RU2164474C1 - Method for transfer of image to various surfaces - Google Patents

Abstract

FIELD: processes transfer of image to various surfaces of articles manufactured of various materials. SUBSTANCE: scanning of the image is accomplished, the image is brought out to a monitor coupled to a computer, erect or inverted image is brought out to the transfer material with the aid of a printer, and the brought-out image is transferred to the base by registration of the transfer material with the image on the base. After registration of the transfer material with the base, they are subjected to thermal treatment for 10S at a temperature of 50 C required for bases made of fusible materials, and for 30 min at 350 C required for bases made of refractory materials. Then the transfer material is separated from the base, and the obtained image is protected against external disruptive effects by application of polymeric coatings and thermal treatment. EFFECT: enhanced durability, stability, strength characteristics of the transferred image in the conditions of disruptive effects of temperature and moisture. 3 dwg

Description

 The invention relates to technological processes for transferring color or black and white images to various surfaces and can be used in the printing industry, in the manufacture of decorative materials, when creating protective and decorative coatings for ceramic products, glass and metal; in design, in plaques and monuments, stained glass.

 Known raster methods for non-contact recording of images and information on the surface of the medium by dispensing the cost of the colorful compositions in the direction toward the surface through the use of inkjet printers (see UK patent 2220892, CL B 41 J 3/04, 1998). In the decorative business, to create a theatrical scenery, color stained-glass windows, the method of photolithography is used, which consists in contact exposure from emulsion photomasks. To protect the image from the harmful effects of the environment, film protective coatings based on drying oils, oil varnishes, synthetic resins, high polymer materials are used (see patent RU 2012917, 1994). A known method of transferring images to various surfaces using the spray transfer principle (see US patent 4839666, 1989). The method consists in progressive scanning of reading an optical image in the plane of its focusing and synthesis of a copy of this image on the surface.

The disadvantages of the known methods include:
- poor image reproduction quality;
- the inability to use with various substrates, such as ceramics, various fabrics;
- the impossibility of transferring images to curly surfaces;
- low strength characteristics of the surface;
- low weather resistance (burnout).

 The closest analogue of the proposed method for transferring images to various surfaces is the method that they scan or shoot the image, display the image on a monitor connected to a computer, crop, retouch the image and adjust its color on the monitor, display the forward or reverse image with using a printer or copy machine on the transfer material and transfer the displayed image to the substrate by combining the transfer material with the image with spoon (see. Journal for printers and publishers, "Computer", Ed. Computer Press, N 7, 1998, p. 48).

 The disadvantages of the closest analogue include low functionality due to the lack of specific modes of the process intended for the various materials of which the substrates are made; for various transfer materials. The known method does not take into account the conditions of use of the product on which the image is transferred. In the known method, insufficient attention is paid to the durability, durability and strength of the characteristics of the transferred image.

 The objective of the proposed method for transferring images to various surfaces is the development of technology for image transfer using modern computer hardware that provides increased durability, durability and increase the strength characteristics of the transferred image under conditions of destructive effects, temperature and moisture.

This problem is solved due to the fact that in the method of transferring an image to various surfaces, which consists in scanning the image, displaying the image on a monitor connected to a computer, cropping, retouching the image, adjusting its color on the monitor, displaying a forward or reverse image using a printer or copy machine on the transfer material and transfer the displayed image to the substrate by combining the transfer material with the image with the substrate, after combining the trans spherical material with a substrate, they are heat treated for 10 seconds at a temperature of 50 ^° C, necessary for substrates made of fusible materials, and for 30 minutes at 350 ^° C for substrates of refractory materials, after which the transfer material is separated from the substrate and protect the image obtained on the substrate from external damaging effects by applying polymer coatings and heat treatment.

 In FIG. 1 shows a flow chart of image transfer; in FIG. 2 shows the operation of transferring an image onto a substrate; in FIG. 3 depicts the operation of transferring an image onto a substrate made of glass, in which case the image is protected by the surface of the glass, and the opposite side of the image is coated with a polymer coating. The essence of the proposed method is as follows. The proposed method is based on the use of modern computing technologies associated with the use of digital image input and output devices controlled by a computer.

 The proposed method allows the process of transferring images to porcelain, earthenware, leather, textile, clay, glass, metal, plastic and other derived materials.

A complete description of the image transfer process is as follows:
- scanning photos or entering into a computer using optical systems compatible with the computer;
- processing in the program of pixel graphics;
- output through a printer or copy machine to transfer materials;
- combination of transfer material with the image with the product (substrate);
- heat treatment for 10 seconds - 30 minutes at a temperature of 50-350 ^o C;
- separation of the transfer material from the product (substrate), the image remains on the substrate;
- protection against external influences;
- heat treatment for 5 to 120 minutes at a temperature of 50-350 ^o C.

 In the proposed method can be applied to various existing technical means for input and output images.

Existing scanners of three types of devices can be used to enter graphical information: drum, tablet, and specialized slide scanners. Scanning or digital reshooting of an image consists in inputting an image into a computer using equipment that allows you to convert an optical image into a digital one. For this, various types of scanners, digital cameras, video cameras, slide scanners are used. The image is displayed on a computer monitor. Using a program of pixel graphics, crop, retouch the image and adjust its color. A direct or reverse image is output using a printer or copy machine to transfer material. The best image quality is obtained when using printers using the principle of dry color printing MICRO DRY. The print head of the printer consists of 240 heating elements, which, when passed along the ink ribbon, heat the ink to 80 ^o C and print it onto the paper with dots of 40 microns in size. The paint does not impregnate the paper, but sticks to it, so the colors on the prints look brighter and cleaner. The image does not blur and does not smear, does not fade over time and does not fade in the sun.

This technology allows you to print color photorealistic images on paper of any quality: on a postcard, on cardboard with a thickness of 0.23 mm, on a transparent film, self-adhesive films, on plastic and foil. Photographic quality can be achieved by printing on photo paper. In addition, you can apply transfer material in the form of thermal transfer paper and film, with which pictures are transferred to various surfaces - book covers, boxes, posters, wood, plastic, fabrics, various objects. Printers can print with metallic inks (gold, silver). The strength characteristics of the transfer material are in the range of 80-150 g / cm ² . The resulting image on the transfer material is transferred to the substrate (product) by combining the transfer material with the substrate. Transfer material can be combined with products (substrate) of any shape, including cylindrical. After combining, heat treatment is carried out for 10 seconds - 30 minutes at a temperature of 50-350 ^o C. The selected heat treatment mode is determined by the materials from which the products (substrates) are made. The heat treatment mode, characterized by a processing time of 10 seconds at a temperature of 50 ^o C, is necessary for products (substrates) made of fusible materials, for example, polyepoxy resins with wax additives, fusible transfer materials. The heat treatment mode up to 30 min and a temperature of up to 350 ^o C is set for products (substrates) made of marble, granite, glazed metal, refractory materials.

 Intermediate modes are used for products made of wood, thermoplastics.

For a given range of heat treatment, the connection between the paint and the transfer material is violated due to its softening. The image sticks to the product (substrate) due to adhesion forces. The adhesion forces between the paint and the substrate are higher than the force between the paint and the transfer material, the surface of which is coated with a thin film. After that, the transfer material is separated from the substrate, which is easily separated from the paint layer without damaging it. The adhesion force between the paint and the substrate becomes higher if the product (substrate) is coated with glaze, which usually occurs in earthenware products, decorative and artistic products. During the heat treatment, softening of the glaze occurs, which leads to an increase in adhesion forces. In the future, they proceed to protect the image obtained on the substrate from external damaging effects by applying polymer coatings and heat treatment for 5-120 minutes at a temperature of 50-350 ^o C. As the material of the polymer coating, polyepoxide resins, powder-type polyester resins, and liquid varnishes that do not react chemically with a transfer image.

After that, heat treatment is carried out for 5-120 minutes at a temperature of 50-350 ^o With for substrates made of any materials other than containing wax components. The method essentially encompasses thermal conditions for most existing transfer materials and substrates. As a result of the implementation of the proposed method of image transfer, an image is obtained on the desired product with high quality, characterized by improved color gamut, high artistic and decorative level and protected from the harmful effects of the environment.

 In order to provide increased reliability of saving the transferred image, a screen made of glass can be used as a protective material. In this case, a direct image is output to the transfer material. Heat treatment is performed when the glass screen is located on the image. After removal of the transfer material, the reverse side of the image is protected from damage.

 High quality transfer and its durability are achieved due to the great functionality of the applied technical means: scanners, computer, printer. The use of a computer allows the operation of cropping, retouching the image and adjusting its color.

 Retouching, correction, editing of the image allows you to create (draw) any of your image or process the introduction of the image.

Image processing includes:
- framing - changing the image format, removing or introducing additional image elements into the original;
- retouching - removal of image defects using editorial computer programs of pixel and vector graphics;
- coloring, color correction - applying a color scheme to any image.

 In this case, various programs that are widely used in printing and computer artists can be used.

 When displaying images using output devices, organic and inorganic dyes are used on paper and films, allowing these images to be transferred to any surface.

 Heat treatment is carried out using electric heating chambers or by applying rubber-metal electrodes to the product to create local heating or by heating the product using any of the known methods (contact or non-contact) using infrared radiation or hot air.

Claims (1)

A method of transferring an image to various surfaces, which consists in scanning an image, displaying an image on a computer-connected monitor, outputting a direct or reverse image using a printer to a transfer material, and transferring the output image to a substrate by combining the transfer material with the image with the substrate characterized in that after the alignment transfer material with the substrate is carried out of the heat treatment for 10 s at 50 ^o C, necessary for n dlozhek made of fusible material, and for 30 minutes at 350 ^o C for substrates of refractory materials, whereupon the transfer material is separated from the substrate and to protect the resulting image from external influences by depleting polymer coating and heat treatment.

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