DE731182C - Process for obtaining colored images by photographic means - Google Patents

Description

Method of Obtaining Colored Images by Photographic Means The invention relates to: a method. to obtain colored images by photographic means. It is already known for this purpose to choose for at least the main color for the negative and the positive light-sensitive layers with transmission curves, of which at least those parts that correspond to the course of the associated blackening curve are used which are in one. Coordinate system in which on the abscissa or ordinate axis the amounts of light impinged on the light-sensitive material per surface unit or the transmittances obtained on my scale from o to r oo o% xn equal sections are plotted, compared to one in the quadrant. of the permeability curves under q.5 ° straight lines drawn through the origin over the largest possible interval are almost mirror images of each other. According to a further development of this proposal, one and the same light-sensitive material with a permeable chain curve is selected for both the negative and the positive, which is at least almost symmetrical with respect to the straight line mentioned.

Through these measures: a flawless, lifelike reproduction of the colors of the original object can be achieved because of the shapes of the transmittance curves for the negative and the positive are adapted to one another in such a way that: the paus the positive outgoing amounts of light per surface unit prop, ortianal den. to the appropriate Places on the negative are amounts of light incident.

The invention is based on light-sensitive layers for the negative and the positive from which permeability curves have, which without weferes, d. H. after exposure and development, not at least nearly that Mirror image are from each other, but only differ from each other so far that they are supported by an aid can be made mirror images of each other. It turned out that these deviations especially in the area of the larger permeability values appear.

According to the invention, said aid consists in that at least one of the light-sensitive layers with an additional uniform haze is provided. This procedure is explained in more detail below using an example elucidates.

The haze can be before, during: or after the photograph of the object, through an additional equal # h: moderate exposure of the whole photosensitive layer are attached.

It is possible to use either the layer for the negative or the layer for the positive or both to be veiled. It is only important that the permeability curves due to the veil are almost mirror images of each other will.

In the case that both for the negative and ßsch for the positive a layer of one and the same photosensitive material is selected as its The permeability curve is not at least almost symmetrical compared to the one at the beginning mentioned straight line, but only deviates so far that it is according to the invention can be made at least nearly symmetrical with the additional veil; it is necessary to have both layers, i. H. both for the negative as well as to provide the same veil for the positive.

It is already known to be weak in photographic materials apply uniform so-called pre-exposure before the actual exposure. here it is: but about, by developing a veil, the recording material @ al to make it more sensitive to light.

The invention is illustrated by way of example with the aid of the accompanying figures clarified in more detail. In FIG. 1, along the abscissa axis, those pointing to a light-sensitive axis are shown Photographic layer for one of the basic colors of incident light per surface area E, the z. B. from an object to be recorded or from a copy light source can, and along the ordinate axis that according to the exposure after development The resulting permeability D is plotted on a scale in front of o to 100%.

It should be noted that working with permeability curves, as in the above it is stated that the use of blackening curves is preferable, namely because at least that is required for the application of the invention To use part of the permeability curve that is close to the sag of the associated Corresponds to the blackening curve. Working is especially important with the smaller amounts of light Clearer with permeability curves, because the percentage change in permeability is generally much greater as the amount of light in this area increases than the corresponding change in density. This is especially true of the others Materials which are suitable for the practice of the invention.

Among the 100% of the amount of light per surface unit mentioned above is understood here the amount of light that is required in general to a light-sensitive layer has a practically negligible transmittance of z. B. i ojo to cause. These iooo1o should at least be the same when recording of any part that hits the photosensitive material the amount of light originating from the object to be recorded per surface unit will. The smaller amounts of light acting on the material per unit surface area, that come from less bright parts of the object then cause a in proportion (depending on the shape of the permeability curve) greater permeability of the material.

The curve = e indicated by i in FIG. I represents the permeability curve a light-sensitive layer, which is used for the negative image: applied shall be.

The dashed curve 2 is the D, permeability curve a layer which is suitable for the positive recording.

Curve i deviates from the mirror image (compared to the straight line 3 drawn at 4.5 ° ) of curve 2 (and conversely, curve 2 deviates from the mirror image of curve i) in such a way that when the above-mentioned, already proposed method is used, considerable deviations in the natural fidelity of the reproduction. This can be seen from the deviations in the reproduction curve compared to straight line 3, which represents the relationship between the permeability of the positive and the amount of light incident on the negative per unit of surface area.

According to the invention these variations can be thereby reduced considerably, the photosensitive layer for the negative (curve i) da.ß in the present case such addition geschlei: is ert: that their transmittance curve in the drawn coordinate system to the left, in the position of the with 5 designated curve is shifted. The transmittances indicated by this curve are related to the overall veil present, i.e. at the points of the layer on which no light originating from the object has fallen, despite the absolute reduction in transmittance as a result of the veil applied, a transmittance is once again equal to i oo 011o accepted.

Because of the additional veil, there is now a permeability curve of the negative has been obtained according to curve 5, which compared to straight line 3 is almost represents the mirror image of curve 2 of the positive, it is easily possible with the already proposed method mentioned at the beginning, a very good one to achieve the rendering of the relevant main color shown in the rendering curve 6, because the requirements made according to this procedure are now met.

In the example described above, it was assumed that only the layer for the negative; is to be veiled. However, it will be evident that in another case it will be possible to use the layer for the positive to provide an additional veil. It is only important that in this case the Permeability curve of the positive through the veil so- shifted and in their Shape is changed so that this changed curve is equal to the straight line 3: the mirror image the permeability curve to be used for the negative wind.

It is also possible, both the negative and the positive with an additional veil too, reducing both permeability curves can be changed in such a way that they are mirror images of one another with respect to the straight line 3 will.

The influence of the additional haze on the shape of the transmission curve will be illustrated in more detail with reference to FIG.

In FIG. 2, a transmission curve 7 of a light-sensitive layer which is to be provided with the veil is drawn in in the previously described Ko, oTdinate system. It is assumed that the photosensitive layer is fogged with an amount of light per surface unit E equal to 17.5%. This means that at a point on which no light originating from the object has fallen, a medium D of about 83% results as a result of the additional exposure after the layer has been developed. This permeability is now converted again to the defined value of 100% by the fact that it is equal to a factor is multiplied.

In the same way, all points of the transmittance curve 7 converted as follows, giving the permeability curve of the veiled layer curve 8 is obtained.

An amount of light E originating from the object and impinging on the light-sensitive layer per surface unit at the front z. B. 3o% corresponds to the additional simultaneous exposure of 17.50 / 0 to a total amount of light of 7.5% per surface unit. According to curve 7, this causes a permeability, measured in relation to the always present veil, of: about 1.5%. This permeability value must then be converted to the new scale, which is related to the new veil, with the factor already mentioned can be multiplied, giving a value of is obtained, which thus belongs to a quantity of light originating from the object per surface unit at the front 300'o. This creates point A of the permeability curve 8 of the veiled layer. The whole of curve 8 can be derived in a corresponding manner from curve 7 and the percentage of the uniform additional haze applied. By choosing the density of the veil one has it in one's hand; adapt the shape of the transmission curve of the negative, which is not additionally veiled, to that of the positive (or vice versa) in such a way that the desired mirror image is achieved. A prerequisite here is, of course, that the curves for the negative and the positive are chosen in such a way that a sufficient adaptation with regard to the mirror image can be achieved either by obscuring the negative or the positive or both.

In Figure 3 the case is drawn that both for the negative as for the Bositiv uses light-sensitive layers made of one and the same material are to be, whose so the same permeability curve in the sense of the invention not; it is sufficiently symmetrical with respect to the straight line 9. One such curve is: with specified io. The result of applying such layers shows the rendering curve i i. 'The reproduction can be achieved by applying an additional veil can be significantly improved that, because: the permeability curves of both layers for the negative and the positive must be the same, both layers with the same Veils are provided. The transmittance curve io becomes due to the veil converted into the curve 12, which is almost symmetrical with respect to the straight line 9. By using layers for the negative and the positive with the same transmission curve how Curve 12 can have a proportionality between for the basic color in question Amounts of light incident on the negative per surface unit and corresponding Achieve permeability of the positive, which is represented by the reproduction curve 13 will. It should be noted that all curves are made with commercially available materials are preserved.

Claims (1)

PATENT CLAIMS: i. Process for obtaining colored images on photographic Ways according to which for at least one main color for the negative and the positive of light-sensitive layers with light transmission curves is assumed from which at least those close to the sag of the associated blackening curve corresponding parts are used in a coordinate system in which on the abscissa or ordinate axis on the light-sensitive material per unit surface area Amounts of light encountered or the permeabilities obtained on a scale in front o to 100% are applied in equal sections, compared to one in that Quadrants of the permeability curves below q.5 ° through the origin; drawn straight lines are not nearly the mirror image of each other, characterized in that of these photosensitive layers at least one with an additional uniform Veil is provided in such a way that the permeability curves of the sensitive Layers in relation to the straight line mentioned are at least almost mirror images of one another will. Method according to claim i, characterized in that both for the negative as well as for the positive of light-sensitive layers from one and the same Material: it is assumed that its permeability curve is formed by the fact that both layers be provided with the same additional veil; compared to the under q.5 ° drawn straight line is made at least almost symmetrical.