DE444702C - Film for color photographic recordings and projections, in which the carrier of the light-sensitive layer is covered with microscopic light-refracting elements - Google Patents

Description

To solve the problem of the cinematography in natural colors was already proposed the use of films, the support of which on their free side is an infinite one large number of microscopic, side-by-side refractive refractors Owns elements.

Experience has shown that these films are perfect for this solution and can also be used for unlimited reproduction of the originals. There are two conditions to this Purpose required:

1. The microscopic elements must and must not be optically perfect have the smallest opaque or frosted space between them;

2. Furthermore, the diameter of these microscopic elements must have an exact function both the relative opening of the lens in question to be used as well as the film thickness and the curvature of said microscopic elements be.

So must z. B. for lenses with an aperture ratio of F / 2.5 (the one in general most appropriate) and with a film thickness of 12 to 13/100 mm as well an elementary lens curvature of 4/100 mm the diameter of the microscopic Elements themselves deviate as little as possible from size 4/100. In practice 22 to 23 elements should be present over a length of 1 mm.

The one when playing back on the slide show usual enlargements of the film images are known to be in the projection, only shown in focus if the film images consist of elements or points. from less than 1/50 mm in size. It follows that a film with 22 will refract light the elements over a length of 1 mm each, d. H. with elements of 4.5 / 100 mm, on the usual Projection screens cannot produce sharp images; Sharpness of the pictures would be only by reducing the screen area to a quarter of its current size obtain.

A film with microscopic elements can therefore be placed on the same photo stages such as those intended for black and white films are only used under the condition that the refractive elements get a size that is less than 2/100 mm. so but the laws of optics show that this would only be possible with a film, its Thickness does not exceed 6/100 mm. But such a film would have no resistance and could not be used with the commercially available unwinding devices.

The subject of the present invention is

a method of making cinematographic . Films in which it is possible to get as close as desired to the light-refracting elements of the sensitive layer bring and thus reduce the size of these refractive elements. According to With this method, the film consists of two means whose refractive exponents are different and the interface on which the ίο matching microscopic elements are imprinted or wears raised.

Such films are specifically obtained in the following way: a transparent one commercial carrier receives an embossing, which the elements of the selected type in Represents hollow pressure; this imprint is made with a solution of the selected substance with the different refraction exponents, whereupon after drying the light-sensitive Layer is applied.

Depending on whether the selected substance with the different refraction exponent has a greater or lesser refraction exponent than the refraction exponent of the actual carrier, the curved surfaces of the embossing in the carrier will be hollow or raised; the films produced in this way will therefore have the shape shown in Fig. ι and 2 of the accompanying drawings. In these two figures, A is the actual support and B is the photosensitive layer.

Of course, this method can be used with photosensitive films that are too to fit different lenses without] changing the embossing, ' that you can simply take advantage of the strength of the! Body with one of the refractive: exponents of the carrier different j refraction exponents existing layer t changes. [

In Fig. Ι C is the mean with the higher refraction exponent and _; in Fig. 2, C is the mean with the smaller refraction exponent.

Among the substances with a high refractive index that can be used especially phenolic resins (Bakelite) and gelatine among those with a smaller refractive exponent should be mentioned will.

A practical method of carrying out the invention is thus as follows: - · ■ ■

i. It is with the help of a roller, which raised semi-cylindrical, · closely adjacent Has corrugations with a curvature of less than 1/100 mm, a beam rolled out.

2. The grooved surface is coated with a thick solution of Bakelite, whose Solvent does not attack the wearer.

3. The Bakelite layer is hardened so that it retains all its elasticity.

4. Finally the photosensitive layer is applied. .

The invention described is common to all with superficial, microscopic ones refractive elements.! provided films can be used, even on the for black-and-white films dominated the slide show.

Claims (3)

Patent claims: i. Film for color photographic recordings and projections, in which the support of the light-sensitive layer is covered with microscopic light-refractive elements, characterized in that a layer (C or C) is inserted between the light-sensitive layer (B) and the actual support (A) whose refraction exponent is greater or less than that of the support (A), and that the microscopic light-refractive elements between this layer (C or C) and the support (A) are embossed in the latter. 2. A method for producing film tapes according to claim 1, consisting in that with the help of a roller, which raised semi-cylindrical, ■ closely juxtaposed corrugations with a curvature of. less than 1/100 mm, a celluloid carrier or other, equivalent material, rolled out the grooved surface with a viscous bakelite solution or the like, the solvent of which does not attack the wearer, coated and the Bakelite layer o. The like. Is hardened to its full elasticity to get what you finally apply the photosensitive layer. 3. The method according to claim 1 and 2, wherein the thickness of the layer, - which consists of the substance whose refraction exponent is smaller than that Refractive exponent of the carrier, according to the nature of the contact lens used with the film. 1 sheet of drawings.