JP2002293044A - Intermediate transfer recording medium and image forming method - Google Patents

Abstract

(57) Abstract: A thermal transfer image is formed on a transfer film using an intermediate transfer recording medium provided with a transfer portion composed of at least a receiving layer so as to be releasable on a base film. Intermediate transfer recording medium capable of accurately and stably forming a part which is not partially transferred to a transferred body when retransferring to a transferred body, and which does not increase manufacturing cost to obtain a final print, and an intermediate transfer recording medium therefor It is an object of the present invention to provide an image forming method using the same. SOLUTION: In order to form a region in which a receiving layer is not re-transferred on a part of a transferred body, it can be peeled off on a substrate film,
In an intermediate transfer recording medium provided with a transfer portion comprising at least a receiving layer, masking for forming a portion which is not partially transferred to the transfer object when re-transferring to the transfer object, in an upper layer portion or a lower layer portion of the transfer portion. Using the intermediate transfer recording medium provided with the layer, the receiving layer is re-transferred from the intermediate transfer recording medium to the transfer receiving body, and a region where the receiving layer is not partially re-transferred is formed on the transfer receiving body.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an intermediate transfer recording medium provided with at least a transfer portion comprising a receiving layer on a base film, and an image forming method using the intermediate transfer recording medium. .

[0002]

2. Description of the Related Art Conventionally, a thermal transfer method has been widely used as a simple printing method. The thermal transfer method is such that a thermal transfer sheet having a color material layer provided on one surface of a base material sheet and a thermal transfer image receiving sheet having an image receiving layer provided as necessary are superimposed, and the thermal transfer sheet is heated by a heating means such as a thermal head. Is heated imagewise to selectively transfer the colorant contained in the colorant layer to form an image on the thermal transfer image receiving sheet.

[0003] Thermal transfer methods are classified into a melt transfer method and a sublimation transfer method. The melt transfer method uses a thermal transfer sheet in which a hot-melt ink layer in which a coloring material such as a pigment is dispersed in a binder such as a hot-melt wax or a resin is supported on a base sheet such as a PET film, and a thermal head or the like is used. This is an image forming method in which energy is applied to the means in accordance with image information, and a color material is transferred together with a binder onto a thermal transfer image receiving sheet such as paper or a plastic sheet. An image formed by the fusion transfer method has high density and excellent sharpness, and is suitable for recording a binary image such as a character.

On the other hand, the sublimation transfer system mainly uses a thermal transfer sheet in which a dye layer in which a dye that transfers heat by sublimation is dissolved or dispersed in a resin binder is supported on a base sheet such as a PET film. This is an image forming method in which energy corresponding to image information is applied to a heating means, and only dye is transferred to a thermal transfer image receiving sheet provided with a dye receiving layer on a base sheet such as paper or plastic as required. In the sublimation transfer method, since the transfer amount of the dye can be controlled in accordance with the amount of energy applied, a gradation image in which the image density is controlled for each dot of the thermal head can be formed. Further, since the coloring material to be used is a dye, the formed image has transparency and excellent reproducibility of an intermediate color when dyes of different colors are superposed. Therefore, when thermal transfer sheets of different colors such as yellow, magenta, cyan, and black are used and each color dye is transferred onto the thermal transfer image receiving sheet in a superimposed manner, a high-quality photographic full-color image excellent in reproducibility of intermediate colors can be obtained. Formation is possible.

The specific application of the thermal transfer image-receiving sheet by such a thermal transfer method is wide-ranging. Typical examples are print proofs, image output, CAD /
Design and output of CAM, etc., various medical analysis equipment such as CT scan and endoscope camera, output use of measurement equipment and as an alternative to instant photography, as well as identification cards, ID cards, credit cards, other cards It can be used to output a face photo to a kind, a synthetic photo in an amusement facility such as an amusement park, a game center, a museum, an aquarium, and a use as a commemorative photo. With the diversification of applications as described above, the demand for forming a thermal transfer image on an arbitrary object has increased, and as one of the measures, as an intermediate transfer recording medium in which a receiving layer is provided on a base material in a releasable manner. By using a thermal transfer sheet having a dye layer or a heat-fusible ink layer on the receiving layer, a colorant such as a dye or a pigment is transferred to form an image, and then the intermediate transfer recording medium is heated to form a receiving layer. Has been proposed for transferring the image on a transfer target. (Japanese Unexamined Patent Publication No. 62-238791, etc.)

In addition, the use of the above-mentioned intermediate transfer recording medium allows the transfer of the receiving layer to the object to be transferred.
It is preferably used for a transferred body in which a color material is not easily transferred and a high-quality image cannot be directly formed, a transferred body which is easily fused to a color material layer during thermal transfer, and the like. For this reason, the intermediate transfer recording medium is preferably used for producing identification cards such as passports and prints such as credit cards and ID cards.

[0007]

However, when the receiving layer is transferred to the transfer-receiving member using the above-mentioned intermediate transfer recording medium, the transfer is performed in a simple shape such as a square or a round shape and a solid shape over the entire surface. When doing, it does not matter much, but when providing a hollow part in the transfer part, or when the shape of the outer edge is complicated, the edge of the receiving layer transferred to the transfer object is not sharp, There is a problem that the transferability of the receiving layer is unstable because a portion not to be transferred is transferred or a portion to be transferred is not transferred. In particular, when the above-mentioned portion of the receiving layer that should not be transferred is, for example, a column for entering an address or a name, or a sealing column of a writer or issuer, the receiving layer is transferred to that portion at all. In such a case, the written contents and the seal are unclear, which is a major problem that the contents cannot be read.

[0008] With respect to the above-mentioned instability of transferability of the receiving layer, the receiving layer is once transferred in a simple shape such as a square or a circle, and then a layer dedicated for writing or stamping is added thereto, and printing is performed. To be provided. However, in this case, there is a problem that it takes time and effort to add the dedicated layer, and the manufacturing cost becomes extremely high. Therefore, the present invention solves the above-mentioned problems, and uses an intermediate transfer recording medium provided with a transfer portion comprising at least a receiving layer so as to be peelable on a base film, and transfers a heat transfer image to the transfer portion. When forming and re-transferring the transfer portion to the transfer target,
Provided are an intermediate transfer recording medium capable of accurately and stably forming a part that is not partially transferred to an object to be transferred and which does not increase the production cost for obtaining a final print, and an image forming method using the same. The purpose is to:

[0009]

In order to achieve the above object, according to the present invention, in order to form a region in which a receptor layer is not retransferred on a part of an object to be transferred, at least the receptor layer is releasably formed on a substrate film. In an intermediate transfer recording medium provided with a transfer portion composed of a layer, a masking layer that forms a portion that is not partially transferred to the transfer object when retransferring to the transfer object is formed on the upper layer portion or the lower layer portion of the transfer portion. The configuration was provided. A part where the masking layer is partially formed,
It is preferable that the thermal transfer image has a synchronous detection mark, a thermal transfer image is formed at a specified position on the intermediate transfer recording medium (an area excluding a region where the receiving layer is not retransferred), and the thermal transfer image is formed on the transfer target. When re-transferring the receiving layer, the portion to which the receiving layer is transferred and the portion not to be transferred can be separately formed with high accuracy and high positional accuracy.

In the present invention, when an image is formed using an intermediate transfer recording medium provided with at least a receiving layer on both sides of a transfer member so as to be peelable on a base film, at least a portion of at least one surface of the transfer member. In order to form a region that does not retransfer the receiving layer, in a screen unit delimited by the detection mark, a region that is not retransferred to the transfer target body at least in part of one side unit,
That is, a configuration in which a masking layer is provided is adopted. This allows
One intermediate transfer recording medium is used to form a non-retransferred area of the receiving layer on a part of one side or both sides of the receiving body and a retransferred area of the receiving layer on which the thermal transfer image is formed.
It can be easily formed. The image forming method according to the present invention is characterized in that a region where the receptor layer is not retransferred is partially formed on the transfer object by using any one of the intermediate transfer recording media described above.

That is, according to the image forming method of the present invention, in order to form a region in which the receiving layer is not retransferred on a part of the object to be transferred, a transfer portion comprising at least the receiving layer is provided on the base film so as to be peelable. In the intermediate transfer recording medium, using an intermediate transfer recording medium provided with a masking layer that forms a portion that is not partially transferred to the transfer object when retransferring to the transfer object, in the upper layer portion or the lower layer portion of the transfer portion. Then, the receiving layer is re-transferred from the intermediate transfer recording medium to the transfer object, and a region where the receiving layer is not re-transferred is partially formed on the transfer object. The portion of the receiving layer that should not be transferred to the transfer object can be easily and reliably formed on the intermediate transfer recording medium by absorbing or blocking heat during transfer.

[0012]

FIG. 1 is a schematic sectional view showing an embodiment of an intermediate transfer recording medium 1 according to the present invention, in which a masking layer 4 is partially formed on one surface of a base film 2. The release layer 5 is provided on the entire surface of the masking layer 4 and the base film 2, and the receiving layer 3 is provided on the release layer 5. That is, in the embodiment of the intermediate transfer recording medium 1 shown in FIG. 1, when the image is re-transferred to the object to be transferred to a lower layer portion of the transfer part including the release layer 5 and the receiving layer 3, the image is partially transferred to the object to be transferred. The masking layer 4 that forms a portion not to be formed is formed. That is, when the masking layer 4 is re-transferred to the transfer object, the mask layer 4 adheres to the base film 2 and is not transferred to the transfer object.

FIG. 2 is a schematic sectional view showing another embodiment of the intermediate transfer recording medium 1 of the present invention. A release layer 5 is provided on one entire surface of a base film 2. 5, a receiving layer 3 is provided, and a masking layer 4 is provided partially on the receiving layer 3. That is, the embodiment of the intermediate transfer recording medium 1 shown in FIG.
A masking layer 4 that forms a portion that is not partially transferred to the object to be transferred when retransferring to the object to be transferred is formed on the upper layer of the transfer part made of. In this case, since the masking layer 4 does not adhere to the transfer target, the portion of the masking layer 4 is not transferred to the transfer target during retransfer. Further, FIG. 3 is a schematic view showing another embodiment which is the intermediate transfer recording medium 1 of the present invention, FIG. 3 (1) is a schematic plan view of the intermediate transfer recording medium, and FIG. A of 3 (1)
A schematic sectional view of A 'is shown. In the intermediate transfer recording medium 1 of the embodiment shown in FIG. 3, the masking layer 4 as a non-retransferred area of the receiving layer is a hollow portion in the receiving layer transfer portion. In this example, two portions are provided for one screen. The hollow portion is the masking layer 4. The detection mark 6 synchronized with the portion where the masking layer 4 is partially formed is usually formed at one place per screen. A receiving layer 3 is provided on one entire surface of the base film 2, and the illustrated detection mark 6 is formed on the receiving layer 3, that is, on the uppermost layer of the intermediate transfer recording medium 1.

FIG. 4 is a schematic view showing another embodiment which is the intermediate transfer recording medium 1 of the present invention. FIG. 4 (1) is a schematic plan view of the intermediate transfer recording medium, and FIG. Figure 4
(1) is a schematic cross-sectional view of BB '. The intermediate transfer recording medium 1 shown in FIG. 4 is for forming an image by retransferring a receiving layer to both surfaces of a transfer object. Intermediate transfer recording medium 1
Is provided with a release layer 5 and a receiving layer 3 on one surface of the base film 2, and a transfer layer A for the front surface of the transfer object and a transfer object Transfer layer B for backside
Are repeatedly formed as ABABABA... Nothing is formed on the receiving layer 3 in the transfer layer A for the front side. On the other hand, in the transfer layer B for the back surface, the masking layer 4 is partially formed on the receiving layer 3 as a region where the receiving layer is not retransferred to the transfer object.

The masking layer 4, which is a non-retransferred area of the receiving layer, has a square hollow shape in the receiving layer transfer portion, and is separated from the transfer layer A for the front surface by one screen. Are repeatedly formed. The detection mark 6 is provided on the receiving layer 3 of the intermediate transfer recording medium 1. When the intermediate transfer recording medium of this example is used, a non-retransfer region of the receiving layer is provided at a part of the back surface side of the transfer object, and a thermal transfer image can be easily formed on both surfaces of the transfer object. . The position of each transfer layer on the front surface and the back surface is detected by the detection mark 6, and a thermal transfer image can be formed at an accurate position on the transfer target. As described above, the masking layer is formed at least on the upper layer or the lower layer of the transfer portion composed of the receiving layer, as shown in the drawing.

(Base Film) As the base film 2 used in the intermediate transfer recording medium, the same base film as used in the conventional intermediate transfer recording medium can be used as it is. Absent. Specific examples of preferred base film include thin paper such as glassine paper, condenser paper or paraffin paper, or heat resistance such as polyethylene terephthalate, polyethylene naphthalate, polybutylene terephthalate, polyphenylene sulfide, polyether ketone or polyether sulfone. And stretched or unstretched films of plastics such as polyester, polypropylene, polycarbonate, cellulose acetate, polyethylene derivatives, polyvinyl chloride, polyvinylidene chloride, polystyrene, polyamide, polyimide, polymethylpentene, and ionomer. A composite film in which two or more of these materials are laminated can also be used. The thickness of the substrate film can be appropriately selected depending on the material so that the strength and heat resistance thereof are appropriate, but is usually 1 to 100.
Those having a size of about μm are preferably used.

(Receiving Layer) The receiving layer is a main part of the transfer portion constituting the intermediate transfer recording medium. On this receptor layer, an image is formed by thermal transfer from a thermal transfer sheet having a color material layer by thermal transfer. Then, the transfer portion of the intermediate transfer recording medium on which the image is formed is transferred to the transfer target, and as a result, a print is formed. For this reason, as a material for forming the receiving layer, a conventionally known resin material which easily accepts a heat-transferring coloring material such as a sublimable dye or a hot-melt ink can be used. For example, polyolefin resins such as polypropylene, halogenated resins such as polyvinyl chloride or polyvinylidene chloride, polyvinyl acetate, vinyl chloride-vinyl acetate copolymer, ethylene-vinyl acetate copolymer or polyacrylic acid ester Vinyl resin, polyester resin such as polyethylene terephthalate or polybutylene terephthalate,
Polystyrene resins, polyamide resins, copolymer resins of olefins such as ethylene or propylene and other vinyl polymers, cellulose resins such as ionomers or cellulose diastase, polycarbonates, and the like.In particular, vinyl chloride resins, acrylic -Styrene resins or polyester resins are preferred.

When the receiving layer is transferred to the transfer-receiving member via the adhesive layer, the adhesiveness of the receiving layer itself is not always required. However, when the receiving layer is transferred to the transfer receiving member without the interposition of the adhesive layer, it is preferable to form the receiving layer using a resin material having an adhesive property such as a vinyl chloride-vinyl acetate copolymer. The receiving layer is formed by adding one or more materials selected from the above-mentioned materials and various additives as necessary, dissolving or dispersing in a suitable solvent such as water or an organic solvent, and coating the receiving layer. A solution can be prepared by preparing a solution, applying the solution by a gravure printing method, a screen printing method, a reverse coating method using a gravure plate, or the like, followed by drying. Its thickness is 1 when dry
About 10 g / m ² .

(Masking Layer) The masking layer 4 used in the present invention is provided on the upper layer or the lower layer of the transfer portion of the intermediate transfer recording medium. This is to absorb or block heat during transfer so that the transfer portion is not transferred to the transfer target. Binder resins used for the masking layer include acrylic resins, acrylic cellulose resins, cellulose resins, polystyrene resins, polyurethane resins, polyester resins, polycarbonate resins, polyamide resins, polysulfone resins, and polychlorinated resins. Vinyl resin, polyvinyl acetate resin, vinyl chloride-vinyl acetate copolymer resin, polyvinyl acetal resin, polyvinyl butyral resin, polyvinyl alcohol resin, epoxy resin, ethylene-vinyl acetate copolymer resin, polyethylene resin, polypropylene resin, etc. Among these resins, those having active hydrogen can be further used as a binder with their crosslinked isocyanates.

Further, a filler can be contained in the masking layer. As the filler, for example, silica,
Inorganic fillers such as alumina, clay, talc, calcium carbonate, barium sulfate, etc., white pigments such as titanium oxide, zinc oxide, acrylic resin, epoxy resin, polyurethane resin,
Resin particles (plastic pigment) such as phenolic resin, melamine resin, benzoguanamine resin, fluororesin, and silicone resin or polyethylene wax, paraffin wax, carnauba wax, microcrystalline wax, wood wax, beeswax, whale wax, ibota wax, wool wax, can Various known wax particles such as delila wax, partially modified wax, and fatty acid amide are exemplified. When the above-mentioned masking layer contains bubbles or a foaming agent or a filler, it is added in an amount of about 0.01 to 200% by weight based on the binder resin of the masking layer.

Further, a porous masking layer having the following sea-island structure can be provided. As a porous manufacturing method,
A wet coagulation method is generally used, in which two or more types of porous forming resin components having greatly different solubility parameters are dissolved in a solvent,
After being applied to the base film, the solvent can be mixed with the solvent, but is passed through a solvent that does not dissolve the resin component, thereby performing solvent replacement. As a result, under the substituted solvent, the solubility parameter of the porous forming resin component is significantly different, so that two or more resins form a sea-island structure. Thereafter, by passing through a heat bath, the island portion of the sea-island structure is further thermally contracted, and porosity progresses. At this time, the island portions become organic fine particles. Then, it is desorbed and dried to obtain a porous masking layer. In the case of this porous masking layer, it is necessary to adjust the size and density of the island portion and the thickness of the non-transfer layer in order to obtain a heat insulating effect. The above masking layer is
By a known coating means such as a gravure coat, a gravure reverse coat, and a roll coat, 0.05 to 5.
It is formed with a thickness of about 0 g / m ² .

In the intermediate transfer recording medium of the present invention, if necessary, fusion with a heating means such as a thermal head or a heat roll is prevented on the surface of the base film opposite to the side on which the receiving layer is provided, A back layer may be provided to improve slidability.

(Release Layer) In the intermediate transfer recording medium of the present invention, a release layer 5 can be provided in order to improve the releasability of the receiving layer from the substrate film at the time of re-transfer to the object to be transferred. . The release layer is provided when the releasability at the time of thermal transfer of the receiving layer to the transfer receiving body is not sufficient due to the combination of the materials of the base film and the receiving layer. Such a release layer can be formed using a release agent such as waxes, silicone wax, and silicone resin,
The hydrophilic resin and various curable resins described in JP-A-4-142988 can be appropriately selected and used in accordance with the characteristics of the base film and the non-transfer layer, and are not particularly limited. The release layer is formed by applying an ink prepared by dissolving or dispersing the above-described release agent to a suitable solvent in an appropriate solvent, applying the ink on a base film by a known means, and drying the ink. The thickness can be 0.1% when dry
About 5 g / m ² is preferred.

(Detection mark) Detection mark 6 synchronized with the part of the intermediate transfer recording medium on which the masking layer is partially formed.
The shape, color, etc. of the shape are not limited as long as they can be detected by a detector. In the shape, for example,
A rectangular shape, a round shape, a bar code, a line shape from end to end in the width direction of the intermediate transfer recording medium, or the like may be used. The color of the detection mark may be any color that can be detected by the detector. For example, a light-transmissive detector includes silver or black having high concealment properties. Color tone of high metallic luster. In addition, a mark using a hologram or a diffraction grating can be used as the detection mark. As a method of forming the hologram mark, a conventionally known method of forming a hologram pattern can be used. For example, an original plate provided with an uneven pattern of interference fringes of a hologram is used to form fine unevenness by embossing. As a sensor for the hologram mark, a so-called hologram sensor can be used. Light emitted from the light emitting element is irregularly reflected by the hologram mark and emits diffracted light. The position of the hologram mark can be detected by detecting the diffracted light with the light receiving element. In addition, the position where the detection mark is provided is not limited to the illustrated position.
If the film substrate has transparency, a detection mark can be provided on the surface of the film substrate opposite to the surface on which the receiving layer is provided. In the illustrated embodiment, the detection mark is provided on the receiving layer. However, the present invention is not limited to this. The detection mark may be provided between the film substrate and the release layer, or may be appropriately selected.

The detection mark used in the intermediate transfer recording medium of the present invention is synchronized with the portion where the masking layer is partially formed, that is, the region where the receiving layer is not retransferred, and the region where the receiving layer is not retransferred. The distance between the designated position (for example, the start position of the area) and the detection mark is kept constant, the mark is detected, and the re-transfer of the receiving layer is started at a fixed position on the receiving body. The area not to be retransferred can be accurately placed at a specified position on the transfer object. Normally, the detection mark synchronized with the portion where the masking layer is partially formed is formed at one place per screen.

(Transferred Object) Next, the transferred object will be described. The transfer portion on which the thermal transfer image of the above-described intermediate transfer recording medium is formed is transferred onto the transfer target. However, the portion having the masking layer is not transferred to the transfer object. The transfer object used in the present invention is not particularly limited. For example, natural pulp paper, coated paper, tracing paper, a plastic film that is not deformed by heat during transfer, glass, metal, ceramics, wood, cloth, etc. It may be something.
However, if the portion of the intermediate transfer recording medium that is not transferred using the masking layer in the transfer receiving body is, for example, a column for entering an address or a name, or a sealing column for a writer or issuer, Is preferably natural pulp paper having writing suitability and sealability. The natural pulp paper is not particularly limited, and includes, for example, high quality paper, art paper, lightweight coated paper, lightly coated paper, coated paper, cast coated paper, synthetic resin or emulsion impregnated paper, synthetic rubber latex impregnated paper, synthetic resin internal addition. Paper, thermal transfer paper and the like.

Regarding the shape and use of the transfer object, stock certificates,
Securities, certificates, passbooks, boarding tickets, car horse tickets, stamps, stamps, appreciation tickets, admission tickets, cash vouchers such as tickets, cash cards, credit cards, prepaid cards, members' cards, greeting cards, postcards, business cards, driver's licenses Certificates, IC cards, optical cards and other cards, cartons, containers and other cases, bags, forms, envelopes, tags, OHP sheets, slide films, bookmarks, calendars, posters, brochures, menus, passports, POP supplies , Coasters, displays, nameplates, keyboards, cosmetics, watches, lighters and other accessories, stationery, report paper, stationery, building materials, panels, emblems, keys, cloth, clothing, footwear, radios, televisions, calculators, office automation equipment, etc. Equipment, various sample books, albums, and computer graphs The output of the box, medical image output, etc., do not ask type.

(Image Forming Method) Next, by using the above-mentioned intermediate transfer recording medium, an image of a transfer-receiving medium having a hollow portion on an arbitrary transfer-receiving body or having a complicated outer edge shape. The image forming method of the present invention for partially forming a region on the body where the receptor layer is not retransferred will be described. As described above, the dye layer or the heat-meltable ink layer is heated by a heating means such as a thermal head from the thermal transfer sheet to the receiving layer of the intermediate transfer recording medium provided with at least a transfer portion comprising the receiving layer so as to be peelable on the base film. Transfer and form an image. Next, the transfer portion of the intermediate transfer recording medium, on which the image has been formed, is re-transferred onto the transfer target by a heating means such as a heat roll. At the time of the retransfer, the portion provided with the masking layer of the intermediate transfer recording medium is not transferred to the transfer object, and the other retransfer and heated portions are transferred.

In the image forming method of the present invention, an intermediate transfer recording medium provided with an area which is not re-transferred to the transfer medium in at least a part of one-side unit in a screen unit delimited by the detection mark is used. A region where the transfer layer is not retransferred on one side or a part of both surfaces and a region where the transfer layer of the receptor layer on which the thermal transfer image is formed are retransferred can be distinguished from each other and formed with accurate positional accuracy. The detection mark is used to discriminate between the front transfer layer or the back transfer layer of the transfer object (the discrimination between the front transfer layer and the back transfer layer is, for example, as shown in FIG. 4).
Book and two striped detection marks)
Or used to detect the position of the layer, providing an area on the designated surface where the retransfer of the receptive layer is not performed during image formation on the transfer receiving body, and retransferring the receptive layer having the designated thermal transfer image. By precisely dividing the area, the edge of the receiving layer transferred to the transfer object is sharp, and the transferability of the receiving layer can be obtained without transferring the portion that should not be transferred. The detection mark on the intermediate transfer recording medium is detected by the detector on the printer side, and the position of the thermal transfer image on the intermediate transfer recording medium and the retransfer of the transfer portion to the transfer object are linked to the printer. Can be adjusted.

[0030]

Example 1 First, a transparent polyethylene terephthalate having a thickness of 12 μm was used as a base film,
The coating liquid for a release layer shown below was applied to the surface and dried to form a release layer having a thickness of 2.0 g / m ² upon drying on the substrate film. Then, a coating solution for a receiving layer shown below is applied on the release layer, dried, and dried to a thickness of 2.
A receiving layer of 0 g / m ² was formed. In the text, part or%
Unless otherwise specified, the values are based on weight. (Coating liquid for release layer) Acrylic resin (BR-83, manufactured by Mitsubishi Rayon Co., Ltd.) 88 parts Polyester resin 1 part Polyethylene wax 11 parts Methyl ethyl ketone 50 parts Toluene 50 parts

(Coating Liquid for Receptive Layer) Vinyl chloride-vinyl acetate copolymer 40 parts Acrylic silicone 1.5 parts Methyl ethyl ketone 50 parts Toluene 50 parts

Then, a masking layer having a thickness of 2.0 g / m ² is formed on the receiving layer by drying with a gravure printing machine using a masking layer ink having the following composition in a pattern as shown in FIG. did. (Ink for masking layer) Acrylic resin 50 parts Polyethylene wax 50 parts Methyl ethyl ketone 25 parts Toluene 25 parts

Further, a detection mark having a thickness of 1.5 g / m ² was formed by drying with a gravure printing machine using a detection mark ink having the following composition in a pattern as shown in FIG. A transfer recording medium was manufactured. (Ink for detection mark) Carbon black 8.0 parts Urethane resin (HMS-20, manufactured by Nippon Polyurethane Co., Ltd.) 5.0 parts Methyl ethyl ketone 38.5 parts Toluene 38.5 parts

Using a thermal transfer printer equipped with a commercially available thermal head, the thermal transfer printer was mounted on the receiving layer of the intermediate transfer recording medium of Example 1 obtained above (on the receiving layer not covered by the masking layer). Using a dedicated sublimation type thermal transfer sheet, a full-color photographic image was formed. At the time of forming the image, the detection mark on the intermediate transfer recording medium was detected on the printer side, and the image on the receiving layer was aligned. Thereafter, a 600-μm-thick white PET-G sheet (PET-G sheet manufactured by Mitsubishi Plastics, Inc.)
G, Diafix PG-W), the image-transferred portion was retransferred to a designated position using a commercially available laminator provided with a permanent heat roll to obtain a print. However, a sign panel process is performed in advance at positions corresponding to the address and name handwritten entry fields on the transfer surface of the PET-G sheet and the seal field, and the masking layer portion and the sign panel field are applied. Was adjusted.
When the transfer portion of the intermediate transfer recording medium was re-transferred to the transfer medium, the detection mark of the intermediate transfer recording medium was detected on the printer side, and the alignment was performed.

The printed matter obtained in Example 1 was a transfer portion of an intermediate transfer recording medium, in which only the transferred portion of the masking layer was not transferred to the object to be transferred. Except for the hollow portion, the thermal transfer image was formed. The handwriting was filled in with a ballpoint pen, and no unclear portion was found. Further, when the seal was stamped with vermilion, no unclear portion was formed. Also, the thermal transfer image is clear,
It was of excellent quality.

(Example 2) Using the same base film as in Example 1, the same coating liquid for a release layer as used in Example 1 was applied to the surface of the base film and dried. Then, a release layer having a thickness of 2.0 g / m ² was formed on the substrate film during drying. Then, the same coating liquid for a receiving layer as used in Example 1 was applied on the release layer, and dried to form a receiving layer having a thickness of 2.0 g / m ² when dried on a substrate film. Formed. Then, on the receiving layer, a masking layer having a thickness of 2.0 g / m ² when dried with a gravure printer using the same masking layer ink used in Example 1 in a pattern as shown in FIG. Formed. Further, a detection mark having a thickness of 1.5 g / m ² when dried was formed by a gravure printing machine using the same detection mark ink used in Example 1 in a pattern as shown in FIG. The transfer layer A of the image forming unit for the front surface and the transfer layer B of the image forming unit for the back surface of the transfer-receiving body,
It was formed repeatedly with ABABAB. The masking layer is formed only on the transfer layer B side of the image forming unit for the back side of the transfer object. Thus, the intermediate transfer recording medium of Example 2 was manufactured.

Sublimation-type thermal transfer dedicated to the same thermal transfer printer used in Example 1 on transfer layer A of the image forming unit for the front surface of the intermediate transfer recording medium of Example 2 obtained above. Using the sheet, a full-color photograph-like image and a thermal transfer image of a character image of the melt transfer using the hot-melt type thermal transfer sheet were formed by the above-described thermal transfer printer. Next, adjacent to the transfer portion A to be transferred to the front surface of the transfer object, the transfer portion B to be transferred to the back surface of the transfer object
On the other hand, a thermal transfer image of a character image of the fusion transfer was formed using the same thermal fusion type thermal transfer sheet as described above and the thermal transfer printer used above. However, at that time, the character image of the melt transfer was formed on the unprinted portion of the masking layer. At the time of the image formation, the detection mark for the front surface of the transfer object and the detection mark for the back surface of the transfer object, which are included in the intermediate transfer recording medium, are detected by the printer, and the detection mark is transferred to the transfer object on the receiving layer. The transferred front and back images were aligned.

Thereafter, at the designated position on the front surface of the same white PET-G sheet as the transfer object used in Example 1, the transfer section for the front surface on which the image has been formed is placed Re-transfer was performed using a commercially available laminator provided with a permanent heat roll to obtain a print. Next, at a specified position on the back side of the white PET-G sheet on which the image was transferred to the front side, the transfer section for the back side on which the image was formed was transferred using a commercially available laminator having a permanent heat roll. And retransferred to obtain a print having images on both sides. However, the above PET-
The position corresponding to the address and name handwritten entry fields on the transfer surface, which is the back side of the G sheet, was previously subjected to sign panel processing, and the masking layer portion was aligned with the sign panel fields. . When the transfer portion of the intermediate transfer recording medium is re-transferred to the transfer medium, the detection mark of the front transfer layer for the front surface of the transfer medium and the transfer mark for the back surface of the transfer medium to be transferred are included in the intermediate transfer recording medium. The detection mark is detected on the printer side, and the image-transferred portion of the intermediate transfer recording medium is formed on the front and back surfaces of the transfer target,
It was re-transferred in position.

On the back side of the print obtained in Example 2, only the transferred portion of the masking layer at the transfer portion of the intermediate transfer recording medium was not transferred to the transfer-receiving member, but was written in the handwritten entry box. The thermal transfer image was formed at the portion excluding the blank portion. Then, by writing in the handwritten entry field with a ballpoint pen, no unclear portion was generated. Further, the thermal transfer images on the front and back surfaces of the printed matter obtained in Example 2 were clear and of excellent quality.

Comparative Example 1 Using the same base film as in Example 1, the same coating liquid for a release layer as used in Example 1 was applied to the surface of the base film and dried. Then, a release layer having a thickness of 2.0 g / m ² was formed on the substrate film during drying. Then, the same coating liquid for a receiving layer as used in Example 1 was applied on the release layer, and dried to form a receiving layer having a thickness of 2.0 g / m ² when dried on a substrate film. The intermediate transfer recording medium of Comparative Example 1 was manufactured. On the receiving layer of the intermediate transfer recording medium obtained above, using the same thermal transfer printer and thermal transfer sheet as those used in the examples, a photographic tone image of sublimation transfer, and a thermal transfer image of a character image of fusion transfer. Formed. Next, the same PET-
For a hot stamp having a predetermined pattern, the G sheet and the above-described image-formed transfer portion are overlapped, and a portion excluding a position corresponding to a handwritten entry field of an address and a name and a stamp column is heated and pressed. A hot press was performed using a relief printing plate, and the transfer portion was re-transferred to the transfer-receiving body to obtain a print. The printed matter obtained in Comparative Example 1 was filled in with a ballpoint pen at the position of the handwriting box, and the ink was partially repelled.
Blurred areas occurred. Further, when the seal was pressed with vermilion on the seal box, a portion where the vermilion was repelled occurred, and it was unclear.

[0041]

As described above, according to the image forming method of the present invention, a region where the receiving layer is not re-transferred is formed on a part of the object to be transferred. In the intermediate transfer recording medium provided with a transfer portion, a masking layer for forming a portion which is not partially transferred to the transfer object when retransferring to the transfer object is provided in the upper layer portion or the lower layer portion of the transfer portion. Using the intermediate transfer recording medium, the receiving layer is re-transferred from the intermediate transfer recording medium to the transfer object, and a region where the receiving layer is not re-transferred is partially formed on the transfer object. The portion of the receiving layer to which the transfer layer should not be transferred could be easily and reliably formed on the intermediate transfer recording medium by the function of absorbing or blocking the heat during transfer with the intermediate transfer recording medium.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view showing one embodiment of an intermediate transfer recording medium of the present invention.

FIG. 2 is a schematic sectional view showing another embodiment which is an intermediate transfer recording medium of the present invention.

FIG. 3 is a schematic view showing another embodiment which is an intermediate transfer recording medium of the present invention.

FIG. 4 is a schematic view showing another embodiment which is an intermediate transfer recording medium of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Intermediate transfer recording medium 2 Base film 3 Reception layer 4 Masking layer 5 Release layer 6 Detection mark A Transfer layer for the front surface of the transfer object B Transfer layer for the back surface of the transfer object

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Takayuki Imai 1-1-1 Ichigaya-Kagacho, Shinjuku-ku, Tokyo F-term in Dai Nippon Printing Co., Ltd. (reference) 2H111 AA20 AA26 AA27 AB05 CA02 CA03 CA04 CA11

Claims (4)

[Claims] Claims: 1. To form an area on a part of an object to which a receptor layer is not retransferred, so that the area can be peeled off on a substrate film.
In an intermediate transfer recording medium provided with a transfer portion comprising at least a receiving layer, masking for forming a portion which is not partially transferred to the transfer object when re-transferring to the transfer object, in an upper layer portion or a lower layer portion of the transfer portion. An intermediate transfer recording medium comprising a layer. 2. An intermediate transfer recording medium according to claim 1, wherein said intermediate transfer recording medium has a detection mark synchronized with a portion where said masking layer is partially formed. 3. When forming an image using an intermediate transfer recording medium provided with at least a receiving layer on both sides of a transfer receiving member so as to be releasable on a base film, at least a part of one side of the transfer receiving member receives the image. To form an area where the layer is not retransferred,
An intermediate transfer recording medium characterized in that an area that is not retransferred to a transfer medium is provided in at least a part of a single-sided unit of a screen divided by a detection mark. 4. An image forming method, comprising using the intermediate transfer recording medium according to any one of claims 1 to 3 to partially form a region where a receiving layer is not retransferred on a transfer receiving body. Method.