DE696525C - Process for making colored photographic discs - Google Patents

Description

Process for the production of colored photographic layers for the generation of multicolor images The present invention relates to a Process for the production of multicolor images from stained with dye mixtures Partial images. Such subtractive ones, usually consisting of the three primary colors Multi-color images can be produced by any method, for example by the suction method or by copying onto multilayered, differently sensitized and colored Materials to be placed in animals. The dyes for the partial images are thereby chosen so that they absorb a certain Spe'ktralbereich of the spectrum. In the production of these partial color images, a difficulty arises because that the dyes used in practice are not the theoretically required: linear ones Absorption curve with steep edges, but an irregular one Have an absorption curve that usually gradually falls off to one side. Consequently On the one hand, absorption gaps arise in the border areas of the subdivided spectrum, which cause a distortion of the lighter mixed colors and the gray tones. aside from that the color tone of a partial image changes when the dye concentration changes, because the absorption curve does not decrease evenly. In particular, enlarge the spectral gaps increase with reduced dye density. The present invention eliminates the aforementioned difficulties in that dye mixtures for each sublayer are used, the components of which are absorption maxima in adjacent areas of the absorption range to be received for the partial image and the known ones Color tone corresponding to the principles of multicolor photography changes when it changes the dye concentration, not changed.

Each dye image is therefore not, as before, from a single one commercially available dye, but one uses several dyes that when mixed, result in the desired color of the partial image.

For example, the purple partial image, which is supposed to absorb the light rays of the green spectral region between 500 and 600 l, &, has so far been colored with a single dye, the absorption maximum of which was 56o l, # t, while its absorption capacity was 575 to 600 # t & u and, on the other hand, from 53o to 5oo &, &, decreased sharply. According to the invention, two dyes are used in its place, one of which absorbs between 500 and 5q.o # t &, and the other from 50 to 600 # t &. But you can also use, for example, three dyes with the absorption ranges 500 to 530, 530 to 57o and 57o to 600 # t &. The coloring of each partial picture can be achieved with any number of different dyes: which together form the desired main; color result. It created the innerhal for the color of the field charak @ - 'ristic absorption zone more From -sorptionsmaxima whose interspaces by the LTberdeckung the individual absorption curves are completely filled almost. The advantage of using such a dye mixture is that the total absorption curve does not change significantly even if the dye concentration changes, and if there are small gaps in the absorption band. low dye concentration occur, these gaps are practically evenly distributed over the entire spectral range, so that in fact, when the dye concentration changes, there is no change in the color shade.

The choice of dyes depends on the conditions of the respective Use case.

Example The light-sensitive layer intended for the blue partial image becomes with Diaminreinblau FF (Schultz, Därbstofftabellen 1931, 7th edition, vol. i, no: 51o) and chlorantine light green. BB (Society for Chemical Industry, Basel) stained. The light-sensitive layer intended for the red part of the image is with the protected trademarks Anthosin 5 BN (S c h -u 1 t z 1. c. No. 51), Anthosin BN (S c h u 1 t z 1. c. No. 51) and Supranol-BrillantrOt 3 B (cf. U 11 m a n n, Encyclopedia of Technical Chemistry, 1932, 2nd edition, 9th volume, p.752 and io. Vol., P.44) dyed commercially available dyes. The sub-layer for the yellow partial image, finally, is made by means of the under the protected trademark Chrysophenin G (Schultz 1.c. No. 726) commercially available dye, sulfone yellow, 5 G (U 11 m a n n 1st c. 9th vol., P.747) and Sulphongelb R (U l l -ma n n 1st c. 9th vol., P. 7 47) colored. i The present invention is advantageous in. a multi-layer photographic material applied, the individual layers of which on one or both sides of the layer .; are arranged carrier. To avoid harmful Dye migration is what binds: the dyes in the --individuals in a known way Layers.

Claims (3)

PATENT 1. A process for the production of colored photographic layers for the production of multicolor images from partial images stained with dye mixtures, characterized in that a color tone independent of the change in the dye concentration is brought about by using dye mixtures for each partial layer - verden , the components of which have absorption maxima in adjacent sub-areas of the absorption area belonging to the sub-image. 2. A method for producing multicolor images according to claim i, characterized in that that one is used which contains dye mixtures in each sublayer, their Components Absorption maxima in adjacent sub-areas of the absorptive to the sub-image Lions area and their absorption areas at low dye concentrations, in which the individual components essentially only absorb light rays, for which the absorption of the relevant color component of the layer is a maximum, practically adjoining each other on the entire absorption area of the partial image extend. 3. A multi-layer, consisting of superimposed cast layer material for performing the method according to claim i or -2, characterized in that it contains mixtures available in every sub-layer dye, the components of the absorption maxima have in adjacent partial areas of the zukommenden the field absorption region.