JP2003295492A - Forgery prevention paper sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a forgery prevention paper sheet which can be printed satisfactorily by eliminating inconvenience that printing by an electric photographic method can not be performed satisfactorily due to a thread. <P>SOLUTION: This forgery prevention paper sheet 1 has a base material 2 and a forgery prevention material 3 provided on the surface layer part of the base body, wherein at least one surface side of the base material 2 is a surface to be printed which is printed by an electric photographic method. The fabrication prevention material 3 is formed by having an optical reflection layer 6 made of non-magnetic metal and/or a ferromagnetic material thin film layer 7 made of a ferromagnetic material on which recording for forgery prevention is performed in advance. An insulative or semiconductive resin layer 5 is provided at a part corresponding to the position arranged with the forgery prevention material on the other face of the base material 2. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anti-counterfeit sheet using an anti-counterfeit thread, and more particularly to an anti-counterfeit sheet for printing by electrophotography.

[0002]

2. Description of the Related Art In recent years, various security media such as gift certificates, gift certificates, certificates, tickets, voting tickets, tickets, labels, etc. It is known that various prepared threads are made into a base material such as paper. Forgery prevention by such a thread is performed at the stage of manufacturing a sheet, so that it is difficult to forge by a method such as color copying, scanner incorporation, and plate-making printing.

By the way, in the above security medium,
For the purpose of management, for example, in the case of a ticket or the like, a serial number is printed, and the place of sale, the seller, the date and time of sale, etc. are recorded. When recording is performed for each individual medium, or for each of a small number of mediums, the conventional printing method cannot handle the cost and time, so conventionally, handwriting with a pen or the like, Also, it was recorded by a rubber stamp or the like.

Recently, however, by operating a computer, for example, a laser printer,
Such a printing method is rapidly becoming popular because characters and the like can be printed easily and quickly. That is, such a printing method using a laser printer or the like is easier than a handwriting and has a good appearance, and it is also advantageous in terms of management because a printing record can be left.

[0005]

By the way, an electrophotographic printer such as a laser printer is of a type in which printing is carried out by transferring toner developed on a photosensitive drum onto a material to be printed. In this method, a material to be printed is charged by a charging unit such as a charging roll, so that the toner on the photosensitive drum is transferred to the material to be printed.

However, in the anti-counterfeit paper in which the thread is made into the base material, there is a large difference in resistance between the base material paper and the ferromagnetic material thin film layer in the thread. When printing is performed by the printer according to the present invention, the sled portion shows a charging significantly different from that of the surrounding substrate portion. As a result, this thread causes irregularities in charging around the thread, resulting in unevenness in the resulting printed image and impairing the image quality. That is, at the time of printing, the electric charge given from the charging unit is attracted to the ferromagnetic material thin film layer in the thread, which disturbs the charging around the thread and causes unevenness in the printed image. Of.

The present invention has been made in view of the above circumstances, and an object of the present invention is to solve the inconvenience of being unable to perform electrophotographic printing satisfactorily due to threads so that printing can be performed satisfactorily. To provide anti-counterfeit paper.

[0008]

The anti-counterfeit paper of the present invention comprises a base material and an anti-counterfeit material provided on the surface layer thereof, and at least one surface side of the base material is electrophotographically processed. An anti-counterfeit paper used as a printed surface for printing, wherein the anti-counterfeit material is formed with a light-reflecting layer made of a non-magnetic metal, and the other surface of the base material is provided with the anti-counterfeit material. An insulating or semi-conductive resin layer is provided at a position corresponding to the above position as the means for solving the above problems.

According to this anti-counterfeit paper, an insulating or semi-conductive resin layer is provided on the other surface of the base material at a position corresponding to the position where the anti-counterfeit material is arranged. , At the location corresponding to the position where the anti-counterfeiting material is arranged, the transfer of the electric charge given from the charging unit into the base material is blocked by the resin layer, which prevents the electric charge from being attracted to the anti-counterfeiting material. It In addition, since the anti-counterfeiting material provided on the surface layer of the base material is formed to have a light-reflecting layer made of a non-magnetic metal, the light-reflecting layer can be visually recognized, so that it is not a counterfeit product It is confirmed that it belongs to

In another anti-counterfeit paper of the present invention, a base material,
An anti-counterfeit paper having a surface layer portion or an anti-counterfeiting material provided in the base material, wherein at least one surface side of the base material is a surface to be printed by electrophotography, The anti-counterfeiting material is formed with a ferromagnetic material thin film layer made of a ferromagnetic material on which recording for anti-counterfeiting is made in advance, and corresponds to the position on the other surface of the base material where the anti-counterfeiting material is arranged. An insulating or semi-conductive resin layer is provided at the location, which is a means for solving the above-mentioned problems.

According to this anti-counterfeit paper, the insulating or semi-conductive resin layer is provided on the other surface of the base material at a position corresponding to the position where the anti-counterfeit material is arranged. , At the location corresponding to the position where the anti-counterfeiting material is arranged, the transfer of the electric charge given from the charging unit into the base material is blocked by the resin layer, which prevents the electric charge from being attracted to the anti-counterfeiting material. It Further, since the anti-counterfeiting material provided on the surface layer of the base material is formed to have a ferromagnetic material thin film layer made of a ferromagnetic material, by reading the record of this ferromagnetic material thin film layer It is confirmed that the product is genuine, not genuine.

Yet another anti-counterfeit paper of the present invention comprises a base material and an anti-counterfeit material provided on the surface layer thereof, and at least one surface side of the base material is printed by electrophotography. An anti-counterfeit sheet having a printed surface, wherein the anti-counterfeit material has a non-magnetic metal light reflection layer on the outermost side that is one surface side of the base material, and anti-counterfeit recording is made in advance. It is formed by having a ferromagnetic material thin film layer made of a ferromagnetic material on the other surface side of the base material, and an insulating property is formed on the other surface of the base material at a position corresponding to the position where the forgery prevention material is arranged. Alternatively, the provision of a semi-conductive resin layer was taken as a means for solving the above problems.

According to this anti-counterfeit paper, an insulating or semi-conductive resin layer is provided on the other surface of the base material at a position corresponding to the position where the anti-counterfeit material is arranged. , At the location corresponding to the position where the anti-counterfeiting material is arranged, the transfer of the electric charge given from the charging unit into the base material is blocked by the resin layer, which prevents the electric charge from being attracted to the anti-counterfeiting material. It In addition, since the anti-counterfeiting material provided on the surface layer of the base material is formed to have a light-reflecting layer made of a non-magnetic metal, the light-reflecting layer can be visually recognized, so that it is not a counterfeit product It is confirmed that it belongs to Further, since the anti-counterfeiting material provided on the surface layer of the base material is formed to have a ferromagnetic material thin film layer made of a ferromagnetic material, by reading the record of this ferromagnetic material thin film layer It is confirmed that the product is genuine, not genuine.

In the anti-counterfeit paper, an insulating or semi-conductive resin layer is provided on one surface of the substrate to be printed on a position corresponding to the position where the anti-counterfeit material is arranged. It is preferable that If the resin layer is provided on the one surface side of the substrate to be the printed surface as described above, the resin layer does not cause a large resistance difference with the surrounding substrate,
Therefore, it is possible to prevent image quality defects such as printing unevenness due to uneven toner transferability due to a resistance difference between the portion of the forgery prevention thread and the surrounding base material portion.

In the anti-counterfeit paper, the resin layer provided on one surface of the substrate to be printed and the resin layer provided on the other surface of the substrate have surface electric resistance values respectively. 10 ⁷ to 10 ¹⁴ Ω, volume electric resistance value is 10 ⁹
It is preferably from 10 to ^{17 17} Ω · cm. By doing so, on the one surface side of the base material which is the surface to be printed of the anti-counterfeit paper, the resin layer hardly causes a resistance difference with the surrounding base material, and the other surface of the base material. On the side, the electric charge provided by the charging unit is reliably blocked by the resin layer. Therefore, image quality defects such as printing unevenness due to uneven toner transfer properties due to the resistance difference between the portion of the anti-counterfeiting material and the surrounding base material portion can be more reliably prevented, and the charge can be applied to the anti-counterfeiting material. It is also reliably prevented that, due to being attracted or the like, disturbance of charging occurs around the anti-counterfeiting material and unevenness or the like occurs in the printed image.

In the anti-counterfeit paper, it is preferable that the anti-counterfeit material is formed by having an insulating resin film on the outermost side which is the other surface side of the base material.
In this way, during printing, it is possible to reliably block transfer of the electric charge given by the charging unit into the forgery prevention material by the resin film.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention is described in detail below.
1A and 1B are views showing an example of the anti-counterfeit paper of the present invention, and reference numeral 1 in FIGS. 1A and 1B is the anti-counterfeit paper. In this anti-counterfeit paper 1, a long tape-shaped anti-counterfeiting thread (anti-counterfeiting material) 3 is incorporated into the surface layer of a base material 2 made of paper. The resin layers 4 and 5 are respectively provided at the positions corresponding to the positions where the threads 3 are arranged.

As shown in FIG. 1B, the anti-counterfeit thread 3 has a light-reflecting layer 6 made of a non-magnetic metal on the outermost side of one surface of the substrate 2 which is the surface to be printed. A ferromagnetic material thin film layer 7 made of a ferromagnetic material is provided on the inner side (lower side) of the reflective layer 6, and the innermost (lower side) of this ferromagnetic material thin film layer 7, that is, the other surface side of the base material 2 Insulating resin film 8 on the outside
Is formed.

The light reflecting layer 6 is made of a light reflecting non-magnetic metal, that is, gold, silver, aluminum, chromium or the like. However, aluminum is particularly preferably used from the viewpoint of cost and technology. The thickness of the light reflecting layer 6 is not particularly limited, but is preferably about 10 nm to 200 nm, more preferably about 20 nm to 100 nm in order to exhibit good light reflecting characteristics.

The ferromagnetic material thin film layer 7 is made of any one of iron (Fe), cobalt (Co) and nickel (Ni) or 2
Based on a magnetic material consisting of a combination of more than one species,
Boron (B), carbon (C), magnesium (M
g), aluminum (Al), silicon (Si), phosphorus (P), sulfur (S), titanium (Ti), vanadium (V), chromium (Cr), manganese (Mn), copper (C)
u), zinc (Zn), yttrium (Y), zirconium (Zr), niobium (Nb), molybdenum (Mo), palladium (Pd), silver (Ag), indium (In),
Tin (Sn), tantalum (Ta), tungsten (W),
One or more kinds of metal or non-metal element selected from iridium (Ir), platinum (Pt), gold (Au) and lead (Pb) are added as an additive.
The magnetic material forming the ferromagnetic material thin film layer 7 may be crystalline or amorphous.

The resin film 8 is the thin film layer 7 of the ferromagnetic material.
Is an insulating material that also functions as a protective layer for protecting the recording of, and specifically, polyethylene terephthalate (P
ET) resin film, polyester resin film, polyamide resin film, polyimide resin film, polycarbonate resin film, polystyrene resin film,
It is formed of a polypropylene resin film, a polysulfone resin film, a polyphenylene sulfide resin film, a cellulose resin film, or the like.

The resin layer 4 is attached to one surface side of the base material 2 at a position corresponding to the position where the forgery prevention thread 3 is arranged, that is, a position directly above the position where the forgery prevention thread 3 is arranged. The anti-counterfeiting thread 3 has the same shape and size as the anti-counterfeiting thread 3, or is slightly larger. The resin layer 4 is made of a resin film having water resistance and heat resistance,
Specifically, like the resin film 8, polyethylene terephthalate (PET) resin film, polyester resin film, polyamide resin film, polyimide resin film, polycarbonate resin film, polystyrene resin film, polypropylene resin film, polysulfone resin film, polyphenylene sulfide. It is formed of a resin film, a cellulosic resin film, or the like. The thickness of the resin layer 4 made of such a resin film is preferably about 1 to 300 μm, more preferably about 5 to 50 μm.

Here, regarding such a resin layer 4,
It is desirable that the toner transfer property is substantially the same as that of the base material 2 in which the forgery prevention thread 3 is incorporated. Specifically, the surface electric resistance value is 10 ⁷ which is the surface electric resistance value of general paper.
It is preferably 10 ¹⁴ Ω, more preferably 10 ⁷ to 10 ¹³ Ω. Also, regarding the volume electric resistance value,
It is preferably 10 ⁹ to 10 ¹⁷ Ω · cm. In order to make the resin layer 4 have a resistance value in such a range, the resin film is kneaded with a conductive filler such as carbon in advance, or the surface thereof is coated with a conductive filler. Alternatively, the resin film may be imparted with semiconductivity by applying an antistatic agent in advance.

The resin layer 5 is provided on the other surface of the base material 2 at a position corresponding to the position where the forgery prevention thread 3 is arranged, that is, a position directly below the position where the forgery prevention thread 3 is arranged. It is affixed, and is formed in the same shape and size as the forgery prevention thread 3, or is formed slightly larger. The resin layer 5 is made of the same resin film as the resin layer 4.
Here, the other side of the anti-counterfeit paper 1 may be printed by the electrophotographic method. Therefore, the resin layer 5
Has a surface electric resistance value of 10 ⁷ to 10 ¹⁴ Ω, which is a surface electric resistance value of general paper, and more preferably 10 ⁷ to 10 ¹³ Ω, like the resin layer 4. preferable. Also, the volume electric resistance value is 10 ⁹ to 10 ¹⁷
Ω · cm is preferable.

In order to manufacture the forgery prevention paper 1 having such a structure, first, the forgery prevention thread 3 is formed in advance. To form the anti-counterfeit thread 3,
The ferromagnetic material thin film layer 7 is formed on the resin film 8 as a base. The ferromagnetic material thin film layer 7 is formed by sputtering using, for example, a material containing an alloy of iron, cobalt, nickel as a main component and an additive element or a mixture thereof as a target material or an evaporation source.
It is formed by means of a vacuum process such as vapor deposition or ion plating. Here, as the ferromagnetic material, cobalt Co-zirconium Zr system or iron Fe-silicon Si is used.
Those represented by the above are preferable.

The ferromagnetic material thin film layer 7 thus formed
The thickness is preferably about 50 to 500 nm. When the thickness is less than 50 nm, the thickness of the ferromagnetic material thin film layer becomes thin, so that the saturation magnetic flux decreases as the absolute amount of the magnetic material decreases, and the magnetic signal decreases. That is, in order to obtain a magnetic signal used for authenticity determination, the thickness of the magnetic substance needs to be 50 nm or more. Also, 50
If it exceeds 0 nm, the characteristics of the thread may be deteriorated due to curling due to the internal stress of the film (thin film layer 7) and wrinkles and cracks may occur. From the viewpoint of the productivity of the ferromagnetic material thin film layer 7 and the stability of magnetic signals, the more preferable thickness of the ferromagnetic material thin film layer 7 is 150 to 300 nm.
The range is (0.15 to 0.3 μm). Further, when the ferromagnetic material thin film layer 7 is patterned, it can be patterned by a process such as a wet etching method or a lift-off method in addition to a dry process of forming a pattern with a laser beam. In the case of laser processing, the surface of the ferromagnetic material thin film layer 7 can be patterned by scanning with a YAG laser (wavelength 1064 nm) beam.

Next, the light reflection layer 6 made of aluminum or the like is formed on the ferromagnetic material thin film layer 7 by vapor deposition or the like. Then, before or after the anti-counterfeit thread 3 is made into the base material 2 with respect to the ferromagnetic material thin film layer 7 of the anti-counterfeit thread 3 thus obtained, the obtained anti-counterfeit paper is Recording corresponding to the use, that is, magnetic information is provided.

The forgery prevention thread 3 formed in this manner is cut into paper along the short side direction of the base material 2 shown in FIG. 1 (a). Then, the resin layer 4 is attached to one surface side of the base material 2 at a position corresponding to a position where the forgery prevention thread 3 is machined, that is, a position immediately above the position where the forgery prevention thread 3 is arranged, Similarly, the resin layer 5 is attached to the other surface of the base material 2 just below the position where the anti-counterfeit thread 3 is arranged, and thereby the anti-counterfeit paper 1 is obtained.

In the anti-counterfeit paper 1 thus obtained, the resin layer 5 is provided on the other surface of the base material 2 at a position corresponding to the position where the anti-counterfeit thread 3 is arranged. When printing is performed by an electrophotographic method such as a laser printer, the resin layer 5 prevents the electric charge given from the charging roll (charging unit) 10 from being transferred into the base material 2 as shown by an arrow in FIG. It is possible to cut off the charge, and thereby, the electric charge is attracted to the ferromagnetic material thin film layer 7 of the anti-counterfeit thread 3, and the charge disturbance occurs around the anti-counterfeit thread 3 to cause unevenness in the printed image. Can be prevented.

Since the resin layer 4 is provided on one surface of the base material 2 at a position corresponding to the position where the forgery prevention thread 3 is arranged, the resin layer 4 is provided between the peripheral base material 2 and the resin layer 4. Does not cause a large resistance difference. Therefore, when the electrophotographic printing is performed on one surface that is the printing surface, there is almost no difference in resistance between the portion of the forgery prevention thread 3 and the portion of the base material 2 surrounding the portion, and thus uneven printing caused by the difference in resistance occurs. There is no image quality defect such as the above, and thus printing with good image quality can be performed. When the thread 3 is on the surface layer of the base material 2, the thread 3 and the resin layer 4 may be in contact with each other. If the electric resistance value of the resin layer 4 is adjusted to be substantially equal to the electric resistance value of the base material 2,
Image quality defects such as printing unevenness due to the resistance difference between the portion of the forgery prevention thread 3 and the surrounding substrate 2 portion can be more reliably prevented, and therefore printing with better image quality can be performed. You can

Further, since the anti-counterfeit thread 3 is formed with the light reflecting layer 6, the light reflecting layer 6 is visually recognized through the surface portion of the base material 2, so that the counterfeit product is obtained. Can be confirmed to be genuine. Further, since the anti-counterfeiting thread 3 is formed with the ferromagnetic material thin film layer 7 made of a ferromagnetic material, by reading the record of this ferromagnetic material thin film layer 7, it is not a counterfeit product but a genuine product. You can confirm that it is a thing.

Further, since the forgery preventing thread 3 is formed with the insulating resin film 8 on the outermost side which is the other surface side of the base material 2, when printing by electrophotography,
As shown by the chain double-dashed line in FIG. 2, it is possible to surely prevent the electric charge given from the charging roll 10 from being transferred into the forgery prevention thread 3 by the resin film 8, whereby the electric charge is prevented. It is possible to surely prevent the printed image from being unevenly attracted to the ferromagnetic material thin film layer 7 of No. 3 and disturbing the charging around the forgery preventing thread 3.

Further, since the resin film 8 also functions as a protective layer for protecting the recording of the ferromagnetic material thin film layer 7, the forgery preventing function of the forgery preventing thread 3 can be surely retained. That is, since the resin film 8 is provided below the ferromagnetic material thin film layer 7, when the anti-counterfeit paper 1 is charged by the charging roll 10 during transfer during printing by electrophotography, With film 8,
It is possible to prevent the recording of the ferromagnetic material thin film layer 7 from being affected by charging and being changed or lost.

Although paper is used as the base material 2 in the above example, the present invention is not limited to this, and synthetic paper or non-woven fabric made by laminating resin films instead of general paper may be used. You may employ | adopt as a base material. Further, in the forgery prevention paper 1 of the above example, the forgery prevention thread 3 is configured by including the light reflection layer 6 and the ferromagnetic material thin film layer 7. However, in the present invention, both of them are not necessarily required, and the Reflective layer 6
The anti-counterfeiting thread 3 may be configured to include only the ferromagnetic material thin film layer 7. Further, in the forgery prevention thread 3, a surface smoothing layer may be formed on the resin film 8 and the ferromagnetic material thin film layer 7 may be formed thereon.

[0035]

EXAMPLES The present invention will be described more specifically by way of examples. (Fabrication of Magnetic Thread) As the resin film 8 which is a base material of the forgery prevention thread 3, a polyethylene terephthalate film (“Lumirror-S-28” manufactured by Toray Industries, Inc.) having good smoothness [thickness: 16 μm] is used. I was there. Then, aluminum was vapor-deposited on the substrate film so that the average film thickness was 0.03 μm, and a surface smoothing layer (not shown) was formed. Then, a ferromagnetic material thin film layer 7 made of iron (Fe) -silicon (Si) was formed on the surface smoothing layer by a sputtering method so as to have a film thickness of 0.2 μm. The width of the ferromagnetic material thin film layer 7 is 2 mm.
In order to repeatedly provide the reduced bar code mark within the range, mark writing was performed with a YAG laser (wavelength 1064 nm). A beam having a diameter of about 50 μm was scanned in parallel, and the removed portions of the ferromagnetic material thin film layer having a width of 50 μm were formed in stripes at intervals of 100 μm to provide a clear barcode mark. The processing conditions for laser processing are as follows. <Processing conditions> -Device: "Laser marker FL-50" manufactured by Fuji Electric Co., Ltd.-Irradiation energy: 5 to 6 W (current value 8 A) -Scan speed: 100 mm / sec

(Light Reflecting Layer) Aluminum is further applied to the surface of the ferromagnetic material thin film layer 7 of the thread so that the average film thickness is 0.0.
The light reflection layer 6 was formed by vapor deposition so as to have a thickness of 3 μm. After that, a slit machine was used to slit into a width of 2 mm, and a forgery prevention thread 3 was produced. The magnetic characteristics of the thus obtained anti-counterfeit thread 3 were measured, and as a result, the squareness ratio was 0.9 and the coercive force was 30 L-thread in the portion without patterning. In addition, the squareness ratio of the portion where the surface smoothing layer was not provided was 0.5 in a separate comparison test.
The measurement was performed by measuring with a DC magnetic field of VSM (sample vibration type speedometer). Also, the same result was obtained by measurement with a BH analyzer in an alternating magnetic field.

(Resin Layer) A polyethylene terephthalate film (“Lumirror-S-28” manufactured by Toray Industries, Inc.) [thickness: 16 μm] having a good smoothness was used as a resin layer, and a vinyl chloride / acetate-based adhesive was added thereto in an amount of 1 μm. Was applied to the thickness.
After that, using a slitting machine, slit to a width of 2 mm,
The resin layers 4 and 5 were produced.

(Papermaking of anti-counterfeit paper) The anti-counterfeit thread 3 produced as described above was made into high-quality paper of 90 kg / 46 size by a paper machine on the surface layer thereof so as to be transparent on the surface of anti-counterfeit paper 1. . When the thus manufactured anti-counterfeit paper was read by the magnetic head, the bar code composed of the ferromagnetic material thin film layer could be read. (Adhesion of Resin Layer) The resin layers 4 and 5 produced as described above are attached to one surface and the other surface of the base material 2 at positions corresponding to positions where the forgery prevention thread 3 is machined, respectively. The anti-counterfeit paper 1 of the present invention was obtained. (Electrophotographic printing on anti-counterfeit paper) The anti-counterfeit paper 1
On the thread side and the back side of Oki Electric Co., Ltd. "MICROLIN
It was printed using "E3010C" (electrophotographic). On the one surface side, a high-quality image could be obtained on any portion except the forgery prevention thread portion 3. Further, even on the other surface side, a high-quality image could be obtained on an arbitrary part of the entire surface.

[0039]

As described above, the anti-counterfeit paper of the present invention is provided with an insulating or semi-conductive resin layer on the other surface of the base material at a position corresponding to the position where the anti-counterfeit material is arranged. Therefore, at the time of printing, at the position corresponding to the position where the anti-counterfeiting material is arranged, the transfer of the electric charge given from the charging unit into the base material can be blocked by the resin layer. As a result, it is possible to prevent the electric charge from being attracted to the anti-counterfeit material, which may cause irregularity of the charge around the anti-counterfeit thread to cause unevenness in the printed image. Further, since the anti-counterfeiting material provided on the surface layer portion of the base material is formed to have the light reflecting layer made of a non-magnetic metal, this light reflecting layer is visually recognized through the surface portion of the base material. By doing so, it can be confirmed that it is not a counterfeit product but an authentic one.

In another anti-counterfeit paper of the present invention, the anti-counterfeit material provided on the surface layer of the base material is formed by having a ferromagnetic material thin film layer made of a ferromagnetic material. By reading the record of the ferromagnetic material thin film layer, it can be confirmed that it is a genuine product, not a counterfeit product.

In addition, if an insulating or semiconductive resin layer is provided on the one surface of the base material at a position corresponding to the position where the anti-counterfeiting material is arranged, the resin layer is surrounded by the base material. A large resistance difference is not generated. Therefore,
When printing by electrophotography on this one side, which is the printing surface, there is almost no resistance difference between the forgery prevention thread part and the surrounding base material part.Therefore, image quality such as printing unevenness due to the resistance difference occurs. There are no defects, which allows printing with good image quality.

If the anti-counterfeiting material has a resin film on the outermost side, which is the other surface side of the substrate, the charge given from the charging unit is applied to the resin film during printing by electrophotography. The transfer to the anti-counterfeit thread can be surely blocked by this, the electric charge is attracted to the ferromagnetic material thin film layer of the anti-counterfeit material, and the disturbance of charging occurs around the anti-counterfeit thread, and the printing is performed. It is possible to reliably prevent unevenness in the image.

[Brief description of drawings]

FIG. 1 is a diagram showing a schematic configuration of an anti-counterfeit paper of the present invention, (a) is a plan view of the anti-counterfeit paper, and (b) is (a).
2 is a cross-sectional view taken along the line AA of FIG.

FIG. 2 is a side view for explaining the operation of the anti-counterfeit paper shown in FIG.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Anti-counterfeit paper, 2 ... Base material, 3 ... Anti-counterfeit thread (anti-counterfeit material), 4 ... Resin layer, 5 ... Resin layer, 6 ... Light reflection layer, 7 ... Ferromagnetic material thin film layer, 8 ... Resin the film

   ─────────────────────────────────────────────────── ─── Continued front page    F term (reference) 2C005 HA02 HB10 HB11 HB13 JB23                       JB28 KA15 KA40 KA48 KA57                       LA18                 4F100 AB01B AB10 AK01C AK42                       AR00B AT00A BA04 BA07                       BA10B BA10C DG10A DG15A                       GB90 HB31D JG01C JG04C                       JG06B JN06B YY00C                 4L055 AJ10 BD16 BE14 EA34 FA30                       GA11 GA45

Claims (7)

[Claims] 1. An anti-counterfeit paper comprising a base material and an anti-counterfeiting material provided on a surface layer portion thereof, wherein at least one surface side of the base material is a printed surface for printing by electrophotography. The anti-counterfeiting material is formed with a light-reflecting layer made of a non-magnetic metal, and an insulating or semi-insulating material is formed on the other surface of the base material at a position corresponding to the position where the anti-counterfeiting material is arranged. An anti-counterfeit paper, which is provided with a conductive resin layer. 2. A base material and a surface layer portion thereof or an anti-counterfeiting material provided in the base material, and at least one surface side of the base material is a surface to be printed by electrophotography. An anti-counterfeit sheet, wherein the anti-counterfeit material is formed with a ferromagnetic material thin film layer made of a ferromagnetic material on which recording for anti-counterfeiting is made in advance, An anti-counterfeit paper, characterized in that an insulating or semi-conductive resin layer is provided at a position corresponding to the position where the material is arranged. 3. An anti-counterfeit paper comprising a base material and an anti-counterfeit material provided on a surface layer portion thereof, wherein at least one surface side of the base material is a surface to be printed by electrophotography. The anti-counterfeiting material has a light-reflecting layer made of a non-magnetic metal on the outermost one side of the base material, and a ferromagnetic material thin film made of a ferromagnetic material on which recording for anti-counterfeiting is made in advance. A layer is formed having the layer on the other surface side of the base material, and an insulating or semiconductive resin layer is provided on the other surface of the base material at a position corresponding to the position where the forgery prevention material is arranged. Anti-counterfeit paper that is characterized by being formed. 4. An insulative or semi-conductive resin layer is provided on a surface of a base material to be printed on a surface corresponding to a position where the anti-counterfeiting material is arranged. The anti-counterfeit paper according to any one of claims 1 to 3. 5. A substrate provided on one surface of a substrate to be printed.
The resin layer, and the resin layer provided on the other surface of the base material,
The surface electric resistance of each is 10⁷ -10 ¹⁴Ω, volume
Electric resistance value is 10⁹ -10¹⁷Characteristic of Ω · cm
The anti-counterfeit paper according to claim 4. 6. The anti-counterfeiting material is formed by having an insulating resin film on the outermost side which is the other surface side of the base material. Anti-counterfeit paper described. 7. The base material is made of one type selected from paper, synthetic paper and non-woven fabric.
Anti-counterfeit paper according to any one of 1.