JPH0342271A - Manufacture of transfer material - Google Patents

Abstract

PURPOSE:To enable transfer material to be manufactured easily and in a short time by forming at least a pattern layer using an ink jet printing technique. CONSTITUTION:A removable peel-off layer 2 is formed on a base sheet 1, and then a pattern layer 3 is formed on the peel-off layer 2. Furthermore, the pattern layer 3 is formed on the transfer material so that an adhesive layer 4 is provided on the layer 3 using an ink jet printing technique. This transfer material is placed over the other transfer material so that the adhesive layer 4 comes in contact with the surface of a transfer medium 5. Next, these transfer materials are heated and pressed and subsequently, the pattern layer 3 is caused to adhere to the surface of the transfer medium 5. After this, if the base sheet 1 is peeled off, the peel-off occurs on the surfaces of the base sheet 1 and the peel-off layer 2. Then the adhesive layer 4, pattern layer 5 and peel-off layer 2 are transferred to the surface of the transfer medium 5 and thus an image can be visualized on the transfer medium 5.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a method of manufacturing a transfer material extremely easily and in a short time.

[Conventional technology]

Conventionally, as a transfer material for expressing a color image or a monochrome image on the surface of a transfer target, a release layer is formed on a base sheet by a gravure printing method, a pattern layer is then formed by a gravure printing method or a screen printing method, and an adhesive layer is formed on the base sheet by a gravure printing method. There was a transfer material that was formed using a gravure printing method. After such a transfer material is transferred to a transfer object, the base sheet is peeled off and removed to transfer the peelable M layer, pattern layer, and adhesive layer, and an image is formed on the surface of the transfer object. Ta. In such transfer materials, the pattern layer has been formed by gravure printing or screen printing.

[Problem to be solved by the invention]

However, in the conventional manufacturing method of transfer materials having a pattern layer formed by gravure printing or screen printing, when producing a plate for the pattern layer, there are steps such as color separation → production of each color film → production of each color printing plate, etc. Gravure plates or screen plates for each color must be produced through a so-called plate-making process, which is costly. In addition, the plate-making process generally consists of many complicated steps, and involves a large number of people, including 9J! This requires a skilled person and takes a lot of time to produce, which is completely inconvenient, especially when it is desired to quickly produce a printed sample to present to a customer who has received an order. An object of the present invention is to solve the above-mentioned problems and to provide a method by which a transfer material can be manufactured extremely easily and in a short time.

[Means to solve the problem]

In order to achieve the above object, the present invention is configured as follows. That is, the present invention provides a method for manufacturing a transfer material in which a release layer that can be peeled off from the base sheet is formed on a base sheet, a pattern layer is then formed on this, and an adhesive layer is further formed on this, in which at least the pattern layer is formed. was configured to be formed by an inkjet printing method. The present invention will be explained in more detail with reference to the drawings. FIG. 1 is a sectional view showing an embodiment of a transfer material manufactured according to the present invention. 1 is a base sheet, 2 is a release layer, 3
4 indicates the pattern layer and 4 indicates the adhesive layer, respectively. As the base sheet 1-1, specifically, plastic films such as polyethylene terephthalate, polypropylene, polyethylene, nylon, and cellophane, or composite films of these and paper, which are used as base sheets for ordinary transfer materials, are used. It's good to do that. The release layer 2 is provided on the base sheet l, and is peeled off from the base sheet l after transfer. Furthermore, since it becomes the surface of the object to be transferred 5 after transfer, it also has the function of protecting the pattern N3. The release layer 2 is usually formed by a gravure printing method. Thermosetting resins such as acrylic resins and vinyl resins can also be used as the release layer 2, but in order to fully fulfill its role as a protective layer, it is necessary to use thermosetting resins such as urethane resins and epoxy resins. An ultraviolet or electron beam curing resin such as a resin or methyl methacrylate may be used.Also, if the peeling layer 2 is formed of a material having adhesive properties to the transfer target 5 in addition to the above-mentioned properties. , it is also possible to omit the step of forming the adhesive N4 (see FIG. 3). The pattern layer 3 is formed by an inkjet printing method, and is a layer for forming a design on the surface of the transferred object 5. Therefore, the ink used for the pattern layer 3 contains a pigment or dye, and is a resin that has adhesive properties. An ink consisting of the following may also be used. Alternatively, an ink having some function may be used, and a water-based ink is preferable as an ink for forming an image by an inkjet printing method. Using such ink, a pattern layer 3 is formed on the release layer 2 by an inkjet printing method. Inkjet printing can be any type of inkjet printing that is normally available.Basically, it prints images such as printed photographs, photographic film, printed materials, and manual manuscripts that are input using a scanner, camera, etc., or images that are created using a computer. After performing operations such as color adjustment and editing on a computer, in the case of a color image, ink is ejected from nozzles of three or more colors to form an image on the release layer 2. The adhesive layer 4 is for adhering the peeling layer 2 on the base sheet 1 to the surface of the object 5 to be transferred, and also for adhering the pattern layer 3 to the object 5 to be transferred. The adhesive layer 4 is usually formed following the pattern N3 by a gravure printing method. As the adhesive layer 4, a heat-sensitive or pressure-sensitive resin suitable for the surface material such as the plastic molded product that is the transfer target 5 is used as appropriate. For example, if the transferred material 5 is an AS resin, an acrylic resin or a vinyl resin may be used, and if the material is polypropylene, a chlorinated polypropylene resin or an ethylene-vinyl acetate copolymer resin may be used. As described above, when the adhesive layer N2 is formed on the transfer target 5, the adhesive layer 4 is not necessary. In this case, the adhesive peeling layer 2 is pressed onto the surface of the transfer target 5 from above the pattern layer 3 formed on the peeling layer 2 and adhered thereto. The ink forming the pattern layer 3 may have adhesive properties, but even if it does not have adhesive properties, the layer thickness of the pattern N3 formed by the ink side printing method is usually thin, so the peeling H layer 2 and the transferred It can be fixed in such a way as to be sandwiched between the body 5 and the body 5. Note that layers such as the release layer N2 and the adhesive layer 4 can also be formed by the inkjet printing method in the same manner as the pattern layer 3. By doing this, the method for forming each layer is unified, and there is no need to separate the steps for forming each layer, making it possible to manufacture the device even more easily and in a shorter time. Further, the transfer material according to the present invention is not limited to the layer structure described above, and the design can be changed as appropriate depending on the desired design. For example, if you want a metallic luster,
It is preferable to use a metal vapor deposited layer or the like as a constituent layer. Or strip #
[Formation of Ii2 and adhesive N4 in a pattern, use of a base sheet 1 having an uneven surface, surface protection layer, matte layer, or vapor deposition formed as necessary when providing the metal vapor deposition layer. Various layers such as the anchor layer can be made of tl Tfc15, and these layers can also be formed by an ink sieve printing method without being limited to the conventional gravure printing method or screen printing method.

[Function] In the transfer material obtained by this invention, a release layer 2 that can be peeled off from the base sheet 1 is formed on the base sheet 1, a pattern layer 3 is then formed on this, and an adhesive layer 3 is further formed on this.
4 is a transfer material on which at least a pattern 113 is formed by an ink-side printing method. The pattern layer 3 is adhered to the surface of the transfer object 5 by overlapping the transfer materials so that the adhesive N4 side is in contact with the surface of the transfer object 5 and applying heat and pressure. Next, when the base sheet 1 is peeled off, 111 separation occurs at the interface between the base sheet 1 and the release layer 2. Here, the adhesive layer 4, the pattern N3, and the release layer 2 are transferred to the surface of the transfer object 5, and an image can be expressed on the surface of the transfer object 5 (see FIG. 2). [Effects of the invention] The method for producing a transfer material of the present invention involves forming a peelable gI layer on a base sheet, which can be peeled off from the base sheet, then forming a pattern layer on this, and further forming an adhesive layer on this. In the method for producing a transfer material, at least the pattern layer is formed by an inkjet printing method. Therefore, in order to print the pattern, a printed photograph, photographic film, printed matter, hand-drawn manuscript, or computer-generated image is directly printed as an image. It can be used as a manuscript, and there is no need to prepare a version for it. Therefore, it is possible to omit the complicated plate-making process that conventionally took time and cost, so that the transfer material can be manufactured very easily and in a short time. The method for manufacturing a transfer material of the present invention is particularly effective in applications such as submitting product samples to customers, for example. In other words, transfer materials are often used to decorate the surface of three-dimensional containers, but when presenting and explaining to customers a completed sample of the design of a product's pancake, it would be costly and time consuming to produce the transfer material using conventional manufacturing methods. If the sample is not suitable for production, or if we receive a request to modify the printed pattern after presenting the sample, it will be necessary to produce the transfer material again, and the time spent producing the sample will be lost.・Costs are wasted. On the other hand, methods that do not use transfer materials as a means of painting product package samples include hand-drawing.The hand-drawing method is not sufficient as a sample because the quality is different from the finished printed design, and it also costs a lot of money. It is unsuitable for sample production because it takes time. Another option is to print directly on the container surface using inkjet printing or other printing methods, but printing on a three-dimensional surface requires skilled technology, and since each product has a different shape and size, specific treatments may be required. The process is complicated, requiring tools, and the printing process is also time-consuming.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view showing an embodiment of the transfer material manufactured by the present invention, FIG. 2 is a cross-sectional view showing the state in which the transfer material manufactured by the present invention is transferred onto a transfer target, and FIG. FIG. 1 is a cross-sectional view showing one embodiment of a transfer material manufactured according to the present invention. ■...Base sheet, 2...! J, +I N layer, 3.
...Design layer, 4...Adhesive, 5...Transferred object

Claims (1)

[Scope of Claims] 1. A method for producing a transfer material, which comprises forming a release layer on a base sheet, which can be peeled off from the base sheet, then forming a pattern layer on this, and further forming an adhesive layer on this, comprising at least A method for producing a transfer material, characterized in that a pattern layer is formed by an inkjet printing method. 2. A method for producing a transfer material, which comprises forming on a base sheet a release layer that is removable from the base sheet and has adhesive properties, and then forming a pattern layer thereon by an inkjet printing method.