RU4177U1 - DEVICE FOR LABELING OF PRINTED MATERIAL FOR SPECIAL PURPOSE - Google Patents

Description

Device for marking printed matter for special purposes

The utility model relates to the field of identification of printed materials, mainly securities, and relates in particular to devices for marking these materials.

Known devices for marking various objects, containing a coherent ray emitter, which using a focusing unit forms an image on the surface of the object, while the irradiated surface undergoes a structural change in the material of which the object is made (1).

For marking printed materials, in particular securities, it is unacceptable to change the structure of their material.

It is also known a device for marking special-purpose printed material, mainly securities, containing a laser pulsed coherent ray emitter, a screen with irradiated printed material located, an electro-optical modulator located between the screen and the emitter with the possibility of focusing the pulsed beam on the printed material, and an image forming unit on printed material (2).

The disadvantages of the known device include the low degree of security of the printed material from counterfeiting in view of the insufficiently high accuracy of manufacturing the outline of the marked image.

The objective of the present utility model is the development of a device for marking printed material, in particular securities, having high adaptability to apply complex labeled images, whether it is a word or a force, or both, on the surface of a printed material, and relatively low cost.

To achieve the specified technical result in the device for marking printed material for special purposes, mainly securities containing installed on

a laser pulse emitter of coherent rays, a screen with located irradiated printed material, an electro-optical modulator located between the screen and the emitter with the possibility of focusing the pulse beam on the printed material, and an imaging system on the printed material, the latter is made in the form of a beam moving unit and / or printed material connected to a computer and associated with items

optical system with the ability to change the position of the surface irradiated per unit time according to a computer program and image formation of any configuration, while the radiation wavelength is determined from the range from 300 to 400 nm, the radiation power flux density is in the range of 1-10 W / cm, and the time applying one spot of the image lies in the range from 1.0 to 0.1 seconds.

In addition, the pulsed emitter of coherent rays is made in the form of an excimer laser.

These signs are essential and interconnected causal relationship with the formation of a set of essential features necessary and sufficient to achieve the specified technical result.

Figure 1 shows a schematic diagram of a device for marking printed material for special purposes.

Figure 2 and 3 - embodiments of the communication of the moving element with the elements of the optical system of this device.

The utility model is illustrated by a specific implementation example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving a given set of features of a given technical result.

A device for marking printed matter for special purposes is intended primarily for marking securities, as well as documents, bills, stocks and similar printed material, by irradiating them with coherent pulsed rays. The range of wavelengths of coherent rays affecting the change in the physical properties of printed material for special purposes is in the range from 300 to 400 nanometers with a radiation flux density in the range of 1-10 W / cm and time (from 1.0 to 0 , 1 sec.) Irradiation of the image element depending on the density and other parameters of the printed material.

The device comprises coherent beams installed on the basis of a laser pulse emitter 1 (Fig. 1), a screen 2 with printed material located irradiated, which in one embodiment can be made in the form of an excimer laser. An electro-optical modulator 4 is located between the screen 2 with the irradiated printed material 3 and the emitter to provide focusing of the pulsed beam on the surface of the printed material. To set a specific marking image, the device is equipped with an image forming system on printed material made in the form of a beam-moving unit 5 and / or printed material connected to a computer b and connected to elements of the optical system, namely, either a radiator 1 or an electro-optical modulator 4, or with a screen 2 with printed material located on it (FIGS. 2 and 3) or with a screen 2 and a modulator 4 at the same time, with the possibility of changing the position of the irradiated spot on the surface of the printed m Therians on the computer program and the imaging of any configuration.

The device according to the utility model operates as follows.

The laser emitter 1, mounted stationary relative to the base 8, forms a pulsed coherent beam, which is focused by means of the electro-optical modulator 4 and in this form irradiates the printed material 3 located on the screen 2, changing its physical properties only in the places where the beam 7 passes, i.e. in areas of exposure. In order to form a marking image, for example, a word or a complex designation of the designation, an imaging system is introduced into the device, consisting of a beam-moving unit 5 and / or printed material connected to computer b and connected to elements of the optical system (emitter, modulator and screen) c the ability to change the position of the irradiated spot on the surface of the printed material according to the program of computer b and image formation of any configuration.

According to the embodiment shown in FIG. 1, the modulator 4 and the screen 2 are mounted on the base 8 by means of displacement units 5 with the possibility of changing their spatial position relative to the base and thereby forming any image on the printed material by changing the position of the irradiated spot on the surface of the material formed by irradiating it with coherent pulsed rays. In this case, the radiation wavelength is determined from the range from 300 to 400 nm, the radiation power flux density is in the range of 1-10 W / cm, and the time of applying one image spot lies in the range from 1.0 to 0.1 sec, depending on the quality the manufacture of printed material, the density of its structure and other parameters of the printed material for this purpose. It is within these limits that the use of the device does not lead to a violation of the physicochemical structure of the printed material. In each case, the material is irradiated with coherent rays with parameters specially selected experimentally that lead only to a local deviation of the physical properties of individual sections (zones) of the material.

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The wavelength of ultraviolet rays is in the wavelength range of the rays generated by the laser emitter 1.

The changed properties of the material are stable over time and chemically resistant.

The use of the device allows marking to be performed directly on the printed material and to form an image on it by changing the energy properties and molecular structure of the printed material, which in turn allows using the computer connected to the moving element to program the image and apply it to the printed material with high spatial resolution. Another advantage of the device is the ability to mark printed material using I eat holography.

Sources of information:

French patent 2613287 C. MKI B 41 M 3/14, 1988 (1) French patent 2588509 C. MKI B 81 M 5/26, 1987 (2)

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Claims (2)

1. A device for marking printed material for special purposes, mainly securities, containing installed on the basis of a laser pulse emitter of coherent rays, a screen with the irradiated printed material, an electro-optical modulator located between the screen and the emitter with the ability to focus the pulse beam on the printed material, and the system imaging on printed material, characterized in that the imaging system is made in the form of a moving unit beam and / or printed material connected to a computer and connected with the elements of the optical system with the ability to change the position of the irradiated spot and image formation of any configuration. 2. The device according to claim 1, characterized in that the pulsed emitter of coherent rays is made in the form of an excimer laser, the radiation wavelength of which is determined from the range of 300 - 400 nm, the radiation power flux density is in the range of 1 - 10 W / cm ² and the time of application of one image spot lies in the range of 0.1 - 1.0 s.