IMAGE TRANSFER SHEET, MANUFACTURING METHOD FOR IMAGE TRANSFER SHEET, AND IMAGE TRANSFER METHOD

Abstract

There are provided an image transfer sheet for leaving no air bubbles between an image layer and a transfer target object, a method for manufacturing the image transfer sheet and a method for transferring an image. An image transfer method, comprising the steps of: forming a glue layer by pressure-gluing a glued sheet, defined by a substrate and a glue layer provided on a lower surface of the substrate, onto an upper surface of a release paper, having many fine recesses, and subsequently peeling and removing the substrate and exposing the glue layer; printing ink on the exposed upper surface of the glue layer by a non-contact printer to thereby provide an image layer on part of the glue layer; affixing a transfer film on the glue layer provided with the image layer, wherein the transfer film is releasable from the image layer and easily adhesive to the glue layer, and causing the transfer film to contact with a lower surface of the transfer film onto the image layer where there is the image layer, and with the glue layer where there is no image layer; peeling and removing only the release paper from the image transfer sheet; pressure-gluing the lower surface of the glue layer of the image transfer sheet, with the release paper removed, onto a transfer target object; and peeling and removing the transfer film from the image transfer sheet pressure-glued to the transfer target object.

Claims

1. An image transfer sheet comprising an image layer in part of an area between a transfer film as an upper layer and a glue layer as a lower layer, the image transfer sheet defined by the glue layer, a lower surface of which being provided with many individually independent fine protrusions in the entire lower surface, and a release paper releasably glued to the lower surface of the glue layer, wherein the transfer film is releasable from the image layer and easily adhesive to the glue layer, and wherein a lower surface of the transfer film is in contact with the image layer where there is the image layer, and is in contact with the glue layer where there is no image layer.

2. The image transfer sheet of claim 1, wherein the image layer is ink printed on an upper surface of the glue layer by an inkjet printer.

3. The image transfer sheet of claim 1, wherein the image layer is UV ink printed on the upper surface of the glue layer by a UV printer.

4. A method for manufacturing an image transfer sheet, the method comprising the steps of: forming a glue layer by pressure-gluing a glued sheet, defined by a substrate and a glue layer provided on a lower surface of the substrate, onto an upper surface of a release paper, having many fine recesses, and subsequently peeling and removing the substrate and exposing the glue layer; printing ink on the exposed upper surface of the glue layer by a non-contact printer to thereby provide an image layer on part of the glue layer; and affixing a transfer film on the glue layer provided with the image layer, wherein the transfer film is releasable from the image layer and easily adhesive to the glue layer, and causing the transfer film to contact with a lower surface of the transfer film onto the image layer where there is the image layer, and with the glue layer where there is no image layer.

5. The method for manufacturing the image transfer sheet of claim 4, wherein the image layer is UV ink printed on the upper surface of the glue layer by a UV printer.

6. An image transfer method, comprising the steps of: forming a glue layer by pressure-gluing a glued sheet, defined by a substrate and a glue layer provided on a lower surface of the substrate, onto an upper surface of a release paper, having many fine recesses, and subsequently peeling and removing the substrate and exposing the glue layer; printing ink on the exposed upper surface of the glue layer by a non-contact printer to thereby provide an image layer on part of the glue layer; affixing a transfer film on the glue layer provided with the image layer, wherein the transfer film is releasable from the image layer and easily adhesive to the glue layer, and causing the transfer film to contact with a lower surface of the transfer film onto the image layer where there is the image layer, and with the glue layer where there is no image layer; peeling and removing only the release paper from the image transfer sheet; pressure-gluing the lower surface of the glue layer of the image transfer sheet, with the release paper removed, onto a transfer target object; and peeling and removing the transfer film from the image transfer sheet pressure-glued to the transfer target object.

7. The image transfer method of claim 6, wherein the image layer is UV ink printed on the upper surface of the glue layer by a UV printer.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 is a cross-sectional view showing one example of an image transfer sheet 1 according to a first embodiment;

[0020] FIG. 2 is a cross-sectional view showing one example of an image transfer sheet 2 according to a second embodiment;

[0021] FIG. 3 is a cross-sectional view showing the glue layer forming step (pressure-gluing of release paper) of the first embodiment;

[0022] FIG. 4 is a cross-sectional view showing the glue layer forming step (forming of fine protrusions) of the first embodiment;

[0023] FIG. 5 is a cross-sectional view showing the glue layer forming step (peeling removal of a substrate) of the first embodiment;

[0024] FIG. 6 is a cross-sectional view showing the printing step of the first embodiment;

[0025] FIG. 7 is a cross-sectional view showing the affixing step of the first embodiment;

[0026] FIG. 8 is a cross-sectional view showing the release paper removing step of the first embodiment;

[0027] FIG. 9 is a cross-sectional view showing the pressure-gluing step of the first embodiment;

[0028] FIG. 10 is a cross-sectional view showing the file peeling step of the first embodiment;

[0029] FIG. 11 is a cross-sectional view showing the glue layer forming step (glued sheet) of the second embodiment;

[0030] FIG. 12 is a cross-sectional view showing the glue layer forming step (glued roller) of the second embodiment;

[0031] FIG. 13 is a cross-sectional view showing the glue layer forming step (forming protrusions on the glue layer) of the second embodiment;

[0032] FIG. 14 is a cross-sectional view showing the glue layer forming step (affixing release paper 1) of the second embodiment;

[0033] FIG. 15 is a cross-sectional view showing the glue layer forming step (affixing the release paper 2) of the second embodiment;

[0034] FIG. 16 is a cross-sectional view showing the glue layer forming step (peeling removal of the substrate) of the second embodiment;

[0035] FIG. 17 is a cross-sectional view showing the printing step of the second embodiment; and

[0036] FIG. 18 is a cross-sectional view showing the affixing step of the second embodiment.

DETAILED DESCRIPTION OF THE INVENTION

[0037] Embodiments of the technology will now be described with reference to the drawings. FIG. 1 is a cross-sectional view showing an example of an image transfer sheet 1 according to a first embodiment of the present invention; and FIG. 2 is a cross-sectional view showing an example of an image transfer sheet 2 according to a second embodiment of the present invention. The image transfer sheets 1, 2 have different cross sectional shapes for release paper 13 depending on the different manufacturing methods, but otherwise have a common structure.

[0038] The image transfer sheet 1 comprises an image layer 15 between a transfer film 16 as an upper layer and a glue layer 12 as a lower layer, and the glue layer 12 is defined by having its lower surface releasably glued to an upper surface of the release paper 13. The release paper 13 according to the first embodiment is provided with many individually independent fine recesses 13a across its upper surface, and the lower surface of the glue layer 12 has many individually independent fine protrusions 12a formed thereon so that the protrusions 12a mate with the recesses 13a. Note that the image layer 15 is printed directly on the upper surface of the glue layer 12 by a non-contact printer such as an inkjet printer, an UV printer or the like, wherein in the case of an inkjet printer, the image layer 15 is an ink layer, and wherein in the case of an UV printer, the image layer 15 is an UV ink layer which has been dried and cured into a thin film-like form through the photopolymerization reaction by UV radiation during the printing.

[0039] The material of the transfer film 16 is preferably transparent acrylic resin if the glue component of the glue layer 12 is acrylic adhesive as described below, but not necessarily limited to acrylic resin and may be any material releasable from the image layer 15 and easily adhesive to the glue layer 12. Also with a transparent transfer film 16, the image shape and colors may be visually recognized through the surface of the image transfer sheet 1, and therefore, it will be easier to perform positioning and color matching of the transparent transfer film 16 against a transfer target object O.

[0040] The glue layer 12 is, for example, a layer of pressure-sensitive adhesive formulated by acrylic resin and tackifier, and may have any thickness, but preferably of 10-100 μm, in particular, about 30 μm. The release paper 13 has a silicon film or the like at least on its upper surface, and the release paper 13 is releasable from the glue layer 12 and easily peels off at a normal temperature.

A Method for Manufacturing the Image Transfer Sheet 1 and a Method for Transferring an Image According to the First Embodiment

[0041] FIG. 3-FIG. 7 are simplified cross-sectional views showing a method for manufacturing the image transfer sheet 1 according to the first embodiment of the present invention step by step. First, FIG. 3-FIG. 5 show the glue layer forming steps, wherein a glued sheet 10, defined by the glue layer 12 provided on the lower surface of a substrate 11, is pressure-glued to the release paper 13, provided with the many fine recesses 13a across the upper surface of the release paper 13 (FIG. 3) to cause the lower surface of the glue layer 12 to enter into the recesses 13a to form the many independent fine protrusions 12a (FIG. 4), and subsequently the substrate 11 is peeled and removed to expose the upper surface of the glue layer 12 (FIG. 5). For the glued sheet 10, pressure-sensitive adhesive consisting of acrylic resin, polyolefin fiber, tackifier may be used as the glue layer 12; and ready-made pressure-sensitive double-sided adhesive tape using siliconized glassine paper may be used as the substrate 11. Note that the release paper 13 with the many fine recesses 13a in the upper surface thereof may be made by embossing the release paper 13 itself to provide the recesses 13a as illustrated, or, when siliconizing and conferring the releasability to the substrate surface of the release paper during its manufacturing, the silicon film may be embossed before it solidifies to provide the recesses 13a.

[0042] FIG. 6 shows the printing steps, wherein an image layer 15 is printed directly on the upper surface of the glue layer 12 by a non-contact printer. Specifically, the release paper 13 provided with the glue layer 12 is set in the non-contact printer, and then, ink of an arbitrary color is sprayed and printed directly onto the upper surface of the glue layer 12 from a printer head P. In the case of UV printing, by radiating UV light from a UV light source (not shown) immediately after UV ink is sprayed, ink particles are dried and cured through the photopolymerization reaction to thereby form a film-like image layer 15. Since the UV ink particles adhering to the glue layer 12 are dried and cured after they form sealing contact with the upper surface's recesses/protrusions of the glue layer 12, the UV ink particles are fixedly attached to the glue layer 12. Also, since the image layer 13 is printed as a normal image, performing the thick printing as a UV printing characteristic allows any printing thickness with a three-dimensional feel within specifications of the printer in use, and applying the thick printing for only a specific part of the printed image enables creating an accent to the image's three-dimensional feel.

[0043] FIG. 7 shows the affixing step, wherein, after the image layer 15 has been dried and fixed, the transfer film 16 is affixed onto the glue layer 12, which includes the image layer 15, with the transfer film 16 covering the range of the entire image, to thereby complete the image transfer sheet 1 shown in FIG. 1. The completed image transfer sheet 1 may be handled in a similar manner to that of the conventional stickers, and may be regarded as a product allowing transfer and printing of only images.

[0044] FIGS. 8-9 are simplified cross-sectional views showing the steps of transferring the image layer 15 onto the surface of the transfer target object O. FIG. 8 shows the step of peeling and removing the release paper, wherein the release paper 13 is peeled and removed from the image transfer sheet 1. On the lower surface of the exposed glue layer 12, the many independent fine protrusions 12a are formed corresponding to the recesses 13a in the upper surface of the release paper 13.

[0045] FIG. 9 is a cross-sectional view showing the pressure-gluing steps of positioning the image transfer sheet 1 on the surface of a desired transfer target object O after the release paper 13 is peeled and removed, and pressure-gluing the lower surface of the glue layer 12 upon the transfer target object O. By applying pressure over the transfer film 16, the lower surface of the glue layer 12 consisting of pressure-sensitive adhesive is glued onto the surface of the transfer target object O, but at this time, it is desired to apply pressure only over the range of the image layer 15. This pressure may be applied through rubbing by finger tips, but in order to prevent wrinkling and/or deformation of the image layer 15, it is desirable to use a roller, a squeegee (spatula) or the like having even, smooth and appropriate resiliency to apply an uniform pressure.

[0046] At this time, by applying the pressure only over the range of the image layer 15, most of the air between the part of the glue layer 12 having the image layer 15 and the transfer target object O moves towards the part of the glue layer 12 without the image layer 15 through gaps between the protrusions 12a, or released to outside from the edge of the image transfer sheet 1, wherein a trace amount of remaining air is also dispersed among the gap space between the protrusions, leaving no air bubbles recognizable by the naked eye.

[0047] FIG. 10 is a cross-sectional view showing the film peeling step, wherein the transfer film 16 is peeled off after pressure-gluing of the image transfer sheet 1. When the transfer film 16 is peeled off after the image transfer sheet 1 is pressure-glued, the image layer 15, being glued to the glue layer 12, remains on the surface of the transfer target object O, to thereby complete the image transfer. On the other hand, since the glue layer 12 in the range without the image layer 15 is glued to the transfer film 16 and is removed from the surface of the transfer target object O, extra glue outside of the image may be prevented from remaining on the transfer target object O. Note that coating may be applied over the transfer target object O after the completion of the image transfer in order to improve abrasion resistance of the image layer 15 after its transfer and/or prevent peeling of the image layer 15 due to deterioration of the glue layer 12.

A Method for Manufacturing the Image Transfer Sheet 2 and a Method for Transferring an Image According to the Second Embodiment

[0048] FIGS. 11-18 are cross-sectional views showing a method for manufacturing the image transfer sheet 2 up to the glue layer forming step, printing step and affixing step according to the second embodiment of the present invention. The method for manufacturing the image transfer sheet 2 according to the second embodiment is similar to its counterpart of the first embodiment, except that the second embodiment has different means for forming the glue layer 12 with the many independent fine protrusions 12a provided on the lower surface of the glue layer 12 compared to the first embodiment; from the release paper removing step and thereafter, the second embodiment is similar to the first embodiment.

[0049] FIGS. 11-16 show the glue layer forming steps. First, a glued sheet 10, which has a glue layer 12 provided on the lower surface of the same substrate 11 used in the step of manufacturing the image transfer sheet 1 according to the first embodiment, is flipped to have its glue side facing upward (FIG. 11). Next, a roller R having many independent fine protrusions r on its peripheral surface is prepared, and after applying a paste material p, with the same material as that of the glue layer 12, only on the surface of the protrusions r, the roller R is pressed against and rolled on the glue layer 12 of the glued sheet 10 (FIG. 12). Thus, the paste material p sequentially leaves the protrusions r to adhere on the surface of the glue layer 12 to form the many independent fine protrusions 12a (FIG. 13). Next, on the surface of the glue layer 12, where the many independent fine protrusions 12a are formed, release paper 14, surface of which is not embossed and smooth, is pressure-glued (FIG. 14, FIG. 15), and then, the substrate 11 is peeled off after the entirety is reversed upside down to expose the smooth surface of the glue layer 12 (FIG. 16). Note that the shape of the many independent fine protrusions r on the peripheral surface of the roller R may be either dot-like or line-like, wherein when the protrusions r are dot-like, the protrusions 12a formed on the glue layer 12 will be dot-like, and wherein when the protrusions r are in a line-like shape, the protrusions 12a will be line-like.

[0050] FIG. 17 shows the printing step and FIG. 18 the affixing step, wherein operations of these steps are basically similar to those of the first embodiment, and with these steps, the image transfer sheet 2 according to the second embodiment, as shown in FIG. 2, is completed. Also, the release paper removal step of removing only the release paper 14 from the image transfer sheet 2, the pressure-gluing step of pressure-gluing the glue layer 12 of the image transfer sheet 2 after removing the release paper 14, and the film peeling step of peeling and removing the transfer film 16 from the image transfer sheet 2 pressure-glued to the transfer target object O are also similar to their counterparts in the first embodiment.

[0051] Although specific structures of the image transfer sheets, the methods for manufacturing the image transfer sheets and the methods for transferring an image according to the present invention have been described, the present invention is not limited to the above-described embodiments and allows improvements or modifications within the scope of technical ideas of the present invention; therefore, those improvements or modifications fall within the technical scope of the present invention. For example, the image layer 15 may be provided as in the image transfer sheet according to the second embodiment described in Patent Document 1, where the image layer is provided in a double-layer structure, in which case even when the image layer is transferred onto a highly-transparent transfer target object such as glass, each image layer seen from both sides of the transfer target object may be clearly recognizable without the image layer on the opposite side visible through the transparent transfer target object; or the image layer 15 may be provided as in the image transfer sheet according to the third embodiment of Patent Document 1, where a masking layer is further provided between image layers of the double-layer structure to enable changing of the color development and/or tone of each image layer.

[0052] Also, the present invention has a structure in which the transfer film is releasable from the image layer and easily adhesive to the glue layer, but the releasability between the transfer film and the image layer changes depending on the density of the ink constituting the image layer. Thus, adjusting the density of the ink used to print the image layer allows to control whether the image layer is transferred or peeled off together with the glue layer when peeling and removing the transfer film. According to the results of trials conducted by the present inventors using a UV printer (UFJ6042Mk2, Mimaki Engineering Co., Ltd.) and black ink (LUS-150 ink), when a light-colored image was printed with the ink density per unit area under 2 nanoliter/square mm, it was confirmed that upon peeling and removing of the transfer film after the image transfer, the image layer was peeled off from the transfer target object without remaining transferred. Note that the threshold of the ink density per unit area may be determined according to the ink and printer specifications. With such an effect as above, when printing the image layer, part of an image to be transferred may be printed with desired colors of ink each having a density equal to or higher than the threshold, whereas an image with no need to be transferred may be printed with a density less than the threshold to thereby allow having only desirable images on the image transfer sheet transferred and unwanted images not transferred. For example, on the image transfer sheet, crop marks for positioning may be printed as light-colored images so that the crop marks are not transferred after the transfer to thereby improve accuracy and efficiency of the transfer work.

INDUSTRIAL APPLICABILITY

[0053] According to the present invention, since air bubbles may be prevented from remaining between the transfer target object and the glue layer in the prior-art dry image transfer sheets with no substrate, air bubbles compromising aesthetics and/or quality of the transferred image may be prevented, and durability of the transferred image may be also improved. Thus, compared to the conventional art, transfer of a large image and/or image transfer to an item with a curved surface will be easier and the applications may be broadened.