RU2021114419A - MAGNETIC CHECK OF VALUABLE DOCUMENTS - Google Patents

Claims (31)

1. A method for checking a valuable document (30) having a security element (31) with at least one low-coercivity magnetic area (l) and/or at least one high-coercivity magnetic area (h), wherein the low-coercivity magnetic area (l) contains a low-coercivity a magnetic material with a first coercive force, and the high coercive magnetic portion (h) contains a high coercive magnetic material with a second coercive force that is greater than the first coercive force, characterized in that: - the protective element (31) is subjected to the first magnetization in the first area (15) of the magnetic field, in which the magnetic field strength is greater than the second coercive force, as a result of which the magnetization of a possibly existing low-coercive magnetic material and the magnetization of a possibly existing high-coercive magnetic material are oriented in the first direction ( x) magnetization, - the protective element (31) is subjected to the second magnetization in the second region (16) of the magnetic field, in which the magnetic field strength is greater than the first coercive force, but less than the second coercive force, and the direction of the magnetic field in the second region of its action is oriented so that as a result of the second magnetization, the magnetization of the possibly present low-coercivity magnetic material is oriented in a second magnetization direction different from the first magnetization direction, - a valuable document (31) is moved along the direction (T) of movement past a magnetic detector (50), in particular an inductive magnetic detector (50) having several measuring tracks (L) located across the direction of movement of the valuable document, on which the magnetic detector registers the corresponding magnetic signals (M) as a function of time, - analyze the magnetic signals (M) from the protective element recorded by the individual measuring tracks (L), and for some of the measuring tracks: - find the two strongest local minima (m1, m2) and/or the two strongest local maxima (M1, M2) present in the corresponding magnetic signal obtained as a function of time on the corresponding measuring track, - for the corresponding measuring track (L), the indicator (u, v) of minima comparison is determined by comparing the amplitude of the magnetic signal in the second strongest local minimum (m2) with the amplitude of the magnetic signal in the strongest local minimum (m1), and / or for the corresponding measuring lanes (L) determine the peak comparison index (U, V) by comparing the amplitude of the magnetic signal at the second strongest local maximum (M2) with the amplitude of the magnetic signal at the strongest local maximum (M1), and - checking the magnetic code of the security element by comparison indicators (u, v) of the minima of some of the measuring tracks (L) and/or by indicators (U, V) of comparing the maxima of some of the measurement tracks (L). 2. The method according to claim 1, characterized in that when checking the magnetic code of the protective element for some of the measuring tracks by means of the indicator (u, v) of comparing the minima and/or by means of the indicator (U, V) of comparing the maxima of the corresponding measuring track (L) it is checked whether the protective element has a low-coercivity magnetic area or a high-coercivity magnetic area in the corresponding section, the magnetic signal from which was registered by the corresponding measuring track. 3. The method according to claim 1 or 2, characterized in that when checking the magnetic code of the protective element by means of indicators (u, v) of comparing the minima and / or by means of indicators (U, V) of comparing the maxima of some measuring tracks (L), it is decided to attribute the protective element to the first or second category of security elements. 4. The method according to claim 3, characterized in that the security element is assigned to the first category of security elements if, with a minimum number (n) of measuring tracks, the minimum comparison indicator (u, v) calculated for the corresponding measuring track is above the first threshold level (t1 ) and/or with a minimum number (n) of measuring tracks, the maximum comparison indicator (U, V) calculated for the corresponding measuring track is below the first threshold level (t1), otherwise the security element is assigned to the second category of security elements. 5. The method according to one of the previous paragraphs, characterized in that the absolute value of the strongest local minimum (m1) or the absolute value of the strongest local maximum (M1) obtained by registering the corresponding magnetic signal on the corresponding measuring track as a function of time is compared with a threshold level (g) of insignificance and when the threshold level of insignificance is exceeded, it is concluded that on the corresponding segment, the magnetic signal from which was registered by the corresponding measuring track, the protective element has a magnetic section. 6. The method according to one of the preceding claims, characterized in that the minimum comparison index of the corresponding measuring track (L) is an index (u) of the difference of minima representing the difference between the amplitude of the magnetic signal at the second strongest local minimum (m2) and the amplitude of the magnetic signal at the strongest local minimum (m1) or vice versa, or the comparison index of the minima of the corresponding measuring track (L) is the minimum ratio index (v) representing the ratio between the amplitude of the magnetic signal at the second strongest local minimum (m2) and the amplitude of the magnetic signal at the strongest local minimum (m1) or vice versa. 7. The method according to one of the preceding claims, characterized in that the peak comparison index of the respective measuring track (L) is the peak difference index (U) representing the difference between the amplitude of the magnetic signal at the second strongest local maximum (M2) and the amplitude of the magnetic signal at the strongest local maximum (M1) or vice versa, or the peak comparison index is a peak ratio index (V) representing the ratio between the magnetic signal amplitude at the second strongest local maximum (M2) and the magnetic signal amplitude at the strongest local maximum (M1), or vice versa. 8. The method according to one of the preceding claims, characterized in that for one or more measuring tracks of the magnetic detector, the corresponding minimum comparison index (u, v) and/or the corresponding maximum comparison index (U, V) is compared with a first threshold level (t1) , wherein the magnetic code of the security element is checked, in particular, by whether the indicator(s) of the comparison of the minima of the corresponding measuring track (L) is (are) above or below the first threshold level, and/or by whether it is (are) ) whether the peak comparison value(s) (V) of the respective measuring track are below or above the first threshold level. 9. The method according to claim 8, characterized in that, depending on whether the comparison index of the minima of the corresponding measuring track is above or below the first threshold level, and / or depending on whether the indicator (V) of the comparison of the maxima of the corresponding measurement tracks below or above the first threshold level, it is decided whether the security element has a high-coercivity or a low-coercivity magnetic area in the corresponding segment, the magnetic signal from which was registered by the corresponding measuring track. 10. The method according to claim. 8 or 9, characterized in that for one or more measuring tracks of the magnetic detector, the corresponding minimum comparison index (u, v) and / or the corresponding maximum comparison index (U, V) is additionally compared with the second threshold level ( t2) and if the minimum comparison index(es) of the respective measuring track and/or the maximum comparison index(s) (V) of the respective measuring track lie(s) between the first threshold level (t1) and the second threshold level (t2), it is concluded that on the corresponding segment, the magnetic signal from which was registered by the corresponding measuring track, the protective element has a combined magnetic section containing both high-coercivity and low-coercivity magnetic material. 11. A control device for checking a valuable document (30) having a security element (31) with at least one low-coercivity magnetic area (l) and/or at least one high-coercivity magnetic area (h), wherein the high-coercivity magnetic area (h) contains a high-coercivity magnetic material with a second coercive force, and a low-coercive magnetic section (1) contains a low-coercive magnetic material with a first coercive force smaller than the second coercive force, wherein the magnetization of the high-coercivity magnetic material is oriented in the first direction of magnetization, and the magnetization of the low-coercivity magnetic material is oriented in the second direction of magnetization, different from the first direction of magnetization, and the control device (100) contains: - a magnetic detector (50), in particular an inductive magnetic detector (50) configured to detect magnetic signals from a valuable document moving along the direction of movement past the magnetic detector (50), wherein the magnetic detector (50) has several measuring tracks (L) located across the direction of movement of the valuable document, and is designed in such a way as to register on the measuring tracks as a function of time the corresponding magnetic signals (M), - a signal processing device (60) configured to analyze the magnetic signals (M) from the protective element recorded by the magnetic detector (50) on individual measuring tracks (L), the signal processing device being designed in such a way that for some of the measuring tracks ( L): - find the two strongest local minima (m1, m2) and/or the two strongest local maxima (M1, M2) present in the corresponding magnetic signal obtained as a function of time on the corresponding measuring track, - determine for the corresponding measuring track (L) the minimum comparison index (u, v) by comparing the amplitude of the magnetic signal in the second strongest local minimum (m2) with the amplitude of the magnetic signal in the strongest local minimum (m1), and / or determine for the corresponding measuring track (L) indicator (U, V) of comparing the maxima by comparing the amplitude of the magnetic signal in the second strongest local maximum (M2) with the amplitude of the magnetic signal in the strongest local maximum (M1), moreover, the signal processing device (60) is configured to check the magnetic code of the protective element by means of indicators (u, v) of comparing the minima of some of the measuring tracks (L) and/or by means of indicators (U, V) of comparing the maxima of some of the measuring tracks (L) . 12. The control device (100) according to claim 11, characterized in that the signal processing device (60) is designed in such a way that when checking the magnetic code of the protective element for some of the measuring tracks (L) by means of the index (u, v) of comparing the minima and/or by means of an indicator (U, V) of comparing the maximums for the corresponding measuring track (L): - decide whether the security element belongs to the first or second category of security elements, and/or - check whether the protective element on the corresponding segment, the magnetic signal from which was registered by the corresponding measuring track, has a low-coercive or high-coercive magnetic section. 13. The control device (100) according to claim 11 or 12, characterized in that it contains one or more magnets (11, 12), which (s) creates (s) the first area (15) of the magnetic field for the first magnetization of the protective element (31) and the second area (16) of the magnetic field for the second magnetization of the protective element (31), located along the path of movement of the valuable document through the control device, behind the first area of the magnetic field and in front of the magnetic detector (50), and the magnetic field strength in the first region of the magnetic field is greater than in the second region of the magnetic field, and the direction of the magnetic field in the second region of its action differs from the direction of the magnetic field in the first region of its action. 14. A device for processing valuable documents, comprising: - a control device (100) according to one of paragraphs. 11-13 and - a transport device (17) for moving the valuable document (31) along the direction (T) of movement past the magnetic detector (50). 15. The device for processing valuable documents according to claim 14, in which the control device (100) is made according to claim 13, and the magnets (11, 12) of the control device that create the first and second areas (15, 16) of the magnetic field are located at a distance from the magnetic detector (50) along the path of movement of the document of value through the device for processing documents of value.