PL218615B1 - Method for producing a molding with a stereoscopic lenticular of plastic on the plastic - Google Patents

Abstract

The solution concerns the method of producing a profile with a stereoscopic lenticular image from plastics on plastic, especially intended for the production of information, advertising, packaging, decorative and toy elements based on injection molding in injection molds of shapes with a stereoscopic image made of plastics. The method consists in the fact that a transparent material collecting electric charges (1), especially a foil with a lenticular raster print applied, especially from the bottom side turned by 180° along the vertical or horizontal axis, is placed inside the matrix (2) and the whole thing is permanently joined by injection into transparent thermoplastic matrix. The formed element with the lenticular stereogram can be overmoulded in a thermoplastic matrix with a material of any color.

Description

The subject of the invention is a method for producing a molded part with a stereoscopic lenticular image from plastics on plastic, especially intended for the production of information, advertising, packaging, decorative and toy elements based on injection molding in injection molds of moldings with a stereoscopic image made of plastics.

From the Polish patent application No. 385696, a method for obtaining three-dimensional drawings / labels or packaging is known, consisting in the fact that for a matrix containing a label drawing in the slot of one part, on a material with appropriate heat conduction, air permeability, stiffness and not accumulating electric charges, which is printed in agreement with a second matrix portion containing a parallel lens generator, and in the second matrix portion a series of cylindrical longitudinal lenses, cylinder portions, or prisms, the number of which per inch is precisely defined and constitutes the lens generator, the material is sprayed out monolithic with the properties of light transmission, obtaining a drawing with a three-dimensional image that is a homogeneous whole with the label or packaging.

In the known procedure, joining a label containing a drawing on its surface inside the matrix does not result in a monolithic, homogeneous bonding of individual layers with a simultaneous degradation of the print, especially at the injection site.

Raster printing is known, in which the images consist of fringes alternately of the right and left image, and the superimposed transparent films with linear cylindrical or prismatic lenses ensure the separation of images.

There is also a known lenticular stereogram in which two stereoscopic half-images for both eyes (or more intermediate images) are alternately arranged on the support in the form of microscopic stripes. A transparent film with a cylindrical convex lens embossed on one side is applied to the carrier. A transparent film with a cylindrical convex lens embossed on one side is applied to the carrier. This lens causes the viewer to see only some stripes of the image. If the starting material for the preparation of such a stereogram were only two stereoscopic half-images, the right eye sees only the right half-image, and the left eye - the left one. In the case of a greater number of intermediate images, an even more perfect illusion of space is obtained when viewed from a varying angle.

It is also known to overmould the smooth central transparent part with any color.

It is known from the English patent application GB 2 377 201 a method for obtaining molded articles with a printed lenticular image, produced by placing a printed film inside a mold. By injecting transparent plastic into the mold, a product is produced having a film on one surface and lens objectives on the opposite transparent surface.

This document relates to various methods of printing an image inside a molding such that the injected material is in contact with the print or the unprinted area of the film or paper. By following this invention, it is impossible to obtain a permanent bond between the printed material and the remainder of the molding, since the chemical composition of the printing inks is different from that of the thermoplastics. On the other hand, the high temperature of the injected material causes color changes and degradation of the print, and the paper cannot be permanently connected with transparent thermoplastic by injection.

A method for obtaining a three-dimensional image in the form of layers formed by spraying transparent plastic is also known from the Chinese description of the invention No. CN 101 954 703. The outer layer is a smooth layer, not imitating a lenticular lens.

The object of the invention is a procedure enabling the production of a molding with a stereoscopic image, in any graphic form, placed on a material accumulating electric charges, in particular on a film used for making information, advertising, packaging, decorative and toy elements, on packages or their closures.

The essence of the invention consists in the fact that a transparent material accumulating electric charges in the form of a foil with a print applied on the underside, a raster lens turned by 180 ° along the vertical or horizontal axis, is placed inside the matrix with an imprint on its smooth surface and permanently connects it by injection of a transparent thermoplastic into the matrix, then proceeding in a known manner. According to the invention, a molded element with a lens pattern is contoured in the matrix with a thermoplastic material of any color. Proceeding according to the invention, when obtaining a shape with a stereoscopic image on information, advertising, packaging, decorative and toy materials, graphic material made of transparent plastic is placed in the mold cavity, collecting electrostatic charges (especially polypropylene PP) in the form of a transparent foil - with a print on the underside raster lens inverted by 180 ° along a vertical or horizontal axis (Fig. 5). On the injection side to the mold, an element is mounted which is a negative representation of linear lenses (Fig. 6), the number of negative lines of the lenses corresponds to the number of printing lines of the lens raster on the underside of the foil placed on the opposite side of the closure and is generally referred to as LPI (lines per inch). lines per inch). On the underside of the foil containing the raster print, a pattern of any color can be applied as a background for the raster print.

According to the invention, the formed element with the lens stereogram is made entirely of transparent material.

In the solution according to the invention, the accumulation of electric charges additionally facilitates precise placing in the form of a transparent foil with a stereogram applied due to the phenomenon of electrostatics, especially when the socket is located vertically, then the foil is attracted by the mold on the basis of the potential difference. It is also allowed to place the printed foil inside the mold by gravity and underpressure. Transparent thermoplastic material, preferably the same as the material of the graphic carrier, is injected onto the graphic element into the mold, and thanks to the mapped, negative linear lenses a lenticular plate is formed, thanks to which the previously prepared graphic element is visible as an illusion spatial image or other visual effect, which is schematically illustrated in Fig 7.

In the solution according to the invention, the procedure makes it possible to produce image elements and obtain the effect of binocular vision, providing the impression of depth. The injection of transparent, thermoplastic plastic is above the surface of the label. The injection of the material can be centrally, on the side or anywhere above the label, with the thickness of the injected transparent material being strictly defined and dependent on the LPI and the angle of view defining the focal curvature that defines the thickness. Injected transparent thermoplastic material, preferably the same as the transparent raster carrier of graphic printing, ensures a uniform and durable structure of the shaped body. For this purpose, for example, the following materials can be used: polystyrene PS, polypropylene PP polymethyl methacrylate PMMA, polyethylene terephthalate PET, polyvinyl chloride PVC polycarbonate PC.

By following the method according to the invention, information, advertising, packaging, decorative and toy elements with an image giving the impression of an illusory space or animation are produced thanks to the use and combination of the technology of obtaining lens stereograms through raster printing and a sprayed lenticular plate with appropriately shaped lenses or line prisms. The optical illusion effect obtained depends on a precise and properly prepared print on the underside of a transparent graphic medium. This effect can give the impression of 3D depth if the lines of the lens are vertical, creating a spatial image. By following the invention, the sensation of movement is obtained by changing (flip) depending on the number of images and the viewing angle, and alternately different images are displayed. The beneficial effect is obtained with lines placed horizontally in relation to the viewer. It is also possible to get the impression of movement by - transforming / morphing / ie smooth transition of one image into another, or through animation - showing several phases of movement or enlarging or reducing (zoom). It is also possible to mix the above-mentioned techniques giving the impression of movement. A schematic illustration of the image forming effect, where in the upper part you can see a fragment of the raster printing and in the lower part, the effect after injecting the lenticular is shown in Fig. 7.

By following the method according to the invention, it is possible to obtain shapes of various shapes on the plane and on solids, e.g. cylinders or their sections, cones or their fragments, and polyhedrons or their fragments containing a stereoscopic image from the outside, while printing any image fixed on the underside of the shape. with a linear lens, it can only be a part of the shaped body (Fig. 9), the remaining part can be any polyhedron, e.g. a box closure (Fig. 10). The negative representation of a linear lens can be in the shape of any revolving solid or polyhedron. Fig. 12 illustrates an embodiment in a section of a cylinder, Fig. 14 illustrates an embodiment of a shaped body in the form of a cylinder where the graphic material described above is positioned from the center of the cylinder. With an appropriately constructed injection mold it is possible to obtain 4

In order to obtain a stereoscopic image, the remaining part of the polyhedron shape, e.g. a box cover, is injected in the second phase, i.e. the part with the representation of the linear lens and the socket for the graphic material described above are injected with a transparent material. a different color, as illustrated in Fig. 13. The essence of multicolor injection consists in injecting into the mold the materials from several plasticizing systems attached to the rotating or sliding plate at the same time - from each material system of a different color.

The solution according to the invention has been shown in the drawings and non-limiting embodiments of the invention. In the attached illustrations, Fig. 1 shows the lenticular stereogram, i.e. the lenticular stereogram, Fig. 2 with a larger number of intermediate images when viewed from a variable angle, which results in an even more perfect illusion of space, Fig. 3 shows a diagram of printing on a transparent material (foil) where, (1) - means a transparent foil which is the right side of the label (2) - raster printing rotated along the horizontal or vertical axis by 180 °, (3) - means a background plate for printing in any color. In the solution according to the invention, there may also be a fourth layer providing an additional print security in the form of e.g. varnish, Fig. 4 is a large-scale view of the prepared raster graphic material in the form of a lens stereogram printed on the foil, inverted by 180 ° from the underside, so that Reversed, the actual image of the printing will be from the bottom, Fig. 5 shows a view (at high magnification) of the lens stereogram from the top side where the print is from the bottom, the top is a transparent foil and in this form the graphic material is placed in the mold. Fig. 6 shows a diagram of a non-closed injection mold where the upper part is a negative of the linear lens, the lower part is the holder of the graphic material shown schematically as in Fig. 2, Fig. 7 shows a close-up of the difference and the image forming method between the imprint and partially applied to the print with a linear lens. This figure shows the compliance LPI (lines per inch) both on the graphic material in the number of rasters and on the lens plate of the linear number of cylinders or prisms. Fig. 8 shows a view of the optical illusion effect after the transparent material has been injected in the mold, where the mapped lens transforms the graphic material of Fig. 5 into an optical illusion. Fig. 9 shows an embodiment of the invention in the form of a shaped piece as a plane fragment, Fig. 10 shows an embodiment of a shaped piece in the form of a polyhedron - top view, Fig. 11 shows a cross section of an embodiment of a shaped piece in the form of a polyhedron, Fig. 12 shows an embodiment of a shaped piece in the form of a polyhedron. Figure 13 shows a multi-colored body, Fig. 14 illustrates an embodiment of a cylinder-shaped body.

P r z k ł a d 1

Graphic material accumulating electric charges is placed in the mold cavity with the use and application of raster printing in the form of a lens stereogram. On the transparent material accumulating electric charges, the upper layer is a foil, on the underside, a properly prepared raster print is made, rotated along the horizontal axis by 180 °, which can be covered as a subsequent layer with an aple of any color constituting the background for raster printing. Another protective layer is also possible, e.g. in the form of a lacquer. The diagram of the graphic material is shown in Fig. 3, where the transparent material (foil) is an electrostatic material (1), with a line, on the underside of the transparent foil, the printed raster stereogram (2) is covered with a circle (3).

P r z k ł a d 2

Proceeding as in example 1, the raster printing from the solid side is shown in Fig. 4.

P r z k ł a d 3

Proceeding as in example 1, on a transparent graphic medium - foil, horizontal raster printing as well as the mapping of the horizontal negative of the lens in order to obtain a stereogram giving the illusory impression of image change (flip, morphing) (Fig. 15).

P r z k ł a d 4

Proceeding as in example 1, a graphic carrier with a raster print is placed in the die, then a thermoplastic material is injected in the shape of a graphic carrier, and then, by rotating or shifting the mold, the remaining part of the molding is overmoulded (Fig. 13).

PL 218 615 B1

Explanation of the figures of the drawings for the patent application no. P. 399294

1.transparent foil

2.print

3.A background for the print 2

4th form (matrix) with mapped linear lenses

5. Injected transparent thermoplastic

6. stamp excerpt.

Claims (1)

The method of producing a shaped piece with a stereoscopic lenticular image from plastics on plastic by placing a foil with a drawing in the matrix, injection of plastic and a permanent connection of the label with the shaped piece and possible overmoulding, characterized in that the transparent material accumulating electric charges (1) in the form of a foil with applied on the underside, a raster lenticular print (2) reversed by 180 ° along the vertical or horizontal axis, is placed inside the matrix (6) with an overprint on its smooth surface and permanently connected by injection into the matrix of a transparent thermoplastic material, and then proceeding in the known way.