JP5928677B2 - Method for producing anti-counterfeit printed matter - Google Patents

Description

  The present invention relates to an anti-counterfeit printed matter and a method for producing the same, and more specifically, has a cutting part or a through hole in a base material, and the cutting part or the through hole is oblique with respect to the thickness direction of the base material. The present invention relates to an anti-counterfeit printed matter having a shape cut into a non-impact and combined with non-impact recording, and a method for manufacturing the same.

  Securities are securities that represent property rights, and the transfer or exercise of the rights represented by these securities is defined as bills, checks, stock certificates, corporate bonds, and various securities that are transferred by the securities. Securities include gift certificates, book coupons, transportation tickets, admission tickets for paid facilities and events, lottery tickets, winning tickets for public competitions, etc. in addition to the above stipulated in the Commercial Code. It is. Not only the above-mentioned securities but also printed materials that require prevention of counterfeiting such as passports, identification cards, and various commercial printed materials, that is, anti-counterfeiting printed materials are frequently used.

  In recent years, along with the spread of electronic devices such as printers and scanners, unauthorized duplication of securities, etc. has been rampant, but this is considered an illegal act even if it is not used in public, and it is malicious Cases are subject to criminal punishment. The damage of counterfeiting due to unauthorized copying described above has become a social problem, and anti-counterfeiting technology is becoming more sophisticated, so the development of advanced anti-counterfeiting technology is urgently needed.

  For example, as disclosed in Patent Document 1, there is a printed matter using a hologram as an advanced anti-counterfeiting technique, but the manufacturing cost is high, causing a practical problem. Further, as disclosed in Patent Document 2, there has been proposed a printed fluorescent ink that cannot be viewed with visible light and emits fluorescence with light of a certain wavelength other than visible light. However, in the case of printing of this fluorescent ink, the forgery technique has progressed and has been widely known due to the obsolescence of the technique, and there is a problem that the effect of preventing forgery is weak.

  Also, Patent Document 3 shows a medium that has been perforated with a laser as a medium on which a predetermined regular verification pattern appears depending on the difference in irradiation light with respect to securities and the like, and the angle at which the medium is viewed. Yes. However, in this medium, holes are formed in the thickness direction, and the medium can be created even if a blade or the like is used as another means instead of a laser, and there is a problem that security is low.

  Japanese Patent Laid-Open No. 2004-133867 discloses that a genuine mark associated with the printed information is formed by a laser processing unit by performing normal printing by a printer including a printing unit and a laser processing unit on an anti-counterfeit sheet. Have been described. However, this method has a problem that security is not sufficient only by simply combining printing under unspecified conditions and through holes by laser processing.

JP-A-6-278396 JP-A-6-297888 Japanese Patent Laid-Open No. 2003-312175 JP 2003-39773 A

  Accordingly, an object of the present invention is to provide an anti-counterfeit printed matter having an unprecedented advanced anti-counterfeit technology and a method for manufacturing the same in order to prevent damage caused by forgery due to unauthorized copying.

The above object is achieved by the present invention described below. That is, the present invention prepares a base material to be a forgery-preventing printed material as a continuous sheet, and moves a support unit that supports the processing region of the continuous sheet by suspending the continuous sheet. Inclination at a predetermined angle with respect to any direction including the width direction and the conveyance direction, and laser irradiation is performed to form a cutting portion or a through hole in the base material, and then the cutting portion or the penetration A method for producing a forgery-preventing printed matter, characterized in that inkjet recording is performed by an inkjet recording method on a substrate surface portion including a processed surface in which holes are processed.

According to the method for producing an anti-counterfeit printed matter of the present invention, a cutting portion or a through hole can be accurately and stably formed on the base material of the anti-counterfeit printed matter.

It is sectional drawing which shows one embodiment which is a forgery prevention printed matter of this invention. It is sectional drawing which shows other embodiment which is a forgery prevention printed matter of this invention. It is sectional drawing which shows other embodiment which is a forgery prevention printed matter of this invention. It is the schematic which showed the example which forms a cutting part or a through-hole in the base material of the manufacturing method of the forgery prevention printed matter of this invention. When the laser beam is irradiated in an oblique direction that is a predetermined angle with respect to the thickness direction of the base material, and the cut part or the through hole is formed at a predetermined angle with respect to the thickness direction of the base material, the inclination is inclined. It is the schematic explaining the meaning of plus and minus of an angle.

Next, embodiments of the present invention will be described in detail. The anti-counterfeit printed matter and the manufacturing method thereof shown in the following embodiments are also examples of the present invention. In FIG. 1, one embodiment which is the forgery prevention printed matter 1 of this invention is shown. A through hole 3 is provided in the base material 2, and the through hole 3 has a shape cut in an oblique direction with respect to the thickness direction of the base material 2. That is, it has the through-hole 3 cut | disconnected in the diagonal direction which is the inclination | tilt angle (alpha) with respect to the thickness direction of the base material 2. As shown in FIG. Further, the non-impact recording portion 5 is formed by performing non-impact recording from the cut surface 12 of the base material 2 to the portion including the processed surface 4 of the through hole 3 .

  FIG. 2 is a cross-sectional view showing another embodiment of the anti-counterfeit printed matter 1 of the present invention. The substrate 2 is provided with three holes 31, 32, and 33, and all the through holes are The through-hole 31 and the through-hole 32 have the same inclination angle, and the through-holes 31 and 32 are the same. And the inclination angle by which the through-hole 33 was cut differs.

In addition, all the three through-holes 3 in the forgery prevention printed matter shown in FIG. As will be described later with reference to a method for manufacturing a forgery-preventing printed matter, if the inclination angles are all the same in processing the through-hole or the cut portion, the setting conditions for processing are simple and easy to manufacture. However, in terms of anti-counterfeiting measures, it is preferable to change the inclination angle at which the through hole or the cutting portion is processed as shown in FIG .

Furthermore, the anti-counterfeit printed matter 1, with respect to the thickness direction of the substrate 2, the different B direction to the A direction is a cutting has been an oblique direction, when observing anti-counterfeit printed matter 1, as shown in FIG. 2 The anti-counterfeit printed matter 1 has a higher anti-counterfeit property because the non-impact recorded image on the through hole or the processed surface of the cutting portion changes in different directions as shown in the A direction and the B direction.

FIG. 3 is a cross-sectional view showing another embodiment of the anti-counterfeit printed matter 1 of the present invention, in which a cutting portion 6 is provided on the base material 2, and the cutting portion 6 has a thickness of the base material 2. The shape is cut in an oblique direction with respect to the direction. That is, it has the cutting part 6 cut by the diagonal direction which is the inclination | tilt angle (alpha) with respect to the thickness direction of the base material 2. FIG. In addition, a non-impact recording portion 5 is provided in a portion including the machining surface 4 of the cutting portion 6 .

  The difference between the cutting part 6 and the through hole 3 is that the through hole is cut from the surface of the base material to the back surface, and the cut part is cut from one surface of the base material, It is processed to the middle of the thickness direction of the base material without cutting and penetrating the other surface of the base material. FIG. 1 and FIG. 3 show only the difference between the through hole 3 and the cutting part 6, and there is no difference in the number (3) processed and the inclination angle in the processed through hole or cutting part. In the example in which the inclination angle as shown in FIG. 2 is changed, the through hole can be replaced with a cutting portion. Furthermore, the state recognized when observing the non-impact recording part shown in FIGS. 1 and 2 from the front and when observing from the oblique direction (A direction) cut with respect to the thickness direction of the substrate 2 is The same applies to the case of FIG.

Below, the element which comprises the forgery prevention printed matter of this invention is demonstrated in detail.
(Base material)
Examples of the base material 2 of the anti-counterfeit printed material include paper such as high-quality paper, art paper, coated paper, cast coated paper, synthetic resin or emulsion-impregnated paper, synthetic rubber latex-impregnated paper, synthetic resin internal paper, and cellulose fiber paper , Plastic sheets of various synthetic resins such as polyolefin (polyethylene, polypropylene, etc.), polystyrene, polycarbonate, polyethylene terephthalate, polyvinyl chloride, polymethacrylate, etc., and white films formed by adding white pigments and fillers to these synthetic resins An opaque film or a film (so-called synthetic paper) having fine voids inside the substrate can be used.

  However, it is necessary to perform non-impact recording on the anti-counterfeit printed matter and to secure a predetermined thickness that can form a cut portion or a through hole. For example, among the above-mentioned base materials, papers having a thickness of 20 to 300 μm are preferable.

(Non-impact recording)
Non-impact recording methods include, for example, electrophotographic recording, ink jet recording, melt transfer recording, sublimation transfer recording, and the like. In the present invention, non-impact recording is performed on a part including the machining surface of the cutting part or the through-hole, but the machining of the cutting part or the through-hole changes the machining position and machining depth by laser irradiation as appropriate. Correspondingly, the position of non-impact recording and the information of recording can be changed as appropriate, and the anti-counterfeiting property is improved. Further, in the present invention, since non-impact recording is performed on the cutting portion or the portion including the processed surface of the through hole, high-definition and variable information can be recorded, and further, recording is performed on the surface of the substrate. What has penetrated into the inside of the substrate is preferable. As a recording method in response to this requirement, an ink jet recording method can be cited. Also, as an ink jet ink used for ink jet recording even in ink jet recording, as a colorant, which is easily dissolved in a solvent, a dye type is used. Is particularly preferred.

Below, the manufacturing method of a forgery prevention printed matter is demonstrated.
This is a method for producing anti-counterfeit printed matter by forming a cutting part or through-hole by laser irradiation on the base material of the anti-counterfeit printed matter and then performing non-impact recording to produce the anti-counterfeit printed matter. The condition is that laser irradiation is performed in an oblique direction that is a predetermined angle with respect to the thickness direction of the base material, and the cut portion or the through-hole is inclined at a predetermined angle with respect to the thickness direction of the base material. The non-impact recording is performed on the cutting portion or the portion including the processed surface of the through hole.

  When processing the cutting part or the through hole of the anti-counterfeit printed matter, the relationship between the orientation of the base material of the anti-counterfeit printed matter and the direction of the laser irradiation, the cutting part or the through hole is relative to the thickness direction of the base material, It adjusts so that it can process so that it may have the shape cut in the diagonal direction. For example, as shown in FIG. 4, the base material 2 is prepared as a continuous sheet, the processing region of the continuous sheet is suspended and supported, and the supporting portions (7, 8, 9, 10) for supporting are illustrated. As shown by the arrows, the laser irradiation means 11 irradiates the continuous sheet at a predetermined angle with respect to any direction including the width direction and the conveyance direction in the processing region of the continuous sheet. Thereby, it is possible to form a cutting part or a through-hole in the base material 2. Said support parts 7 and 9 are the parts which support the both ends of a common roll, and the conditions which both move are the same or different. Moreover, said support parts 8 and 10 are the parts which support the both ends of a common roll, The conditions to which both are movable may be the same or different.

In the above example, it is a case of a continuous sheet that is long as a base material, but is not limited thereto, and a sheet-like sheet as a base material, the sheet is installed on a flat base, and the flat base is inclined at a predetermined angle. Let me
A cutting part or a through hole can also be formed by laser irradiation. In addition, when mass-producing the forgery prevention printed matter, it is preferable to form a cutting part or a through-hole by a method as shown in FIG.

  As the laser irradiation means, YAG laser, carbon dioxide laser, ruby laser, etc. are used as laser light, and in particular, YAG laser has a short wavelength and can be focused on a minute spot, so finer processing is possible. Preferably used. A laser irradiation means can form a cutting part or a through-hole with an arbitrary shape and depth.

An example of the laser irradiation means applied in the present invention will be described. First, the laser light is condensed by a lens, and the surface of the base material is irradiated onto the anti-counterfeit printed matter. At that time, the cutting depth can be adjusted by changing the laser light irradiation time or the laser output value. That is, in the case of small Me irradiation time of the laser beam, the cutting portion becomes shallow, by increasing the irradiation time of the laser beam, can deeply cutting portion, it is possible to form the through hole. In the case of small Me laser output value, the cutting portion becomes shallow, by increasing the laser output value, deeply cutting portion, it is possible to form the through hole. In this way, it is possible to easily perform cutting with high accuracy, good reproducibility, and non-contact with the processing region.

  The laser irradiation means of the present invention preferably uses a laser beam in an infrared region of about 0.9 to 11 μm, and the portion irradiated with the laser light is heated. The portion irradiated with the laser light is locally heated and cut by blowing off the portion in the liquid phase in a state exceeding the melting point of the portion, thereby forming a cut portion or a through hole.

  In the above laser irradiation means, when setting or changing the formation position of the cutting part or the through hole, the laser irradiation device is conveyed in the width direction as shown in FIG. It can be moved in any direction such as a direction. Or the base material of a forgery prevention printed matter can also be moved to arbitrary directions. For example, an anti-counterfeit printed material as shown in FIG. 2 is obtained in which it is preferable to form a cutting part or a through hole by inclining at two or more different angles with respect to the thickness direction of the base material of the anti-counterfeit printed material. be able to. Further, it is preferable to form the cut portion or the through hole by inclining ± 45 ° or more with respect to the thickness direction of the base material. As a result, it becomes difficult to confirm the transmitted light from the back surface side in a state where the through hole is formed, so that the forgery prevention property is further improved.

  In the present invention, it has been explained that it is preferable to form a cutting part or a through hole by inclining ± 45 ° or more with respect to the thickness direction of the base material. As shown in FIG. 5, minus is defined as a positive angle in the clockwise direction and a negative angle in the counterclockwise direction with respect to the thickness direction of the substrate. Therefore, the cutting part or the through-hole provided in the forgery-preventing printed matter is inclined from + 45 ° to less than + 90 °, and further from −45 ° to less than −90 °, when inclined by ± 45 ° or more with respect to the thickness direction of the substrate Means that.

DESCRIPTION OF SYMBOLS 1 Anti-counterfeit printed matter 2 Base material 3, 31, 32, 33 Through-hole 4 Processing surface 5 Non-impact recording part 6 Cutting part 7, 8, 9, 10 Support part 11 Laser irradiation means 12 Surface where base material was cut

Claims (1)

Prepare a base material for anti-counterfeit printed matter as a continuous sheet, move a support unit that supports the processing area of the continuous sheet by suspending it, and in the processing area of the continuous sheet, the width direction and conveyance direction of the continuous sheet A process in which a cutting part or a through hole is formed in the substrate by inclining at a predetermined angle with respect to any direction including the laser beam, and then the cutting part or the through hole is processed. A method for producing a forgery-preventing printed matter, comprising subjecting a substrate surface portion including a surface to ink jet recording by an ink jet recording method.

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