DE874247C - Three-color screen for photographic and cinematographic purposes and its manufacture - Google Patents

Description

The invention "relates to improvements in color photography and cinematography which works according to the three-color principle through additive synthesis and relates in particular to a three-color raster, that absorbs the panchromatic emulsion layer and its production.

The production of the grid according to the invention consists in an applied to the support body light-sensitive layer to expose to very small with the help of an appropriate mask To obtain elements of a first color, which are distributed along parallel transverse rows and their length so is that the projections are on a longitudinal line of the corresponding elements of the following series overlap each other slightly, with the corresponding elements from a line through from the following is separated by a distance which is smaller than the distance between the individual elements in the looked at rows. After these elements of the first color are colored and fixed, a photosensitive layer applied over said elements, exposed to the back of the carrier a band-shaped mask is applied, the width of which corresponds to the spacing of the Rows of the first color elements corresponds, whereby with the help of this mask and the elements the first color shield formed the elements of the second color are generated. These Elements correspond to the openings of the mask by the elements of the first color

• are interrupted. After dyeing and fixing the Elements of the second color will be sensitive to light again exposed surface from the back 'exposed to only the fragments that form a Part of the unexposed strips between which the elements of the second color carry lying strips to expose which of the 'already applied elements of the first Color are enclosed. After these elements are colored and fixed to the third color, that becomes The three-color raster obtained in this way is then provided with the usual panchromatic emulsion layer.

One can, following a preferred embodiment of the invention, the elements of the first Distribute the paint evenly along the longitudinal rows at regular intervals, the width of which is yours Distance is the same, with the elements of the straight rows in the longitudinal direction - with respect to the elements of the odd rows are offset in such a way that the free spaces between the elements of the first color extend in the transverse direction are in the area of the elements of the first color of the even rows.

Preferably comprised of the elements of first color space occupied a third of the total surface. The width of the horizontal stripes that are not occupied by the elements of the first color is the same and chosen so that those of the Elements of the first color unoccupied surface, which is intended for the acceptance of the second or third color, also one third each the surface.

As already stated, the invention encompasses this 35. preserved color grid and has under the usual - ■ loaned panchromatic emulsion layer extraordinarily small elements of the order of 3000 per square millimeter for the three Primary colors. The elements of the first color are very few along parallel, transverse rows. broad distributed in such a way that they exactly cover the width of these rows in points, their distance from the size of the width, being quite spaced apart from one row with respect to the following are separated, which is mine than the spacing of the elements on one of the strips and being the both. other colors occupy the parts of the two to two horizontal stripes considered that are not are occupied by elements of the first color. The grid of very small ones is advantageous Elements formed, with each color occupying a third of the carrier. The elements of the first color are arranged in longitudinal rows with an even distance from each other, the the Width of the elements corresponds. The elements of the first color of the even rows are longitudinally opposite to the elements of the odd Rows offset so that the free spaces between the elements of the first color are in the transverse direction are located in the area of the elements of the first color of the even rows, while the elements of the second and third color the sections of the corresponding even or odd Occupy horizontal stripes of the same width, which are determined by the elements of the first color the even or odd rows that occupy these stripes.

The color grid according to the invention is formed from elements of three colors of extreme fineness; up to 3000 elements per square millimeter can easily be used, which enables cinematography with colors without the color elements becoming visible as such. Since there are more than a million color filter bodies on an area of 16 X 22 mm, these are invisible when enlarged through the projection.

The manufacturing process, which will now be described in detail, prevents the formation of continuous rows, since the separation of all elements of the same color extends over the entire grid. The method is particularly noteworthy in that it allows the grid to be produced without mechanical displacement and without the use of any marks. This achieves the simplicity and security of an absolute factory-made production. The recording of the image is just as easy as with a black or white film, it is only necessary to ensure that the side of the carrier carrying the panchromatic emulsion layer and the color raster is facing away from the object to be recorded, so that the light first passes through the color filter. before it affects the photosensitive layer. The use of a film with a color raster according to the invention does not require any change, neither in the recording or the presentation, nor in the copying or developing process, these measures remain all the same as for a black and white film, without having to be specially repeated for each color.

In the drawing, a scheme of the various manufacturing processes is illustrated, for example. It shows -

Fig. Ι the first mask for generating the Elements of the first color,

Fig. 2 shows the carrier after receiving the first color, Fig. 3 shows the mask for producing the second Color, Fig. 4 the carrier with the two applied

Colors, d. H. after using the second mask, FIG. 5 shows the mask for generating the third

Color that comes from a simple glass or the like. consists,

Fig. 6 den. Carrier after receiving the third color, d. H. ready, the panchromatic emulsion layer to obtain;

Fig. 7 represents an element of Fig. 2 which may be called an elementary zone or period, where the figure is intended to make it easier to understand the distribution of the colored elements; Fig. 8 shows a modification of the completed grid.

Referring now to the figures, the various intermediate stages of manufacture of the color grid. One starts with

that the pure transparent support, which can be a film or a plate, is provided with a first coating of gelatin with potassium dichromate or another transparent and light-sensitive coating. On a copier or equivalent device, this first coating is exposed to the light that passes through a mask as shown in FIG. This mask has translucent parts A that are uniform

ίο are distributed over the entire surface of the mask and preferably cover a third of the surface of the carrier, while the remaining two thirds are N opaque ¹ . In the example shown, the translucent parts A of the first mask are rectangular and, as already mentioned, distributed in longitudinal rows evenly spaced from one another, their width corresponding to their spacing from one another, the elements of the straight rows in the longitudinal direction with respect to the elements of odd.- rows are offset in such a way that the free spaces between the elements of the first color in the transverse direction are in the region of the elements of the first color of the even rows. The film 1 is exposed to light through this mask in order to form the elements V of the first color, for example green, through the openings A (FIG. 2). For this first exposure, the mask can be placed on the photosensitive coating itself in order to achieve a more precise ata formation, or, if this is more convenient for further treatments, exposure can also be made from the back of the support, ie from the side that does not carry the photosensitive layer.

After the parts that are to form the green color elements have been exposed to light, the unexposed parts of this first coating are removed, for example by dissolving them in a bath of Rhodan Potassium. The support is then immersed in a first homogeneous acidic dye bath, in the present case for green dyeing, this dyeing only adhering to the exposed parts V. After drying, this first color is covered with a transparent cellulose layer in order to isolate the color elements from the following colorations. This transparent layer is then covered with a second light-permeable and light-sensitive coating, for example made of bichromatic gelatin, and exposed to light through a mask according to FIG. 3 formed from strips. This mask has transparent strips C and opaque strips D of the same width. This mask must be placed on the side of the support that does not bear the first color elements and the photosensitive coating that covers them. The exposure then takes place through the double shielding, which is formed by the mask C ₁ D and by the green color elements V of the carrier. The elements intended for red R are thus obtained, which occupy parts or sections of the strips corresponding to the strips C of the mask in FIG and called odd rows are determined. Indeed, it is impossible for the transparent strips C to be able to form red elements extending beyond the space separating rows of elements V, for example straight ones, because whatever the longitudinal position of the mask C may be , the green elements that are located in the area of the exposed outer stripes will extinguish on the not yet exposed adjacent stripes.

The procedure for the further treatment of the second coating is the same as for first. In other words, the unexposed parts of the second coating are removed, for example by dissolving in a bath of potassium rhodium and then obtaining the color by wetting in a second, in this case red, salt bath, whereby the coloration is solely due to the corresponding exposed parts takes place. After drying, the red color elements are coated having a transparent cellulose layer to distinguish these elements from the following Coloring isolate.

The carrier is covered again with a bichromatic gelatin layer or a similar mass. This third coating is exposed without a mask or through a transparent mask, for example made of pure glass (Fig. 5), and the light source is again arranged on the side of the support that does not bear the light-sensitive layer and the red and green color elements . In this case, the totality of the green and red elements forms the mask in such a way that the exposed parts occupy the parts or sections of the stripes to be designated as straight, which correspond to the elements D of the mask according to FIG. 3, which have not yet passed through Elements V are occupied. After the unexposed parts of the third coating have dissolved, for example in a Rhodankalhim bath, the support is immersed in a third homogeneous acidic, for example blue, dye bath in order to color the exposed parts B of the third coating. This leads to the color raster V ₁ R, B of FIG. 6. It is now sufficient, after drying, to cover the whole thing with a transparent cellulose layer and then to apply the panchromatic light-sensitive layer.

It is understood that the invention is not limited to the exemplary embodiment described, they also extends to all other variants that fall within the scope of the explanations given above keep. The chemicals used can also be replaced by others of the same type. So can the gelatin is replaced by collodion, protein-based products, etc.; likewise can take place Potassium dichromate also ammonium dichromate or sodium dichromate or the like can be used. .

When carrying out the procedure, it is advantageous to use three machines, each of which does all operations for applying the appropriate Color executes. It is important to

notice that each of these machines works independently of the other two, without having to take into account the position of the colors that have already been applied or are yet to be applied. In fact, the position of the masks according to FIGS. 1 and 3 and their displacement in the longitudinal or transverse direction has no influence whatsoever on the regularity of the distribution of the color elements. The position taken of the color elements of the first color determines the position of the other two colors in the transverse direction, and the color elements of the second and third color are always formed in a coordinated manner, as is determined by the stripes C and D of the mask according to FIG. 3, without the position of this mask in the longitudinal direction affecting the general position of the various color elements.

Fig. 7 shows in dotted lines a three-color field, of which the element V takes up a third, while the remainder is distributed halfway through the strips R and B on the other two colors.

Finally, Fig. 8 shows a modified form of the color grid, in which the elements V of the first color are circular and the strips R and B are inclined with respect to a perpendicular to the rows of the elements V.

Claims (4)

Patent claims: ■ ι. Three-color raster for photographic and cinematographic purposes, marked through the use of the smallest dimensioned elements of the order of 3000 / qmm, which represent the three basic colors, under the usual panchromatic emulsion layer, wherein the elements of the first color on parallel transverse rows of very small width such are distributed so that they, exactly covering the entire width of these rows, lie in places whose Distance from each other corresponds to the size of this width, being entirely from one row in with respect to the following separated by a distance which is smaller than the spacing of the elements within one of the rows, while the other two colors' occupy the parts of the two to two cross rows considered which are not occupied by the elements of the first color. 2. three-color raster according to claim 1, characterized by using very small elements, being one of each color Third of the carrier is occupied and the elements of the first color evenly distributed in longitudinal rows at regular intervals and whose width corresponds to their spacing and the elements of the first color of the even rows versus the elements of the odd rows in the longitudinal direction such are offset that - the free spaces (between the elements' of the first color in the transverse direction in the area of the elements of the first color of the even rows are located, while the elements of the second and third Color the sections of the horizontal stripes of the same width alternately occupy even and odd, those by the elements of the first color of the even and odd rows that make up this Occupy stripes, are determined. 3. A method for producing a three-color screen according to claim i, characterized in that one applied to a carrier photosensitive coating is exposed to light with the help of an appropriate Mask very small-sized elements of a first color to form the are distributed along parallel transverse rows and their length is such that the projections on a longitudinal line of the corresponding elements of the following lines slightly overlap, these respective elements being separated from one line to the next by a distance which is smaller than the distance between the elements on the considered Lines, whereupon after dyeing and fixing the elements of the first color with a light-sensitive Coating are covered that is exposed using a placed against the back of the carrier, provided with stripes mask, the stripes of a have the spacing of the rows mentioned corresponding width, whereby with With the help of the shielding formed from this mask and the elements of the first color Elements of the second color are generated which are different from those of the elements of the first color correspond to interrupted breakthroughs of the mask, whereupon after dyeing and fixing the Elements of the second color the re-photosensitized surface from the back is exposed in order to show only the fragments, which are part of the unexposed, form stripes between the stripes carrying the elements of the second color, to expose which of the already applied Elements of the first color are enclosed and the elements thus formed the third color are colored and fixed, whereupon the resulting threefold arbenraster is provided with the usual panchromatic emulsion layer. 4. The method according to claim 3, characterized by one or more of the following measures: a) The elements of the first color are evenly spaced in longitudinal rows distributed, their width corresponding to their spacing and the elements of the straight Rows so offset in the longitudinal direction with respect to the elements of the odd rows • are that in the transverse direction the free spaces between the elements of the first color are in the range of elements of the first color of the even row; b) the elements the first color can be created by rectangles> circles or figures in any desired Shape to be formed; c) the surface occupied by the elements of the first color comprises one third of the total surface area of the support, and the widths of the elements The strips cut from the first color are the same, so that the totality of the strips, which is not occupied by the elements of the first color and to accommodate the second and Third color is used, also occupies a third of the total surface. For this purpose ι sheet of drawings © 5869 4.53