RU2526682C1 - Method of duplex printing on flat polymeric materials - Google Patents

Abstract

FIELD: printing.

SUBSTANCE: method of duplex printing on flat polymeric materials, comprising applying to one surface of a transparent material of a layer of curable opaque polymer composition, comprising recurring image, curing the layer, applying to the other opposite surface of the transparent material of the layer of curable opaque polymer composition and curing the layer. Applying of the layer of opaque curable polymer composition, comprising recurring image, is carried out using the offset, photostencil or flexographic equipment, and applying a layer of curable transparent polymer composition is carried out using the automatic or semi-automatic photostencil printing equipment with a flat doctor blade with the rigidity of 65÷90 Shore, located at an angle of 70÷78 degrees to the grid of photostencil form with lineature of 34÷180 lines/cm, and curing the layer.

EFFECT: improved method.

3 cl, 3 dwg, 6 ex

Description

FIELD OF THE INVENTION

The invention relates to the field of printing, to the technology of manufacturing complex multilayer plastic products using printing equipment, and more particularly, to methods of screen printing pseudo-volume images on sheet materials from transparent plastics. The invention can be used in the manufacture of decorative panels, plastic cards and cards.

State of the art

A known method of double-sided printing on opposite or both surfaces of a layer on a multilayer foil laminated material containing at least one layer, preferably outer, of plastic film material, on both surfaces of which there is a print. In essence of the invention, the two-sided printing method includes initially printing on the first side of the outer layer of a plastic film material, preferably such as polyester, moreover, printing is carried out on the side or surface of the plastic film material facing the metal foil to which it is adhered, in addition, an impression on the plastic film material is applied by half-tone color printing in the reverse position, and subsequently, after printing is completed on the outside of the film, it the printed side is bonded with an adhesive to a metal foil. After that, in order to print on the opposite or external surface of the outer plastic film material, the latter is imprinted by thermal transfer, preferably using a ceramic print head (RF patent application No. 94029674, IPC ⁶ B41F 7/00, publ. 20.06 .1996).

The disadvantages of this method: low productivity, limited technological capabilities, namely the impossibility of creating the effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material when the observer sees the surface either in the depth of the product or hovering above the product.

Disclosure of invention

The technical problem to be solved is to increase productivity and expand technological capabilities for the production of decorative materials and products by creating the effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material.

The problem is solved in that in the method of double-sided printing on flat polymeric materials, including applying a layer of a curable opaque polymer composition onto a single surface of a transparent material, containing a periodically repeating image, curing the layer, applying a layer of a curable transparent polymer composition onto another opposite surface of the transparent material and curing the layer according to the proposed method, applying a layer of an opaque curable polymer composition containing a periodically repeating image is carried out using offset, screen or flexographic equipment, and a layer of a curable transparent polymer composition is applied using an automatic or semi-automatic screen printing equipment with a flat squeegee of rigidity 65 ÷ 90 Shore, located at an angle of 70 ÷ 78 degrees to the screen grid shapes by lineature 34 ÷ 180 lines / cm. To apply a layer of a curable transparent polymer composition, colorless varnish with a viscosity of 25 ÷ 85 Pa * s is used. The gap between the flat transparent sealable material and the printing plate mesh is set in the range of 4 ÷ 10 mm.

The invention is illustrated by examples of the method and diagrams of several product options obtained by the claimed method of double-sided printing on flat polymeric materials.

Brief Description of the Drawings

Figure 1. A fragment of a micrograph of a cross-section of a plastic card sealed by the proposed method, indicating the dimensions and radius of curvature (R) of the lenses formed when printing in a layer of a transparent polymer composition using automatic or semi-automatic screen printing equipment (mm).

Figure 2. A cross-sectional diagram of the top layer of a plastic card sealed by the proposed method using screen varnish with a viscosity of 45 Pa * s with a screen mesh lineature of 150 lines / cm. Designations: D2 - lens height; D2 is the width of the lenses and R2 is the radius of curvature of the lenses formed in the layer of a transparent polymer composition when printing using automatic or semi-automatic screen printing equipment.

Figure 3. A cross-sectional diagram of the top layer of a plastic card sealed by the proposed method using screen varnish with a viscosity of 25 Pa * s with a screen mesh lineature of 34 lines / cm. Designations: h3 - lens height; D3 is the width of the lenses and R3 is the radius of curvature of the lenses formed in a layer of a transparent polymer composition when printing using automatic or semi-automatic screen printing equipment.

The implementation of the invention

Example 1. Two-sided printing is carried out on a flat polymeric material — on a sheet of transparent polyethylene terephthalate 0.3 mm thick. The application of a layer of a curable opaque polymer composition with a thickness of 0.9-1.2 μm, containing periodically repeating images - a decorative ornament of geometric shapes, is performed using Classic Colors Sahara inks from the Toray Waterless Plate printing form on an offset printing machine without wetting of the KVA PLANETA AG 72- brand 5 + L ALV with a temperature on the paint rollers of 28 ° C and with UV curing of the paint layer. Printing speed 5500 prints / hour. On the reverse side of the transparent material, a layer of a transparent polymer composition is applied - a colorless ultraviolet curing varnish with a viscosity of 85 Pa * s (determined on a NAAKE rotational viscometer) at 10 rpm) on an SVECIA SCY-30 automatic screen machine with a 90-Shore hardness squeegee located at an angle 78 degrees to the screen mesh with a lineature of 180 lines / cm. The gap between the flat transparent sealable material and the printing plate mesh is 4 mm. Process productivity 1600 prints / hour.

After curing the varnish in the UV oven, the resulting two-sided impression is evaluated according to the clarity of the image of the ornament when looking at the print at an angle of 90 degrees, plus when turning 45 degrees from the normal in either direction (full viewing angle - 90 degrees). The image remains readable and equally clear at different locations within the solid angle of at least 90 degrees. The effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material is obtained when the observer sees the surface either in the depth of the product or soaring above the product.

Example 2. Perform double-sided printing on a flat polymeric material according to example 1, but on a sheet of transparent polypropylene with a thickness of 0.4 mm Drawing a layer of a curable opaque polymer composition 0.9-1.2 μm thick containing periodically repeating images - a decorative ornament of geometric shapes using Solarflex ™ NOVA inks from a DuPont ™ Cyrel® FAST DFH digital printing plate on a Gallus ICS 670 flexographic printing machine with UV curing paint coat. Printing speed 220 meters / min. On the reverse side of the transparent material, a layer of a transparent polymer composition is applied using a colorless varnish of UV curing with a viscosity of 45 Pa * s (determined on a NAAKE rotational viscometer) at 10 rpm) on an SVECIA SCY-30 automatic screen machine with a Shore hardness of 75 located below angle of 72 degrees to the screen mesh with a lineature of 150 lines / cm. The gap between the flat transparent sealable material and the printing plate mesh is 4 mm. The productivity of the process is 1400 prints / hour.

After curing the varnish in the UV oven, the resulting two-sided impression is evaluated according to the clarity of the image of the ornament when looking at the print at an angle of 90 degrees, plus when turning 45 degrees from the normal in either direction (full viewing angle - 90 degrees). The image remains readable and equally clear at different locations within the solid angle of at least 90 degrees. The effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material is obtained when the observer sees the surface either in the depth of the product or soaring above the product.

Example 3. Two-sided printing is carried out on a flat polymeric material as in Example 1, but on a 0.5 mm thick transparent polyvinyl chloride sheet. Drawing a layer of a curable opaque polymer composition with a thickness of 0.9-1.2 microns, containing periodically repeating images - a decorative ornament of geometric shapes, using Siegwerk SICURA PLAST SP inks from an Agfa Meridian P55 printing form on a KOMORI LSX traditional wet offset printing machine -629 with UV curing paint coat. Print speed 8,200 prints / hour. On the reverse side of the transparent material, a layer of a transparent polymer composition is applied using a colorless UV curing varnish with a viscosity of 40 Pa * s (determined on a NAAKE rotational viscometer) at 10 rpm) on an SVECIA SCY-30 automatic stencil machine with a Shore hardness of 75 located under angle of 72 degrees to the screen mesh with a lineature of 150 lines / cm. The gap between the flat transparent sealable material and the printing plate mesh is 4 mm. The productivity of the process is 1100 prints / hour.

After curing the varnish in the UV oven, the resulting two-sided impression is evaluated according to the clarity of the image of the ornament when looking at the print at an angle of 90 degrees, plus when turning 45 degrees from the normal in either direction (full viewing angle - 90 degrees). The image remains readable and equally clear at different locations within the solid angle of at least 90 degrees. The effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material is obtained when the observer sees the surface either in the depth of the product or soaring above the product.

Example 4. Perform double-sided printing on a flat polymeric material, as in example 1, but on a sheet of transparent polyacrylic 1 mm thick. The application of a layer of a curable opaque polymer composition with a thickness of 9-11 μm, containing periodically repeating images - a decorative ornament of geometric shapes, is performed by Sericol UL UV screen inks on an automatic SVECIA PRINTMASTER screen machine with a Shore hardness 90 at an angle of 70-80 degrees to screen mesh lineature 165 lines / cm. Print speed 450 prints / hour. On the reverse side of the transparent material, a layer of a transparent polymer composition is applied using a colorless 31 Pa * s UV curing varnish on an AT-160P semi-automatic screen machine with a Shore hardness 65, located at an angle of 70 degrees to the screen-shaped grid with a line of 100 lines / cm. The gap between the flat transparent sealable material and the printing plate mesh is 7 mm. The productivity of the process is 350 prints / hour.

After curing the varnish in the UV oven, the resulting double-sided impression is evaluated according to the clarity of the image of the ornament when looking at the print at an angle of 90 degrees plus when turning 45 degrees from this angle in any direction, the viewing angle is 90 degrees and is oriented in all directions. The image remains readable and equally clear at different locations within the solid angle of at least 90 degrees. The effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material is obtained when the observer sees the surface either in the depth of the product or soaring above the product.

Example 5. Perform double-sided printing on a flat polymer material according to example 1, but on a sheet of transparent polycarbonate with a thickness of 3 mm The application of a layer of a curable opaque polymer composition with a thickness of 9-11 μm, containing periodically repeating images - a decorative ornament of geometric shapes, is carried out using Nazdar 4000 series UV screen inks on a semi-automatic screen machine MNM SP 4000 with a doctor blade of 90 Shore hardness located at an angle of 70-70 80 degrees to the screen mesh with a lineature of 165 lines / cm. Printing speed 350 prints / hour. On the reverse side of the transparent material, a layer of a transparent polymer composition is applied using a 25 Pa * s colorless UV curing varnish on an ATMACE 1014 / G semi-automatic screen machine with a Shore hardness of 75, located at an angle of 70 degrees to the screen-shaped grid with a line of 34 lines / cm. The gap between the flat transparent sealable material and the printing plate mesh is 10 mm. Process productivity 250 prints / hour.

After curing the varnish in the UV oven, the resulting double-sided impression is evaluated according to the clarity of the image of the ornament when looking at the print at an angle of 90 degrees plus when turning 45 degrees from this angle in any direction, that is, the full viewing angle is 90 degrees. The image remains readable and equally clear at different locations within the solid angle of at least 90 degrees. The effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material is obtained when the observer sees the surface either in the depth of the product or soaring above the product.

Example 6 (control). Two-sided printing is carried out on a flat polymeric material — on a transparent polyvinyl chloride sheet 0.4 mm thick as in Example 1, but using varnish with a viscosity of 31 Pa * s, a screen mesh with a lineature of 150 lines / cm, a doctor blade of rigidity 75 along Shore, located at an angle of 72 degrees to the screen mesh. The gap between the flat transparent sealable material and the printing plate mesh is 4 mm.

The image is unreadable and fuzzy inside a solid angle of at least 60 degrees.

Printing on a flat polymer material by a known method (patent application of the Russian Federation No. 94029674) is carried out by digital printing, the maximum speed of which can reach 30 m ² / hour, which is obviously less than the speed of screen printing - the slowest stage of the process described in this patent. Also, in a known manner, it is impossible to obtain the effect of magnification and remote location of images contained in an opaque printed layer when observed through transparent layers of material when the observer sees the surface either in the depth of the product or hovering above the product.

Claims (3)

1. The method of double-sided printing on flat polymeric materials, comprising applying to one surface of a transparent material a layer of a curable opaque polymer composition containing a periodically repeating image, curing the layer, applying a layer of a curable transparent polymer composition to a different, opposite surface of the transparent material, and curing the layer, characterized the fact that the deposition of a layer of an opaque curable polymer composition containing a periodically repeating image, o exist using offset, screen or flexographic equipment, and applying a layer of a curable transparent polymer composition using automatic or semi-automatic screen printing equipment with a flat squeegee with a rigidity of 65 ÷ 90 Shore, located at an angle of 70 ÷ 78 degrees to the screen mesh with a lineature of 34 ÷ 180 lines /cm. 2. The method of double-sided printing according to claim 1, characterized in that for applying a layer of a curable transparent polymer composition, colorless varnish with a viscosity of 25 ÷ 85 Pa · s is used. 3. The method of double-sided printing according to claim 1, characterized in that when applying a layer of a curable transparent polymer composition using automatic or semi-automatic screen printing equipment, the gap between the flat transparent printing material and the grid printing plate is 4 ÷ 10 mm

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