JP2002096586A - Personal certification medium and method for printing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a personal certification medium having an excellent image including no printing skip, good transferability and a sufficient mechanical strength. SOLUTION: The personal certification medium comprises the excellent image having no printing blur, good transferability and sufficient mechanical strength on a print layer.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a personal authentication medium such as an ID card and a printing method thereof.

[0002]

2. Description of the Related Art In recent years, ID cards, such as a car driver's license or an employee's card, which need to confirm the identity of a qualification owner, are mounted on a single surface with information such as a face photograph and an address name as an identification image. An ID card has been put to practical use in which a face photograph is recorded using a dye thermal diffusion recording device, and personal character information such as name, address, date is recorded by thermal fusion transfer.

In creating such an ID card, first,
Information such as ruled lines and patterns is pre-printed using an ultraviolet curable ink by an offset printing method or the like. In this case, the printed matter often has a printed pattern with an uneven surface due to, for example, transfer characteristics or aggregation of ink.

FIG. 2 is a view for explaining a state of a cross section of a conventional ID card.

As shown in the figure, this ID card 20
An ink layer 2 having a pattern such as a ruled line or a pattern is formed on a card base material 1, and the heat-meltable ink layer 5 formed thereon by thermal transfer causes print fading due to unevenness on the surface of the ink layer 2. ing.

As described above, conventionally, on a print pattern,
For example, when printing of personal character information or picture information is performed by a hot-melt transfer recording method, a portion where ink is not printed occurs due to unevenness of the surface, and as a result, the printing is blurred.

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and a first object of the present invention is to provide an excellent printing medium which is free from print fading, has good transferability, and has sufficient mechanical strength. To provide a personal authentication medium having an image.

It is a second object of the present invention to provide a method for printing a personal authentication medium capable of forming an excellent image having no print blur, good transferability, and sufficient mechanical strength. It is in.

[0009]

SUMMARY OF THE INVENTION The present invention firstly provides a base material, a first ultraviolet-curable ink layer having a first print pattern formed on the surface of the base material, A second UV-curable ink layer having a second print pattern laminated on the UV-curable ink layer of No. 7 and containing at least 7% by weight of a non-curable ink diluent; and a second UV-curable ink layer. A personal authentication medium characterized by comprising a heat-fusible ink layer formed by thermal transfer thereon.

The present invention secondly comprises a step of forming a first UV-curable ink layer having a first print pattern on the surface of a substrate, and a step of forming a non-curable ink on the first UV-curable ink layer. Forming a second ultraviolet-curable ink layer having a second print pattern containing at least 7% by weight of a diluent, and forming a heat-meltable ink layer on the second ultraviolet ink layer by thermal transfer; And a method for printing a personal authentication medium.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The personal authentication medium of the present invention has a base material, a first ultraviolet curable ink layer having a first print pattern formed on the base material, and a second print pattern. It has a second UV-curable ink layer and a thermally transferred hot-melt ink layer, wherein the second UV-curable ink layer contains 7% by weight or more of a non-curable ink diluent. I do.

Further, in the method of printing a personal authentication medium according to the present invention, a step of forming a first ultraviolet-curable ink layer having a first print pattern on a surface of a base material; Forming a second UV-curable ink layer having a second print pattern, and forming a heat-meltable ink layer on the second UV-ink layer by thermal transfer; The ink layer is characterized by containing at least 7% by weight of a non-curable ink diluent.

For the first UV-curable ink layer, a UV-curable ink containing a colorant can be used. Examples of the first print pattern include, for example, ruled lines and patterns common to each personal authentication medium.

Further, the second ultraviolet curable ink layer includes:
After curing, an ultraviolet curable ink capable of forming a substantially colorless and transparent cured layer can be used. Further, it is desired that the second ultraviolet-curable ink layer has high transferability of the heat-meltable ink. For this reason, in the present invention, the ultraviolet curable ink contains 7% by weight or more of the non-curable ink diluent. The second print pattern may be formed so as to cover at least the first ultraviolet curable ink layer.

FIG. 1 is a model diagram for explaining a state of a cross section of an ID card according to the present invention.

As shown in the figure, this ID card has a first UV-curable ink layer 2 and a second UV-curable ink layer 3 laminated on a card substrate 1 and a hot-melt ink layer 3 thereon. The layer has a configuration formed by thermal transfer.

According to the present invention, at least the second UV-curable ink layer 3 covering the first UV-curable ink layer 2 contains at least 7% by weight of the non-curable ink diluent. The curing reaction is suppressed, and the hardness of the cured film is softer than that of the first ultraviolet curable ink layer 2.
For this reason, by forming the second ultraviolet-curable ink layer 3, the soft and transparent second ultraviolet-curable ink layer 3 is formed by the aggregation of the ink by the heat and pressure of the thermal head in the thermal fusion transfer recording. When the further heat-meltable ink layer 4 is formed by the hot-melt transfer recording method by filling the gap, the heat-meltable ink layer 4 is uniformly transferred, and the blurring of characters can be prevented.

Further, since the second ultraviolet-curable ink layer 3 is a transparent ink, even if it is shaved, it does not affect image information and a clear image can be obtained.

As the first ultraviolet curable ink, an ink having sufficient mechanical strength and abrasion resistance on the substrate surface by curing is selected. The UV-curable ink contains, for example, a UV-curable acrylic monomer, oligomer, etc., a curing catalyst, a colorant, and an extender pigment.

Inks preferably used for the second ultraviolet-curable ink layer include a medium ink and an overprint varnish.

The medium contains, for example, an ultraviolet-curable acrylic oligomer / monomer, a curing catalyst, and an extender pigment. Other uses include a diluent for a coloring ink.

The overprint varnish contains, for example, a UV-curable acrylic monomer, a curing catalyst, and a coloring agent, and is added with a glossing agent, if necessary. Other uses include protective film materials.

As the non-curable diluent, those which do not contain an ultraviolet-curable substance in the composition and are compatible with ordinary ultraviolet-curable inks can be selected and used. In the present invention, the addition amount is 7% by weight or more based on the second ultraviolet curable ink.

Examples of such a non-curable diluent include a reducer. The reducer does not contain UV curable substances in its components, is non-volatile and compatible with ordinary inks. For example, it can be used to reduce the viscosity of ink. However, the addition amount in this case is usually 5% by weight or less based on the ink.

As a method for forming the first ultraviolet-curable ink layer and the second ultraviolet-curable ink layer, for example, an offset printing method is used.

[0026]

The present invention will be described below in detail with reference to examples.

Example 1 First, a polyethylene terephthalate card base material having a sublimation type ink transfer image receiving layer on one surface was prepared.

On the image receiving layer for sublimation type ink transfer, T &
K TOKA UV161 blue is applied to an offset printing machine for cards, a 10 mm × 10 mm square pattern is printed, and cured by irradiating with ultraviolet light, and then 1.0 to 3.0.
A first ultraviolet curable ink layer having a thickness of μm was obtained. The ten-point average roughness Rz of the first UV-curable ink layer measured as a surface roughness by a nail-type surface roughness meter having a needle diameter of 2 μm was 2.0 to 3.0 μm.

On the obtained first UV-curable ink layer, 7% by weight of T & K TOKA UV161 ink medium and T & K TOKA DG reducer were used.
And then similarly applied to an offset printing machine for cards, printing a square pattern of 10 mm × 10 mm, curing by irradiating ultraviolet rays, and curing a second ultraviolet ray having a thickness of 0.5 to 1.5 μm. A mold ink layer was obtained. When the average roughness Rz of the obtained second ultraviolet-curable ink layer was measured in the same manner, it was 1.8 to 3.0 μm.

Thereafter, personal information such as characters and photographic images was printed on the obtained second ultraviolet-curable ink layer using a molten heat transfer type ink ribbon.

Further, an ultraviolet-curable protective film was applied to the entire surface of the card substrate on which these layers were formed, and was formed by ultraviolet irradiation.

With respect to the obtained cards, the degree of blurring of the printing was visually observed and observed using a magnifier of 5 times. The case where visual blur was observed was evaluated as x, the case where blur was observed with a loupe was evaluated as △, and the case where blur was not seen with a loupe was evaluated as ○, and the print blur resistance was evaluated.

Further, the obtained card was rubbed with a nail, and the one where the base was completely exposed was evaluated as ×, and the one where the base was partially exposed was evaluated as Δ,
Those that were not exposed at all were evaluated as ○. The results obtained are shown in Table 1 below.

Examples 2 to 6, Comparative Examples 1 to 3 The mixing weight ratio of the reducer to the medium was 7, 10,
A card was obtained in the same manner as in Example 1, except that the weight was changed to 12, 15, 18, 20 and 0, 2, 5% by weight. The same observation and evaluation were performed on the obtained card.

[0035]

[Table 1]

From the results shown in Table 1, as shown in Examples 1 to 6, when the mixing weight ratio of the DG reducer is 7% by weight or more, almost satisfactory results can be obtained in both ink strength and print blur resistance. When the mixing weight ratio of the DG reducer is 10 to 15% by weight as in Examples 2 to 4, particularly good ink strength and print blur resistance are observed, and the transfer characteristics of the heat-meltable ink are good. I found it.

On the other hand, as in Comparative Examples 1 to 3,
When the mixing weight ratio of the DG reducer is less than 7% by weight,
The print was faint enough to be visually observed.

[0038]

According to the present invention, it is possible to obtain a personal authentication medium which is free from printing fading, has good transferability, and has an excellent image having sufficient mechanical strength.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining an example of a personal authentication medium according to the present invention.

FIG. 2 is a diagram for explaining an example of a conventional personal authentication medium.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Card base material 2 ... 1st ultraviolet curing type ink layer 3 ... 2nd ultraviolet curing type ink layer 4, 5 ... Heat-melting ink layer 10, 20 ... ID card

Claims (4)

[Claims] A first ultraviolet-curable ink layer having a first print pattern formed on the surface of the substrate; a first ultraviolet-curable ink layer laminated on the first ultraviolet-curable ink layer; 7% by weight of curable ink diluent
It comprises a second ultraviolet-curable ink layer having a second print pattern and a heat-fusible ink layer formed by thermal transfer on the second ultraviolet-curable ink layer. Personal authentication medium. 2. The personal authentication medium according to claim 1, wherein the second UV-curable ink layer contains 10 to 15% by weight of a non-curable ink diluent. 3. A step of forming a first UV-curable ink layer having a first print pattern on the surface of a base material, wherein a 7% by weight of a non-curable ink diluent is provided on the first UV-curable ink layer. Forming a second UV-curable ink layer having a second print pattern containing the above, and forming a heat-meltable ink layer by thermal transfer on the second UV-ink layer. Printing method of personal authentication media to be used. 4. The method according to claim 3, wherein the second UV-curable ink layer contains 10 to 15% by weight of a non-curable ink diluent.