TH2101000457A - The method for producing layers produces an optical effect. - Google Patents

Abstract

The invention deals with the field of protecting anti-counterfeiting documents such as banknotes and anti-counterfeiting identification documents. In particular, this invention provides a method for a superimposed optical effect (OEL) layer in two. floor or more using a composite magnetic part i) a temporary magnetic plate (x31) comprising a) one or more (V) gaps and b) one or more indentations (I) and/or protrusions ( P) one or more and ii) one or more dipole (x32) magnets.

Claims (15)

1. 1. A method for producing an optically active layer (OEL) that exhibits double-layered characteristics. or more onto the substrate (x20), where the process consists of the steps of: a) application to the substrate (x20) with a coating composition consisting of i) magnetic pigment particles. or a flake-shaped magnet; and ii) an adhesive material to form a coating (x10) on such a substrate (x20), with the coating element in its first liquid state; b) Applying the coating (x10) to the magnetic field of the magnetic component (x30) containing i) Temporary magnetic print plate (x31) containing one or more temporary magnetic metals, alloys or compounds containing condition for high magnetic permeability or prepared from oriented materials Composition containing from about 25% by weight to about 95% by weight of Temporary magnetic particles dispersed in non-magnetic materials. by weight percentage versus weight The entire magnetic plate (x31), where the temporary magnetic plate (x31) contains one or more gaps (V). For accepting one or more magnetic dipoles (x32), where the temporary magnetic plate (x31) incorporates one or more notches (I). and/or one or more protrusions (P) in which each of one or more such indentations (I) and/or protrusions (P) form one or more continuous loop features and/or discrete loop features. of more than one type and where one or more spaces (V) are enclosed by one continuous loop feature. kind or more and/or one or more spaces (V) enclosed by a loop-shaped feature one or more discrete types, ii) one or more magnetic dipole (x32) types Each segment of one or more such dipole magnets (x32). have its magnetic axis held perpendicular to the substrate surface (x20) and all of one or more such magnetic dipoles (x32). with the same magnetic direction, where one or more such dipole (x32) magnets is placed within one or more spaces (V); and c) Hardening of the coating element to the second state. in order to fix the pigment particles Magnets or magnets form the flakes in their position and determine the chosen direction of those particles. 2. Process according to Claim 1 where a temporary magnetic print plate (x31) incorporates one or more indentations (I). and where the upper surface of one type of dipole magnet (x32) or than being pressed against the upper surface of the temporary magnetic printing plate (x31). 3. Process according to Claim 1 where a temporary magnetic print plate (x31) incorporates one or more protrusions (P). and where the upper surface of one type of dipole magnet (x32) or than being pressed against the upper surface of the temporary magnetic printing plate (x31). 4. Process according to one of the previous claims This also includes the process of bringing the coating layer (x10) in contact with the device's dynamic magnetic field. in order to determine the direction Biaxial at least part of the magnetic or flake-shaped pigment particles, where such a step occurs before or at the same time as step b) and before step c). 5. Process according to one of the previous claims where a magnetic transient printing plate (x31) is prepared from a composite material containing from about 25 % by weight to about 95 % by weight of magnetic transient particles dispersed in the polymeric non-magnetic material. Matrices composed of or composed of one of the selected thermoplastic materials from A group that includes polyamides, co-polyamides, polyphthalimides, polyolefins, polyesters, polytetrafluoroae. thylene, polyacrylate, polymethacrylate, polyimide, polyetherimide, polyetheretherketone, polyarylether rketone, polyphenylene sulfide, liquid crystal polymer, polycarbonate and their mixtures. or a selected thermosetting material from a group that includes epoxy resins, phenolic resins, polyimide resins, silicon resins and their mixtures. 6. Process according to one of the previous claims where the transient magnetic particles are picked from A group containing carbonyl iron, carbonyl nickel, cobalt and their combined substances. 7. Process according to one of the previous claims where the transient magnetic particles have a d50 between about 0.5 μm and about 100 μm. 8. Process according to claim No. 5 to No. 7, one item where one or more spaces (V) There is a depth between about 5 % and about 100 % compared to the thickness of the printing plate. One or more transient magnets (x31) and/or indentations (I) have a depth between about 5 % and about 100 %, preferably between about 5 % and 90 % compared to the thickness of One or more temporary magnetic plate (x31) and/or protrusions (P) have a height (H) between about 5 % and about 100 % compared to the temporary magnetic plate (X31). 9. Process according to one of the previous claims where the diameter of one or more dipole magnets (x32) is smaller than one or more of the gap size (V). 10. Process according to one of the previous claims where step c) of hardening The coating element was performed at the same time as step b). 11. A process according to one of the preceding claims, in which the magnetic pigment particles or Flake-shaped magnets are magnetic pigment particles or are optically variable magnets flake-shaped. Selected from a group consisting of magnetic flake-shaped thin PIMS interference pigments, magnetic flake-shaped collesteric liquid crystalline pigments, flake-shaped magnetic interference coating particles. Comprised of magnetic materials and mixtures of two or more such materials. 12. Optical Efficiency Layer (OEL) produced by any of the methods described in Claims 1 to 11. 13. Anti-counterfeiting documents or parts or accessories that comprise it. One or more optical effect classes (OELs) described in claim 12. 14. Method for producing anti-counterfeiting documents or components or furnishings which include: a) the provision of anti-counterfeiting documents; or its components or furnishings, and b) the optical layering pursuant to any of the procedures of Claims 1 to 11. So that this layer is assembled by anti-counterfeiting documents. or components or decorative items 15. Use of temporary magnetic printing plates (x31) described in either of the claims 1 to 11. in conjunction with one or more dipole magnets (x32). where each segment of one or more such dipole magnets (x32) has a magnetic core arranged perpendicular to the substrate surface (x20), and all One or more of these dipole magnets (x32) have the same magnetic direction. where one or more such magnetic dipoles (x32) are arranged within a gap (V) for directing magnetized pigment particles or flake-shaped magnets in coating layer on the substrate