JP2002269616A - Authenticity determining device of intaglio printed matter, authenticity determining method thereof and intaglio printed matter adapted for authenticity judgment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an authenticity determining device of an intaglio printed matter, an authenticity determining method thereof and a printed matter adapted therefore in which a magnetic amount and a scanning amount of a magnetic pigment existing at a printed part are detected and compared with those of a true ticket. SOLUTION: The authenticity determining device is provided with a sensor part 2 provided with a magnetic sensor 2a for detecting a magnetic amount of the magnetic pigment existing at the printed part of the printed matter to be inspected and a displacement sensor 2b for detecting the scanning amount owing to the intaglio printing; a reference data memorizing part 5a memorizing the magnetic amount and the scanning amount existing at a printed part of a true printed matter as a reference data; and an authenticity determining part 5b comparing the magnetic amount data and the scanning amount data of the printed matter to be inspected detected by the sensor part 2 with the magnetic amount reference data and the scanning amount reference data of the true printed matter memorized in the reference data memorizing part 5a respectively to determine the authenticity.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and a method for discriminating the authenticity of an intaglio printed matter, and to an intaglio printed matter suitable for the authenticity discrimination, and more particularly, to a magnetic quantity due to a magnetic pigment in a printed image. A true / false discrimination that can determine a printed matter whose fixed amount and image line amount change along a specific line on a printing surface respectively as a genuine note (true note) and detect a printed matter that is not so as a counterfeit note (counterfeit note) The present invention relates to an apparatus, a method for determining the authenticity thereof, and an intaglio printed matter suitable for the authenticity determination.

[0002]

2. Description of the Related Art Heretofore, a technique has been known in which a magnetic pigment is mixed into a printing ink for printing, a magnetic sensor is scanned along a printing surface of the printed material, and a printed material in which a predetermined magnetic waveform cannot be detected is detected as a counterfeit ticket. was there. In this technique, an MR head is usually used as a sensor for magnetic detection. To determine the authenticity, the printed matter is transported in a certain direction, and the magnetic waveform is detected by applying an MR head to one point on the printed surface of the transported printed matter. The detected magnetic waveform is compared with a magnetic waveform previously detected at the same portion of the genuine bill, and the authenticity is determined based on the degree of coincidence between the two magnetic waveforms.

There has also been a technique for detecting the total amount of magnetism of a printed material instead of detecting a fixed magnetic waveform. These technologies have the advantage that even a fake ticket imitated so precisely that it is difficult for the naked eye to determine the authenticity, it is possible to determine the authenticity based on the magnetic quantity (magnetic waveform or total magnetic quantity). are doing.

Further, there is an intaglio printed material as a printed material employed because it is relatively difficult to imitate it in the first place. The intaglio printing product is prepared by preparing an intaglio printing plate in which an image to be printed is cut as a groove, filling a groove portion of the intaglio printing plate with printing ink, transferring the printing ink to a paper surface, and printing.

The intaglio printed matter thus printed is
Convex portions are formed on the paper surface by the printing ink. The height of the convex portion is referred to as the "image line height" in intaglio printing. On the printing surface of the intaglio printed matter, a concavo-convex pattern formed by a convex portion made of the printing ink and a concave portion corresponding to the original paper surface is formed. This intaglio printed matter is difficult to produce in the first place as compared with a photograph, a copy or the like in that an intaglio, which is an original plate, must be prepared. In addition, optical methods such as photography and copying do not allow fine irregularities on the surface as in intaglio printing, so that the authenticity can be firstly determined to some extent by human touch.

As a technique for more strictly discriminating the authenticity of an intaglio printed matter, a technique for detecting a concavo-convex pattern on a printing surface of the intaglio printed matter has been proposed (Japanese Patent Laid-Open No. 7-239960).
This technique is to irradiate a near-infrared laser beam onto the surface of an intaglio printed matter, and to detect an uneven pattern on the printing surface of the intaglio printed matter based on a difference in a light receiving position of reflected light due to unevenness on the surface. According to this technique, it is possible to detect the print image lines as the uneven pattern. As a result, even the same object without irregularities can be identified as a counterfeit.

As another conventional technique for determining the authenticity of a printed matter, there is a method of reading the amount of transmitted light. In this method, light is emitted from the back side of a printed matter, and the thickness of the printed matter is detected based on the amount of light transmitted to the front side. In general, a machine processing machine such as an ATM irradiates light on a printed material to be inspected and detects the thickness of the paper based on the total transmitted light amount. According to this method, it is possible to determine a counterfeit ticket in which the thickness of a genuine ticket differs from that of a paper.

[0008]

However, in the above-described method of detecting the magnetic quantity of the magnetic pigment contained in the printing section and discriminating a fake print, if the arrangement pattern of the magnetic quantity to be detected can be known, the magnetic ink must be detected. There is a problem that it is possible to make it impossible to discriminate a genuine bill by appropriately arranging the bills. In particular, when the magnetic sensor comprises an MR head, it is difficult to read the exact width of the image because the output waveform of the MR head is a differential waveform such as the initial magnetic permeability. For this reason, it is possible to imitate the magnetic quantity arrangement pattern by the magnetic ink irrespective of the image, and a counterfeit ticket may be relatively easily produced.

On the other hand, with the above-described technology for determining the authenticity of an intaglio printed material based on the concavo-convex pattern, it is difficult to determine the authenticity of the printed material imitating the concavo-convex pattern on the printing surface. For this reason, it is conceivable to imitate the image of a genuine bill to make the paper surface uneven. The above prior art (JP-A-7-239960)
Has been designed to detect only the concavo-convex pattern due to the presence of a convex portion of printing, but if the height of the convex portion (image volume) is detected, it is possible to make a stricter true / false determination. However, the discrimination based on only the image line buildup amount may be disabled by imitating sophisticated intaglio printing. The method of discriminating the authenticity of a printed matter based on the amount of transmitted light involves irradiating the entire inspected print with light and detecting the thickness of the printing paper based on the amount of transmitted light. Therefore, it is considered that it is difficult to determine the authenticity of the intaglio printed matter.

[0010] Except for the problem of printing paper, in general,
If it has the same object as the object of the genuine print (the same width and height in intaglio printing), and if the object is printed with the same printing ink as the genuine print, It can be said that the probability that the printed matter is authentic is extremely high. That is, if the same object (the object having the same cross-sectional shape) is printed with the same printing ink (the same material), the probability that the printed matter is authentic is extremely high. After all, the conventional printed matter authenticity discrimination methods described above only detect a part of the condition that the printed matter is a genuine printed matter, so that imitation is easy.

Therefore, an object of the present invention is to detect the magnetic amount of magnetic pigment present in the printed portion of a printed material to be inspected and the amount of image streaks by intaglio printing and collate them with those of genuine bills. Accordingly, it is an object of the present invention to provide an intaglio printed matter authenticity discriminating apparatus, an authenticity discriminating method thereof, and a printed matter suitable for the authenticity discriminating apparatus which perform the authenticity discrimination with extremely high probability.

[0012]

According to a first aspect of the present invention, there is provided an apparatus for determining the authenticity of an intaglio printed matter, comprising: a magnetic sensor for detecting a magnetic quantity of a magnetic pigment present in a printing portion of the inspected printed matter; A sensor unit having a displacement sensor for detecting the amount of ascending, a reference data storage unit storing as reference data a magnetic amount and an image ascending amount present in the printing unit of the genuine printed matter, and an inspection target detected by the sensor unit. A true / false judgment unit that compares the magnetic quantity data of the printed matter, the image line quantity data, and the magnetic quantity reference data of the genuine printed matter and the image quantity reference data stored in the reference data storage unit to determine the authenticity. And characterized in that: According to this authenticity discrimination device, the magnetic sensor of the sensor unit detects the magnetic amount of the printing portion of the intaglio printed matter, and the displacement sensor detects the image line amount of the printing portion. The magnetic quantity and the image area are compared with the magnetic quantity and the image area of the genuine print, respectively, and a printed matter having both the magnetic quantity and the image area is determined to be a genuine print. As a result, it is possible to eliminate a forged print which imitates only one of the diagram representing the image, the ink amount, and the magnetic amount.

According to a second aspect of the present invention, there is provided an apparatus for determining the authenticity of an intaglio printed matter according to the first aspect. The reference data storage unit is configured to store a waveform of a change in the magnetic amount and the image line amount in a portion of the genuine printed matter detected by the sensor unit as magnetic reference data and displacement reference data, respectively. Wherein the authenticity determination unit is configured to determine the authenticity by comparing the magnetic input data and the magnetic reference data, and the displacement input data and the displacement reference data. is there. According to this authenticity discriminating apparatus, the sensor unit detects changes in the magnetic quantity and the image line quantity as waveforms. The authenticity determination unit compares the waveforms of the changes in the magnetic quantity and the image line quantity of the inspected print with those of the authentic print. As a result, it is possible to collate a wide range of the magnetic amount and the waveform of the change in the image line amount.

According to a third aspect of the present invention, there is provided an authenticity discrimination device for an intaglio printed matter, wherein the sensor unit includes a magnetic quantity and an image area of a predetermined portion of a sensor scanning line with respect to the printed matter. Are detected as magnetic input data and displacement input data, respectively, and the reference data storage unit is configured to detect the magnetic amount and the image area of the genuine print at the part detected by the sensor unit, respectively, using magnetic reference data and displacement reference. Stored as data, the authenticity determination unit is configured to determine the authenticity by comparing the magnetic input data and magnetic reference data, the displacement input data and the displacement reference data. It is a feature. According to this authenticity discriminating apparatus, the sensor unit detects the magnetic quantity and the image line quantity at a predetermined portion of the printing unit. As a result, the characteristic waveform,
Alternatively, the magnetic amount of the portion that is difficult to imitate and the image line amount can be compared with emphasis, and efficient authenticity determination can be performed.

According to a fourth aspect of the present invention, there is provided an intaglio printed matter authenticity determination apparatus according to any one of the first to third aspects,
A binary data conversion unit for inputting the magnetic quantity data and the image line quantity data detected by the sensor unit and converting them into magnetic quantity binary data and image line quantity binary data, respectively; The storage unit stores, as reference data, data obtained by binarizing the magnetic amount and the image line amount existing in the printing unit of the genuine print, as the reference data, and the authenticity determination unit outputs the binary data output unit. The magnetic quantity binary data and the image line quantity binary data are compared with the magnetic quantity reference data and the image pattern quantity reference data stored in the reference data storage unit, respectively, so as to determine the authenticity. It is characterized by having. According to this authenticity discrimination device, the magnetic quantity and the image line quantity of the inspected printed matter are converted into binary data and compared with those of the authentic printed matter. This facilitates the detection of the magnetic quantity and the image line quantity, and facilitates the processing of the binary data, thereby facilitating the authenticity determination processing.

The authenticity discrimination device of an intaglio printed matter according to the claims 5, The apparatus of claim 4, wherein the reference data storage unit, two values of the magnetic charge and streaking Sakariryou present in the printing unit of the authentic printed matter A predetermined calculation result using the data is stored as reference data, and the authenticity determination unit uses the magnetic quantity binary data and the image line quantity binary data output by the binary data conversion unit. It is characterized in that it is configured to calculate and compare with the reference data to determine the authenticity. According to this authenticity discriminating apparatus, a predetermined calculation process is performed on the magnetic quantity and displacement of the printed matter to be inspected, and the result is used for authenticity discrimination. Therefore, only the calculation result of the authentic printed matter needs to be held as reference data. . Therefore, the data amount of the reference data is small enough to be practically ignored.

The authenticity determining apparatus for intaglio printed matter according to claim 6 of the present application is the apparatus according to any one of claims 1 to 5,
The magnetic sensor of the sensor unit is an MR head or a thin film magnetic field detecting element (TMF sensor) or a ring type magnetic head comprising a core and a gap, and the displacement sensor of the sensor unit is a laser focus displacement sensor, a contact type displacement sensor, or a roller type. It is characterized by comprising a displacement sensor or a CCD laser displacement sensor. An MR head or thin-film magnetic field detecting element (TMF sensor) or a ring-type magnetic head consisting of a core and a gap, and a laser focus displacement sensor, a contact type displacement sensor, a roller type displacement sensor, or a CCD laser displacement sensor on the printing portion of an intaglio print. It is possible to detect the existing magnetic quantity and image line quantity to a degree sufficient for authenticity discrimination.

The authenticity discrimination device for intaglio printed matter according to claim 7 of the present invention is the device according to any one of claims 1 to 5,
The sensor unit includes an MR head, a thin-film magnetic field detecting element (TMF sensor), or a ring-type magnetic head including a core and a gap, and a magnetic sensor that moves up and down along the unevenness of the surface when scanning a printed material to be inspected. An arm connected to the magnetic sensor at one end and a fulcrum fixed at the other end, and a contact type or non-contact type displacement sensor, the magnetic sensor being in contact with the magnetic sensor itself or a part of the arm. And a displacement sensor for detecting the vertical movement of According to this authenticity discrimination device, the magnetic sensor moves up and down along the unevenness of the surface of the test print, and the vertical movement is detected as a displacement of the surface of the test print by a contact or non-contact displacement sensor. be able to.

The authenticity discrimination device for intaglio printed matter according to claim 8 of the present invention is the device according to any one of claims 1 to 5,
The sensor unit includes an MR head, a thin-film magnetic field detecting element (TMF sensor), or a ring-type magnetic head including a core and a gap, and a magnetic sensor that moves up and down along the unevenness of the surface when scanning a printed material to be inspected. A displacement sensor comprising an angle sensor, the tip of an arm whose angle change is to be measured is coupled to the magnetic sensor, and a change in the inclination angle of the arm is detected as a displacement. It is. According to this authenticity discrimination device, the magnetic sensor moves up and down along the irregularities on the surface of the test print, and the vertical movement can be detected as a displacement of the surface of the test print by the angle sensor.

A method for determining the authenticity of an intaglio printed matter according to claim 9 of the present application includes a step of detecting a magnetic amount of a magnetic pigment present in a printed portion of the inspected printed matter and an image line amount by the intaglio printing.
A step of inputting the magnetic quantity and the image line quantity present in the corresponding portion of the genuine print as reference data, and detecting the magnetic quantity data and the image fill quantity data of the inspected print, and the magnetic quantity reference data of the genuine print. A step of comparing each of the reference values with the image line quantity reference data to determine the authenticity. According to this authenticity discrimination method, the magnetic amount of the printing portion of the intaglio printed matter is detected, and the image line amount of the printing portion is detected. The magnetic quantity and the image area are compared with the magnetic quantity and the image area of the genuine print, respectively, and a printed matter having both the magnetic quantity and the image area is determined to be a genuine print. As a result, it is possible to eliminate a forged print which imitates only one of the diagram representing the image, the ink amount, and the magnetic amount.

According to a tenth aspect of the present invention, there is provided a method for determining the authenticity of an intaglio printed matter, the method comprising: detecting a change in the magnetic quantity and a change in the image area of the inspected printed matter as magnetic input data and displacement input data, respectively; Inputting the waveforms of the change in the magnetic quantity and the image line quantity existing in the corresponding portions as magnetic reference data and displacement reference data, respectively, the magnetic input data and the magnetic reference data, and the displacement input data and the displacement reference data. And judge the authenticity by comparing each of them with each other. According to this authenticity discrimination method, the changes in the magnetic quantity and the image line quantity in the intaglio printing portion are detected as waveforms and compared with those of the genuine printed matter. As a result, it is possible to collate a wide range of the magnetic amount and the waveform of the change in the image line amount.

According to the eleventh aspect of the present invention, there is provided a method of determining the authenticity of an intaglio printed matter, wherein the magnetic amount and the image area of a predetermined portion on a sensor scanning line of the inspected printed matter are detected as magnetic input data and displacement input data, respectively. And inputting the magnetic amount and the image line amount present at the corresponding portions of the genuine printed matter as magnetic reference data and displacement reference data, respectively, the magnetic input data and magnetic reference data, and the displacement input data and displacement reference data. And judge the authenticity by comparing each of them with each other. According to this authenticity discrimination method, the authenticity is discriminated by detecting the magnetic quantity and the image line quantity at a predetermined portion of the intaglio printed matter. As a result, the characteristic waveform or the magnetic amount of the portion that is difficult to imitate can be collated with the image line amount with emphasis, and efficient authenticity discrimination can be performed.

According to a twelfth aspect of the present invention, there is provided a method for determining the authenticity of an intaglio printed matter, comprising: detecting a magnetic amount of a magnetic pigment present in a printed portion of the inspected printed matter; Inputting the magnetic quantity data and the image area quantity data of the inspected printed matter and converting them into magnetic quantity binary data and image area quantity binary data, respectively; and a magnetic quantity existing at a corresponding portion of the genuine print. Inputting the magnetic quantity reference data and the displacement reference data by binarizing the image quantity and the image quantity, respectively; the magnetic quantity binary data, the image quantity quantity binary data, the magnetic quantity reference data and the image quantity Comparing the amount reference data with each other to determine the authenticity. According to this authenticity discrimination method, the magnetic quantity and the image area of the inspected print are converted into binary data and compared with those of the authentic print. This facilitates the detection of the magnetic quantity and the image line quantity, and facilitates the processing of the binary data, thereby facilitating the authenticity determination processing.

According to a thirteenth aspect of the present invention, there is provided a method for determining the authenticity of an intaglio printed matter, comprising: a step of detecting a magnetic amount of a magnetic pigment present in a printed portion of the inspected printed matter; The input magnetic quantity data and image line quantity data of the inspected printed material are input and converted into magnetic quantity binary data and image area quantity binary data, respectively, and a predetermined operation is performed using those values. And a step of binarizing the magnetic quantity and the image line quantity present at the corresponding portions of the genuine print, respectively, and performing the same calculation as the above calculation using the values, and calculating the result of the test print. Comparing the calculation result of the genuine printed matter with the genuine printed matter to determine the authenticity. According to this authenticity discrimination method, a predetermined calculation process is performed on the magnetic amount and the displacement of the printed matter to be inspected, and the result is used for authenticity discrimination. Therefore, only the calculation result of the authentic printed matter needs to be held as reference data. . Therefore, the data amount of the reference data is small enough to be practically ignored.

The intaglio printed matter according to claim 14 of the present application is arranged such that the magnetic amount of the magnetic pigment in the printed image and the image line height change independently of each other along a predetermined line on the printing surface. It is characterized by being manufactured and managed. According to this intaglio printed matter, the magnetic amount of the magnetic pigment in the image and the image line height change independently of each other along a predetermined line on the printing surface. As a result, the combination of the magnetic amount and the image line amount of the printing unit changes in various ways, and it is possible to obtain an intaglio printed matter that is difficult to imitate, that is, suitable for authenticity determination.

[0026]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, an embodiment of the "apparatus for determining the authenticity of an intaglio printed matter, its authenticity discrimination method and intaglio printed matter suitable for authenticity discrimination" according to the present invention will be described with reference to the drawings. First, an apparatus for determining the authenticity of an intaglio printed matter, an authenticity determining method, and an intaglio printed matter suitable for authenticity determination according to the present invention will be described in general.

FIG. 1 shows a flow chart from the production of "intaglio printed matter suitable for authenticity discrimination" to the authenticity discrimination according to the present invention. The “intaglio printed matter suitable for authenticity discrimination” according to the present invention is such that, along a predetermined line on the printing surface, the amount of magnetism and the amount of image formation by the magnetic pigment in the printed image change independently. Thus, it can be said that it was managed and produced. `` Manage and produce so that the amount of magnetism and the amount of image line by the magnetic pigment in the printed image change independently of each other '' means that the image amount of the intaglio printing is intentionally changed and the magnetic The purpose is to adjust the amount of pigment to change the amount of magnetism independently of the amount of image streaks. Here, the "image line height" refers to the height of the convex portion formed by the ink formed on the surface of the intaglio print as described above.

FIG. 2 shows an example of an "intaglio printed matter suitable for authenticity discrimination" according to the present invention in which the magnetic quantity and the image line quantity are independently changed. FIGS. 2A to 2D show cross-sections of an intaglio image in which the magnetic pigment and the intaglio image amount are variously changed. Inks are fixed on a substrate such as paper by intaglio printing. Objects to be printed are represented by these inks. The portion where the ink is printed is called a printing unit. The cross-sectional shape of the object is determined by the width and the height (height) of the object. The magnetic amount of the printing part is adjusted by the amount of the magnetic pigment mixed into the ink, thereby determining the magnetic amount. As described above, the “intaglio printed matter suitable for authenticity discrimination” according to the present invention is one in which the magnetic quantity of the printed image and the image area are independently changed. FIG.
Each of the print examples shown in (a) to (d) is the same combination of an object having a narrow width and an object having a wide width. However, in those objects, the magnetic pigment and the amount of object are individually changed and combined. Thereby, the combination of the magnetic amount of these objects and the displacement (image amount) showing the surface irregularities are all different from each other as shown in the graphs of the respective magnetic amounts and displacements in FIGS. It has become. The combination of the magnetic quantity and the displacement is the central part of the authenticity determination of the present invention.

Here, returning to the flowchart of FIG. 1, the description will be continued. “Designing a desired intaglio drawing” (designing an intaglio drawing so as to have desired reference data) in step S100 in FIG. 1 means a designed picture, a diagram, a character, etc. This is to design independent changes in the amount of magnetic field and the amount of image line as described with reference to FIG. Next, based on the design in step S100, an intaglio plate surface is produced (step S110), and an intaglio ink is produced (step S120). That is, the grooves of the intaglio are cut in accordance with the designed image stitching amount, and the magnetic pigment is prepared so as to have a desired color so as to have the designed magnetic amount. Next, the intaglio printing is performed using the intaglio printing surface and the ink thus manufactured so as to have the designed magnetic amount and image line amount (Step S130). Intaglio printed matter of authenticity is completed by this step S130.

Next, the authenticity discrimination for detecting and eliminating a counterfeit ticket of the intaglio printed matter will be described. For the genuine intaglio printed matter, the magnetic reference data and the displacement reference data are generated by measuring changes in the magnetic amount and the image line amount along a predetermined line on the printing surface (steps S140 and S145). On the other hand, with respect to the printed matter to be inspected (step S150), the change in the magnetic amount and the image area is measured at the same site as the area where the magnetic amount and the image area amount were measured for the genuine printed matter, and the magnetic input data (input data). And the displacement input data (inputted image data) are acquired (step S16).
0, S165). Next, the magnetic quantity data and the displacement data of the genuine intaglio printed matter and the inspected printed matter are compared with each other (steps S170 and S180). That is, the magnetic reference data and the magnetic input data are compared, and the displacement reference data and the displacement input data are compared. Next, the above step S
170 and the result of the comparison in step S180 are both (AN
D condition) Comprehensive judgment is made depending on whether or not they match (step S190). In the comprehensive judgment, the inspected printed material in which either the magnetic quantity or the displacement does not match is excluded as a forged printed material (step S200). The above is the flow from the production of the “intaglio printed matter suitable for authenticity discrimination” according to the present invention to the authenticity discrimination.

FIG. 3 shows a configuration of a genuineness discriminating apparatus for deciding the authenticity of the intaglio printed matter described above. The authenticity discriminating apparatus 1 shown in FIG. 3 includes a sensor unit 2, a position detecting device 3, an amplifier unit 4, a computer 5 that performs authenticity discrimination, and a result output unit 6.
And The sensor unit 2 is a means for detecting the magnetic quantity and the image line quantity of the printed matter to be inspected or the genuine printed matter. In order to detect both the magnetic quantity and the image line quantity of the printed material to be inspected, the sensor unit 2 includes a magnetic sensor 2a and a displacement sensor 2b.
And The magnetic sensor 2a includes an MR head, a thin-film magnetic field detecting element (TMF sensor), or a ring-type magnetic head including a core and a gap. Further, the displacement sensor 2b comprises a laser focus displacement sensor, a contact type displacement sensor, a roller type displacement sensor, or a CCD laser displacement sensor. The specific configuration of the sensor unit 2 will be described later. The position detection device 3 is a device that detects the position of a printed material to be inspected. With the position detection device 3, the scanning region of the sensor unit 2 can be accurately specified. The amplifier unit 4 is a device that amplifies the detection signal output by the sensor unit 2. Since the magnetic quantity and the surface irregularity (image line quantity) of the printed matter to be inspected are usually very small, the detection signal is amplified by the amplifier unit 4. The computer 5 is a device for determining authenticity. The computer 5 has a data storage unit 5a and an authenticity determination unit 5b. The data storage unit 5a stores the magnetic reference data described above,
This is a part for storing displacement reference data and the like. The authenticity determination unit 5b compares the magnetic reference data with the magnetic input data and the displacement reference data with the displacement input data, and performs an arithmetic process for determining only those that are each true based on the AND condition. The result output unit 6 includes a computer 5
Is a means for outputting the result of the true / false judgment by the above. FIG. 1
FIG. 3 to FIG. 3 are schematic descriptions of the intaglio printed matter authenticity discriminating apparatus, the authenticity discriminating method, and the intaglio printed matter suitable for authenticity discrimination according to the present invention.

Next, a specific embodiment will be described.
FIG. 4 to FIG. 7 show the flow of the authenticity discrimination processing by different authenticity discrimination methods. FIG. 4 shows an authenticity discriminating apparatus for detecting a change in the waveform of the magnetic quantity and the image line quantity in a portion where the sensor unit 2 scans the printed material to be inspected, and the flow of the processing. Inspected printed matter, when incorporated in the apparatus, the magnetic volume and displacement respectively (EsenSakari amount) is detected by the magnetic sensor 2a and the displacement sensor 2b as shown in FIG. 4, the magnetic input data is a waveform of these changes And displacement input data are detected. Magnetic input data and displacement input data is preferably converted A / D, is converted from an analog waveform into a digital waveform. In the data storage unit 5a, a change waveform of the magnetic quantity and the image line quantity of the corresponding portion of the true intaglio printed matter is stored as magnetic reference data displacement reference data. The magnetic input data is mechanically compared with the magnetic reference data, and the displacement input data is mechanically compared with the displacement reference data. At the time of comparison, the positions of the input data and the reference data are synchronized based on information from the position detection device 3. The comparison of the waveforms is performed based on whether or not the numerical value difference or ratio of the waveforms remains below a certain value. Both of the comparison results of the magnetic quantity and the displacement are used for the next overall judgment. In the overall judgment, the magnetic input data and the magnetic reference data match, and the displacement input data and the displacement reference data match, on the condition that they are genuine intaglio prints, and if not, they are judged as forged intaglio prints. to. The determination result is sent to the result output unit 6 and output. According to the authenticity discriminating apparatus and the authenticity discriminating method of FIG. 4, changes in the magnetic amount and displacement (image line amount) over the entire length of the sensor scanning line of the printed matter are detected as waveforms, and the authenticity is determined by them. A wide range of matches can be tested, increasing the probability of eliminating counterfeit prints.
Note that a plurality of sensor units may be provided. In that case, the probability of eliminating forged tickets is further increased.

Next, a case where a predetermined portion of a printed matter is inspected will be described. FIG. 5 shows the authenticity discriminating apparatus for detecting the magnetic quantity and the image line quantity of a predetermined portion of the sensor scanning line with respect to the printed matter, and the flow of the processing. In the processing of FIG. 5, the magnetic sensors 2a and the displacement sensor 2b detects a magnetic input data and displacement input data of a predetermined portion of the scan line. The “predetermined portion” is preferably set to a characteristic portion of the waveform of the magnetic quantity data and the displacement data. Note that the case where a plurality of partially continuous short waveforms are detected is also included in the “detection of a predetermined portion”. The magnetic sensor 2a and the displacement sensor 2b may detect data over the entire length of the sensor scanning line, extract a part of the data afterwards, and compare the extracted data with the reference data. You may make it detect. Data storage unit 5
The magnetic reference data and the displacement reference data stored in “a” relate to the same portion as the portion to be detected with respect to the test print. Magnetic input data and displacement input data detected by the magnetic sensor 2a and the displacement sensor 2b,
The magnetic reference data and the displacement reference data stored in the data storage unit 5a are respectively compared. The comparison result is subjected to comprehensive judgment and true / false judgment as in the case of FIG. 4, and the result is output by the result output unit 6. According to the authenticity discriminating apparatus and the authenticity discriminating method of FIG. 5, the magnetic quantity data and the displacement data of a predetermined portion of the sensor scanning line of the printed matter are detected and determined. As a result, the time and data processing amount for inspection can be reduced, and the storage capacity of the data storage unit 5a can be reduced. Also in this case, if the printed portion that is difficult to imitate is set as the authenticity determination target portion, the authenticity of the intaglio printed matter can be determined with a high probability, as in the case of FIG.

Next, a case where the magnetic quantity data and the displacement data are binarized and compared will be described. FIG. 6 shows an authenticity discriminating apparatus which converts the magnetic quantity data and the image line quantity data detected by the sensor unit 2 into binary data and compares them with reference data, and the flow of the processing. In the processing shown in FIG. 6, the magnetic input data and the displacement input data detected by the magnetic sensor 2a and the displacement sensor 2b are converted into binary data of magnetic quantity and binary data of displacement (image area) by the binary data conversion unit. Is converted. The magnetic input data and the displacement input data may be over the entire length of the sensor scanning line, or may be related to a predetermined portion thereof. The data storage unit 5a stores, as reference data, binarized magnetic quantity data and displacement data of a portion to be inspected in a genuine print. The magnetic quantity binary data is compared with the magnetic reference data, and the displacement binary data is compared with the displacement reference data. Overall determination by the authenticity determination unit 5b, authenticity determination is carried out in the same manner as in FIGS. According to the authenticity discriminating apparatus and the authenticity discriminating method of FIG. 6, input data such as magnetism is converted into binary values of 0 and 1. The detection that can be converted into 0 and 1 values is generally suitable for detection by a sensor, and therefore, the device configuration, the setting of the sensor, and the like are facilitated. Further, by providing an appropriate threshold value, there is an advantage that it can be used for a worn printed matter. Further, when comparing the input data and the reference data, the comparison of 0 and 1 is suitable for processing by a computer, and the algorithm of the processing can be simplified.

Next, a description will be given of the authenticity determination of an intaglio printed matter using a very small amount of reference data. FIG. 7 shows an authenticity discriminating apparatus that uses the above-described reference data having a very small data amount, and a flow of the processing. FIG.
In the processing of (1), the magnetic input data and the displacement input data detected by the magnetic sensor 2a and the displacement sensor 2b are respectively binarized by the binary data conversion unit. The binary magnetic quantity binary data and displacement binary data are subjected to a predetermined operation to obtain a predetermined operation result. On the other hand, for a genuine printed matter, the same calculation is performed using the binary data of the magnetic quantity and the image line quantity existing in the corresponding printing section, and the calculation result is held as reference data. In the authenticity determination, the result of calculation based on the input data of the magnetic quantity and the displacement is compared with that of the reference data to determine the authenticity.
Note that the “predetermined calculation” is a predetermined calculation algorithm and may be an arbitrary one. As an example of the calculation, for example, a ratio, a sum, a difference, a total sum, and the like of the magnetic quantity data and the image line quantity data are given. According to the authenticity discriminating apparatus and the authenticity discriminating method of FIG. 7, the data amount of the reference data can be reduced to a level that can be almost ignored.
Alternatively, it is possible to design the magnetic quantity and the image area of the intaglio printed matter so as to obtain a specific calculation result from the design stage of the intaglio printed matter without requiring a special memory for the reference data.

FIG. 8 shows a specific example, and FIGS.
7 shows a method of comparing the input data of each of the authenticity discriminating devices and authenticity discriminating methods with the reference data and determining the authenticity. 8, it is possible to easily understand the difference between the authenticity determination methods of FIGS.

Next, a description will be given of an embodiment and operation of the "authentication apparatus for intaglio printed matter" according to the present invention. FIG. 9 shows an authenticity discriminating apparatus in which a magnetic sensor and a laser displacement sensor are disposed upstream and downstream in the transport direction of a printed material. The authenticity discriminating apparatus shown in FIG. 9 uses a TMF sensor (thin film magnetic field detecting element) or an MR sensor or a ring type magnetic head comprising a core and a gap as the magnetic sensor 2a, and uses a laser as the displacement sensor 2b. Printed matter is transported by the transport device in the direction of the arrow shown in the figure,
The position is detected by the position detection device 3. The printing portion of the printed material to be inspected is detected by the laser displacement sensor 2b (laser focus displacement sensor) to detect the amount of image formation, and the same printed portion is detected by the downstream magnetic sensor 2a to detect the magnetic amount. Note that the relationship between the upstream and downstream of the magnetic sensor 2a and the displacement sensor 2b may be reversed.

FIG. 10 demonstrates that the authenticity discriminating apparatus 1 of FIG. 9 can detect the magnetic quantity and the image area of the printing portion of the intaglio printed matter. The graph in FIG. 10 shows magnetic quantity waveform data from the TMF sensor, magnetic quantity waveform data from the MR sensor, and displacement (image line quantity) waveform data from the laser displacement sensor from above. In each graph, the horizontal axis represents position, and the vertical axis represents signal strength (v). As shown in FIG. 10, the magnetic quantity waveform by the TMF sensor and the displacement waveform by the laser displacement sensor are integral waveforms to add an increase and decrease, and the magnetic quantity waveform by the MR sensor is a differential waveform based on the initial magnetic permeability and the like. Since the integrated waveform can detect changes in the amount of magnetism and the magnitude of displacement, it is possible to detect the width of each of adjacent magnetized images by analyzing the waveform.

FIG. 11 shows an example of the authenticity discriminating apparatus 1 shown in FIG.
10 shows examples of discrimination against various possible counterfeit tickets.
FIG. 11A shows the magnetic quantity data and the image line quantity data of a genuine note. The genuine note has a printing section A with a high ferromagnetic quantity and a printing section B with a weak magnetic high quantity. Therefore, the magnetic input data is 1,0 and the displacement input data is 1,1. On the other hand, when the counterfeit printed matter by offset printing or the like has a fill volume of 0 (offset) and no magnetic ink is used, the counterfeit printed matter by offset printing or the like is, as shown in FIG. data is 0, 0, displacement input data becomes 0, 0. In this case, since both the magnetic charge data and streaked Sakariryou data is different from that of authentic tickets, counterfeit printed matter according to the offset printing and the like is eliminated. FIG. 11C shows an example of a forged print by intaglio printing using a magnetic ink. This counterfeit printed matter has the same image stitching amount as a genuine bill, but as is often the case with counterfeit printed matter, both the printing part A and the printing part B are printed using ferromagnetic ink. In this case, since the magnetic input data is 1, 1 and the displacement input data is 1, 1, the magnetic quantity data is different from that of a genuine note, and is therefore excluded. FIG. 11D shows another example of a counterfeit print by intaglio printing using magnetic ink. This counterfeit print is intended to imitate the magnetic quantity characteristics of a genuine bill by changing the image stitch amount using a ferromagnetic ink. In this counterfeit print, the amount of magnetic field is reduced by adjusting the amount of image lines in the printing section B. In this case, the magnetic input data of the forgery is 1,
0, the displacement input data becomes 1, 0, and the image line quantity data is different from that of a genuine note and is excluded. FIGS. 11 (a) to 1
As shown in FIG. 1 (d), by using the authenticity determination apparatus and method of the present invention, many counterfeit prints using current countermeasures can be eliminated.

FIG. 12 shows another example of the authenticity discriminating apparatus. The authenticity discriminating apparatus 1 uses a contact displacement sensor instead of the laser displacement sensor of FIG. 9 as the displacement sensor 2b. As the magnetic sensor 2a, a TMF sensor or MR sensor or a ring-type magnetic head including a core and a gap is used as in the case of FIG. When the contact type displacement sensor 2b is used as in the authenticity discriminating apparatus 1,
The contact type displacement sensor 2b has an advantage that the lift of the inspection target printed material can be suppressed and the subsequent reading of the magnetic quantity by the magnetic sensor 2a can be made more accurate.

FIG. 13 shows another example of the authenticity discriminating apparatus. The authenticity discriminating apparatus 1 uses a roller type displacement sensor as the displacement sensor 2b instead of the contact type displacement sensor of FIG. As the magnetic sensor 2a, a TMF sensor or MR sensor or a ring-type magnetic head including a core and a gap is used as in the case of FIG. The roller-type displacement sensor includes a roller that rolls on the surface of the test print, an angle sensor, and an arm that connects the roller and the angle sensor. When the roller moves up and down along the unevenness while rolling on the surface of the printed matter to be inspected, the up and down movement is converted into a change in the inclination angle of the arm, and the angle change of the arm is detected by the angle sensor.

FIG. 14 is a graph demonstrating that the apparatus shown in FIG. 13 can be used to read the magnetic quantity and the image height of the intaglio printed matter, in particular, the image height using a roller type displacement sensor. The roller type displacement sensor is more durable than the contact type displacement sensor which is exposed to friction due to the rolling of the roller. In addition, since the roller type displacement sensor uses members (rollers, angle sensors) that are easily available,
An inexpensive displacement sensor can be obtained.

FIG. 15 shows another example of the authenticity discriminating apparatus. The authenticity discriminating apparatus 1 is configured to simultaneously detect a magnetic amount and an image line amount. In the authenticity discrimination apparatus 1, a magnetic sensor 2a tip measures the magnetic charge while being in contact with the surface of the intaglio prints. The tip of the magnetic sensor 2a is thin enough to follow the irregularities of the intaglio printed matter, but the contact end is smooth enough to slide on the paper. Magnetic sensor 2a
It is configured to move up and down at a fixed position along the unevenness of the inspection printed matter. An immovable fulcrum is provided near the magnetic sensor 2a. This fulcrum and the magnetic sensor 2a
Are connected by an arm. That is, the magnetic sensor 2
When a moves up and down along the irregularities on the surface of the printed matter to be inspected, the arm changes the inclination angle about the fulcrum. The tip of the contact type or non-contact type displacement sensor 2b is in contact with one point of the arm. That is, the change in the tilt angle of the arm is detected as a change in displacement by the contact or non-contact displacement sensor 2b. In addition, the contact type or non-contact type displacement sensor 2
The tip of b may be in contact with the magnetic sensor 2a itself. With the above-described configuration, when the test print passes below the sensor unit 2, the magnetic sensor 2a moves up and down along the irregularities on the surface of the test print while detecting the amount of magnetism. It is detected by the displacement sensor 2b. The magnetic quantity data detected by the magnetic sensor 2a and the displacement data detected by the displacement sensor 2b are:
Each of them is appropriately amplified, becomes magnetic input data and displacement input data, and is compared with the magnetic reference data and the displacement reference data of the genuine print. According to the authenticity discriminating apparatus 1, there is no shift in the detection phases of the magnetic sensor 2a and the displacement sensor 2b. This makes it easy to specify the magnetic quantity and the image line quantity of the same printing unit. The magnetic sensor 2a is because to prevent floating of the inspected printed matter, it is possible to eliminate the measurement error of the displacement caused by lifting.

FIG. 16 shows another authenticity discriminating apparatus 1 for simultaneously detecting the magnetic quantity and the image line quantity. In this authenticity discriminating apparatus 1, the magnetic sensor 2a measures the amount of magnetism while the tip contacts the surface of the intaglio printed matter, and moves up and down at a certain position along the unevenness of the inspected printed matter, as in the apparatus of FIG. It is configured to move. On the other hand, in the vicinity of the magnetic sensor 2a is immovable angle sensor 2b is provided. The angle sensor 2b and the magnetic sensor 2a are connected by an arm. That is, when the magnetic sensor 2a moves up and down along the unevenness of the surface of the print to be inspected, the inclination angle of the arm changes, and the change in the inclination angle of the arm is detected by the angle sensor 2b. The magnetic quantity data detected by the magnetic sensor 2a and the displacement data detected by the angle sensor 2b are appropriately amplified or operated to become magnetic input data and displacement input data, respectively. This is compared with the displacement reference data.

FIG. 17 is a graph demonstrating that it is possible to read the amount of magnetic field and the amount of image line in the intaglio printing section by the authenticity discriminating apparatus shown in FIG. According to this authenticity discriminating apparatus, similarly to the authenticity discriminating apparatus of FIG. 15, the magnetic quantity and the image line quantity of the same printed part can be easily specified, and the displacement due to the lifting of the inspection target printed matter can be measured. Errors can be eliminated.

[0046]

As is apparent from the above description, according to the "apparatus and method for determining the authenticity of an intaglio printed matter and the intaglio printed matter suitable for authenticity identification" according to the present invention, the magnetic properties of the intaglio printed portion are reduced. The amount and the image area are changed independently, the magnetic quantity and the image area of the printed matter are detected independently, and the magnetic quantity and the image area of the genuine print are compared with each other. Is determined on condition that both of them match. Therefore, a printed matter imitating only the magnetic quantity array pattern or a printed matter imitating only the image line amount can be excluded as a fake printed matter.

In particular, when a sensor that outputs an integrated waveform is used, it is possible to detect even the width of the image line of the intaglio printed matter. In this case, the cross-sectional shape of the object (line width and fill amount)
And those in which both the magnetic quantities of the ink do not match can be excluded as counterfeit prints. Since the magnetic amount of the pigment can be arbitrarily adjusted, the above conditions are substantially the same as those required to print the same image with the same ink.

It can be said that the same image printed with the same ink can be determined as a genuine print without limit. Therefore, according to the present invention, it is possible to obtain an apparatus, a method, and a suitable intaglio printed matter for determining the authenticity of an intaglio printed matter with extremely high probability.

[Brief description of the drawings]

FIG. 1 is a flowchart from the production of an intaglio printed product to the determination of authenticity according to the present invention.

FIG. 2 is an image transverse cross-sectional view of the “intaglio printed matter suitable for authenticity discrimination” according to the present invention in which the magnetic quantity and the image quantity are independently changed.

FIG. 3 is a block diagram showing a configuration of an intaglio printed matter authenticity discriminating apparatus according to the present invention.

FIG. 4 is a block diagram showing a configuration of a true / false determination device that detects a change in waveform of a magnetic quantity and an image line quantity of a printed material to be inspected, and a processing flow thereof;

FIG. 5 is a block diagram showing a configuration of an authenticity discriminating apparatus configured to detect a magnetic amount and an image line height of a predetermined portion of a sensor scanning line, and a flow of processing thereof.

FIG. 6 is a block diagram showing a configuration of a true / false discrimination device for converting magnetic quantity data and image line quantity data detected by a sensor unit into binary data and comparing it with reference data, and a flow of processing thereof;

FIG. 7 is a block diagram showing a configuration of a genuineness discriminating apparatus for performing genuineness discrimination by performing arithmetic processing on magnetic quantity data and image line quantity data of a printed material to be inspected, and a flow of the processing;

FIG. 8 is an explanatory diagram showing a method of comparing input data and reference data by the authenticity discriminating apparatus of FIGS.

FIG. 9 is a configuration diagram showing an authenticity discriminating apparatus in which a magnetic sensor and a laser displacement sensor are disposed upstream and downstream in a transport direction of a printed material.

FIG. 10 is a graph showing an example of detection of the magnetic quantity and the image area of the printing portion of the intaglio printed matter by the authenticity discriminating apparatus of FIG. 9;

FIG. 11 is a diagram showing an example of discrimination of various possible counterfeit tickets by the authenticity discriminating apparatus of FIG. 9;

FIG. 12 is a configuration diagram showing an authenticity discriminating apparatus in which a magnetic sensor and a contact-type displacement sensor are disposed upstream and downstream with respect to the transport direction of a printed material.

FIG. 13 is a configuration diagram showing an authenticity discriminating apparatus in which a magnetic sensor and a roller type displacement sensor are disposed upstream and downstream with respect to the conveyance direction of a printed material.

FIG. 14 is a graph showing an example of detection of the magnetic amount and the image line amount of a printing portion of an intaglio printed matter by the authenticity discriminating apparatus of FIG. 13;

FIG. 15 is a configuration diagram showing an authenticity discriminating apparatus in which a magnetic sensor and a contact displacement sensor are configured to simultaneously detect a magnetic amount and an image line amount.

FIG. 16 is a configuration diagram showing an authenticity discriminating apparatus in which a magnetic sensor and an angle sensor are configured to simultaneously detect a magnetic quantity and an image line quantity.

FIG. 17 is a graph showing an example of detection of the magnetic quantity and the image area of the printing portion of the intaglio printed matter by the authenticity discriminating apparatus of FIG. 16;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Authenticity discriminating device 2 Sensor part 2a Magnetic sensor 2b Displacement sensor 3 Position detecting device 4 Amplifier part 5 Computer 5a Data storage part 5b Authenticity judgment arithmetic processing part 6 Result output part

Claims (14)

[Claims] 1. A genuine printed matter, comprising: a magnetic sensor for detecting a magnetic quantity of a magnetic pigment present in a printed portion of a printed matter to be inspected; a sensor part having a displacement sensor for detecting an image line amount by intaglio printing; A reference data storage unit that stores the magnetic amount and the image line amount present in the unit as reference data; and a magnetic amount data, an image line amount data, and the reference data storage unit of the test print detected by the sensor unit. An authenticity discrimination device for intaglio printed matter, comprising: a true / false judgment unit for comparing the magnetic quantity reference data of the authenticated printed matter with the image line quantity reference data to determine the authenticity. . 2. The sensor unit is configured to detect a waveform of a change in a magnetic amount and a change in an image line amount as magnetic input data and displacement input data, respectively, and the reference data storage unit is configured to detect the genuine printed matter of the sensor. The waveform of the change in the magnetic amount and the image line amount in the part detected by the unit is stored as magnetic reference data and displacement reference data, respectively, and the authenticity determination unit includes the magnetic input data, the magnetic reference data, 2. The apparatus according to claim 1, wherein the apparatus is configured to compare the displacement input data with the displacement reference data to determine the authenticity. 3. The sensor unit is configured to detect a magnetic amount and an image line amount of a predetermined portion of a sensor scanning line with respect to a printed matter as magnetic input data and displacement input data, respectively. , The magnetic amount of the genuine printed matter and the image stitching amount in the portion detected by the sensor unit are stored as magnetic reference data and displacement reference data, respectively, the authenticity determination unit, the magnetic input data and the magnetic reference data, 2. The apparatus according to claim 1, wherein the apparatus is configured to determine the authenticity by comparing the displacement input data with the displacement reference data. 4. A binary data converting section for inputting magnetic quantity data and image line quantity data detected by the sensor section and converting them into magnetic quantity binary data and image line quantity binary data, respectively. The reference data storage unit stores, as reference data, data obtained by converting a magnetic quantity and an image line quantity present in a printing unit of a genuine print into binary data, and the authenticity determining unit stores the binary value. The magnetic quantity binary data and the image line height binary data output by the data conversion unit are compared with the magnetic amount reference data and the image line height reference data stored in the reference data storage unit, respectively, to determine whether the data is true or false. 4. The apparatus according to claim 1, wherein the authenticity of the intaglio printed matter is determined. 5. The reference data storage section stores, as reference data, a predetermined calculation result using binary data of a magnetic quantity and an image line quantity present in a printing section of a genuine print, as the reference data. The determining unit calculates using the magnetic quantity binary data and the image line quantity binary data output by the binary data converting unit,
5. The apparatus according to claim 4, wherein the apparatus is configured to determine the authenticity by comparing with the reference data. 6. The magnetic sensor of the sensor section comprises an MR head, a thin film magnetic field detecting element (TMF sensor) or a ring type magnetic head comprising a core and a gap, and the displacement sensor of the sensor section is a laser focus displacement sensor or a contact type. Displacement sensor or roller type displacement sensor or CC
Claims 1, characterized in that it consists of D laser displacement sensor authenticity discrimination device of an intaglio printed material according to any one of the 5. 7. The sensor section comprises an MR head, a thin film magnetic field detecting element (TMF sensor), or a ring-type magnetic head comprising a core and a gap. A moving magnetic sensor, an arm having one end coupled to the magnetic sensor and the other end coupled to a fixed fulcrum, and a contact type or non-contact type displacement sensor. 6. The apparatus according to claim 1, further comprising a displacement sensor that detects a vertical movement of the magnetic sensor in contact with the magnetic sensor. 8. The sensor section comprises an MR head, a thin-film magnetic field detecting element (TMF sensor), or a ring-type magnetic head comprising a core and a gap. A magnetic sensor that moves, and a displacement sensor that includes an angle sensor, the tip of an arm whose angular change is to be measured is coupled to the magnetic sensor, and that detects a change in the inclination angle of the arm as a displacement. The authenticity discrimination device for intaglio printed matter according to any one of claims 1 to 5, characterized in that: 9. A step of detecting a magnetic amount of a magnetic pigment present in a printed portion of a test print and an image fill amount by intaglio printing; and a magnetic amount and image fill amount present at a corresponding portion of the genuine print. Inputting the reference data as reference data, and comparing the detected magnetic quantity data and the image area data of the inspected print with the magnetic quantity reference data and the image area reference data of the genuine print, respectively, to determine the authenticity. Determining the authenticity of the intaglio printed matter. 10. A process for detecting a waveform of a change in the magnetic charge and streaked Sakariryou the inspected printed matter as the displacement input data and magnetic input data, a magnetic quantity present in the corresponding sites of the authentic printed matter and streaked Sakariryou Inputting the waveform of the change as magnetic reference data and displacement reference data, respectively, and comparing the magnetic input data and magnetic reference data, and comparing the displacement input data with the displacement reference data to determine the authenticity, And a method for determining the authenticity of an intaglio printed matter. 11. A step of detecting a magnetic quantity and an image height of a predetermined portion on a sensor scanning line of a printed material to be inspected as magnetic input data and displacement input data, respectively; A step of inputting the image volume as magnetic reference data and displacement reference data, respectively, a step of comparing the magnetic input data and magnetic reference data, and comparing the displacement input data and displacement reference data to determine authenticity; And a method for determining the authenticity of an intaglio printed matter. 12. A magnetic of the magnetic pigment present in the printing unit of the test prints, the step of detecting a streaking Sakariryou by intaglio printing, and a magnetic volume data of the detected object to be inspected printed matter EsenSakari Inputting the quantity data and converting them into magnetic quantity binary data and image line quantity binary data, respectively, and binarizing the magnetic quantity and the image quantity present at the corresponding portions of the genuine printed matter, respectively, and magnetic quantity Inputting as reference data and displacement reference data; comparing the magnetic quantity binary data and the image line quantity binary data; and comparing the magnetic quantity reference data and the image quantity quantity reference data with each other to determine whether the data is true or false. And a method of determining the authenticity of the intaglio printed matter. 13. A step of detecting a magnetic quantity of a magnetic pigment present in a printed portion of a test print and a print quantity by intaglio printing; and detecting the detected magnetic quantity data and print quantity of the test print. Inputting the quantity data and converting them into magnetic quantity binary data and image line quantity binary data, respectively, and performing a predetermined calculation using those values; and a magnetic quantity existing at a corresponding portion of the genuine print. And the step of performing the same operation as the above operation using the values, and comparing the operation result of the inspected printed material with the operation result of the authentic printed material to determine whether the result is true or false. Determining the authenticity of the intaglio printed matter. 14. A method according to claim 1, wherein the magnetic quantity and the image height of the magnetic pigment in the printed image are controlled and produced independently along a predetermined line on the printing surface. Intaglio printed matter.