CH193103A - Process for the reproduction of color photographs with lenticular elements. - Google Patents

Description

  

  Process for the reproduction of color photographs with lenticular elements. The subject of the invention is a process for the reproduction of color photographs with lenticular elements, for example with a view to spectacular projection, to obtain color proofs visible by reflection or transparency, or to prepare selected plates. for polychrome printing.



  We know that, in color photographs with lenticular support taken using an objective fitted with a selector filter (polychrome or generally trichrome), a small image of this filter forms in the sensitive layer behind each element. len ticular.

   Until now, for the taking of such photographs, one has always used relative apertures of objective substantially equal or slightly smaller. to the relative aperture of the small lenses forming the lenticular elements used, so that the successive images of the filter behind two small contiguous lenses do not encroach on each other and are separated by a slight gap not impressed. After inversion and in the case of cylindrical lenticulation, these unprinted spaces form small black bands separating the fields used from the small lenses.

   The use of notably smaller lens apertures has never been considered because it would have had the effect of giving a much greater width to these intermediate bands which; in the case of a positive image, mix the reproduced colors with black and create a prohibitive darkening of the photograph obtained.



  These interleaves therefore constitute, in lenticular photographs, "spaces harmful" to the quality of the projection or reproduction.



  On the other hand, experience has shown the inventor that, in the reproduction of a lenticular color photograph (whether it is a matter of projecting it, making a len ticular copy or 'make proofs or selected printing plates), the selection and vividness of the colors obtained in the reproduction are greatly improved when not the full width of the small images is used in making the reproduction. mono chromes of the take filter bands located behind each element of the lenticulation of the photograph to be reproduced,

   but only part of this width and particularly the central part to the exclusion of the whole or part of its edges, that is to say of the part of these images which, as a result of the diffusion and diffraction, is poorly delimited and less dense than the central part if it is a negative and less transparent if it is a positive.



       It follows that the marginal parts, affected by optical and photo-graphic scattering and by the diffraction of the microscopic images of the filter bands behind each lenticular element, also constitute "harmful spaces" to the quality of the projection or of the reproduction of lenticular photos in color.



  The method forming the subject of the invention makes it possible to eliminate or attenuate the drawbacks of “harmful spaces” forming between the different images of the shooting filter. It will be seen below that certain embodiments of the invention also make it possible to eliminate or alleviate the drawbacks of “harmful spaces” formed by the marginal parts of the monochrome images of the bands of the shooting filter.

   The method forming the subject of the invention is characterized by the fact that the size of the images of the bands of the filming filter reproduced on the copy is given a greater value, compared to the size of the image of the photographed subject than in the photograph to be reproduced, so that the relative magnitude of the harmful intervals between the different images of the shooting filter which are, at least in part, reproduced on the copy, is relatively smaller than on the photograph to be reproduced.



  This process not only makes it possible to take better advantage of lenticular photographs usually obtained with objectives, and which had hitherto remained unusable for certain applications, such as in particular poly chrome printing, but it also makes it possible to produce use slow motion pictures with low lens apertures and reproduce them efficiently,

   that is to say to solve the problem considered so far as insoluble of the shooting in color on lenticular elements with great depth of field.



  Some embodiments of the process according to the invention are explained, by way of examples, in what follows, with the aid of the appended sin, in which: The fi-. 1 schematically shows the way in which the photograph is taken of a photo graphy on lenticular elements; Fig. 2 shows, on a larger scale, the locations of the harmful spaces on such a photograph; Fig. 3 schematically shows means for the reproduction by contact, corresponding to only one of the bands of the filter, of a photograph obtained as indicated in FIG. 1;

    Fig. 4 schematically shows other means for a similar reproduction by projection; Fig. 5 shows schematically means for the complete reproduction (corresponding to all the bands of the filter) by projection, of a lenticular photograph on a photographic element of the same nativity;

       Fig. 6 schematically shows means for the complete reproduction, by contact, of a lenticular photograph on a photographic element of the same nature.



  The proportions are not respected in these various figures which are purely schematic.



  In fig. 1 and 2, we show schematically the way in which the images <I> r, v </I> and <I> b </ are formed behind each lenticular element 1 of a support 2 of a sensitive layer 3. I> bands R, V <I> and B </I> of a filter 4 used for shooting and with which a lens 5 is fitted. The hatched parts i correspond to the intermediate bands between the successive images of the filter and the m (dotted) parts correspond to the marginal parts of the <I> (r, </I> v, <I> b) </I> images of each monochrome band (R, G, B) of the filter .

   The same references have been used in the other figures to designate similar elements.



  During reproduction, it is possible to use, for example, a device which illuminates only the middle part (excluding the marginal parts) of each monochrome image of the filter bands on the len ticular photograph to be reproduced or to resort to a device. which intercepts totally or partially in the light beam coming from the whole surface of this monochrome image, the rays coming from the marginal parts of this image.



  If we intend to produce, from lenticular color photography, proofs or mono chrome printing plates, we can, for example, and as shown in fig. 3, place the lenticular photography to be reproduced opposite the objective 5 which was used for the shooting and in the same position it occupied during this shooting. The diaphragm, which carried the shooting filter, is advantageously deprived of it. In contact with the sensitive layer 3 of the photograph, the plate or the photographic film 6 is placed on which it is desired to form the monochrome image.

   If, for example, it is a question of making a printing plate with yellow ink, corresponding to the part of the lenticular photograph taken through the blue band of the filter, the part of the diaphragm 7 which was occupied by the other bands of the filter and the lateral parts (with respect to the direction of the lenticulation) of the section of the diaphragm which carried the blue band of the filter are also partially sealed.

   The objective is then directed towards a suitably illuminated white surface which occupies a location such that the objective forms its image on the photosensitive layer and the desired monochrome image is thus printed on the photosensitive layer of the element. 6.



  With the same aim of obtaining separate monochrome copies and if it is proposed to apply to their production the mode of reproduction by optical projection recommended by the inventor for copying lenticular films in his French patents nos 699392 and 751414, it is closed, as shown in fig. 4, by a diaphragm 7 established appreciably in the plane of intersection of the axes of the elementary beams of the photograph to be reproduced, all the beams, to the exclusion of those which correspond to the median part (but not to the marginal parts) mono chrome interested.



  The same method is advantageously applied to the complete optical reproduction of the three monochromes of a lenticular photograph on a photographic element of the same nature, for example, according to the processes indicated by the inventor in his French patents nos 699392 and 751414 It is thus possible to increase on these optical reproductions the liveliness of the colors of all the monochromes or of such monochromes that one wishes by the operation which consists in completely or partially blocking the beams corresponding to their marginal parts.



       In the latter case and so that the relative intensities of the three monochromes are not altered by the fact that the beams corresponding to the marginal parts of one or two monochromes are, alone blocked, it suffices, for example, to d 'close the entire width of the other monochrome (s) by a corresponding amount.



  As experience has shown to the inventor, the results obtained, more especially by applying the process described above to the polychrome printing technique, are of better quality from the point of view of selection and vividness of colors when operating in such a way that the photograph to be reproduced is preferably an inverted negative or a positive or even a negative bearing, by overprinting, opaque separations between the successive microscopic images of the film (according to the devices indicated by the inventor in his French patent no. 778340).

   This eliminates the disturbing influence of the imperfectly directed light which comes from the intermediate bands formed by these separation zones when, as is the case for ordinary lenticular negatives, these zones are transparent.



  In the case where it is proposed to obtain, from a color lenticular photograph and for all the monochromes at the same time, a lenticular copy in which the ban of the interleaves, located between the microscopic images of the filter, must occupy a proportionally - less area than in the photograph to be reproduced, one can, for example, proceed as follows: One supposes, for example, that one wants to carry out the reproduction to equal size using the optical system previously described by the inventor in the aforementioned patents.



  Under these conditions, the inventor has found crude, to obtain the desired result and indicated above, it is sufficient (fig. 5) that the lenticular elements of copy 8 have a relative aperture smaller than those of the photograph. to be reproduced 2, that is to say that the ratio of the aperture of a lenticular element to its focal length must be smaller in copy 8 than in photograph to be reproduced 2.

   In the case considered (magnification equal to unity), the angular field occupied behind each lenticular element by the image of the selector filter is the same on copy 8 as on copied photograph 2.

   Consequently, it is clear that if one calls "field of a lenticular element" the fraction of the sensitive layer corresponding to each lenticular element (and whose width is equal to that of this small lens in the case where the elements lenticulars are contiguous), the image of the selector filter will occupy on copy 8 a larger fraction of the "field of lenticular elements" than on copied photograph 2.

           In order to show that, in this embodiment of the invention, only the opening of the elementary lenses of the films or plates used counts, it has been given voluntarily in FIG. 5, to the small lenses of copy 8, an absolute aperture greater than the aperture of the small lenses of copied photograph 2, while the relative aperture of small lenses 8 is on the contrary smaller than that of small lenses 2.



  In order for the result indicated above to be obtained in a correct manner, the inventor has found, on the other hand, that it is necessary that, during the reproduction, no light coming from the interleaves of the copied photograph. and which are located between the successive microscopic images of the filter, does not fall on the copy.

   This result is obtained, for example, by inverting the photograph to be copied, which blackens these intermediate bands or by an overprinting of these intermediate bands carried out according to the processes previously described by the inventor (French patent no. 778340) or by any other similar means.



  In summary, in the optical reproduction of color photographs with len ticular elements on elements of the same nature, one can, for example, obtain the desired result, on the one hand, by using a lenticulation-copy whose small lenses have an aperture relative ture weaker than that of the small lenses of the lenticulation of the photograph reproduced and, on the other hand, by proceeding in such a way that no light,

      coming from the interleaves thereof, does not reach the copy.



  In the case where such reproduction is made with a magnification different from unity, the angular openings of the beams forming the microscopic images of the filter or coming from these images are no longer the same for the original and for the copy.

   If the copy is reduced, the corresponding angular aperture is larger for the copy than for the copied photograph and, on the contrary, it is smaller if the copy is enlarged. It follows that, all other things being equal, the desired result will be obtained on condition that the relative opening of the lenticular elements of the copy is given a value such that, multiplied by the magnification factor of. copy, it gives a number smaller than the aperture of the lenticular elements of the copied photograph.



  In the case where it is desired to obtain such a reproduction by applying the "contact" method - and, in this case, only the unitary growth is possible - it is possible, for example and as shown in FIG. 6, obtain the desired result by putting in contact, bump to, bump, the photograph to be copied 2 and the copy 8, giving the small lenses of the photgraphic element 8 on which the copy is made the same absolute aperture, but a smaller relative aperture than that of the small lenses in the copied photograph 2.

   In other words, the copy and the photograph to be reproduced will have substantially the same number of lenticular elements per millimeter; but if their supports are made of the same material, the support of the copy 8 will have to be thicker than that of the copied photograph 2 and the radius of curvature of the small lenses will, of course, have to be greater. As for the cases examined above, one must operate in such a way that no light comes from the interleaves of the photograph to be copied 2.



  In the event that the copies of color photographs with lenticular elements are intended to produce proofs or polychrome printing plates, it is no longer necessary that, as in the previous cases, these copies themselves be lenticular. ; on the other hand, each copy should only contain the image corresponding to one of the bands of the selector filter which was used for the shooting.



  In this case, reproductions can be obtained in various ways in which the interleaves occupy a proportionately less area than in the reproduced photograph.



  We consider, for example, and without this example being limiting, the case where the color photography on lenticular elements to be reproduced is placed, gelatin against gelatin, substantially in contact with the photographic element intended to produce the plate. print of one of the monochrome; it is further assumed that the photograph to be copied is illuminated by means of an appropriate optical system which leaves only the light corresponding to this pattern (fig. 3).

   In this case, the desired result is obtained by interposing, between the layer 3 carrying the photograph to be copied and the sensitive layer of 6 on which the copy is made, a thin transparent layer (for example of air, cellophane, etc.), of appropriate thickness and such that each monochrome line of the original forms its enlarged image on the copy.

   The optimum result will be obtained when this enlarged image will be made to occupy on the copy substantially the entire width corresponding to that of a lenticular element of the copied photograph; thus the influence of the harmful spaces formed by the intervening bands thereof will be suppressed without thereby reducing the sharpness of the copy, the power of which remains, as in the copied photograph, limited by the width of the copy. a lenticular element.

   The same result can be obtained by various other means, for example, in the case where the monochrome-copy is obtained by optical projection according to a process indicated above, said result will be obtained by slightly and suitably altering the focus of the image. the image formed on the copy. In all cases, it will be advantageous, as in the other cases considered above, to prevent by inversion or by superimposition of the copied photograph or by any other means leading to the same result as, during the copying, of the light. from the insert strips falls on the copy.



  Among the various applications of the various embodiments of the process which have just been described, the following should be mentioned in particular. The invention now makes it possible to completely overcome the difficulties which limited until now the possibilities of application and use of color photographs and lenticular films.



  In fact, until now, shots on photographs and films of this nature have never been carried out except by means of objectives of very large relative apertures (of the order of f / 3 at least). This is because the relative aperture of lens elements in photographs and films of this kind cannot be lowered significantly below a value of this order because of the limited defining power of sensitive layers.

   It follows that by using, in the shooting, relative apertures of the lens appreciably smaller, one would have obtained lenticular photographs where the interleaves not impressed in the shooting would have occupied a considerable fraction of the frame. area. Consequently, and after inversion, these photographs would have been extremely dark and unprojectable.



  In fact, the lens apertures (considered in the plane perpendicular to the axes of the lenticulation) and which have been used until now for the shots of photos with lenticular elements have always been greater than f / 4 and the ratio of the relative aperture of the objective used and the relative aperture of the lenticulation has always been greater than 1/2.

   Thanks to the method forming the subject of the invention, the shots of lenticular photographs in color with lens apertures less than f / 4 and with a ratio of less than 1/2 of the apertures relating to the elements of the lens. lenticulation and the lens, have become not only possible but desirable and advantageous, the possibility of being able to usefully take such photographs being an immediate consequence of the invention.



  Obtaining color lenticular photographs by means of objectives of low relative aperture (an attainment which has never been recommended or carried out heretofore) will henceforth provide widely usable documents. As has just been explained, the process according to the invention will in fact make it possible to print color lenticular photographs and films taken under these conditions, copies in which the intermediate bands will be as small as is required. will want and which, therefore, will be advantageously useful for both projection and polychrome printing and obtaining color proofs.



  By this particular application which, among other things, is thus made of it, the present invention frees the industry from the difficulties which, in particular as regards the depth of field, the depth of focus and the extent of the field, considerably limited hitherto the use of photos and lenticular films in color.

 

Claims (1)

CLAIM Process for the reproduction of color photogra phies with lenticular elements, characterized in that the size of the images of the bands of the shooting filter reproduced on the copy is given a greater value, compared to the size. size of the image of the subject photographed, than in the photograph to be reproduced, so that the relative size of the harmful intervals between the various images of the shooting filter which are, at least in part, reproduced on the copy, is relatively smaller than in the photograph to be reproduced. SUB-CLAIMS 1 Method according to claim, applicable in the case where it is desired to obtain a complete reproduction, at equal size of a lenticular photograph on a photographic element of the same nature, characterized in that one adopts for the opening relative lenticular elements of the copy a value smaller than the relative aperture of the lenticular elements of the photograph to be reproduced. 2 A method according to claim, applicable in the case where it is desired to obtain a complete reproduction, at different size, of a lenticular photograph on a photographic element of the same nature, characterized in that it adopts, for the relative opening lenticular elements of the copy a value which, being multiplied by the factor of proportionality between the photograph to be reproduced and the copy, gives a value smaller than the relative aperture of the lenticular elements of the photograph to be reproduced. 3 Method according to claim, applicable to the case where it is desired to obtain a copy by contact by placing the lenticulation of the photograph to be reproduced against that of the copy, the supports of said lenticulations being made of the same material, characterized in that the thickness of the support of the copy and the radius of curvature of its lenticulation are given greater values than the thickness of the support of the photograph to be reproduced and the radius of curvature of its lenticula- tion. 4 Method according to claim, applicable in the case where the reproduction is carried out by an optical projection process, characterized in that the focus for the copy is chosen so that the desired magnification of the monochrome images of the copies is obtained on the copy. ban of the shooting filter. 5 Method according to claim, applicable to the case where it is a question of obtaining a monochrome reproduction of a lenticular photo graphy, characterized in that an enlargement such as, for the monochrome images of the bands of the filter is adopted. when taking pictures, that the width of these images on the copy corresponds approximately to the total width of a lenticular element of the photograph to be reproduced. 6 Method according to claim, characterized in that the intermediate bands, separating the images from the capture filter on the photograph to be reproduced, are made non-transparent to prevent a harmful influence of the rays emanating from these intermediate bands. 7 A method according to claim and sub-claim 6, characterized in that the blackening of the intermediate bands takes place by inversion. 8 A method according to claim and sub-claim 6, characterized in that the blackening of the intermediate bands is obtained by using a positive as a photograph to be reproduced. 9. Method according to claim and sub-claim 6, characterized in that the blackening of the intermediate bands is obtained by additional exposure to. the light. 1O A method according to claim, character ized in that one intercepts, during reproduction, at least part of the light rays coming from the marginal parts of the small mono-chromatic images of the bands of the shooting filter which are located behind each élé lenticular aspect of the photograph to be reproduced.