JP2001080221A - Medium for sublimation transfer printing - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable discrimination of authenticity by irradiation with ultraviolet light, to enable excellent execution of sublimation transfer printing in a prescribed density and further to enhance the resistance to light. SOLUTION: This medium 10 for sublimation transfer printing enables printing of prescribed information by the sublimation transfer printing and has a pattern for discrimination of authenticity which emits light by irradiating the pattern with ultraviolet light. In this case, the medium has a base 11, a while layer 12 provided on the upper side of the base 11, a discrimination layer 13 provided on the upper side of the white layer 12 and having the pattern for discrimination of authenticity formed with white or transparent ink which emits light visibly by irradiation of the same with the ultraviolet light but does not emit light visibly under the white light, and a transparent accepting layer 14 which is provided on the upper side of the discrimination layer 13 and can accept sublimation dye.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sublimation transfer printing medium which is used in sublimation transfer printing and can be determined as true or false.

[0002]

2. Description of the Related Art Conventionally, sublimation transfer printing has been known as one type of transfer printing. In sublimation transfer printing, a sublimable dye is heated to be gasified (vaporized) and dyed on a transfer target. In sublimation transfer printing media,
At least the surface must be formed from a material having an affinity, such as a polyester resin or an acrylic resin, to which the dye is easily dyed. Therefore, a receptor layer for dyeing a sublimable dye is usually provided on the surface of the sublimation transfer printing medium.

On the other hand, this sublimation transfer printing has recently been used to form an image such as a face photograph on an ID card, passport, driver's license or the like. It is required for such a permit or the like that the authenticity can be determined to prevent forgery. As a means for authenticity determination, it is known to display a specific pattern, for example, a character or a pattern on the surface of a sublimation transfer printing medium with an ink containing an ultraviolet fluorescent agent. And when determining the authenticity,
Irradiate ultraviolet light of a predetermined wavelength using a black light or the like,
The ultraviolet fluorescent agent emits light, and the authenticity is determined based on the presence or absence of the pattern.

[0004]

However, when a pattern using an ultraviolet fluorescent agent is formed on the receiving layer of the above-mentioned conventional sublimation transfer printing medium for authenticity discrimination, and this upper layer is further subjected to sublimation transfer printing. In addition, there is a problem that a density difference occurs between a portion where the ultraviolet fluorescent agent is present and a portion where the ultraviolet fluorescent agent is not present, so that printing at a constant density cannot be performed. This is, first,
This is because the reflectance and other physical properties of the receiving layer and the ultraviolet fluorescent agent are different. Secondly, since the thickness of the printing layer formed by sublimation transfer printing is extremely small, the surface of the receiving layer needs to be smooth, but if a pattern is formed on the receiving layer with an ultraviolet fluorescent agent, This is because unevenness of at least about several μm occurs, which affects the density difference.

[0005] Further, the receiving layer for forming the sublimable dye is formed of a resin to which the dye is easily dyed, as described above.
In particular, it has the disadvantage of lacking ultraviolet light resistance. here,
It is considered that an ultraviolet absorber is contained in the receiving layer to improve the ultraviolet light resistance. However, if the receiving layer contains an ultraviolet absorber, the ultraviolet light irradiated at the time of authenticity discrimination is absorbed by the ultraviolet absorber, so that there is a problem that the ultraviolet fluorescent agent does not emit light and the authenticity cannot be discriminated.

Accordingly, an object of the present invention is to form a pattern for authenticity discrimination which emits light by irradiation of ultraviolet light, to perform good sublimation transfer printing at a constant density, and to further improve light fastness. It is an object of the present invention to provide a sublimation transfer printing medium having excellent properties.

[0007]

According to a first aspect of the present invention, there is provided a method for determining whether or not a predetermined information can be printed by sublimation transfer printing and which emits light by irradiation of ultraviolet light. Sublimation transfer printing medium having a pattern of a base material, a white layer provided on the upper layer of the base material, provided on the upper layer of the white layer, visible under white light but ultraviolet light A discrimination layer formed with a pattern for authenticity discrimination with a white or transparent ink that emits visible light upon irradiation with a transparent receptor layer provided on the discrimination layer and capable of receiving a sublimable dye. It is characterized by having.

According to a second aspect of the present invention, in the sublimation transfer printing medium according to the first aspect, the receiving layer has 25 hydroxyl groups.
Up to 61 pieces, tensile strength at break 150-350 kg / cm ²
And a thermoplastic polyester resin having a tensile elongation at break of 60 to 80%.

In the first aspect of the present invention, a white or other discrimination layer is provided on the white layer. Therefore, under white light, the white layer and the discriminating layer are synchronized, and visual identification becomes impossible. Further, since the discrimination layer is located below the receiving layer, it is more difficult to visually discriminate the discrimination layer, and the effect of preventing forgery is enhanced. Further, at the time of sublimation transfer printing, the sublimable dye is transferred onto the receiving layer to form a printing layer. Therefore, since the discriminating layer is not provided on the receiving layer, the entire area on the receiving layer can be satisfactorily dyed with the sublimable dye. Furthermore, when ultraviolet light of a specific wavelength such as black light is irradiated at the time of authenticity discrimination, the discrimination layer emits light, and the presence or absence thereof can be visually identified. Here, since the printing layer made of the sublimable dye is very thin and has light transmittance, even if the printing layer is on the discriminating layer, it is possible to sufficiently discriminate the light emission of the discriminating layer visually. it can.

[0010] In the second aspect of the present invention, the thermoplastic polyester resin having the above structure has excellent light resistance. Therefore, a receiving layer having excellent light resistance can be formed without containing an ultraviolet absorber. As a result, the ultraviolet light irradiated at the time of authenticity discrimination is incident on the discrimination layer without being absorbed by the receiving layer, so that the discrimination layer surely emits light.

[0011]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view showing one embodiment of a layer configuration of a sublimation transfer printing medium according to the present invention. The sublimation transfer printing medium 10 shown in FIG.
Print the specified information on the middle and upper surfaces) by sublimation transfer printing,
This is for forming the printing layer 15. Examples of the sublimation transfer printing medium 10 include an ID card (cash card and credit card), a driver's license, a permit such as a passport, and other securities. The information to be printed includes, for example, the name and seal of the publisher, the name of the owner of the medium, and images such as face photographs.

The sublimation transfer printing medium 10 is obtained by sequentially laminating a white layer 12, a discriminating layer 13, and a receiving layer 14 on a base material 11. The base material 11 is formed, for example, to have a thickness of about several tens μm to several mm. As the substrate 11, for example, uncoated paper such as medium quality paper or high quality paper, paper material such as coated paper such as coated paper or synthetic paper, or polyethylene (PE), polypropylene (PP), polyvinyl chloride ( PVC) or polyester and other resin films such as polyethylene terephthalate (PET).

The white layer 12 is a layer containing a fluorescent whitening agent. The white layer 12 serves as an underlayer of the receptor layer 14 for receiving the sublimable dye, and serves to correctly express the color of the sublimable dye. In synchronization with the layer 13, the discrimination layer 13 is made invisible under white light (natural light). That is, the print layer 15 formed by sublimation transfer printing has high light transmittance because most of the print layer 15 is made of a dye and hardly contains a pigment. Therefore, it is preferable that the underlayer (white layer 12) at the time of sublimation transfer printing be a white color that has little effect on the color tone of the image. Examples of the fluorescent whitening agent in the white layer 12 include benzoxazole derivatives such as 2,5-bis- (5′-t-butylbenzoxazolyl) -thiophene (“UVITEX OB” manufactured by Ciba-Geigy).

The discriminating layer 13 has a specific pattern, which is made of an ink containing a dye or pigment, which makes the image invisible under white light and visibly emits by irradiation with ultraviolet light.
For example, it is a white or transparent layer on which images such as characters and designs are formed. This ink is white or transparent under white light (natural light), and a pigment such as a dye or pigment that emits blue-green, blue, green, red, orange, or the like under ultraviolet light is dispersed in a resin binder. Things.

As such a dye or pigment, Zn
O: Zn, Sr ₃ (PO ₄ ) ₃ Cl: Eu, 3 (B
a, Mg) O · 8Al ₂ O ₃ : Eu, Zn ₂ GeO
₂ : Mn, Y ₂ O ₃ : Eu, ZnS: Mn, Y ₂ O
₂ Inorganic fluorescent pigments such as Si: Eu, or organic fluorescent dyes such as stilbene dyes such as lancophores, benzimidazoles, benzidines, benzo-α-pyrones (coumarin), naphthalic imides, pyrazolines, and benzazoles. Is mentioned. Examples of the resin binder include urethane-based resins, polyester-based resins, and acrylic-based resins. Further, a thermoplastic resin may be crosslinked with a curing agent such as an isocyanate-based curing agent. Furthermore, it may contain an extender such as calcium carbonate.

The receiving layer 14 is a transparent (including translucent) layer capable of receiving a sublimable dye. In particular, in the present invention, it is preferable that no ultraviolet absorber is contained. Examples of the material of the receiving layer 14 containing no ultraviolet absorber include the materials described in JP-A-7-52558. That is, it contains a main agent composed of the following first thermoplastic polyester resin and second thermoplastic polyester resin, and a release agent composed of a condensation reaction type silicone resin and an addition reaction type silicone resin.

The first thermoplastic polyester resin is water
18-49 acid groups, 400-600k tensile breaking strength
g / cm² And preferably 450-550 kg /
cm ² And the tensile elongation at break is preferably 1 to 5%.
2-4%. In addition, the second thermoplastic polymer
The stell resin has 25 to 61 hydroxyl groups and a tensile strength at break.
150-350kg / cm² And preferably 20
0-300kg / cm² , Tensile elongation at break of 60 to 80
%, Preferably 65-75%.

The above-mentioned first thermoplastic polyester resin comprises:
Poor light fastness but excellent dyeability of sublimable dye. Further, the second thermoplastic polyester resin is inferior in dyeability of the sublimable dye, but is excellent in light resistance. Furthermore, the condensation reaction type silicone resin is excellent in adhesion and film forming property in post-process printing, and the addition reaction type silicone resin is excellent in dyeing property of the sublimable dye and prevention of blocking. As described above, the receiving layer 14 containing the second thermoplastic polyester resin has excellent light resistance even without containing an ultraviolet absorber.

Sublimation transfer printing medium 1 having the above structure
0, the discrimination layer 1 for white or the like is provided on the white layer 12.
3, the white layer 12 and the discriminating layer 13 are synchronized under white light, making it impossible to visually discriminate. In particular, since the discriminating layer 13 is located below the receiving layer 14, it is more difficult to visually discriminate and the anti-counterfeiting effect is higher than when the discriminating layer 13 is present on the receiving layer 14. At the time of sublimation transfer printing, the sublimable dye is transferred onto the receiving layer 14 to form the printing layer 15. Here, since the receiving layer 14 contains the first thermoplastic polyester resin, the receiving layer 14 has a dyeing property of the sublimable dye, that is, has high printability. In addition, since the discriminating layer 13 is not provided on the receiving layer 14, the surface of the receiving layer 14 is smooth and the physical properties are constant.
Regardless of the area above, printing can be performed at a constant density.

Further, when the sublimation transfer printing medium 10 is stored, the receiving layer 14 contains the second thermoplastic polyester resin, so that the medium has excellent light resistance. Further, when ultraviolet light of a specific wavelength such as black light is irradiated at the time of authenticity judgment, the judgment layer 13 emits light, and the presence or absence of the light can be visually identified. And since the receiving layer 14 does not contain an ultraviolet absorber, the discriminating layer 13 can reliably emit light by irradiation with ultraviolet light.

Here, the discrimination layer 13 is located below the printing layer 15. However, since the print layer 15 mainly contains a sublimable dye and hardly contains a pigment, the print layer 15 has high light transmittance. Therefore, even when the discrimination layer 13 is located below the printing layer 15, even if the discrimination layer 13 does not have the printing layer 15 above it.
And emit light visually without much difference. After the formation of the print layer 15, a transparent protective layer (not shown) may be formed by coating or laminating to protect the surface.

[0022]

Next, an embodiment of the present invention will be described. (1) Substrate 11 A polyester resin sheet having a thickness of 150 μm (“Diafoil W400” manufactured by Mitsubishi Chemical Polyester Corporation) was used. (2) White layer 12 White ink ("LG-X" manufactured by Tokyo Ink Co., Ltd.)
-Bis- (5'-t-butylbenzoxazolyl)
-Thiophene (UVITEX O manufactured by Ciba Geigy)
B ") was applied with a paint containing 0.5% by weight and 3% by weight of a curing agent to form a white layer 12. Layer thickness after drying is 3
μm.

(3) Discriminating layer 13 A paint having the following composition was prepared. a) Polyester resin: “Byron 20” manufactured by Toyobo
0 "30 parts by weight b) Isocyanate-based curing agent: 0.3 parts by weight of" Coronate L75 "manufactured by Nippon Polyurethane Co., Ltd. c) Extender pigment: 5 parts by weight of calcium carbonate d) Inorganic fluorescent pigment: Zn ₂ GeO ₂ : Mn (Natural Special "HG-F, green light emission" manufactured by Kagaku Co., Ltd. 5 parts by weight e) Solvent: mixture of toluene and ethyl acetate in a ratio of 1: 1
60 parts by weight This paint was printed in a pattern on the surface of the white layer 12 by gravure printing to form a discriminating layer 13.

(4) Receptive layer 14 A coating having the following composition was prepared. a) First thermoplastic polyester resin: 10 parts by weight “Byron 200” (trade strength at break 500 kg / cm ² , tensile elongation at break 3%) manufactured by Toyobo b) Second thermoplastic polyester resin: “Byron 290” manufactured by Toyobo (Tensile breaking strength 250 kg / cm ² , tensile elongation at break 70%) 10 parts by weight c) Condensation reaction type silicone resin 0.6 parts by weight d) Addition reaction type silicone resin 0.4 parts by weight e) Solvent: methyl ethyl ketone 100 parts by weight of a 3: 3: 4 mixture of toluene and cyclohexanone This coating material was applied to cover the white layer 12 and the discriminating layer 13 to form the receiving layer 14. Layer thickness after drying is 4μ
m.

The discrimination layer 13 could not be distinguished from the white layer 12 by visual observation under white light. The printing layer 15 was formed on the receiving layer 14 by sublimation transfer printing, but printing was successfully performed. When black light was irradiated from the surface after the formation of the printing layer 15, the discriminating layer 13 emitted green light, and the presence of the discriminating layer 13 could be visually identified. Further, the printing layer 1 is placed on the discriminating layer 13.
Although there was some difference in the emission color between the part with 5 and the part without 5, there was no great difference. Note that the white layer 12 emitted light blue light by irradiation with black light.

[0026]

According to the first aspect of the present invention, under white light, the white layer and the discriminating layer are synchronized with each other, and the discriminating layer cannot be visually identified, so that the effect of preventing forgery can be enhanced. Further, since the discrimination layer is located below the receiving layer, it is more difficult to visually discriminate the discrimination layer, and the forgery prevention effect can be further enhanced. Furthermore, good printability can be ensured in the entire region of the receiving layer. Furthermore, even if there is a printing layer on the discriminating layer, the light emission of the discriminating layer can be sufficiently discriminated visually.

According to the second aspect of the present invention, a receptor layer having excellent light resistance can be formed without containing an ultraviolet absorber. Thereby, the ultraviolet light irradiated at the time of authenticity discrimination can be made incident on the discrimination layer, and the discrimination layer can emit light reliably.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing an embodiment of a layer configuration of a sublimation transfer printing medium according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Sublimation transfer printing medium 11 Base material 12 White layer 13 Discrimination layer 14 Reception layer 15 Printing layer

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Hitoshi Otomo 4- 14-12 Koishikawa, Bunkyo-ku, Tokyo Kyodo Printing Co., Ltd. F-term (reference) 2H111 AA07 AA27 CA03 CA04 CA30 2H113 AA06 BA03 BB08 BC06 BC09 CA39 CA46 DA26 DA57 DA64 EA22 FA10 FA36 FA56

Claims (2)

[Claims] 1. A sublimation transfer printing medium capable of printing predetermined information by sublimation transfer printing and having a pattern for authenticity discrimination emitted by irradiation of ultraviolet light, comprising: a base material; A white layer provided on the upper layer, provided on the upper layer of the white layer, a white or transparent ink which is not visible under white light but is visibly emitted by irradiation with ultraviolet light, for authenticity discrimination. A sublimation transfer printing medium comprising: a discriminating layer having a pattern formed thereon; and a transparent receiving layer provided on the discriminating layer and capable of receiving a sublimable dye. 2. The sublimation transfer printing medium according to claim 1, wherein the receiving layer has 25 to 61 hydroxyl groups, a tensile breaking strength of 150 to 350 kg / cm ² , and a tensile breaking elongation of 60 to 60.
A sublimation transfer printing medium containing 80% of a thermoplastic polyester resin.