JP2003231287A - Intermediate transfer recorder and intermediate transfer recording method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an intermediate transfer recorder and an intermediate transfer recording method which can improve a mechanical strength or the like of a secondary image recorded by re-transferring to a re-transferring recording medium, a primary image having an ink layer of an ink ribbon thermally transferred to an intermediate transfer recording medium. <P>SOLUTION: The intermediate transfer recorder S can record the secondary image 15 to the re-transferring recording medium 11 by releasing the intermediate transfer medium 7 adhered to the re-transferring recording medium 11 after re-transferring the primary image 14 by a heat roller 10 as a re-transferring means to the re-transferring recording medium 11. The ink ribbon 2 or/and the intermediate transfer medium 7 forms an ultraviolet reaction layer formed of at least an ultraviolet reactive resin. An ultraviolet irradiation means 13 is set, which can irradiate the primary image with ultraviolet rays via the adhered intermediate transfer medium 7 after the re-transfer by the heat roller 10 to the re-transferring recording medium 11. <P>COPYRIGHT: (C)2003,JPO

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 apparatus and an intermediate transfer recording method, and in particular, an ink layer of an ink ribbon is once thermally transferred onto an intermediate transfer medium to form a primary image, and this primary image is transferred to a card. The present invention relates to an intermediate transfer recording apparatus and an intermediate transfer recording method for retransferring to a retransfer recording medium such as the above.

[0002]

2. Description of the Related Art Conventionally, as an output terminal device of an information processing device such as a word processor, a facsimile, and a computer,
From the viewpoints of quietness, low cost, high reliability, etc., the ink of the ink ribbon is once thermally transferred to the intermediate transfer recording medium to form a primary image, and the primary image is re-transferred to a retransfer recording medium such as a card. There is an intermediate transfer recording apparatus and method for transferring and recording a secondary image.

Such a conventional intermediate transfer recording apparatus T is
As shown in FIG. 6, the thermal head 31 is provided,
A plurality of heating elements are selectively heated and heated according to a print signal. An ink ribbon 32 is arranged on the side of the thermal head 31 facing the heat generating element, and the ink ribbon 32 is wound around a supply core 33 and a winding core 34, respectively. Also, the supply core 3
A plurality of tension rollers 35 for applying a predetermined tension to the ink ribbon 32 are arranged in the ribbon transport path between the winding roller 3 and the winding core 34.

An ink layer (not shown) is formed on one surface of the ink ribbon 32, and this ink layer is
In addition to at least a thermoplastic material such as a low melting point wax, a colorant having a desired color is added. Further, a platen roll 36 is arranged at a position facing the thermal head 31, and the back side of the intermediate transfer medium 37 is elastically contacted with the outer peripheral portion of the platen roller 36, so that the platen roller 36 can rotate. The intermediate transfer medium 37 can be conveyed in the direction of arrow C.

Further, the intermediate transfer recording medium 37 is wound around a supply reel 38 and a take-up reel 39, and is conveyed in the direction of arrow C by the counterclockwise rotation of the platen roller 36 and is taken up by the take-up reel. It can be wound around 39. As with the ink ribbon 32, the intermediate transfer medium 1 between the supply reel 38 and the take-up reel 39 is biased with a predetermined tension by a plurality of tension rollers 35.

By moving the thermal head 31 in the direction of arrow A, the thermal head 31 presses the ink layer of the ink ribbon 32 so that the surface of the intermediate transfer medium 37 elastically contacting the platen roller 36 can be pressed. Has become. Further, a heat roller 40 is arranged downstream of the platen roller 36 in the transport direction of the intermediate transfer medium 37 indicated by the arrow C. This heat roller 40 is
A rubber roller 40a having a hollow shape and heat resistance is provided, and 40b is arranged inside the hollow of the rubber roller 40a.

Further, by moving the thermal head 31 in the direction of arrow A, the ink layer of the ink ribbon 32 can be pressed against the surface of the intermediate transfer medium 37. A retransfer recording medium 41 such as a plastic card can be placed,
A pedestal 42 movable in the direction of arrow D is provided.

The conventional intermediate transfer recording device T as described above
In the conventional intermediate transfer recording method using, the thermal head 31 is first moved in the direction of arrow A, and the ink layer of the ink ribbon 32 is pressed against the intermediate transfer medium 37 that elastically contacts the platen roller 36. Then, by selectively heating the plurality of heating elements of the thermal head 31 on the basis of the print information, the ink layer of the ink ribbon 32 has the ink layer of the intermediate transfer medium 3.
A desired primary image 44 is recorded on the intermediate transfer medium 37 by being partially thermally transferred onto the intermediate transfer medium 37.

Next, the portion on which the primary image 44 is recorded is conveyed in the direction of arrow C and is positioned below the heat roller 40 which has been heated to a predetermined temperature, and the heat roller 40 is placed from the back side of the intermediate transfer medium 37. Pressure contact. Then, the heat of the heat roller 40 causes the primary image 44 to be softened and melted, and
The next image 44 is retransferred to the retransfer recording medium 41, and the secondary image 45 is recorded on the retransfer recording medium 41. In such a conventional intermediate transfer recording method, the secondary image 45 is retransferred with high quality to the retransfer recording medium 41 such as a plastic card or a printed surface having a curved printing surface, which is difficult to print with an ordinary printer. Can be recorded.

[0010]

However, the retransfer recording medium 41 is formed by the conventional intermediate transfer recording apparatus and intermediate transfer method.
Since the secondary image 45 recorded in No. 2 is a retransfer of the ink layer made of the thermoplastic resin which is the main component of the ink ribbon 32, if the retransfer recording medium 41 recording the secondary image 45 is left in a high temperature environment, The secondary image 45 may be thermally softened and melted, and the secondary image 45 may be deformed or disappear.

The thermoplastic resin, which is the main component of the ink layer of the ink ribbon 32, generally has low mechanical strength even in the solid state, and is retransferred to the retransfer recording medium 41 such as a card to be solidified. It was difficult to obtain high abrasion resistance in the secondary image 45. Therefore, if the secondary image 45 re-transferred onto the re-transfer recording medium 41 is repeatedly rubbed by hand, or if the re-transfer recording medium 41 is vibrated in a state of being stacked, the secondary image 45 may be scraped off. Therefore, there is a risk that it will become unreadable or disappear. The present invention has been made in view of the above-mentioned problems, and the ink layer of the ink ribbon is thermally transferred onto an intermediate transfer recording medium.
An object of the present invention is to provide an intermediate transfer recording apparatus and an intermediate transfer recording method capable of improving the mechanical strength and the like of a secondary image recorded by retransferring a next image to a retransfer recording medium.

[0012]

As a first solving means for solving the above problems, the intermediate transfer recording apparatus of the present invention comprises:
A thermal recording unit, an ink ribbon having an ink layer formed on one surface, an intermediate transfer medium capable of recording a primary image by thermally transferring the ink layer by the thermal recording unit using the ink ribbon, and an intermediate transfer medium therebetween. A retransfer means capable of retransferring the primary image on the transfer medium to a retransfer recording medium to record a secondary image, wherein the ink ribbon and / or the intermediate transfer medium contains at least an ultraviolet-reactive resin. The ultraviolet-reactive layer is formed by, and the ultraviolet-reactive layer is transferable to the retransfer recording medium by the retransfer means, and the ultraviolet reactive layer retransferred to the retransfer recording medium by the retransfer means, An ultraviolet irradiation means capable of irradiating ultraviolet rays through the intermediate transfer medium is provided.

As a second means for solving the above-mentioned problems, the present invention has a constitution in which the ultraviolet-reactive layer is formed by adding at least an acrylate ultraviolet-reactive resin to the ultraviolet-reactive resin.

Further, as a third means for solving the above problems, the present invention provides that at least the ink layer of the ink ribbon is formed of the ultraviolet reactive layer, and the ink layer is formed on the intermediate transfer medium. The thermal transfer was performed to record the primary image composed of the ultraviolet reaction layer.

As a fourth means for solving the above-mentioned problems, the present invention provides the retransfer recording medium by irradiating the primary image composed of the ultraviolet responsive layer with ultraviolet rays by the ultraviolet ray irradiating means. The secondary image hardened with ultraviolet light is recorded.

As a fifth means for solving the above-mentioned problems, according to the present invention, the ink ribbon is made of a plurality of types in which the colors of the ink layers are different, and the ink layers of different colors are treated by the heat treatment. The primary image composed of a desired color image is recorded on the intermediate transfer medium by sequentially performing overprinting by a recording unit.

As a sixth means for solving the above problems, according to the present invention, in at least one or more of the plurality of kinds of ink ribbons, the ink layer is formed by the ultraviolet ray reactive layer, and the ultraviolet ray is formed. The ink layer composed of the reaction layer is used at the beginning of the overprinting to thermally transfer the ink layer.
The configuration is such that the next image is recorded.

Further, as a seventh means for solving the above-mentioned problems, the present invention forms the ultraviolet reaction layer on at least one surface of the intermediate transfer medium, and forms the ink ribbon on the ultraviolet reaction layer. The ink layer was thermally transferred to record the primary image.

Further, according to the present invention as an eighth means for solving the above-mentioned problems, the upper surface of the primary image retransferred to the retransfer recording medium by the retransfer means is coated with the ultraviolet reaction layer. By irradiating the primary image re-transferred onto the re-transfer recording medium with the ultraviolet rays by the ultraviolet ray irradiating means, the ultraviolet ray reactive layer is cured by ultraviolet rays to become an ultraviolet ray cured layer, which is covered with the ultraviolet ray cured layer. The secondary image can be recorded on the retransfer recording medium.

Further, as a ninth means for solving the above-mentioned problems, the present invention is configured such that the thermal recording means comprises a thermal head in which a plurality of heating elements are arranged in alignment.

Further, according to the present invention, as the tenth solving means for solving the above problems, the ultraviolet irradiating means is 20
The ultraviolet ray having a wavelength of 0 to 500 nm can be emitted.

Further, as an eleventh solving means for solving the above-mentioned problems, the intermediate transfer recording method of the present invention uses an ink ribbon having an ink layer formed on one surface thereof, and the ink layer is intermediately formed by a thermal recording means. A thermal transfer recording step of performing thermal transfer recording on a transfer medium, and a retransfer recording step of retransferring the primary image thermally transferred to the intermediate transfer medium in the thermal transfer recording step to a retransfer recording medium to record a secondary image. The ink ribbon, and / or the intermediate transfer medium forms an ultraviolet ray reactive layer made of an ultraviolet ray reactive resin, and the ultraviolet ray reactive layer enables thermal transfer to the retransfer recording medium in the retransfer recording step. An ultraviolet irradiation step capable of irradiating ultraviolet rays to the ultraviolet reaction layer thermally transferred to the transfer recording medium is provided, and in this ultraviolet irradiation step, the ultraviolet reaction layer is preliminarily transferred to the ultraviolet reaction layer via the intermediate transfer medium. Irradiating ultraviolet radiation, this after ultraviolet irradiation, by peeling off the intermediate transfer medium in close contact with the re-transfer recording medium, and a method such as the said secondary image on the retransfer recording medium is recorded.

As a twelfth means for solving the above-mentioned problems, at least the ink layer of the ink ribbon is formed of the ultraviolet reactive layer and recorded on the intermediate transfer medium in the thermal transfer recording step. The primary image is retransfer-recorded on the re-transfer recording medium in the re-transfer recording step, the primary image is irradiated with the ultraviolet rays in the ultraviolet irradiation step, and the re-transfer recording medium is ultraviolet-cured.
The method of recording the next image was adopted.

Further, as a thirteenth means for solving the above-mentioned problems, the ink ribbon is made of a plurality of kinds in which the colors of the ink layers are different, and the ink layers of different colors are sequentially processed in the thermal transfer recording step. Is overprinted onto the intermediate transfer medium to form the primary image of a desired color image.

Further, as a fourteenth means for solving the above-mentioned problems, in at least one or more of the plurality of kinds of ink ribbons, the ink layer is formed of the ultraviolet ray reactive layer, and the thermal transfer recording step is performed. The ink layer composed of the ultraviolet ray reactive layer was used at the beginning of the overlay printing to thermally transfer the ink layer to the intermediate transfer medium to record the primary image.

As a fifteenth solving means for solving the above-mentioned problems, the ultraviolet reaction layer is formed on at least one surface of the intermediate transfer medium, and the ink is formed on the ultraviolet reaction layer in the thermal transfer recording step. The ink layer of the ribbon was thermally transferred to record the primary image.

Further, as a sixteenth means for solving the above-mentioned problems, the ultraviolet reaction layer is formed on the entire one surface of the intermediate transfer medium, and the retransfer recording is performed in the retransfer recording step. The ultraviolet reaction layer was transferred onto the entire surface of the medium, and the ultraviolet reaction layer was irradiated with the ultraviolet light in the ultraviolet irradiation step.

[0028]

BEST MODE FOR CARRYING OUT THE INVENTION An intermediate transfer recording apparatus and method of the present invention will be described below with reference to the drawings. FIG. 1 is a schematic view of an intermediate transfer recording apparatus according to the present invention, FIG. 2 is a sectional view of a main portion of an intermediate transfer medium according to the present invention, and FIG. 3 is a sectional view of a main portion of an ink ribbon according to the present invention. FIG. 4 is a cross-sectional view of an essential part for explaining a primary image retransferred to the retransfer recording medium according to the present invention, and FIG. 5 is an essential part for explaining a secondary image recorded on the retransfer recording medium according to the present invention. FIG.

First, in the intermediate transfer recording apparatus S according to one embodiment of the present invention, a head pressing mechanism (not shown) causes an arrow A to appear.
A thermal head 1 which is a thermal recording means movable in any direction is provided. The thermal head 1 has a plurality of heating elements (not shown) arranged in an array at the right end in the figure. Then, by selectively energizing the heating element in accordance with the input signal, the heating element is selectively heated and heated.

A long ink ribbon 2 having a predetermined width is arranged on the side of the thermal head 1 facing the heating element. One end of the ink ribbon 2 is supplied to the supply core 3.
Further, the other end is wound around the winding core 4 and the winding core 4 is driven to rotate, so that the supply core 3 can be wound in the winding core 4 (arrow B direction). In addition, a plurality of tension rollers 5 for applying a predetermined tension to the ink ribbon 2 wound in the arrow B direction are provided in the ribbon transport path between the supply core 3 and the winding core 4.
Is provided to prevent the occurrence of slack in the ink ribbon 2.

As shown in FIG. 3, the ink ribbon 2 has an ink layer 2b formed on one surface of a film-shaped substrate 2a and a back surface treatment layer 2c formed on the other surface. A polymer film having a film thickness of 1 to 12 μm is usually used as the base material 2a, and the material thereof is polyethylene terephthalate (PET), polyethylene naphthalate (PEN), polyimide (PI), polyether ether ketone. General-purpose resins such as (PEEK) and aramid are used.

The ink layer 2b is formed by applying an ink material of a desired color, and this ink material is
A thermoplastic material such as low melting point wax or a thermoplastic resin is used as a main component, and various pigments and various plasticizers, dispersants, antioxidants, etc. are added as colorants in minute amounts. Examples of the low melting point wax used in the ink layer 2b include carnauba wax, candelilla wax, rice wax, paraffin wax, microcrystalline wax, and polyethylene wax, which are used alone or in combination.

Such a low-melting wax is mixed with toluene,
Dissolve in various solvents such as xylene, acetone, MEK, various alcohols, kerosene, naphtha, and volatile oil to prepare an ink coating solution, and apply gravure coating, wire bar coating, spin coating, spray coating, dipping coating. It is manufactured by coating one surface of the base material 3a by various coating methods such as silk screen coating and then drying it to volatilize the above-mentioned various solvents. In addition, the ink layer 2
Examples of the thermoplastic resin used for the ink material constituting b include ethylene-vinyl acetate copolymers, ethylene-vinyl butyrate copolymers, ethylene-acrylic copolymers and other ethylene-based copolymers, polyuralyl methacrylate, poly Examples thereof include poly (meth) acrylic acid esters such as hexyl acrylate, polyvinyl chloride, vinyl chloride-vinyl acetate copolymers, vinyl chloride-based copolymers such as vinyl chloride-vinyl alcohol copolymers, and the like. These resins are used alone or as a mixture.

The back surface treatment layer 2c is coated with a lubricant made of silicon resin or the like to reduce the abrasion of the thermal head 1 slidingly contacting the ink ribbon 2 and to wind the ink ribbon 2 on the winding core 4. It is formed for the purpose of preventing fusion with the ink material of the ink layer 2b at that time. In such an ink ribbon 2, the colors of the ink layer 2b are, for example, yellow (Y), magenta (M), cyan (C), black (K).
There are several types prepared. Then, by sequentially printing the ink layers 2b of different colors, the primary image 14 of a color image of a desired color can be thermally transferred and recorded on the intermediate transfer medium 7 described later.

A platen roll 6 which can be driven to rotate is disposed at a position facing the thermal head 1. The platen roller 6 is formed in a columnar shape, and is composed of a metal shaft disposed at the center of rotation. The rotating shaft 6a and the elastic roller 6b fixed to the rotating shaft 6a and made of an elastic resin such as silicon or EPDM have a length slightly longer than the width dimension of the intermediate transfer medium 7 described later.
An intermediate transfer medium 7 is elastically contacted with the outer peripheral portion of the platen roller 6 as described above. The intermediate transfer medium 7 has a film-shaped base material 7a as shown in FIG.
Is formed into a thin film having a thickness of 2 to 38 μm, preferably 2 to 6 μm.

The material of the base material 7a is PET.
General-purpose resins such as polyethylene terephthalate, PEN (polyethylene naphthalate), PI (polyimide), PEEK (polyether ether ketone), and aramid are used. The intermediate transfer medium 7 has one surface of the substrate 7a. An ultraviolet reactive layer 7b containing at least an ultraviolet reactive resin and a photoinitiator as main components is formed to a film thickness of about 8 μm, and the base material 7a and the ultraviolet reactive layer 7b may be formed as necessary. A release layer 7c made of an acrylic thermoplastic resin is formed between them with a very thin film thickness of about 0.2 μm, and a heat roller 10 to be described later is provided on the other surface of the base material 7a. The back surface treatment layer 7d made of a lubricant is applied for the purpose of reducing abrasion resistance, stabilizing the running of the intermediate transfer medium 7, preventing fusion with the ultraviolet reaction layer 7b during winding, and the like.

The base material 7a is specifically, Toray Industries, Ltd.
A silicon resin (MEK solvent diluted) manufactured by Toagosei Co., Ltd. is coated on the other surface of the PFA film having a thickness of 5 μm manufactured by Toa Gosei Co., Ltd. and dried in an oven at 60 ° C. As a result, a raw material of the base material 7a on which the back surface treatment layer 7d having low frictional resistance is formed can be obtained. Further, an acrylic release material is gravure coated on one surface of the base material 7a,
By drying at 95 ° C. for 5 minutes, the film thickness becomes approximately 0.
A release layer 7c having a thickness of 2 μm is formed.

The ultraviolet-reactive layer 7b formed on the release layer 7c is at least an ultraviolet-reactive resin, which is a water-dispersible UV curable resin (trade name Uc, manufactured by Daicel Chemical Industries, Ltd.).
ecoat) and an acetophenone-based compound manufactured by Nippon Ciba Geigy Co., Ltd. as photoinitiators. Then, 95 parts by weight of a water-dispersible UV curable resin and 5 parts by weight of an acetophenone compound are added to prepare an ultraviolet reactive ink coating liquid.

The ultraviolet-reactive ink coating liquid is applied to the release layer 7c.
Gravure coating from above and then drying at 80 ° C. for 90 seconds to form an ultraviolet reaction layer 7b of approximately 8 μm on the release layer 7c.
The film is formed with a film thickness of m. Ultraviolet reaction layer 7b after this drying
Is tack-free with no sticky surface. Further, in the ultraviolet reactive ink coating liquid, an ultraviolet absorber and a colorant, if necessary, various plasticizers, dispersants, antioxidants, sensitizers, leveling agents, tackiness improvers, etc. Are added in small amounts as needed.

The UV-reactive resin used in the UV-reactive layer 7b is a resin which is further polymerized by photochemical action, and is sometimes called a photopolymerizable unsaturated polymer or photopolymerizable oligomer. Then, by the action of the terminal functional group when the ultraviolet ray reactive layer 7b is irradiated with ultraviolet rays, it itself participates in the photopolymerization reaction, and can be classified into a monofunctional monomer and a polyfunctional monomer depending on the number of functional groups.
In particular, the polyfunctional monomer plays the role of a cross-linking agent that forms a bridge between the polymers.

Such UV-reactive resin contains at least an acrylate-based UV-reactive resin, and specific materials include polyester acrylate, epoxy acrylate, urethane acrylate, polyether acrylate, polyacrylate, 2-ethylhexyl acrylate, 2-hydroxyethyl acrylate, 2-hydroxypropyl acrylate, 2-hydroxyethyl acrylate, tetrahydrofurfryl acrylate,
Monofunctional type such as derivatives of tetrahydrofurfuryl acrylate, dicyclopentenyl acrylate, dicyclopentenyloxyethyl acrylate, 1,3-butanediol acrylate, 1,4-butanediol acrylate, 1,6-hexanediol acrylate, Diethylene glycol diacrylate, neopentyl glycol diacrylate, polyethylene glycol 400 diacrylate, hydroxypivalate neopentyl glycol diacrylate, tripropylene glycol diacrylate, 1,3-bis (3-acryloxyethoxy-2-hydroxypropyl)- Bifunctional type such as diacrylate of 5,5-dimethylhydantoin, hydroxypivalic acid ester neopentyl glycol derivative, trimethylol It may be mentioned propane triacrylate, pentaerythritol triacrylate, those trifunctional or more types of such dipentaerythritol hexaacrylate as suitable.

The photoinitiator absorbs light to trigger the photopolymerization reaction of the ultraviolet curable resin. Such photoinitiators include biacetyl, acetophenone, benzophenone, Michler's ketone, benzyl, benzoin, benzoin isobutyl ether, benzyl dimethyl ketal, tetramethyl thiuram sulfide, azobisisobutyl nitrile, benzoyl peroxide,
Di-tert-butyl peroxide, 1-hydroxycyclohexyl phenyl ketone, 2-hydroxy-2-methyl-1-phenyl-propan-1-one, 1- (4-isopropylphenyl) -2-hydroxy-2-methylpropane Preferable examples include -1-one, 2-chlorothioxanthone, and methylbenzoyl formate.

As the colorant, in addition to black pigments such as carbon black, acetylene black and oil black and white pigments such as titania and calcium carbonate, yellow (Y), magenta (M), cyan (C), etc. Known dyes can be mentioned, and the color tone and the like are adjusted to a desired color by appropriately changing the addition amount of these pigments or dyes.

In such an intermediate transfer medium 7, the back surface treatment layer 7d is elastically contacted with the outer peripheral portion of the platen roller 6, and the ultraviolet reaction layer 7b is disposed so as to face the thermal head 1.
The intermediate transfer medium 7 can be conveyed in the direction of arrow C by rotating the platen roller 6 in the counterclockwise direction.

The intermediate transfer medium 7 elastically contacting the platen roller 6 has one end wound on the supply reel 8 and the other end wound on the take-up reel 9, and the counterclockwise rotation of the platen roller 6 is performed. It is conveyed in the direction of arrow C by the rotation in the rotating direction and can be wound around the winding reel 9. The intermediate transfer medium 7 wound from the supply reel 8 to the take-up reel 9 is biased with a predetermined tension by a plurality of tension rollers 5 like the ink ribbon 2. On the downstream side of the platen roller 6 in the conveyance direction of the intermediate transfer medium 7 indicated by the arrow C, there is a retransfer device capable of retransferring a primary image 14 recorded on the intermediate transfer medium 7 to a retransfer recording medium 11 which will be described later. A heat roller 10 is provided. This heat roller 10 has a rubber roller 10a that is hollow and has heat resistance, and the outer peripheral portion of this rubber roller 10a is covered with silicone or fluorine-based elastomer having high heat resistance and releasability.

Further, in the hollow inside of the rubber roller 10a,
A heater 10b having a function of radiating heat, such as a halogen heater, is provided. Also, the rubber roller 10
A temperature sensor 10c capable of measuring the temperature of the surface of the rubber roll 10a is arranged on or near the surface of a. In such a heat roller 10, the rubber roll 10a is heated by the radiant heat from the heater 10b, and this heating temperature causes the ultraviolet reaction layer 7b and the release layer 7c formed on the intermediate transfer medium 7 elastically contacting the surface of the rubber roller 10a to heat. The softening temperature can be maintained at a predetermined temperature.

By moving the thermal head 1 in the direction of arrow A, the ink layer 2b of the ink ribbon 2 is moved.
However, the UV transfer layer 7b of the intermediate transfer medium 7 can be pressure-contacted with the re-transfer recording medium 11 made of, for example, an acrylic flat card on the lower side in the figure facing the heat roller 10. The pedestal 12 attached in this manner is disposed, and the pedestal 12 can be conveyed in the direction of arrow D. The retransfer recording medium 11 is a plastic card or a hard material such as metal or ceramics,
Alternatively, it is made of various kinds such as a curved surface and a rugged surface.

Further, on the downstream side of the heat roller 10 in the conveying direction indicated by the arrow D, the ultraviolet irradiation means 13 is disposed above the drawing and faces the retransfer recording medium 11 conveyed in the direction indicated by the arrow D.
Is provided. The ultraviolet irradiation means 13 is a light source 13a capable of emitting ultraviolet rays having a wavelength of 200 to 500 nm.
And a reflection plate 13b capable of collecting and reflecting the ultraviolet rays emitted from the light source 13a in a desired direction.
As the light source 13a, a low pressure or high pressure mercury lamp,
Various light sources capable of irradiating ultraviolet rays such as mercury xenon and metal halide lamps can be used.

The ultraviolet irradiation means 13 is arranged at a position where the retransfer recording medium 11 conveyed in the direction of arrow D can be efficiently irradiated with ultraviolet rays. Then, the primary image 14 is recorded by thermal transfer onto the intermediate transfer medium 7 by the thermal head 1 which is the thermal recording means, and the primary image 14 is retransferred to the retransfer recording medium 11 by the heat roller 10 which is the retransfer means. To do. 1 retransferred to this retransfer recording medium 11
By irradiating ultraviolet rays from the next image 14 through the midpoint medium 7 by the ultraviolet irradiating means 13, the ultraviolet reaction layer 7b is ultraviolet-cured. After that, the intermediate transfer medium 7 is taken up by the take-up reel 9, whereby the intermediate transfer medium 7 that is in close contact with the retransfer recording medium 11 is peeled off. Due to the peeling of the intermediate transfer medium 7, the ultraviolet reaction layer 7b was ultraviolet-cured,
The ultraviolet curable layer 15a as shown in FIG. 5 is exposed, and the secondary image 15 covered with the ultraviolet curable layer 15a can be recorded on the retransfer recording medium 11.

In the intermediate transfer recording method for recording the secondary image 15 on the retransfer recording medium 11 using the intermediate transfer recording device S as described above, first, the ink ribbon 2 is provided between the thermal head 1 and the platen roller 6. And the intermediate transfer medium 7 are positioned, the thermal head 1 is moved in the direction of arrow A to move the ink layer 2b of the ink ribbon 2 to the intermediate transfer medium 7
It is pressed against the ultraviolet reaction layer 7b.

Then, the platen roller 6 is rotated in the counterclockwise direction, and the heating elements (not shown) of the thermal head 1 are selectively caused to generate heat based on the recorded information, so that the ink is responded to this heat generation. A part of the ink layer 2b of the ribbon 2 is thermally softened and melted, and a part of the ink layer 2b is intermediately transferred and recorded on the ultraviolet reaction layer 7b of the intermediate transfer medium 7. Then, the ink ribbon 2 and the intermediate transfer medium 7
Are transported to the downstream side by the rotation of the platen roller 6, and are wound around the winding core 4 and the winding reel 9. As a result, the desired primary image 14 is recorded by the ink layer 2b of the ink ribbon 2 which is intermediately transferred onto the ultraviolet reaction layer 7b of the intermediate transfer medium 7.

Next, when the primary image 14 is conveyed to the heat roller 10 which is the retransfer means, the pedestal 12 also moves and the retransfer recording medium 11 is positioned below the heat roller 10. Then, the rubber roller 10a of the heat roller 10 heated by the conveyance of the intermediate transfer medium 7 in the direction of the arrow C.
Then, the intermediate transfer medium 7 is pressed against the surface of the retransfer recording medium 11. At this time, the heat roller 10 presses the retransfer recording medium 11 via the intermediate transfer medium 7 at a pressure of 1MP.
The surface temperature is maintained at 160 ° C. while being maintained at a.

Then, the retransfer recording medium 11 is approximately 10 cm.
By moving in the direction of arrow D at a moving speed of / minute,
As shown in FIG. 4, the intermediate transfer medium 7 is brought into close contact with the retransfer recording medium 11 in a state where the primary image 14 and the ultraviolet reactive layer 7b are thermally softened and melted. In this state, from the back side of the intermediate transfer medium 7, the wavelength of 200 to 500 is irradiated by the ultraviolet irradiation means 13.
Emit nm ultraviolet light. Then, the ultraviolet rays pass through the intermediate transfer medium 7 and illuminate the ultraviolet reaction layer 7b.

At this time, as shown in FIG. 4, even if the release layer 7c is formed between the base material 7a and the ultraviolet reaction layer 7b, the release layer 7c has a thickness of 0.2 μm. Since it is formed of a very thin and transparent acrylic material, it does not reduce the transmittance of ultraviolet rays that have passed through the base material 7a. Then, by irradiating the ultraviolet ray reactive layer 7b with ultraviolet rays, the ultraviolet ray reactive layer 7b undergoes a start reaction, a growth reaction,
A well-known photopolymerization reaction called a termination reaction is performed.

By such a photopolymerization reaction, the ultraviolet reaction layer 7b covering the primary image 14 in the state of being in close contact with the retransfer recording medium 11 is ultraviolet-cured and polymerized. In the above-mentioned ultraviolet irradiation, for example, a central wavelength of 365n
m, irradiation intensity 90 mW / cm2 of ultraviolet rays, irradiation distance 5
cm, moving speed 10 cm / min. Then,
Ultraviolet rays that efficiently transmitted through the substrate 7a photopolymerized the ultraviolet reaction layer 7b, and the ultraviolet rays were cured in a short time.

Then, the re-transfer recording medium 11 in which the ultraviolet-reactive layer 7b is ultraviolet-cured and the intermediate transfer medium 7 is in close contact
Is further conveyed in the direction of arrow D, and the take-up reel 9
By winding the intermediate transfer medium 7 at
The base material 7a is peeled from the retransfer recording medium 11. Then, as shown in FIG. 5, on the entire surface of the retransfer recording medium 11, the ultraviolet ray reactive layer 7b is ultraviolet ray cured and the ultraviolet ray cured film 1 is formed.
5a is formed. Then, the secondary image 15 is covered with the ultraviolet curable film 7c and recorded on the retransfer recording medium 11.

This secondary image 15 has a mechanical strength and a heat resistance due to the ultraviolet curing film 15a covering the upper part.
An image having excellent abrasion resistance and solvent resistance can be obtained. As a result of performing a cross-cut adhesive tape peeling test on the ultraviolet curable film 15a covering the secondary image 15 as described above, no peeling of the ultraviolet curable ultraviolet curable film 15a is observed, and the ultraviolet curable film 15a has sufficient abrasion resistance. I was able to confirm. The retransfer recording medium 11 coated with the ultraviolet curable film 15a and having the secondary image 15 recorded thereon is allowed to stand at 40 ° C. for 48 hours, and then a cotton cloth is pressed against the surface of the image with a load of 1000 g.
A rubbing test with 0 reciprocations was performed. When the surface of the ultraviolet-cured film 15a after the rubbing test was observed, no deformation or disappearance of the ultraviolet-cured film 15a was observed, and it was confirmed that the ultraviolet-cured film 15a had sufficient heat resistance.

Further, 99% on the surface of the ultraviolet curing film 15a
A rubbing test was repeated 10 times while pressing a cotton cloth moistened with ethanol with a load of 1000 g. After observing the surface of the ultraviolet cured film 15a after the rubbing test,
No deformation or disappearance of the UV cured film 15a was observed, and it was confirmed that the UV cured film 15a had sufficient solvent resistance. The ultraviolet reaction layer 7b in the embodiment of the present invention
May be an ultraviolet reactive resin and a photoinitiator to which a thermoplastic resin is further added. Such an ultraviolet reaction layer 7b
By adding a thermoplastic resin to the heat roller 1,
The ultraviolet-reactive layer 7b heat-melted at 0 can be firmly adhered to the retransfer recording medium 11 and retransferred.

In the description of the embodiment of the apparatus and method of the present invention, the intermediate transfer medium 7 having the ultraviolet reactive layer 7b formed thereon has been described, but the ink layer 2b of the ink ribbon 2 is described.
In addition, at least an ultraviolet reactive resin and a photoinitiator may be added to form the ink layer 2b as an ultraviolet reactive layer.
That is, at least the ink layer 2b of the ink ribbon 2 is formed of an ultraviolet ray reactive layer, the ink layer 2b is thermally transferred to the intermediate transfer medium 7, and the primary image 14 composed of the ultraviolet ray reactive layer is recorded. The UV-curable secondary image 15 may be recorded on the retransfer recording medium 11 by irradiating 14 with UV rays by the UV irradiating means 13.
Can be firmly adhered to the secondary image 15, and the mechanical strength and the like of the secondary image 15 can be further improved.

The ultraviolet reactive layer is composed of the ink ribbon 2,
Alternatively, it may be formed not only on the intermediate transfer medium 7 but also on both the ink ribbon 2 and the intermediate transfer medium 7. Such an ink ribbon 2 and an intermediate transfer medium 7
Both of the secondary image 15 and the ultraviolet reactive layer on the secondary image 15 can be ultraviolet-cured by forming an ultraviolet reactive layer on both of them, and a stronger secondary image 15 is formed on the retransfer recording medium 11. Can be recorded. That is, the ink ribbon 2 and / or the intermediate transfer medium 7 may have at least an ultraviolet reactive layer formed of an ultraviolet reactive resin.

The ink ribbon 2 is made of a plurality of different ink layers 2b such as yellow (Y), magenta (M) and cyan (C).
The thermal head 1 may be used to sequentially print b, and the primary image 14 composed of a desired color image may be recorded on the intermediate transfer medium 7. At least one or more of the plurality of types of ink ribbons 2 is formed by forming an ink layer 2b with an ultraviolet ray reactive layer containing an ultraviolet ray reactive resin, a photoinitiator, etc., and stacking the ink layer 2b composed of the ultraviolet ray reactive layer. Primary image 14 consisting of a color image used at the beginning of printing
It is also possible to use heat transfer.

In such a primary image 14, a plurality of ink layers 2b of different colors are superposed and printed, and at least the lowermost layer is composed of the ink layer 2b which is an ultraviolet reactive layer. Therefore, in the intermediate transfer medium 7 pressed against the retransfer recording medium 11 by the heat roller 10, the uppermost ink layer 2b of the primary image 14 is composed of an ultraviolet curing layer, and the ink layer 2b composed of this ultraviolet curing layer is formed. It is also possible to record the secondary image 15 by curing with ultraviolet light. At least the uppermost ink layer 2 of the plurality of different color ink layers 2b.
By using b as the ultraviolet curable layer, it is possible to improve the mechanical strength and the like of the secondary image 15 that is a color image. Further, in the description of the embodiments of the present invention, the thermal recording means has been described as a thermal head, but the thermal recording means is not limited to the thermal head, and a method such as laser heat irradiation may be used.

[0063]

As described above, in the intermediate transfer recording apparatus according to the present invention, after the retransfer by the retransfer means, the primary image can be irradiated with the ultraviolet light through the intermediate transfer medium in close contact with the retransfer recording medium. Since the irradiation means is provided, it is possible to irradiate the intermediate transfer medium with ultraviolet rays in a state of being brought into close contact with the retransfer recording medium, and it is possible to cure the ultraviolet reaction layer with oxygen in the air being blocked, and the termination reaction due to oxygen radicals Less likely to occur. Therefore, the reactivity of the UV-reactive layer can be improved, and the primary image or the UV-reactive layer on the primary image can be efficiently UV-cured to form a secondary image having excellent mechanical strength on a card or the like. Can be recorded on the retransfer recording medium.

Further, in the ultraviolet-reactive layer, at least an acrylate-based ultraviolet-reactive resin is added to the ultraviolet-reactive resin, so that an ultraviolet-cured film having a high photopolymerization rate and excellent light transmittance can be obtained. Therefore, it is possible to record a high-definition image with high printing speed and high color reproducibility.

Further, at least the ink layer of the ink ribbon is formed of the ultraviolet ray reactive layer, and the ink layer is thermally transferred to the intermediate transfer medium to record the primary image of the ultraviolet ray reactive layer. By irradiating the primary image with ultraviolet rays, a secondary image having excellent mechanical strength can be obtained in which the primary image is cured by ultraviolet rays.

Further, in the primary image composed of the ultraviolet reaction layer,
By irradiating the re-transfer recording medium with ultraviolet rays by irradiating it with ultraviolet rays by the ultraviolet ray irradiating means, it is possible to obtain a secondary image having excellent mechanical strength.

Further, since the ink layers of different colors are sequentially printed by the thermal recording means so as to record the primary image of the desired color image on the intermediate transfer medium, a high-definition color image is formed. A secondary image can be obtained.

Further, the ink layer composed of the ultraviolet reaction layer is
Since it was used at the beginning of the overprinting to record the primary image by thermal transfer, the uppermost layer of the secondary image can be UV-cured, and a color image with excellent mechanical strength can be obtained.
You can get the next image.

Further, since the ultraviolet reaction layer is formed on at least one surface of the intermediate transfer medium and the ink layer of the ink ribbon is thermally transferred onto the ultraviolet reaction layer to record the primary image, the secondary image is recorded. Can be coated with an ultraviolet curable layer, and the mechanical strength of the secondary image can be improved.

Further, by irradiating the primary image with ultraviolet rays by the ultraviolet ray irradiating means, it is possible to record the secondary image in which the ultraviolet ray reactive layer is covered with the ultraviolet ray cured layer, so that the mechanical strength is excellent. Secondary images can be obtained.

Further, since the thermal recording means is composed of a thermal head in which a plurality of heating elements are arranged in alignment, the ink of the ink ribbon can be thermally transferred onto the intermediate transfer medium to record a high-definition primary image.

Further, the ultraviolet irradiation means is 200 to 500.
Since it is possible to radiate an ultraviolet ray having a wavelength of nm, it is possible to effectively irradiate a short wavelength of high energy. Therefore, the UV reaction layer can be efficiently UV-cured.

In the intermediate transfer recording method of the present invention, the primary image retransferred to the retransfer recording medium is irradiated with ultraviolet rays, and then the intermediate transfer medium adhered to the retransfer recording medium is peeled off to perform the retransfer recording. Since the secondary image is recorded on the medium, it is possible to provide an intermediate transfer recording method capable of recording the secondary image having excellent mechanical strength. Before peeling off the intermediate transfer medium, 2
The UV reactive layer that covers the next image or the secondary image can be UV-cured, and even if static electricity is generated on the intermediate transfer medium at the time of peeling, dust, dust, or foreign matter floating in the air or in the device It is possible to obtain a high quality 2 o'clock image without being affected.

In the retransfer recording process, retransfer recording is performed on the retransfer recording medium, and in the ultraviolet irradiation process, the primary image composed of the ultraviolet reaction layer is irradiated with ultraviolet rays to cure the ultraviolet rays on the retransfer recording medium. Since the image is recorded, a secondary image excellent in mechanical strength can be obtained.

Further, since the ink layers of different colors are sequentially printed in the thermal transfer recording step so as to form the primary image of the desired color image on the intermediate transfer medium, a high-definition color image is formed. A secondary image can be obtained.

At least one of the plurality of types of ink ribbons has an ink layer formed by an ultraviolet ray reactive layer, and the ink layer formed by the ultraviolet ray reactive layer is thermally transferred at the beginning of the overprinting in the thermal transfer recording step. Since the primary image is recorded, a secondary image having excellent mechanical strength can be obtained.

Further, since the ultraviolet reaction layer is formed on at least one surface of the intermediate transfer medium and the ink layer of the ink ribbon is thermally transferred onto the ultraviolet reaction layer in the thermal transfer recording step to record the primary image. The ultraviolet curable layer can cover the secondary image, and the mechanical strength of the secondary image can be improved.

The UV-reactive layer is formed on the entire surface of one side of the intermediate transfer medium, the UV-reactive layer is transferred to the entire surface of the re-transfer recording medium in the re-transfer recording step, and the UV-reactive step is applied to the UV-irradiating step. Since the ultraviolet ray is applied to the entire surface of the retransfer recording medium such as a card, the entire surface of the retransfer recording medium such as a card can be covered with the ultraviolet curable layer, and the retransfer recording medium such as a card can be prevented from being scratched.

[Brief description of drawings]

FIG. 1 is a schematic diagram illustrating an intermediate transfer recording apparatus according to the present invention.

FIG. 2 is a sectional view of an essential part of an intermediate transfer medium according to the present invention.

FIG. 3 is a cross-sectional view of a main part of the ink ribbon according to the invention.

FIG. 4 is a diagram of a retransferred recording medium 1 according to the present invention.
It is a principal part sectional view explaining the following image.

FIG. 5 is a cross-sectional view of essential parts for explaining a secondary image recorded on the retransfer recording medium according to the present invention.

FIG. 6 is a schematic diagram illustrating a conventional intermediate transfer recording apparatus.

[Explanation of symbols]

1 thermal head 2 Ink ribbon 3 supply cores 4 winding core 5 Tension roller 6 Platen roller 7 Intermediate transfer medium 7a base material 7b UV reactive layer 7c Release layer 7d Back surface treatment layer 8 supply reels 9 Take-up reel 10 heat roller 10a rubber roller 10b heater 10c temperature sensor 11 Retransfer recording medium 12 pedestals 13 Ultraviolet irradiation means 13a light source 13b reflector 14 Primary image 15 Secondary image 15a UV curable film

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) B41M 5/30 B41M 5/26 Z 5/40 B41J 3/20 109J

Claims (16)

[Claims] 1. An intermediate transfer capable of recording a primary image by thermally transferring the ink layer by the thermal recording means using the thermal recording means, an ink ribbon having an ink layer formed on one surface, and the ink ribbon. The medium and the intermediate transfer medium described above
Re-transferring the next image to a re-transfer recording medium to record a secondary image, and the ink ribbon, or
And an ultraviolet-reactive layer made of at least an ultraviolet-reactive resin is formed on the intermediate transfer medium, and the ultraviolet-reactive layer can be transferred to the retransfer recording medium by the retransfer means, and can be retransferred by the retransfer means. An intermediate transfer recording apparatus comprising an ultraviolet irradiation means capable of irradiating ultraviolet rays through the intermediate transfer medium on the ultraviolet reactive layer transferred to the transfer recording medium. 2. The intermediate transfer recording apparatus according to claim 1, wherein the ultraviolet reactive layer is formed by adding at least an acrylate ultraviolet reactive resin to the ultraviolet reactive resin. 3. The ink layer of at least the ink ribbon is formed of the ultraviolet ray reactive layer, and the ink layer is thermally transferred to the intermediate transfer medium to record the primary image of the ultraviolet ray reactive layer. The intermediate transfer recording apparatus according to claim 1, wherein the intermediate transfer recording apparatus is configured as described above. 4. By irradiating the primary image composed of the ultraviolet responsive layer with ultraviolet rays by the ultraviolet ray irradiating means,
The intermediate transfer recording apparatus according to claim 3, wherein the secondary image cured by ultraviolet rays can be recorded on the retransfer recording medium. 5. The ink ribbon is made up of a plurality of types in which the colors of the ink layers are different, and the ink layers of different colors are sequentially overprinted by the thermal recording means to print a desired color on the intermediate transfer medium. The intermediate transfer recording apparatus according to claim 1, wherein the primary image formed of an image is recorded. 6. At least one or more of the plurality of types of ink ribbons, wherein the ink layer is formed of the ultraviolet ray reactive layer, and the ink layer formed of the ultraviolet ray reactive layer is formed.
The intermediate transfer recording apparatus according to claim 5, wherein the primary image is recorded by thermal transfer at the beginning of the overprinting. 7. The ultraviolet reaction layer is formed on at least one surface of the intermediate transfer medium, and the ink layer of the ink ribbon is thermally transferred onto the ultraviolet reaction layer to record the primary image. The intermediate transfer recording apparatus according to any one of claims 1 to 6, wherein 8. The upper surface of the primary image retransferred to the retransfer recording medium by the retransfer means is covered with the ultraviolet reaction layer, and the ultraviolet reaction layer on the primary image is irradiated by the ultraviolet irradiation means. By irradiating the ultraviolet rays, the ultraviolet reactive layer is cured by ultraviolet rays to become an ultraviolet cured layer, and the secondary image covered with the ultraviolet cured layer can be recorded on the retransfer recording medium. The intermediate transfer recording apparatus according to claim 1. 9. The intermediate transfer recording apparatus according to claim 1, wherein the thermal recording means comprises a thermal head in which a plurality of heating elements are arranged in an array. 10. The ultraviolet irradiation means comprises 200 to 50.
10. The intermediate transfer recording apparatus according to claim 1, wherein the ultraviolet ray having a wavelength of 0 nm can be emitted. 11. A thermal transfer recording step of thermally transferring and recording the ink layer onto an intermediate transfer medium by a thermal recording means using an ink ribbon having an ink layer formed on one surface, and a thermal transfer onto the intermediate transfer medium in the thermal transfer recording step. And a retransfer recording step of recording a secondary image by retransferring the formed primary image to a retransfer recording medium, wherein the ink ribbon and / or the intermediate transfer medium is an ultraviolet-reactive resin. A layer is formed, and the ultraviolet ray reactive layer is capable of being thermally transferred to the retransfer recording medium in the retransfer recording step, and an ultraviolet ray irradiating step capable of irradiating ultraviolet rays to the ultraviolet ray reactive layer thermally transferred to the retransfer recording medium is provided In the step of irradiating ultraviolet rays, the ultraviolet ray reacting layer is irradiated with the ultraviolet ray through the intermediate transfer medium, and after the irradiation of the ultraviolet ray, the intermediate transfer medium which is in close contact with the retransfer recording medium. An intermediate transfer recording method, wherein the secondary image is recorded on the retransfer recording medium by peeling off the body. 12. At least the ink layer of the ink ribbon is formed of the ultraviolet reaction layer, and the primary image recorded on the intermediate transfer medium in the thermal transfer recording step is retransferred in the retransfer recording step. The re-transfer recording is performed on the recording medium, and the primary image is irradiated with the ultraviolet rays in the ultraviolet irradiation step to cure the re-transfer recording medium with the ultraviolet rays.
The next image is recorded so that the next image can be recorded.
The intermediate transfer recording apparatus according to item 1. 13. The ink ribbon comprises a plurality of types of ink layers having different colors, and the ink layers of different colors are sequentially overprinted in the thermal transfer recording step to print a desired color on the intermediate transfer medium. 13. The intermediate transfer recording apparatus according to claim 11, wherein the primary image composed of an image is formed. 14. At least one or more of the plurality of kinds of ink ribbons, wherein the ink layer is formed of the ultraviolet ray reactive layer, and the ink layer formed of the ultraviolet ray reactive layer in the thermal transfer recording step is overlap-printed. 14. The intermediate transfer recording method according to claim 13, wherein the first transfer is performed by thermal transfer onto the intermediate transfer medium to record the primary image. 15. The primary image is formed by forming the ultraviolet reaction layer on at least one surface of the intermediate transfer medium, and thermally transferring the ink layer of the ink ribbon onto the ultraviolet reaction layer in the thermal transfer recording step. The intermediate transfer recording method according to any one of claims 11 to 14, wherein recording is performed. 16. The ultraviolet reaction layer is formed on the entire surface of the one surface of the intermediate transfer medium, and the ultraviolet reaction layer is transferred to the entire surface of the retransfer recording medium in the retransfer recording step. 16. The intermediate transfer recording method according to claim 15, wherein the reaction layer is irradiated with the ultraviolet ray in the ultraviolet ray irradiation step.