RU2634571C1 - Method for creating original colour protective image inside sheet material - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: image is created inside a sheet material containing a monolayer of a variety of glass microbeads, partially submerged in a phosphor layer and coated with a layer of metallized foil when laser radiation is pulsed through the foil layer. To create an original colour protective image inside the sheet material, each laser radiation pulse within the laser spot consistently evaporates the metal layer from the metallized foil, metal microlenses are partially bombarded with metal particles, partially immersed in the phosphor layer, microlenses are fused together with the phosphor and metal particles, the inlet of channel is melted and closed on surface of the foil, formed by the pulse of laser radiation, a bunch of fused microlenses, phosphor particles and metal is formed, colour point of the security image of crystal structures is created within the laser spot, after termination of the pulse laser light. This point from the side of the foil in reflected light will be coloured in a dark colour, and in transmitted light it will turn into the colour of foil metal. When the laser beam is scanned over a given area of the surface of the sheet material, laser pulses are repeatedly applied to specified points on foil surface and an image inside the sheet material is created that is visible as dark in reflected light, and in transmitted light consisting of many crystal-like structures either isolated from each other, or bounded by solidified fibers of glass melt with phosphor and metal particles.

EFFECT: colour palette does not depend on the colour of phosphor with a sharp contrast between the mappings of this image in transmitted and reflected light.

2 cl, 4 dwg

Description

The present invention relates to special types of printing and allows you to create an original image in the body of sheet material that protects it from fake.

State of the art

There is a method of creating a color protective image inside a sheet material containing a monolayer of many glass microspheres in the form of transparent microlenses placed on a plastic substrate, partially immersed in a layer of a phosphor painted in a given color and coated with a layer of metallized foil (see, for example, RF patent No. 2555 500 C1 C. B42D 25/40, B42D 25/435, G02B 5/1228). In order to form a color protective image inside the sheet material, they are subsequently exposed to laser radiation at predetermined points on the foil surface. Each laser pulse forms a channel inlet in the foil within the laser spot, reaches the layer of microlenses, melts them within the laser spot, fuses the microlenses with phosphor particles and forms the channel outlet in the plastic substrate. After the termination of the laser pulse from fused microlenses with phosphor particles, crystal-like structures are formed, which are the color point of the protective image. From the combination of many such points inside the sheet material, a color protective image is created.

This method allows you to create a color protective image in the body of the sheet material, visible in transmitted light due to its penetration into the inside of the sheet material through holes in the foil and plastic substrate.

The color of the image inside the sheet material is determined by the color of the phosphor. In the framework of this method, there is no other way to diversify the color palette of the image created inside the sheet material, there is no way to create an original colorful image whose color scheme would not be determined only by the color of the phosphor.

At the same time, the protective image created inside the sheet material, visible in transmitted light, is easily identified in reflected light, because each point of such an image corresponds to a certain point on the surface of the sheet material in the form of a channel inlet. And for the successful protection of sheet material from counterfeiting, it is necessary that its protective images in transmitted and reflected light sharply contrast with each other.

Disclosure of invention

The basis of the invention is the task of creating inside the sheet material an original color protective image, the color palette of which would not depend on the color of the phosphor with a sharp contrast between the displays of this image in transmitted and reflected light.

The problem is solved in that in a method of creating an original color protective image inside a sheet material containing a monolayer of many glass microspheres in the form of transparent microlenses placed on a plastic substrate, partially immersed in a layer of a colored phosphor and coated with a layer of metallized foil, consisting in the action of laser pulses radiation through a layer of foil onto a monolayer of microlenses, in accordance with the invention, a laser mode is established in which each with a laser pulse within a laser spot, a metal layer from a metallized foil is sequentially evaporated, microlenses partially immersed in a phosphor layer bombard the particles, cause fusion of the microlenses together with the phosphor and metal particles, melt and close the channel entrance hole formed by the laser pulse on the foil surface form a clot of fused microlenses, phosphor particles and metal, create within the laser spot after the termination of action I laser pulse colored dot protective image of crystal-like structures with a dark surface in reflected light and colors of the metal foil in transmitted light.

With this method of creating a protective image, its color is determined not by the color of the phosphor, but by the color of the metal foil with a sharp contrast between the images of this image in transmitted and reflected light.

It is advisable that they scan a given surface of the sheet material with a laser beam, repeatedly apply laser pulses to a layer of metallized foil, paint this surface in a dark color, visible in reflected light, and turn it in transmitted light into an image from a variety of crystal-like structures, or isolated from other glass melt bonded with frozen fibers with particles of phosphor and metal.

With this method of creating a protective image, the artistic possibilities of creating an original color image that cannot be reproduced in any other way have expanded significantly.

Brief Description of the Drawings

The invention is further illustrated by the description of a specific, but not limiting embodiment of the present invention and the accompanying drawings, in which:

FIG. 1 - illustrates the proposed method for creating an original color protective image inside the sheet material.

FIG. 2 - illustrates the image created in the sheet material, visible from the side of the foil dark in reflected light.

FIG. 3 - illustrates the same image created in the sheet material, visible from the side of the foil colored in transmitted light and consisting of isolated crystal-like structures.

FIG. 4 - illustrates the same image created in the sheet material, visible from the side of the foil as colored in transmitted light and composed of crystal-like structures connected by solidified fibers of glass melt with phosphor and metal particles.

The best embodiments of the invention.

The proposed method for creating the original color protective image inside the sheet material is as follows.

A sheet material 1 containing a monolayer of a plurality of glass beads in the form of transparent microlenses 2, placed on a plastic substrate 3, partially immersed in the phosphor layer 4 and coated with a layer of metallized foil 5, is affected by laser pulses 6 through the foil layer 5.

To implement the proposed method, a laser operating mode is established in which, as a result of the action of each laser pulse 6 at a given point on the surface of the foil 5, within the laser spot, a metal layer from a metallized foil 5 is sequentially evaporated, microlenses 2 are partially bombarded with metal particles, partially immersed in the phosphor layer 4, cause fusion of the microlenses 2 together with the phosphor and metal particles, melt and close the channel inlet formed by a pulse on the surface of the foil of laser radiation, form a clot 7 of fused microlenses, phosphor particles and metal, create within the laser spot after the laser pulse ceases to be a colored dot of the protective image from crystal-like structures with a dark surface in reflected light and the color of the metal foil in transmitted light.

When scanning a laser beam over a predetermined portion of the surface of the sheet material 1, laser pulses 6 repeatedly act on predetermined points on the surface of the foil 5, paint this surface in a dark color, visible in reflected light, and turn it in transmitted light into an image of a plurality of crystal-like structures, either isolated from one another, or melt-bonded glass melt with particles of phosphor and metal.

Industrial applicability

The described method for creating an original color protective image inside a sheet material that cannot be reproduced in any other way creates new, previously unknown opportunities for protecting securities and document IDs from counterfeiting.

Claims (2)

1. A method of creating an original color protective image inside a sheet material containing a monolayer of many glass microspheres in the form of transparent microlenses placed on a plastic substrate, partially immersed in a layer of a colored phosphor and coated with a layer of metallized foil, which consists in the action of laser pulses through a layer of foil on a monolayer of microlenses, characterized in that a laser operating mode is set in which each laser pulse within the laser spots sequentially evaporate the metal layer from the metallized foil, bombard the microlenses with metal particles partially immersed in the phosphor layer, cause fusion of the microlenses together with the phosphor and metal particles, melt and close the channel inlet opening formed by a laser pulse on the foil surface, form a bunch of alloyed between microlenses, particles of phosphor and metal, create a colored dot within the laser spot after the termination of the laser pulse itnogo image of crystal-like structures with a dark surface in reflected light and the color of the metal foil in transmitted light. 2. The method according to p. 1, characterized in that the laser beam is scanned a predetermined surface of the sheet material, repeatedly exposed to pulses of laser radiation on a layer of metallized foil, paint this surface in a dark color, visible in reflected light, and turn it into transmitted image from a variety of crystal-like structures, either isolated from one another or connected by a frozen fiber melt of glass with particles of a phosphor and metal.

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