RU2017121854A - Reflective security element with variable optical properties and direct printing method of the element - Google Patents

Claims (22)

1. The protective element with variable optical properties, consisting of a set of sequentially executed layers: groups of functional layers forming a consistent combined image, including a transparent optically anisotropic layer, on the upper working surface of which is reflected a reflective information-bearing layer containing the visible and hidden parts, both fixed and different, that make up the coordinated combined image; discrete reflective layer imprinted in the lower working surface, an opaque pigment layer located on the surface of the discrete reflective layer; groups of protective and related additional layers; the projection area of the opaque pigment and protective layers coincides with the area and shape with a transparent anisotropic layer, the projection area and the geometric shape of the discrete reflective layer always differs from these parameters of the transparent anisotropic layer, and the information-bearing layer differs or does not differ from those of the transparent anisotropic layer. 2. The security element according to claim 1, wherein the main security feature is a consistent combined image in which the visible part is an exact continuation of the hidden part and vice versa. 3. The protective element according to claim 1, in which the transparent optically anisotropic layer is made in the form of a phase plate with a shift of 1 / 8-5 / 8 wavelength, preferably 1 / 8-3 / 8, the main necessary properties of this layer is the presence of optical anisotropy and the highest transparency, in most cases, this layer also performs the function of the structural layer - the substrate. 4. The security element according to claim 1, in which the functional information-bearing reflective layer containing both the visible and hidden parts of the image, and the functional discrete reflective layer are made of the same material of the following series: a reflective hologram or a hot stamping holographic foil 5 to 10 microns thick, or from metallic silver, aluminum, copper, etc. 50 to 150 nm thick or reflective pigments. 5. The security element according to claim 1, wherein the functional opaque pigment layer is made in any color, preferably gray, in accordance with a predetermined design. 6. The protective element according to claim 1, in which the protective layers are made of one material of the following series: dispersions of polypropylene, polyethylene terephthalate, polyvinylidene fluoride, polytrifluorochlorethylene, polycarbonate, as well as varnishes on an acrylate, polyurethane and other basis with a thickness of 1-5 microns, polyethylene terephthalate, polypropylene and others with a thickness of 6-12 microns. 7. The security element according to claim 1, wherein additional layers are made over the protective layer, comprising a transparent holographic image or a transparent multicolor image or transparent pigment layers, 0.5-3 μm thick. 8. The direct printing method of a reflective protective element with variable optical properties, according to which the following sequence of actions is carried out: - choose and / or make a transparent anisotropic layer, - on the upper working surface of this layer, a functional reflective information-bearing layer, a protective layer and additional layers are successively applied, a set of functional layers consisting of a discrete reflective layer and an opaque pigment layer is successively applied to the lower working surface; If necessary, apply the lower protective layer. 9. The direct printing method of the security element according to claim 8, according to which the functional transparent anisotropic layer is made of one material of the following series: polyethylene and its copolymers, polypropylene and its copolymers, fluoropolymers, polyamides, polyethylene terephthalate, polycarbonate and other transparent film materials with a thickness of 6 - 50 microns. 10. The direct printing method of the security element according to claim 8, according to which the information-bearing reflective layer is imprinted in the upper working surface of the functional transparent anisotropic layer in one part from a number of methods: thermal transfer printing, vacuum deposition followed by etching, flexography, offset printing or any other digital and analog printing technology. 11. The direct printing method of the security element according to claim 8, according to which a discrete reflection layer is imprinted into a part of the lower working surface of the functional transparent anisotropic layer using one of the following methods: thermal transfer printing, vacuum deposition followed by etching, flexography, offset printing and any other digital and analog printing technology. 12. The direct printing method of the security element according to claim 8, according to which an opaque pigment layer is applied to the surface of the discrete reflective layer using flexography or offset printing or any other type of printing. 13. The direct printing method of the security element according to claim 12, according to which the protective layers are made of one material of the following series: dispersions of polypropylene, polyethylene terephthalate, polyvinylidene fluoride, polytrifluorochlorethylene, polycarbonate, as well as varnishes on an acrylate, polyurethane base 1-5 μm thick, polyethylene terephthalate, polypropylene and others with a thickness of 6-12 microns using standard printing or lamination methods. 14. The direct printing method of the security element according to claim 8, according to which at least one protective layer contains a transparent holographic image. 15. The method of direct printing of the security element according to claim 8, according to which the methods of flexography or intaglio printing on top of the protective layer perform additional layers that contain a transparent pigment.