JP2005280288A - Thermally-transferable protective film - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a thermally-transferable protective film, more specifically, a thermally-transferable protective film which protects, for example, information on an image formed on a medium-to-be-transferred by another image forming means, which can enhance the durability of the image information etc. by transferring a transferable transparent protective layer to an arbitrary part by heating pressure bonding from the backside of a base material by a thermal head etc., which has proper alcohol resistance, and which can be properly cut in transfer. <P>SOLUTION: In this thermally-transferable protective film, the transferable transparent protective layer, which is mainly composed of a polyester resin and an epoxy resin and whose mass ratio is in the range of 30:70-50:50, is provided on the base material. Additionally, in the thermally-transferable protective film, a second protective layer, which is mainly composed of an acrylic resin and a lubricant, is provided between the base material and the transferable transparent protective layer. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a heat transferable protective film, and more particularly, to protect image information and the like formed on a transfer medium by other image forming means, from the back side of the substrate by a thermal head or the like. The present invention relates to a heat transferable protective film that can transfer a transferable transparent protective layer to an arbitrary part by thermocompression bonding and improve the durability of image information and the like.

Conventionally, a thermal transfer recording method has been widely used as one of image forming methods. Since the thermal transfer recording method easily forms various images, the thermal transfer recording method has come to be widely used for producing printed matter that requires a relatively small number of printed sheets, such as ID cards such as identification cards. Yes.
Further, when a color image such as an image of a face photograph is preferable, a thermal transfer method using a thermal transfer recording medium in which a colored thermal transfer layer such as yellow, magenta, and cyan is sequentially provided on a substrate is performed. Yes.

Such a thermal transfer recording medium is roughly classified into a thermal melting transfer type and a sublimation transfer type thermal transfer recording medium.
When creating an ID card such as an identification card using a thermal transfer recording medium as described above, when using a thermal fusion transfer type thermal transfer recording method, it is easy to form images such as letters and numbers,
So-called full-color image formation is difficult.
On the other hand, if a sublimation transfer type thermal transfer recording method is used, full-color image formation can be suitably performed, and a gradation image such as a facial photograph can be formed. Due to the nature of the dye used as a dye, light resistance is difficult, and unlike ordinary printing inks, there is no vehicle, so there is a problem that the durability such as the friction resistance of an image is inferior.

  Therefore, various methods for protecting image information formed on a transfer medium have been proposed as methods for solving such problems.

  For example, a method of laminating a transparent film on image information formed on a transfer medium is performed. However, this method requires a large amount of operation, and it is difficult to protect only an arbitrary part of the card, so that the entire card is laminated, and the card is curled. There is a problem that becomes thicker.

  In addition, a transfer transparent resin layer is provided on the substrate, and the transferable transparent protective layer is transferred to an arbitrary portion by thermocompression bonding from the back side of the substrate with a thermal head or the like, thereby improving the durability of image information, etc. A heat transferable protective film that can be produced has also been proposed.

  Such a heat transferable protective film that can provide a transfer transparent resin layer on a substrate, transfer the transferable transparent protective layer, and improve the durability of image information or the like is disclosed, for example, in JP-A-60-23096. Has been proposed as a cover film for color hard copy photographic paper. Although such a cover film has an element that can transfer the protective layer only to the heated portion with a thermal head or the like, there is no limitation on the component, so depending on the selection of the resin component, the film may not be cut off at the time of transfer. There were problems such as poor alcohol resistance of the protective layer.

  Japanese Patent Laid-Open No. 9-39420 proposes a protective film in which a layer containing an ultraviolet curable compound is provided on a support so as to be separable. According to this, after being applied with heat and pressure, the transferred protective layer is cured by irradiating with ultraviolet rays, and light resistance, abrasion resistance and the like can be imparted. However, in this configuration, ultraviolet irradiation is indispensable for curing, and a general-purpose printer or the like can be used, and a dedicated printer is used. Further, since the ultraviolet irradiation device is provided, the apparatus becomes large. There was a problem.

  Further, in Japanese Patent No. 3141695, an adhesive layer is provided on a base material to provide a protective layer giving priority to protective performance and the like, and the lack of transferability is provided. A proposal has been made to use a mixture of an epoxy resin and a methyl acrylate resin. According to this configuration, it is possible to achieve both the protection performance and the transfer performance such as film breakage, but the adhesive layer component in contact with the transfer agent, in particular, the resin component such as methyl acrylate resin is inferior in alcohol resistance, and the protective layer. There was a defect that it lacked its alcohol resistance.

JP-A-60-23096 JP 9-39420 A Japanese Patent No. 3141695

  It is an object of the present invention to propose a thermal transferable protective film having good alcohol resistance and good film breakage during transfer, and proposes means for solving such problems.

In order to solve the above problems, the present invention has completed the thermal transferable protective film of the present invention by providing a specific resin and a specific ratio of a transferable transparent protective layer.
That is, the present invention
“1. A heat transferable protective film comprising a substrate and a transferable transparent protective layer mainly comprising a polyester resin and an epoxy resin and having a mass ratio of 30:70 to 50:50.
2. The thermal transferable protective film according to item 1, wherein a second protective layer mainly comprising an acrylic resin and a lubricant is provided between the substrate and the transferable transparent protective layer. ".

  According to the above heat transferable protective film, an excellent effect can be obtained in which a heat transferable protective film having good alcohol resistance and good film breakage at the time of transfer can be obtained.

  The basic structure of the present invention is a thermal transferable protective film in which a transferable transparent protective layer mainly comprising a polyester resin and an epoxy resin is provided on a substrate. Polyester resins have excellent alcohol resistance, and some transfer levels can be used depending on the conditions set, but it is necessary to select resin grades and transfer conditions. This causes a defect and lacks versatility. Therefore, in the present invention, the film breakage failure can be overcome by using an epoxy resin together.

  The polyester resin and the epoxy resin are the main components of the transferable transparent protective layer component, and are blended in an amount exceeding 50% by mass ratio. Furthermore, it is an essential requirement for the transferable transparent protective layer in the present invention that the mass ratio of the two is 30:70 to 50:50. If the mass ratio of the polyester resin falls below this range (the mass ratio of the epoxy resin exceeds this range), alcohol resistance and abrasion resistance cannot be achieved, and the mass ratio of the polyester resin exceeds this range (the mass of the epoxy resin). If the ratio falls below this range, transferability such as film breakage may occur.

As the polyester resin that can be used in the present invention, a polyester resin having a number average molecular weight of 10,000 or more can be used.
Moreover, as an epoxy resin which can be used for this invention, the epoxy resin etc. whose number average molecular weight is 1500 or more can be used.

  In the present invention, in addition to the above basic configuration, a second protective layer mainly composed of an acrylic resin and a lubricant can be provided between the substrate and the transferable transparent protective layer. By providing the second protective layer, the rub resistance is improved, and due to the peeling effect, the transfer property is remarkably improved, and the balance between the rub resistance and the transfer property is optimized.

  Embodiments of the present invention will be described below.

  As the base material used in the present invention, a conventionally known resin film or the like can be used as appropriate. In the thermal transferable protective film of the present invention, it is essential to provide a transferable transparent protective layer on a substrate, and a second protective layer can be appropriately provided. However, an adhesive layer can be provided on the protective layer, Other functional layers such as a further functional layer such as a release layer may be provided between the material and the protective layer.

Below, the heat transferable protective film of an example of embodiment of this invention is demonstrated.
Various plastic films can be used as the base material of the heat transferable protective film. Furthermore, a plastic film having a heat-resistant slip layer on the back surface can be used, and a polyester film having a thickness of about 2.5 to 6.0 μm can be used favorably.
The heat-transferable protective film of the present invention is constituted by providing the above-mentioned transferable transparent protective layer on a substrate, but there is no particular definition as a means for producing the transferable transparent protective layer, and the constituent components are aqueous or oily. Disperse and dissolve in a solvent such as a system to prepare a coating solution, and apply the required coating amount by a coating method such as gravure coater, wire bar coater, air knife coater, etc. to obtain a transferable transparent protective layer Can do.
As a medium to be used for protection using the thermal transferable protective film of the present invention, for example, a polyester-based material that has been conventionally used for thermal transfer recording, depending on the use for protecting some printed matter such as thermal transfer recorded matter. Various plastic films such as vinyl chloride, YUPO, peach coat, silver name, etc. are preferably used. Further, the surface state may be smooth or may be processed into a matte tone or the like.
When performing heat-melt transfer type printing recording, from the viewpoint of improving the transferability of the transferable transparent protective layer of the present invention, a step difference in the printed matter can be obtained by combining with a heat-melt transfer layer printed with a thickness of 2 μm or less. The transferable transparent protective layer due to transfer is not defective, which is preferable.

  Examples of the present invention will be described below, but the present invention is not limited thereto. In the examples and comparative examples, “parts” are based on mass unless otherwise specified.

Example 1
A heat-resistant slipping layer is formed on one side of a polyester film having a thickness of 6 μm to form a base, and a second protective layer component having the following constitution is added to toluene / methyl ethyl ketone (1 / (1 ratio) in a solvent so that the solid content is 20% by mass, and coated with a gravure coater so that the coating amount is 1.0 g / m ² and dried to produce a second protective layer. Next, on the second protective layer, a transferable transparent protective layer component was prepared in a solvent of toluene / methyl ethyl ketone (2/8 ratio) so as to have a solid content of 20% by mass, and applied with a gravure coater. Coating and drying were carried out so that the amount became 2.0 g / m ^2, and a transferable transparent protective layer was prepared to obtain a heat transferable protective film.
(Transparent transparent protective layer component)
Polyester resin (Note 1) 50 parts Epoxy resin (Note 2) 50 parts (Note 1) Elitel UE3200 (number average molecular weight 16000) manufactured by Unitika Ltd.
(Note 2) Japan Epoxy Resin Co., Ltd., Epicoat 1007 (number average molecular weight 2900)
(Second protective layer component)
Acrylic resin (Note 3) 85 parts Lubricant (polyethylene wax) (Note 4) 15 parts (Note 3) Mitsubishi Rayon Co., Ltd., dialnal BR-83 (number average molecular weight 25000)
(Note 4) Mitsui High Wax 4051E manufactured by Mitsui Chemicals, Inc.

Examples 2-3
Instead of the transferable transparent protective layer of Example 1, a heat transferable protective film of Examples 2 to 3 was obtained using a transferable transparent protective layer provided using a transferable transparent protective layer component having the following constitution. .

Example 2
(Transparent transparent protective layer component)
Polyester resin (Note 1) 40 parts Epoxy resin (Note 2) 60 parts Example 3
(Transparent transparent protective layer component)
Polyester resin (Note 1) 30 parts Epoxy resin (Note 2) 70 parts

Example 4
A heat-resistant slip layer is formed on one side of a polyester film having a thickness of 6 μm to form a base material. The second transfer layer is not formed on the reverse side of the heat-resistant slip layer of the base material. A transparent protective layer component is prepared in a methyl ethyl ketone solvent so that the solid content is 20% by mass, and coated and dried with a gravure coater to a coating amount of 2.4 g / m ^2. And a heat transferable protective film was obtained.
(Transparent transparent protective layer component)
Polyester resin (Note 1) 40 parts Epoxy resin (Note 6) 60 parts (Note 5) Japan Epoxy Resin Co., Ltd., Epicoat 1004 (number average molecular weight 1650)

Comparative Examples 1-5
Instead of the transferable transparent protective layer of Example 1, a transferable transparent protective layer provided using a transferable transparent protective layer component having the following constitution was used to obtain thermal transferable protective films of Comparative Examples 1 to 5. .
Comparative Example 1
(Transparent transparent protective layer component)
Polyester resin (Note 1) 20 parts Epoxy resin (Note 2) 80 parts Comparative Example 2
(Transparent transparent protective layer component)
Polyester resin (Note 1) 60 parts Epoxy resin (Note 2) 40 parts Comparative Example 3
(Transparent transparent protective layer component)
Polyester resin (Note 1) 100 parts Comparative Example 4
(Transparent transparent protective layer component)
Epoxy resin (Note 2) 100 parts Comparative Example 5
(Transparent transparent protective layer component)
Acrylic resin (Note 3) 100 parts

Nine types of thermal transferable protective films prepared as described above are mounted on a thermal transfer printer and printed in advance by a hot melt transfer recording method and a thermal sublimation recording method. White polyester label, PVC label, YUPO label, peach coat label A protective film was formed on the printed material using a transfer medium such as a silver name label.
The evaluation results of each example are shown in Table 1.

Here, transferability (film breakage), abrasion resistance, and alcohol resistance were evaluated by the following test methods.
Transferability (general): After forming a protective layer with a thermal transfer printer for cards, the transferred product was magnified with a 500 × microscope to observe whether or not the transfer was generally good.
Transferability (film breakage): After forming a protective layer with a thermal transfer printer for cards, the transferred material was magnified with a 500 × microscope, and it was observed whether or not the film breakage portion was transferred faithfully.
Abrasion resistance of printed matter: After forming a protective layer with a thermal transfer printer for cards, the state of the transferred material was observed when the transferred material was rubbed 100 times with a felt / φ2 mm steel ball loaded with 200 g of load. .
Alcohol resistance of transferred material: After forming a protective layer with a thermal transfer printer for cards, the state of printed matter when the surface of the transferred material was rubbed 100 times with a cotton cloth impregnated with 95% ethyl alcohol applied with a load of 200 g. Observed.

As is clear from Table 1, the thermal transferable protective films of the present invention shown in Examples 1 to 4 are all excellent in transferability (general / film breakage), and the formed protective layer has abrasion resistance and alcohol resistance. It is a heat transferable protective film with excellent properties.
On the other hand, the heat transferable protective films of Comparative Examples 1, 4, and 5 have poor alcohol resistance, and the heat transferable protective films of Comparative Examples 2 and 3 have poor transferability and cause sticking during heat transfer. In addition, feed failure may occur, and a characteristic difference is caused particularly in terms of film breakage.

INDUSTRIAL APPLICABILITY As described above, the thermal transferable protective film of the present invention is constituted by providing a specific resin and a transferable transparent protective layer with a specific ratio on a base material. The film can be cut well, and the formed protective layer can be kept in good print protection without being dropped, damaged or altered by strong mechanical abrasion or contact with alcohol solvents. It has an excellent effect.

Claims (2)

A heat transferable protective film comprising a substrate and a transferable transparent protective layer mainly comprising a polyester resin and an epoxy resin and having a mass ratio of 30:70 to 50:50. The thermal transferable protective film according to claim 1, wherein a second protective layer mainly comprising an acrylic resin and a lubricant is provided between the substrate and the transferable transparent protective layer.