ES2259519A1 - Authentication system for bogeys includes bogey detector for identifying spectral marks in objects - Google Patents

Abstract

A bogey detector identifies spectral marks in objects from monochrome laser light.

Description

Spectrum Authentication System concrete.

Object of the invention

The present invention relates to a system of authentication by specific spectrum in document security and product authentication. The system has been conceived and made to obtain numerous and notable advantages over other existing means of analogous purposes.

The system is planned to identify specific spectra emitted by the original object, being able to be these own to the object or belonging to additives put in this expressly for this function. For this, the system has 9 well differentiated parts that fit together forming two objects that complement each other, and that are capable of marking e Identify a product using a specific spectrum.

Background of the invention

Several systems and devices are known for authenticate documents and products using stickers holographic, which allow to identify as authentic any object to which you are attached just by looking at the sticker and Observe its multi-dimensionality.

In that sense devices can be cited based on a glossy sticker engraved with two images that depending on the angle of incidence of the light reveals one or the other image. Thus, said attached sticker authenticates with its own authenticity of the product to which it is attached.

This system has several drawbacks, such as are the counterfeit of the sticker itself, since this although it presents two images to be falsified, and the technology necessary for holography manufacturing is not available at general public, if it is on an industrial level, and the copy of images digitally facilitates the reproduction of this sticker. Like the need to use stickers custom, given that a single sticker for several products, it would allow the use of less expensive products as a source of stickers for counterfeit products. Besides its external use, its large size, high cost and low versatility of the Holographic sticker limits your applications. There is also a problem derived from the authenticity of complex objects, or the content of documents or packages that may have been replaced retaining the original holographic sticker. All this together with the need to ensure the safety of the stickers themselves and their logistics, make this method a very limited option in the authentication

Likewise, other systems based on a system of marks made using fluorescent pigments which only absorb within the ultraviolet spectrum, and emit within of the visible due to fluorescence, so they are virtually undetectable to the human eye in lighting conditions standard, but its authenticity can be easily verified exposing this system to ultraviolet light. These systems they have great limitations given their application, depending on a relatively scarce phenomenon, such as fluorescence, but which is easily accessible when found in all types of pigments commercials, which can be obtained even in a toy store, so this type of technology is only a added difficulty that prompts the forger to skip given his "invisibility", although the real technical difficulty to Falsifying this measure is virtually nil. In addition, the system only protects those who count on counterfeit ultraviolet lighting sources, which despite their low cost and wide availability, are not used as a source of usual lighting, so only if you want to verify the Authenticity is used, so that your application rather than avoiding the falsification professionalizes it, by taking measures supposedly security to counterfeiters, further limit if possible use.

Description of the invention

The system of the invention presents a new strategy when identifying authenticity. Instead of marking the objects that are intended to be protected with clearly visible marks, let us mark the objects in a timely manner so that only the manufacturer knows where to look for the marks, and this one provides this information to each client in a timely manner, so that Each product may be marked differently, which would make it impossible to counterfeit, since anti-counterfeit measures cannot be detected without the manufacturer's information. For this, we have devised a system of authentication by specific spectrum, with which we create an exclusive marking process, which chews the object almost undetectably, and a brand identifier by means of a specific spectrum, which being able to identify a specific spectrum in a specific point, allows to identify the object as authentic. This marking at the microscopic level, and with a resolution capacity of its spectrum at the Armstrong level, reduces the probability of detection of the mark by the counterfeiter in the order of one billion. To this end we have created a spectrometry system based on a laser that is previously dispersed in its different wavelengths, and selected the length of interest by means of a monochromator. With this, by exposing the object to the monochromatic laser we get them to interact giving a characteristic spectrum that identifies the object. In addition, to increase the power of the system, magnification optics will be used, since it can obtain resolutions of the order of particles per million, which allows exposing and marking a minimum surface of the same, and in a very tenuous way, not to mention that the scale of laser power is also increased, so the laser source can be low
power.

On the other hand, the system is expected to have two side bands to the specific spectrum that are used to verify the continuity of the spectrum, and that would come from same scattered laser.

There is also the possibility of mounting the system based on artificial marking using isotopes not radioactive, that when presenting spectra very close to the element common this hides the isotope signal for any device conventional; while for our system this signal is what sufficiently separated to be detected.

Therefore the identification of the object is not will based on the identification of the authenticity of a sticker adhered to it, but to the spectrum of the object itself that would characterize

Brief description of the drawings

To complete the description that follows will perform, and in order to help one, better understanding of the characteristics of the invention, it is attached to the present Descriptive memory of a set of drawings and graphs, based on whose figures will be more easily understood innovations and advantages of the device object of the invention.

In said drawings, figure 1 represents a marking system with paper deuterium (8) by heavy water deposited in a tank (1), which is subjected to carbon dioxide high pressure and low temperature carbon from a tank (2), which communicates with that of water through a valve decompression (3), which is regulated by a pressure gauge (4) that measures the pressure in the water tank, which communicates with the tank Carbon dioxide using a compressor (5) and with the marker of the paper (7), by means of a conduction (6) based on the marking on the conversion of this into carbonic acid when subjected to carbon dioxide high pressure carbon and the attack of this acid on paper; the figure 2 represents the specific spectrum authentication system assembled with all its pieces, in which the Source of the laser (9) that illuminates the diffraction reflective maya (10) which projects the different wavelengths on the monochromator (11) that directs the selected wavelengths to the lenses of focus (12), which point to the exposure windows of the object (13), which send the attenuated laser to the sensors (14), which provide information to a unit of processing (15) that displays information (16) on the screen, all powered by a power source (17); figure 3 shows the typical spectrum of hydrogen present in paper cellulose; Figure 4 shows in detail the peak of the spectrum belonging to deuterium; Figure 5 shows the spectrum of deuterium after attacking carbonic acid based paper based on heavy water; figure 6 shows the characteristic spectrum of paper marked with deuterium; Figure 7 shows the continuity bands (19) and the band of the concrete spectrum of deuterium.

Description of a preferred embodiment

In view of the figures, it can be seen how the device is constituted by 9 pieces (numbers 1, 2, 3, 4, 5, 6, 7, 8 and 9) which, when coupled together, give rise to the system of authentication by specific spectrum, in which we can distinguish the optical parts (10), (11), (12) and (13) and the electrical parts (9), (14), (15), (16) and (17), which act by generating a laser that it faces the object and is subsequently analyzed, giving rise to all this to the specific spectrum authentication system (Figure 2).

Currently there are very different materials with which to make the various parts of the system, and multiple techniques that we could use in making the Different details of the invention. However, by simple economy we will choose generalized materials and techniques. So that, for the part of the optical components we will choose lenses and Quartz windows used in high-end optics, when presenting this material a minimum absorbance across the extended spectrum, for the maya and the monochromator we will use the ones available for spectrometry For the electrical part we will choose a laser diode of 655 nm spectrum with a range of 5 nm, while the sensors they will be CCD given its high efficiency for this spectrum; the processor and the screen, can be obtained from those used in computer science pocket, while the power source can be a battery of lithium hydride.

Therefore, to detect if a document is original or false, we will mark this one with deuterium at the time of carbonic acid manufacturing from heavy water High pressure refrigerated with carbon dioxide. This brand will be 100 microns in size and easily placed in one spot identifiable of the document, such as the end point of the Last sentence of it. Next to determine your authenticity, this point is placed in the exposure windows and the system screen is observed, if the document is original, a clear absorbance peak may be observed for that point in the  wavelength 656.12 nm, while around said point and Wavelength the graph is flat. The difficulty of getting deuterium illegally, coupled with the difficulty of distinguishing it from conventional hydrogen and the wide area to analyze given its microscopic application, make these brands undetectable without the manufacturer information, who can also mark each document differently. In such a way that although a forger know the position of a bookmark for a document specifically, I could only falsify that single document, facilitating with it if counterfeit does. It is also possible the creation of multiple brands that are used for control of authenticity at different levels, being able to have brands for manufacturer, distributors, sellers or users, ensuring with it at each level an independent guarantee system.

They will be independent of the object of the invention the materials used in the manufacture of the components of the authentication system for specific spectrum, forms and dimensions of them and all the accessory details that may introduce yourself, as long as they do not affect your essentiality.

Claims (5)

1. Authentication system by specific spectrum in document security and product authentication characterized by comprising nine elements, according to figure 2: Laser source (9), the diffraction reflecting maya (10), the monochromator (11) , the focusing lenses (12), the object exposure windows (13), the sensors (14), the processing unit (15), the screen (16) and the source of the inlet (17), which can be coupled together creating the system, which emits a monochrome laser beam on an object and detecting and analyzing the laser that reflects the object, allowing to detect specific spectra that identify the object. 2. Authentication system by specific spectrum in document security and product authentication according to claim 1, characterized by comprising different sets of elements (9), (10), (11), (12), (13) (14), (15), (16) and (17) that are arranged in the path of the laser, taking advantage of the light power of the laser and its photonic coherence to interact with exposing an object to this monochrome laser so that it is reflected in a sensor where it will be collected along with the information of the object it brings with it. 3. Authentication system by specific spectrum in document security and product authentication according to claim 1, characterized by comprising different sets of elements (9), (10), (11), (12), (13) (14), (15), (16) and (17) that are arranged in the laser path, making the laser an illuminator of the object and a carrier of the information of the spectrum of the object. 4. Authentication system by specific spectrum in document security and product authentication according to claims 1, 2 and 3 characterized by comprising different sets of elements (9), (10), (11), (12), (13) (14), (15), (16) and (17) that are arranged in the laser path turning the laser into an illuminator (exciting a pigment, evaporating solvents, interacting with the nuclei, promoting electrons, etc.) of the object (banknotes, passports, medicines) and carrier of the information of the spectrum of the object (spectrum of absordón, of emission, fluorescence, Raman). 5. Authentication system by specific spectrum in document security and product authentication characterized in that it is carried out by marking deuterium paper, present in an acid solution that attacks the paper by marking it with deuterium which is detected at 656.12 nm, by means of a monochromed red laser for the range 656,10-656.15, all according to the system of claims (1), (2), (3) and (4).