WO2020209749A1

WO2020209749A1 - Method for creating a sheet material for the counterfeit protection of valuable documents and id

Info

Publication number: WO2020209749A1
Application number: PCT/RU2019/000618
Authority: WO
Inventors: Григорий Аврамович РАДУЦКИЙ
Original assignee: Григорий Аврамович РАДУЦКИЙ
Priority date: 2019-04-12
Filing date: 2019-09-04
Publication date: 2020-10-15
Also published as: RU2700731C1

Abstract

The invention relates to special types of printing and makes it possible for unique images for the counterfeit protection of valuable documents and ID to be produced inside the proposed sheet material by acting on said material with pulses of laser radiation. In the proposed sheet material, metallized diffraction gratings are arranged one opposite the other on two sides of a layer of plastic that is transparent to laser radiation. Said gratings are applied simultaneously to the layer of plastic by embossing and form, on the two opposing sides of said layer, a hollow relief of a diffraction grating in the body of the plastic. Said gratings are then metallized, and one of the gratings is covered with a layer of metallized foil. In the proposed sheet material, pulses of laser radiation penetrating the sheet material via the metallized foil interact with the two diffraction gratings successively, causing interference of the beams reflected from the diffraction gratings between said diffraction gratings and the layer of metallized foil, as a result of which vapours of three-dimensional nanostructures form in the channels formed in the metallized foil by the laser beams. Light passing into the sheet material via the channels in the metallized foil is dispersed on the non-demetallized portions of the diffraction gratings and causes the three-dimensional nanostructure vapours to glow, rendering the glowing image visible in reflected light. In transmitted light, said image is visible in the form of pinholes by virtue of the demetallized portions of the diffraction gratings.

Description

A method of creating sheet material for protection against counterfeiting of securities and HE.

The present invention relates to special types of printing and allows you to obtain inside the proposed sheet material original images to protect against counterfeiting of securities and ID when this material is exposed to pulses of laser radiation.

Prior art.

There is a known method of creating sheet material to protect against counterfeiting of securities and ID (see, for example, RF patent a 2537837 B44F 1/08).

In accordance with the known method, the sheet material is created from a layer of plastic, transparent for laser radiation, covered with a layer of metallized foil, and adjacent to the plastic layer, two metallized diffraction gratings isolated from one another with a plurality of dimples in recesses between their strokes, parallel to each other and a layer of metallized foil ...

The known invention makes it possible to obtain in the sheet material two unique security images, one of which shimmers with the colors of a rainbow in reflected light, and the other, in transmitted light, also presents an image consisting of transparent dots.

These security images are created in the sheet material when it is exposed to laser pulses, which pass into the sheet material through the metallized foil layer and first create an image on it from the inlet holes of the channels in the foil. Further, these pulses interact sequentially with two diffraction gratings, cause interference of the rays between the gratings and the metallized foil layer and, ultimately, create a latent image in the foil channels from pairs of bulk nanostructures. The latent image is transformed into an iridescent color under the action of light rays that have passed through the channels in the foil into the inside of the sheet material, have been dispersed on diffraction gratings and caused the emission of pairs of bulk nanostructures.

However, the diffraction gratings in the sheet material according to the known invention are made separately, after which they are combined with each other and with a layer of plastic that is transparent to laser radiation. Therefore, such material is not only laborious to manufacture, but also does not allow to reduce its thickness to a size suitable for protection against counterfeiting of securities (including banknotes).

There is also a known method for creating a sheet material, in which a diffraction grating is applied directly to its surface by embossing followed by its metallization (see, for example, RF patent JNs 2375194 B41F 19/02). However, to create the images described above in the sheet material, a diffraction grating alone is not enough. It is necessary to create in the sheet material two parallel diffraction gratings isolated from one another, located in a certain way among themselves.

Disclosure of the invention.

The invention is based on the object of obtaining such a method of creating a sheet material for protection against counterfeiting of securities and IDs, in which original images in this material can be obtained with its minimum thickness and low labor intensity.

The problem is solved by the fact that in the method of creating sheet material for protection against counterfeiting of securities and ID, which consists in placing two metallized diffraction gratings and a layer of metallized foil on a plastic layer transparent to laser radiation, in accordance with the invention, diffraction gratings are placed one opposite the other, on opposite sides of the plastic layer, transparent to laser radiation, these gratings are embossed on each side of the plastic, they form a diffraction grating relief deepened into the plastic body on each of its opposite sides, both diffraction gratings reliefs are metallized and one of them is coated with a metallized foil layer.

With this method of creating sheet material, the technology of its manufacture is simplified and the thickness of the sheet material is reduced as much as possible, which is extremely important for the protection of securities against counterfeiting by unique security elements. It is expedient that relief images of two diffraction gratings are simultaneously made on both sides of the plastic layer transparent to laser radiation.

With this method of creating sheet material, the most accurate mutual arrangement of diffraction gratings is ensured, which is necessary to obtain high-quality security images in the sheet material.

It is expedient that the strokes on both diffraction gratings on each side of the plastic layer transparent to laser radiation are arranged with the possibility of interaction with them of laser pulses that have passed through the metalized foil layer inside the sheet material.

With this method of creating sheet material, the most effective interaction of laser pulses with strokes of diffraction gratings is ensured and a high-quality protective image is obtained inside the sheet material.

Brief description of the drawings.

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

FIG. 1 - illustrates a method for creating sheet material for protection against

forgery of securities and ID;

FIG. 2 is a view along arrow K in FIG. 1.

Best options for carrying out the invention.

The proposed method for creating sheet material for protection against forgery of securities and ID is as follows.

On the layer of plastic 1, transparent to laser radiation, simultaneously from its two sides are affected by stamps 2 (position A), the working surface of which 3 repeats the relief 4 of the diffraction gratings. If necessary, the dies 2 can be equipped with heating means (not shown in the figure). Position B shows a layer of plastic {with a relief of 4 diffraction gratings applied to it. At position C, the reliefs 4 in the plastic layer are coated with a metal layer, for example aluminum, by vacuum deposition, and two metallized diffraction gratings 5 are created in the plastic layer 1. Then, at position D, one of the diffraction gratings 5 is covered with a layer of metallized foil 6. FIG. 2 shows the lines 7 of the diffraction grating 5 and the dimples 8 in the recesses between them. To obtain the holes on the dies 2, projections are made in the corresponding places (not shown in the figure). Streaks and dimples on diffraction gratings play an important role in the diffraction of laser pulses transmitted inside the sheet material and in the process of interference of rays between the diffraction gratings and the metallized foil layer, as a result of which pairs of bulk nanostructures are created in the channels of the metallized foil.

Subsequently, these nanostructures glow in reflected light under the action of light that has passed through the channels in the foil into the interior of the sheet material and has been dispersed in the areas of diffraction gratings.

In transmitted light, the same image will be formed from transparent dots due to the passage of light rays through the demetallized sections of the diffraction gratings.

The proposed method for creating sheet material makes it possible to minimize the thickness of the sheet material as much as possible, to simplify and reduce the cost of its manufacture.

Polygraphic applicability.

The proposed method for creating sheet material makes it possible to form inside it unique images necessary for reliable protection against counterfeiting of a wide range of printing products.

Due to the fact that the proposed method for creating sheet material minimizes its thickness, this material can be successfully used to protect against counterfeiting securities, including banknotes, and any types of GO.

Claims

Claim

1. A method of creating sheet material for protection against counterfeiting of securities and HE, which consists in placing on a layer of plastic, transparent for laser radiation, two metallized diffraction gratings and a layer of metallized foil, characterized in that the diffraction gratings are placed one opposite the other on opposite sides of the plastic layer transparent to laser radiation, these gratings are embossed on each side of the plastic, form a diffraction grating relief deepened into the plastic body on each of its opposite sides, metallize both diffraction gratings reliefs and cover one of them with a layer of metallized foil.

2. The method according to claim 1, characterized in that relief images of two diffraction gratings are simultaneously made on both sides of the plastic layer transparent to laser radiation.

3. The method according to claim. 2, characterized in that the strokes on both diffraction gratings on each side of the plastic, transparent to laser radiation, are arranged with the possibility of interaction with laser pulses when they pass through the metallized foil layer inside the sheet material.