JP4524372B2 - Magnetic recording medium having specific element and identification method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for preventing forgery and tampering, and relates to a magnetic recording medium having a specific element that recognizes a distribution state of a specific element constituting a magnetic recording medium as image information and can easily determine whether the information is genuine or not. And its identification.
[0002]
[Prior art]
In general, magnetic recording applied to the surface of a non-magnetic substrate is performed for machine reading, and the magnetic reading is used to identify the magnetic intensity.
[0003]
As described above, the magnetic recording medium is widely used as an identification method because it has an advantage that the magnetic intensity read by the machine reading device can be recognized and identified nondestructively. However, when the magnetic recording medium is measured by a mechanical reader, even if the magnetic recording medium uses different magnetic materials, the authenticity of the magnetic recording medium cannot be determined if the magnetic strength is the same.
[0004]
Also, as another identification method for magnetic recording media made from different magnetic materials, focusing on the fact that the pigment shape of the magnetic material is different, the surface of the magnetic recording medium is magnified with a microscope, etc. It is also possible to observe the difference. However, the identification by observing the surface state requires considerable skill. Furthermore, in the case of a magnetic recording medium made from a magnetic ink containing a plurality of types of magnetic materials, the identification is almost impossible by observing the surface state. It is.
[0005]
[Problems to be solved by the invention]
As described in detail above, in the conventional magnetic recording medium identification method, even if the magnetic recording medium uses different magnetic materials, the magnetic ink is identified by the machine reading device if the magnetic strength is the same. As a result, there is a problem that the authenticity of the magnetic recording medium cannot be determined. In addition, it is possible to observe the surface of the magnetic recording medium with a microscope or the like by utilizing the difference in the pigment shape of the magnetic material, but it requires skill and observation of the surface state containing a plurality of types of magnetic materials. However, there was a problem that identification was almost impossible.
[0006]
In view of the above-mentioned problems, the present invention is based on magnetic ink made of a magnetic material containing at least one specific element from sodium to uranium on the periodic table, and sodium on the periodic table different from the magnetic ink. Printed for each magnetic ink using at least two types of magnetic inks of magnetic material containing at least one type of specific element up to uranium The present invention provides a method for producing a magnetic recording medium having a specific element characterized in that the above-mentioned recording information is obtained and identifying the magnetic recording medium having the specific element using a fluorescent X-ray analyzer. This makes it possible to make up for the disadvantages of identification by conventional machine readers, and by using together the identification information obtained by machine readers, it is effective for products that require added value, and products with higher confidentiality. Become.
[0007]
Means to be Solved by the Invention
The present invention has been made to solve the above problems, and is formed of at least two or more magnetic inks containing a magnetic material containing at least one or more specific elements from sodium to uranium on a substrate. A magnetic recording medium, wherein the at least two or more magnetic inks are magnetic inks in which at least one or more specific elements contained in each magnetic ink are different, and are printed and formed for each magnetic ink. It is an object of the present invention to provide a magnetic recording medium having a specific element characterized by obtaining desired recording information from the distribution state of elements.
[0008]
The present invention also provides a magnetic recording medium having a specific element having the same magnetic intensity in the distribution state of the specific element formed for each magnetic ink.
[0009]
Also, a magnetic recording medium in which desired recording information is formed with one or more magnetic inks containing a magnetic material containing at least one specific element from sodium to uranium, the specific information contained in the magnetic ink What is claimed is: 1. A magnetic recording medium having a specific element, wherein the magnetic recording medium is coated with a magnetic ink containing a magnetic material containing at least one specific element different from the element, and desired magnetic information formed with the magnetic ink is invisible. It is to provide.
[0010]
The present invention also provides an X-ray identification method for a magnetic recording medium according to the present invention, wherein the magnetic recording medium is set on a sample stage of a fluorescent X-ray analyzer and the X-ray generated from an X-ray generator while driving the sample stage. Irradiating the magnetic recording medium with a fine X-ray beam focused by an X-ray conduit, exciting a specific element contained in the magnetic recording medium, and emitting a fluorescent X-ray spectrum emitted by the excited specific element Detecting with a fluorescent X-ray detector, performing mapping analysis of the specific element from the fluorescent X-ray spectrum, recognizing recording information of the specific element contained in the magnetic recording medium as image information, and specifying a predetermined reference An object of the present invention is to provide a method for identifying a magnetic recording medium having a specific element, characterized in that authenticity is determined by comparison with image information of the element.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
The magnetic recording medium of the present invention includes a magnetic ink containing a magnetic material containing at least one specific element from sodium to uranium and a magnetic ink containing at least one specific element from sodium to uranium different from the magnetic ink. This is a magnetic recording medium on which desired recording information is pattern-printed by combining at least two types of magnetic inks with the magnetic inks of the materials and combining these magnetic inks. The magnetic recording medium is irradiated with X-rays by a fluorescent X-ray analyzer, the fluorescent X-rays emitted from the excited specific elements are detected, a fluorescent X-ray spectrum is obtained, mapping analysis of the specific elements is performed, The recording information for each specific element is recognized and identified as image information. Furthermore, by using together with identification information obtained from the measurement of a conventional machine reading device, the identification of the magnetic recording medium becomes more advanced, has excellent confidentiality, and prevents forgery and tampering. It becomes an effective means.
[0012]
【Example】
The magnetic material used for the magnetic recording medium of the present invention is not particularly required to take into account magnetic properties, and is generally used as an oxide magnetic powder such as γ-iron oxide, Co-containing γ-iron oxide, and chromium dioxide. , Carbonyl iron powder, MnBi magnetic powder, ferrite magnetic powder such as Ba, Sr, Pb, Zn, Mn-Zn, magnetic metal such as Ni, Co, Fe, Mn, Zn, Fe-Co, Fe-Al, Fe -Si, Ni-Co, permalloy (Fe-Ni series), super-malloy with addition of Mo, Cr, Mn to permalloy or super-malloy, Fe-Al-Si-based alloy magnetic powder such as sendust, metal magnetic powder, etc. As long as a specific element from sodium to uranium is included on the periodic table, it can be arbitrarily selected and used.
[0013]
(Example 1) Hereinafter, although this invention is demonstrated in detail based on an Example, this invention is not limited at all by this Example. In addition, the method for producing the magnetic recording medium according to the embodiment has no problem even if any of the general printing methods such as intaglio, letterpress, offset or screen printing is used.
[0014]
FIG. 1 shows a magnetic recording medium printed on a base material (1) using three kinds of magnetic inks prepared by mixing an appropriate amount of magnetic materials having different specific elements with five digits. The numbers of the magnetic recording medium are magnetic inks prepared by including a magnetic material of Mn-Zn ferrite (specific elements: iron, manganese, zinc), and thousands and hundreds (3) are Magnetic ink made with a magnetic material of Ba ferrite (specific elements: iron, barium). Tenth place (4) is magnetic made with a magnetic material of MnBi powder (specific elements: manganese, bismuth). It is a pattern printed with ink.
[0015]
When the produced magnetic recording medium is measured for the magnetic strength between XY in FIG. 1 with a mechanical reader, the magnetic strength as shown in FIG. 2 is obtained, and the tens (2), thousands and hundreds positions are obtained. (3) It can be seen that the magnetic strengths of the tenth place and the fourth place (4) are different, and it is presumed that the magnetic inks constituting the magnetic recording medium of the present invention are different. However, it cannot be determined whether the difference in magnetic intensity shown in FIG. 2 is caused by the amount of magnetic ink applied, the type of magnetic material contained in the magnetic ink, or the content of the magnetic material.
[0016]
Therefore, the manufactured magnetic recording medium is identified by performing mapping analysis of a specific element using a fluorescent X-ray analyzer and recognizing a mapping image for each specific element as image information.
[0017]
FIG. 3 is a schematic diagram of a fluorescent X-ray analyzer for identifying a magnetic recording medium according to the present invention. A sample stage (5), an X-ray generator (6), and an X-ray conduit (7). And a fluorescent X-ray detector (8) and a computer (9).
[0018]
First, the produced magnetic recording medium (10) is fixed to the sample stage (5), and the magnetic recording medium (10) is moved while driving the sample stage (5). At the same time, the X-rays generated from the X-ray generator (6) are narrowed down to fine X-rays by the X-ray conduit (7) and irradiated onto the magnetic recording medium (10). Fluorescent X-rays emitted by specific elements contained in the magnetic recording medium excited by the X-rays, such as iron, zinc, barium, and bismuth, are detected by a fluorescent X-ray detector (8), and the fluorescent X-ray spectrum is mapped. From the analysis, a mapping image for each specific element can be obtained as image information (FIG. 4).
[0019]
From FIG. 4, in the iron mapping image, the upper three digits of 100 can be recognized as image information. From the mapping image of zinc, only the number 1 in the tens place can be recognized, the number 00 in the thousands and hundreds from the mapping image of barium, and the number 00 in the tenth order from the mapping image of bismuth. Can be recognized as image information. Thus, since image information can be obtained for each specific element, different image information can be obtained from the difference in specific elements contained in the three types of magnetic ink forming the magnetic recording medium. By comparing with reference image information, authenticity determination is possible.
[0020]
(Example 2) FIG. 5 is a magnetic recording medium printed on a base material (1) using three kinds of magnetic inks prepared by mixing five-digit numbers with magnetic materials having different specific elements. . The numbers on the magnetic recording medium are the magnetic ink made of Mn—Zn ferrite magnetic material in the tens place (2), and the Mn—Zn ferrite and Ba ferrite magnetic materials are mixed in the thousand and hundred places (11). A magnetic recording medium printed with a magnetic ink prepared by mixing a magnetic material of Mn—Zn ferrite and MnBi powder at the tenth and first place (12). For each magnetic ink used for the magnetic recording medium, the amount of magnetic ink applied and the content of the magnetic material contained in the magnetic ink were adjusted so that the magnetic strength was the same as measured by a mechanical reader. Is.
[0021]
When the magnetic strength of the produced magnetic recording medium is measured with a mechanical reader between X and Y in FIG. 5, the magnetic strength as shown in FIG. 6 is obtained. However, since there is no difference in the magnetic intensity, it is impossible to recognize the difference in the magnetic ink constituting the magnetic recording medium.
[0022]
Therefore, as in Example 1, when the magnetic recording medium is irradiated with X-rays by a fluorescent X-ray analyzer, the specific element contained in the magnetic recording medium is excited and emitted from the excited specific element. When the mapping image for each specific element is obtained from the mapping analysis of the fluorescent X-ray spectrum, the distribution state of iron, barium, and bismuth shown in FIG. 7 can be obtained as image information. Since all the magnetic inks used in the magnetic recording medium contain a magnetic material of Mn—Zn ferrite, the number 10,000 can be recognized as image information in the iron mapping image, and the barium mapping image. Then, the number 00 in the thousands and hundreds can be recognized as image information, and the number 00 in the tenth and first place can be recognized as image information in the bismuth mapping image.
[0023]
Thus, by obtaining a mapping image for each specific element from the mapping analysis of the specific element by the fluorescent X-ray analyzer, different image information can be obtained from the difference in the composition of the specific element of the magnetic ink constituting the magnetic recording medium. You can see that In other words, by setting arbitrary reference image information from the mapping image of the specific element in advance, it is possible to compare the image information from the specific element contained in the magnetic recording medium with the reference image information. False discrimination becomes possible.
[0024]
Example 3 FIG. 8 shows a magnetic recording medium in which characters (13) are printed on a substrate (1). Here, the character (13) is a magnetic recording medium printed with a magnetic ink containing a Ba ferrite magnetic material. The concealing layer (14) is printed on the magnetic recording medium with a magnetic ink made of a magnetic material of Mn—Zn ferrite that does not contain barium contained in the character (13), and the character (13) is covered to be invisible. A magnetic recording medium was produced (FIG. 9).
[0025]
FIG. 10 shows the result of measuring the magnetic strength between XY in FIG. 9 in order to read the invisible character (13) of the produced magnetic recording medium with a machine reading device. Thereby, it turns out that magnetic intensity is high in the position of a character (13). From this, it can be seen that the magnetic recording medium is given identification information at a position where the magnetic strength is high.
[0026]
However, it is impossible to specify what identification information is given to the magnetic recording medium by measurement using a machine reading device. Therefore, similarly to Example 1, the magnetic recording medium is irradiated with X-rays using a fluorescent X-ray analyzer, and a barium mapping image is obtained as image information from mapping analysis of the fluorescent X-ray spectrum (FIG. 11). It can be seen from the barium mapping image that the coated magnetic recording medium is recognized as image information, and that the magnetic recording medium has the letter A as identification information.
[0027]
As described above, as a method for discriminating coated identification information given to the magnetic recording medium that cannot be visually confirmed, the presence and position of the coated identification information on the magnetic recording medium can be simplified by using a machine reading device. Furthermore, it is possible to obtain a mapping image of a specific element of the coated magnetic recording medium as image information by using a fluorescent X-ray analyzer. From this, it is effective as a more advanced authenticity determination method by obtaining magnetic intensity information with a machine reading device and further using an identification method based on image information obtained by using a fluorescent X-ray analyzer.
[0028]
【The invention's effect】
The magnetic recording medium having a specific element of the present invention and the identification method thereof obtain a mapping image as image information from mapping analysis for each specific element from sodium to uranium contained in the magnetic recording medium having desired recording information. By comparing with image information of a specific element that is a reference that is set in advance, it is possible to determine whether the magnetic recording medium having the specific element is authentic or not.
[0029]
From this, any specific element from sodium to uranium can be given to an arbitrary place on the design of the magnetic recording medium, and even if the magnetic recording medium is covered with another design, Since the recorded information can be read and identified as image information, it can be given with any design, and a magnetic recording medium having the recorded information can be easily produced without impairing the product design. Image information can be identified nondestructively.
[0030]
In the magnetic recording medium, the type of magnetic ink constituting the pattern that can be visually recognized can be arbitrarily set, and can be changed. Therefore, there are an unlimited number of combinations. From this, it is possible to obtain read information as necessary by preparing the magnetic recording medium so that the image information obtained for each specific element contained in the magnetic recording medium is different.
[0031]
Furthermore, by keeping the location and identification information given to the magnetic recording medium secret, it has sufficient security against counterfeiting and tampering, so it is highly confidential such as banknotes, stock certificates, bonds, various credit cards, etc. Suitable for authenticity determination of products that require retention.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a diagram illustrating Example 1 and showing a magnetic recording medium of the present invention printed with three types of magnetic ink.
FIG. 2 is a magnetic intensity between XY in FIG.
FIG. 3 is a schematic view of an X-ray fluorescence analyzer.
4 is a mapping image for each specific element of the magnetic recording medium of Example 1. FIG.
FIG. 5 is a diagram illustrating Example 2 and showing a magnetic recording medium of the present invention printed with three types of magnetic ink.
6 is a magnetic intensity between XY in FIG. 5;
7 is a mapping image for each specific element of the magnetic recording medium of Example 2. FIG.
FIG. 8 is a diagram illustrating Example 3 and showing a magnetic recording medium of the present invention printed with magnetic ink.
9 is a magnetic recording medium in which the characters of FIG. 8 are concealed with magnetic ink.
10 is a magnetic intensity between XY in FIG. 9;
11 is a barium mapping image of the magnetic recording medium of Example 3. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Base material 2 Magnetic recording medium printed with magnetic ink of Mn-Zn ferrite 3 Magnetic recording medium printed with magnetic ink of Ba ferrite 4 Magnetic recording medium printed with magnetic ink of MnBi magnetic powder 5 Sample stage 6 X-ray generator 7 X-ray conduit 8 X-ray fluorescence detector 9 Computer 10 Magnetic recording medium 11 Magnetic recording medium printed with magnetic ink of Mn-Zn ferrite and Ba ferrite 12 Magnetic recording printed with magnetic ink of Mn-Zn ferrite and MnBi magnetic powder Medium 13 Magnetic recording medium printed with Ba ferrite magnetic ink 14 Concealment layer printed with Mn-Zn ferrite magnetic ink

Claims (4)

A magnetic recording medium formed on a substrate with at least two or more magnetic inks containing a magnetic material containing at least one specific element from sodium to uranium, wherein the at least two or more magnetic inks are , Characterized in that at least one specific element contained in each magnetic ink is different magnetic ink, printed for each magnetic ink, and desired recording information is obtained from the distribution state of the specific element formed A magnetic recording medium having a specific element. 2. The magnetic recording medium having a specific element according to claim 1, wherein the magnetic strength of the distribution state of the specific element formed for each magnetic ink is the same. A magnetic recording medium in which desired recording information is formed with one or more magnetic inks containing a magnetic material containing at least one or more specific elements from sodium to uranium on a base material, and is included in the magnetic ink Magnetic material having a specific element, characterized in that it is coated with a magnetic ink containing a magnetic material containing at least one specific element different from the specific element, and the desired recording information formed with the magnetic ink is invisible. recoding media. 4. A method for identifying an X-ray of a magnetic recording medium according to claim 1, 2, or 3, wherein the magnetic recording medium is set on a sample stage of a fluorescent X-ray analyzer and the sample stage is driven. The X-ray beam generated from the X-ray generator is irradiated to the magnetic recording medium with a fine X-ray beam focused by an X-ray conduit to excite a specific element contained in the magnetic recording medium, and the specific element excited The fluorescent X-ray spectrum emitted by the element is detected by a fluorescent X-ray detector, the mapping analysis of the specific element is performed from the fluorescent X-ray spectrum, and the recording information of the specific element contained in the magnetic recording medium is recognized as image information. A method for identifying a magnetic recording medium having a specific element, wherein authenticity is determined by comparison with image information of a specific element serving as a reference set in advance.

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