optionally, the overlay is laser-engraved so as to form ablated voids in the metal coating and carbonize the laser engravable polycarbonate under the ablated voids. | 04-04-2013 |
20130140806 | METHOD FOR PRODUCING 3-D PRINTED IMAGES - A method of producing an apparent etched or embossed effect in a print purely by the use of printing and lamination processes, in which a varnish | 06-06-2013 |
283110000 | And translucent coating or laminate | 1 |
20080238086 | SECURITY DOCUMENT WITH A TRANSPARENT PATTERN AND A PROCESS FOR PRODUCING A SECURITY DOCUMENT WITH A TRANSPARENT PATTERN - A security document comprising a plurality of self-supporting polymeric films and layers therebetween and thereon, said plurality of self-supporting polymeric films comprising a non-transparent microvoided axially stretched self-supporting polymeric film exclusive of foam and having a permanent transparent pattern; and a process for producing a security document with a permanent transparent pattern comprising the step of: image-wise application of heat optionally supplemented by the application of pressure to a security document precursor comprising a plurality of self-supporting polymeric films and layers therebetween and thereon, said plurality of self-supporting polymeric films comprising a non-transparent microvoided axially stretched self-supporting polymeric film exclusive of foam. | 10-02-2008 |
283111000 | And opaque laminate | 1 |
20090315321 | DATA STORAGE CARD HAVING A LENTICULAR IMAGE FEATURE AND METHOD FOR MAKING SAME - A data storage card having a lenticular image feature and a method for fabricating a data storage card. The data storage card can include multiple material layers that are heat laminated so that the data storage card resists delamination of the material layers during use. A lenticular lens array is printed on a front surface of the data storage card, whereby an interlaced image is visible through the lenticular lens array and through an underlying optically clear substrate to create a lenticular image feature. The data storage card can be an identification card, such as a financial transaction card. | 12-24-2009 |