LT5602B - Method for authenticate a printed production - Google Patents

Abstract

The invention relates to protection technologies of printed production, where in original example are placed visible image and additionally latent image. Development of latent image or picture is based on moirÚ effect by superposition with control pattern. Presented device can develop latent images or pictures by contactless method. For development of latent image an example is placed in illuminated zone of mentioned device.

Description

Technical field

The invention relates to the authentication of patterns or drawings which are distinguished by special or unusual light effects.

State of the art

There are well-known technological solutions for protecting printed products from counterfeiting, which is done by matching the sample with a certain template. Examples of such technologies are described in patents LT4922, RU2268152, US5708717, US4586711, US3914877. The proposed alignment methods allow the use of stiffly pressed stencils or microlens plates. Programmable alignment of the scanned image with the template is also allowed. US5396559 discloses an apparatus for automating the process of mapping a graphical structure to be inspected and inspected. The projector allows you to focus the projected image of the template on the surface of the test sample. The focal length of such a projector is precisely set within a very narrow range of sizes. Damage to the focal length violates not only the contrast but also the scaling of the projected image.

The object of the invention

The object of the invention is to provide a desktop device for checking the authenticity of a printed sample. The device must find mismatches of the graphical structure of the sample being tested with respect to the template. In addition, the device must highlight hidden images that are capable of being created in the patents mentioned above. Hidden images must be highlighted, for example, within the operating range of the device.

Description of the proposed solution

A schematic design of the device is shown in FIG. 1.

FIG. 1 marked positions: 1 - point light source; 2 - collimator; Slide 3 with reference image; 4 is the plane on which the specimen under examination rests; 5 check sample.

The laser light diode plays the role of a point light source (1). The color of the light emitted by the laser diode is selected based on the color pattern of the sample. It must be of opposite range for best development. Multiple LEDs of different colors can be installed to quickly select the right color. The collimator (2) plays the role of a lens whose focal length is selected with respect to the angle of the LED illuminated sector. The diameter of the lens determines the area in which the test specimen will be available for examination. The use of a mirror collimator is allowed. The collinear rays then pass through the slide (3) with a reference image. The reference image in the slide must be reproduced at the original sample scale. A standard photographic typing machine is used to make the slide (today the image is simply exposed to print but in this case the required exposure to the film). In the case where a hidden image needs to be highlighted, parallel lines are drawn on the photo template, occupying 50% of the area. The time taken to form lines and their tilt angle corresponds to the parameters of the raster containing the hidden image. The slide (3) can be mounted on a pivoting base, which facilitates the determination of a turning angle identical to the pattern pattern of the sample being tested. As the beam of light passes through the slide, a diffraction effect can occur, which in turn results in interference as a result of which, at constant intervals, the area produces no obscured image. The test sample (5) can be brought to the device over a wide range of distances from the collimator (2), but possible diffraction should be considered. The maximum distance between the collimator (2) and the test sample (5) is determined by the accuracy of the focal length alignment of the collimator (2), the lens quality used, the area of light emitted by the laser diode (1) and the transparency (3). In order to set the test specimen (5) at the required angle and at the required distance, planes (4) are provided during the test, against which the test specimen is supported.

The problem is solved by projecting the image to be used for inspection into a sample to be inspected by collinear beams. The device described is simple in design and can be used in a variety of environmental conditions. In addition, there is a broader scope for security technology to encode non-copied hidden images. Previously, a special optical key was rigidly and precisely attached to the sample surface to highlight the hidden image. The application of this method of inspection was only possible when working quietly and without haste. The device described allows the sensitive images to be highlighted by placing the sample within the operating range of the device. The operating range of the device may be sufficient for rapid identity verification.

The device may be manufactured in a form similar to a desk lamp, a contact microscope, a flashlight or a niche. It may include a camcorder for remote viewing or image storage. There is a possible sample test in the light ranges invisible to the human eye.

The torch-shaped device can be used to quickly check entry tickets without causing significant traffic obstruction to the passage of people. In this case, non-copying raster structure deformation according to patent LT4922 should have mathematically defined vector tilt angles. Hidden images displayed by a raster with a marked deformation of the structure based on mathematical formulas are complex geometric shapes. Such geometric shapes are highlighted regardless of the accuracy of the control template design.

Claims (10)

Definition of the Invention 1 A method for authenticating a printed product by matching the sample and template images, other than rendering the template by collinear light. 2 A method for authenticating printed matter according to claim 1, characterized in that the collinear light source is a laser. 3 A method for authenticating printed matter according to claim 1, characterized in that the color of the light emitted can be changed. 4 A method for authenticating printed matter according to claim 1, characterized in that the control template is mounted on a rotating base. 5 A method for authenticating a printed product according to claim 1, characterized in that it utilizes a plane to which one edge of the sample is pressed. 6 A method for authenticating a printed product as claimed in claim 1, characterized by using a niche-form device which is inserted into the sample. 7 A method for authenticating printed matter according to claim 1, characterized in that it utilizes a table-lamp device. 8 A method for authenticating a printed production according to claim 1, characterized by using a torch-shaped device. 9 A method for authenticating printed matter according to claim 1, characterized by using a camcorder. 10 A method for authenticating printed matter according to claims 1 and 9, characterized in that the light source operates in the light ranges invisible to the human eye.