DE641203C - Lenticular film - Google Patents

Description

A number of difficulties associated with the use of lenticular flags are, can be avoided according to the invention in that. the film is fluted on both sides.

For example, it occurs when illuminating a lenticular film, be it for the purpose the copy or be it for the purpose of projection, the disadvantage is that if the film is from the layer side is illuminated by the cone of light that is almost behind at the edge of a lens projected an image of the filter, only a smaller part passes through the lens of the film in front of it and becomes usable as from a cone of light, the lines behind the center of the lens. projected part ^ of the image. This Disadvantage is avoided by using a film according to the invention.

The new films are provided with lenticular grid elements on bidden pages, which face each other as closely as possible. Such films are known per se. For creating images that appear three-dimensional For example, Lip ρ mann used films in which the layer turned away from the photographic Side of the celluloid was provided with grid elements, so that each grid element like a small photographic Camera worked. Since such a single lens has a considerable curvature of field, the back of the film was also provided with grid elements, their curvature but which was adapted to the picture shell. You have the same fumes z. B. used to by moving an aperture in the lens with a small, hole-shaped opening to record an entire motion process on a stationary film.

The new films differ from the known ones in that. the curvature the grid elements on the layer side of the varnish is dimensioned so that. 'which on different Points of this side hitting light bundles go through the opposite lenticular lens in approximately equal parts. A such film is z. B. shown in Fig. 1 in section. The celluloid making up the carrier ι is provided with a lenticular lens on both sides and is on one side a photosensitive emulsion placed in such a layer that. the surface the emulsion is also screened. For the most common case in practice, that the refractive index of the emulsion is almost the same as the refractive index of the celluloid, both sides of the film should, in terms of the geometric shape of the grid elements, be symmetrical ".

The effect of such a film when illuminated from the layer side is shown in Fig. 2, in which a single

*) The patent seeker stated as the inventor:

Dr.-Ing. Frits Fischer in Berlin-Charlottenburg.

Lens is drawn enlarged. In layer 2 there is the image which is exposed by light from which rays 3 to 8 are drawn. The central ray 4 passes through the film uninterrupted and the light cone defined by the rays 3, 4M maintains its direction, while its opening is somewhat reduced. In contrast, the ray 7 parallel to ray 4, which forms the main ray of the tuft 6, 7, 8. The beam 7, which, if it were to hit a film embossed on one side only, would pass through the layer 2 without being broken, is refracted so that the entire light bundle determined by the beams 6, 7 and 8 passes through the lens in front of it. In this case, all of the light that hits a part of the film that is almost behind an edge of a lens is also used.

The double-corrugated film works in a similar way when it is not part of the Emulsion-provided side is exposed. The lenses in the film that the Facing the light source can be viewed as small condenser lenses.

Since, in general, the refractive index of the photosensitive emulsion is almost the same is as large as that of the substrate, it is sufficient to produce a film in such a way that as shown in FIG. In this case, the celluloid forming the carrier is corrugated only on one side, while The light-sensitive one is on the smooth back Emulsion is located, the surface of which is provided with lenticular lenses.

To produce the corrugations, the film is left between two similar Gaufrier-4.0 roll through.

However, the effect can also be used to produce a film that is corrugated on both sides will; that a gelatin layer is influenced by pressure in such a way that it is afterwards by suitable subsequent treatment Can be hardened according to the pressure. The hardened parts can then be removed will. So, if you press an emulsified film with a normal Embossing roller embossed, so the parts of the emulsion behind the edges of the lens are exposed to the strongest pressure, so that in these places a lot of the emulsion in the subsequent treatment hardened and removed.

Finally, a film according to the invention can also be obtained by adhering a thin, corrugated skin 9 to the smooth photosensitive layer 2 shown in FIG. That the reef γ boys are exactly opposite one another can be checked optically by the appearance of the moir6s. The curvature of the lenticular lenses on the layer 9 is to be dimensioned in accordance with the refractive indices and the layer thicknesses. Preferably, the layer 9 is made of such material, e.g. B. gelatin, which is permeable to the developer, fixer and reversal bath solutions.

Claims (7)

Patent claims: 1. Lenticular lens film fluted on both sides, in which the corrugations face each other on the two sides, marked by such a curvature of the lenticular lens on the layer side that the incident on different points of this side Light bundles go through the opposite lenticular lens in roughly equal parts. 2. Filni according to claim 1, characterized in that that both sides are symmetrical about the median plane of the film. 3. Film according to claim 1, characterized in that on the smooth surface of a single-sided corrugated celluloid film, a corrugated layer of a photosensitive Emulsion is present. 4. Film according to claim 1, characterized in that on a double-sided corrugated Celluloid film the emulsion is applied in constant thickness. 5. A method for producing a film according to claim 1, characterized in that that on the smooth photosensitive layer a thin corrugated skin is glued. 6. A method for producing a film according to claim 1, characterized in that that one side of the film changes its constitution when the other side is embossed with the aid of a roller that a grid can be produced on this side by suitable treatment can. 7. The method for producing a film according to claim 1, characterized in that that the film is corrugated between two similar rollers. 1 sheet of drawings