DE19538593A1 - Copying method for photographic originals with different density range - Google Patents

Abstract

The method involves using one of several copying materials (14a,15a) of different contrasts according to the characteristics of the original (10) and matching the illumination of the original to the copying material. The decision as to which copying material to be used is taken by an operator using visual inspection. Alternatively, the decision is taken automatically by evaluating the density values, which are measured in regions, sp. by comparing the density range with a limit value of e.g. 1.5. If optional colour copying materials are to be used they are substantially matched in spectral sensitivity.

Description

The invention relates to a method according to the preamble of claim 1 and an apparatus for performing this method.

When copying photographic negatives onto photo paper, the originals have sometimes a very different range of density, i. H. a big or very small difference in density between the darkest and lightest part of the Template. If the copy material is in its gradation, i.e. H. the steepness of the Blackening curve in a certain density range to a medium density If the scope of the templates is matched, templates with an extreme density can be not be copied optimally. For example, copy templates with gerin According to density range, such as badly underexposed negatives, copies become very fluffy lead and the copy material should then be steeper for an optimal result. For negatives that have a very high density range, e.g. B. overexposed Pictures, flash pictures or back light pictures, the normal Ko not reflect the difference in density correctly. Such copies often appear too hard or unsatisfactory in the shadows or lights a flatter copy material would be beneficial. Hence the desire for an adjustment of the gradation of the copy material to the character of the Negatives.  

Such copying materials with different Gradation offered. Their use is in single copiers and Sheet goods unproblematic. When processing copy materials in roll form is the transition from one type of paper with a steep gradation to another with shallower gradation is extremely difficult to organize, because the Copies of a film can be brought together again for final processing have to.

The object of the invention is to provide a method and devices that the use of copy materials of different gradations accordingly allow the template character.

This problem is solved by a method with the characteristic note paint the claim 1 and a device with the characterizing note paint claim 5.

The invention is based on the knowledge that before in a roll copier Rolls of copy material with different gradation are available can be used and the material is used for the copying process, that better matches the character of the template. This possibility is particularly important particularly advantageous to use if the copying station immediately one Sheet product development is downstream, so that each of them can be used cut off the roll material sections in the desired size and after exposure to development.

Another important aspect in copying processes with automatic loading clearing control and the goal of mixed processing, d. H. Use a single film storage for the usual multitude of to be processed Film makes, it is that the photoelectric density measuring device spectrally the must have the same sensitivity as the copying material used. So um measured density values for calculating the amount of copying light on various To be able to use copy material, the most important requirement is that the spectral sensitivity of the copying materials with different γ poss  as precisely as possible with each other and with the spectral sensitivity of the measuring device match. This requirement is best met by copying materials from a manufacturer that is common for its various products uses the same color coupler.

Further details and advantages of the invention, in particular a device for Implementation of the method result from the further subclaims in connection with the description of an embodiment that hand of the drawing is explained.

Show it:

Fig. 1 is a schematic representation of a complete laboratory with the functions,

Film development, copying and paper development as well as two paper pre advice cassettes and,

Fig. 2 is a schematic diagram of the arrangement for paper control.

In Fig. 1, a complete laboratory is described, in which all functions from film input to output of the finished paper images are combined in one device. The laboratory consists of the film developing section 1 , the copying station 2 and the paper developing section 3 . In the film development part 1 pools for the development 4 , for an intermediate wash 5 , for the bleach fixation 6 and the final watering 7 are provided. The fully developed film material is dehumidified in the dryer 8 . A device 9 for the automatic transfer of the film 10 is provided between the dryer 8 and the copying station 2 . The copying station 2 consists of the lighting device 11 , the original stage 12 , the paper stage 13 and the feed for the copy paper with the two cassettes 14 and 15th The paper developing part 3 in turn has various treatment baths 16 and the dryer 17 . The finished paper images leave the device via issue 18 .

In order to process an order, the film submitted by the customer must be provided with a leader card. This can be done either by an operator or automatically in the device. The leader card interacts with a transport device which pulls this and thus the film attached to it through the entire development part 1 . Since the transport device only affects the leader card, but not the film itself, a wide variety of film formats can be processed. In the transfer device 9 , the leader card is separated from the film and the beginning of the film is transferred to the copying station 2 without operator intervention. Since the film development part 1 and the copying station 2 work at different speeds, an intermediate memory 19 is provided. From this, the film is then drawn into the copying station and, as it passes through in the direction of arrow A, is measured with the aid of a scanner schematically indicated in FIG . After the copy data has been calculated, the transport direction is reversed and the film is again transported through the copying station. Each frame is exposed according to the calculated copy data and positions.

In order to be able to process different copying materials without changing the paper cassettes, two paper cassettes 14 and 15 with different paper rolls are provided. Paper is transported onto the paper stage 13 from the cassette which is loaded with the desired material and separated from the roll by means of a cutting device 20 , 21 . The exposed paper sheets are then withdrawn from the copying stage 13 and conveyed through the individual treatment baths 16 in a manner not described in more detail. Then they pass through the dryer 17 and are stacked in the delivery station 18 .

The function of the paper stage is described in DE-OS 41 26 578, is but not the subject of this application.

In the two cassettes 14 and 15 for the rolls of copy material, copy papers with different gradations are now kept in stock. For example, a normal copying material with a slope of γ = 3.5 can be kept in stock in the cassette 14 , which is suitable for the usual mixing of pictures taken outdoors. In the second cassette 15 , on the other hand, a copy material rialband 15 a with γ = 2.5 can be in stock, which is ideally suited for portrait photography, flash photography or backlighting. In the cassette 14 and 15 , a pair of transport rollers 22 , 23 is arranged, which pushes a copy material band section on request beyond the associated cutting device 20 or 21 on the paper stage 13 , in the z. B. according to the teaching of German Offenlegungsschrift 41 26 578 conveyor belts 13 a with an associated suction device, not shown, support the transport of the copying material rialbandabschnittes in the copying position. When the required length between the cutting blades 20 and 21 has passed, the trans port is briefly interrupted, the cutting process is carried out and the copying material through the conveyor belts 13 a in the z. B. central copy position on a turntable 13 b moved with a separately controlled suction. Depending on the original format and the desired copy size, the cut Ko sheet material can then be brought by pivoting the rotary plate 13 b by 90 ° into a position perpendicular to the longitudinal direction of the belt 14 a or 15 a. By means of a conveying movement of the conveyor belt 13 a, the cut sheet can be conveyed into the nip of a pair of rollers 16 a after exposure, which is already part of the paper development baths 16 . This pair of rollers 16 a ensures further transport to other transport elements of a known type on the way of the copy paper through the paper developing device 3 . Images which have been dried there arrive in the output device 18 , where they are deposited in order in compartments of a belt with partition walls.

At the front of the copying station 2 an operator surface 24 is arranged, containing a paper selection button 24 a and a paper display device 24 b, z. B. a display. The actuation of the button 24 a z. B. for a certain, standing in the master stage 12 template the paper conveyor of the cassette 14 with the copy material 14 a, so that for copying this position before a section of the roller 14 a between the knives of the Schneideinrich device 20 is advanced, after Separated end of the transport and fully ends is conveyed to the copying position. In a subsequent template with a completely different character, which requires a steeper or flatter copy material, the operator actuates the selector switch 24 a on the control device 24 so that a section of the copy material tape 15 a is separated from the other cassette for the next template. Some relief for being detached from the other cassette. A certain relief for the operator is already achieved in that one of the two cassettes contains a so-called standard material with γ to be taken for the larger proportion of the originals and each copy material is provided when the originals are changed, if not by inputting the operator sel tener used copy material is selected from the other cassette by pressing the switch 24 a.

The procedure with manual switch operation based on visual images evaluation of course requires a constant presence of the operator on Device.

In order to dispense with the presence of an operator during the processing operation to select the appropriate type of copy material, an automatic selection device that can be used for this purpose is shown schematically in FIG. 2. On the path of the film 10 , which is continuously moved forward in the direction of arrow A during the measurement process, there are three diode rows 26 a, 26 parallel to one another above or below the surface of the film with respect to a light source transverse to the direction of arrow A in a logging device b and 26 c, which are each sensitized to one of the three colors by appropriate color filters. The color filters are constructed in their spectral transmittance in cooperation with the spectral sensitivity of the diode rows so that the overall sensitivity for each of the three colors corresponds exactly to the spectral sensitivity of the copying materials 14 a and 15 a in the two cassettes. The output signals from the three rows of diodes are supplied to an exposure computer device 27 and to a grading computer 28 shown as a box. The exposure computer 27 is constructed according to the teaching of German Patent 28 40 287, ie it forms 10 so-called color density difference curves from the individual color density values of the areas in the originals of the entire film, which are used as film-specific specifications for avoiding the density-dependent color error. From these and the corresponding template-specific values, the copy light quantities H in the three colors R, G and B are then calculated and forwarded via line 29 b to the control device 29 .

The gradation computer 28 receives the same measured values from the areas of the master copy, the lateral offset of the diode rows 26 a, 26 b, 26 c is compensated for by corresponding programming of the memory for the density values, so that the values of each individual area can be merged again when read out . The gray scale values of the template areas are therefore available to the gradation computer 28 . It is programmed to form two holding functions, i.e. for each template by comparing the maximum or minimum density value found so far with the newly recorded one and by deleting the new value if it does not reach the old value and deleting the old value if it is exceeded by the new value, so that the maximum and minimum area density are present in a template at the end of the evaluation process. Their difference is a measure of the density range of this template and can be used directly by comparison with limit values ΔD _LIMIT to _decide on the copy _material to be used or its gradation value. However, refined methods can also be used to determine a modified density range ΔD. For example, the evaluation can be limited to the middle of the image that is likely to contain the important image. However, it is also possible to evaluate the part of the original with the greatest detail contrast as an image-important part and to limit the process of determining the density to this part with high contrast. Another possibility would be e.g. B. the detection of the image-based template area ches on the presence of areas with skin tone. It can normally be assumed that larger partial areas of a template with skin color are the image-important part, so that the formation of the density difference describing the density range can be restricted to the larger area of these skin tone areas.

The immediate or modified density range ΔD found in this way then goes via line 29 a to the control device 29 , where this value is stored together with the three amounts of copying light for this template.

Now comes in the second passage of the film 10 in the opposite direction of Pfei les A or after rewinding in the direction of arrow A in the copy stage 13 , so the trans is first due to the stored density range or the decision already made for the type of copy material port device 21 or 22 activated to feed a corresponding portion of the paper strip 14 a or 15 a of the stage 13 . Then taking into account the sensitivity properties of the preselected copying material, the exposure is carried out with the adapted amounts of copying light HR, HG and HB, for. B. by retracting subtractive notch filters of known design by activating appropriate controls via line 29 c. After completion of the exposure, the exposed paper sheet is fed to the rollers 16 a and thus the paper developing part 3 via the conveyor belt 13 a.

Different variants of the invention are conceivable. For example, on the control device 29 shown in FIG. 2 additionally manually operable control switch 24 a may be present, so that the operator can correct a decision made by the gradation computer 28 for a certain copy material based on their special knowledge by actuating the switch 24 a.

Furthermore, the film developing part 1 in connection with the laboratory is not necessary for the implementation of this invention. Rather, this advantageous method can also be used in a device consisting only of the copying station 2 and the paper development part 3 by loading the film stage 12 with films 10 that have already been developed. This allows a copy material with a different gradation to be introduced within a film during the transition from one original to another, without the images of an order exposed on different copy material having to be subsequently combined again. These exposed paper sections pass through the paper developing device 3 exactly in the order of the exposures and are therefore brought together in the correct order in the output device 18 regardless of the type of copy paper used.

Furthermore, the invention is not limited to two copying materials. Much more can provide additional paper guides and drives Cassettes can be arranged in the device so that the selection ent is magnified speaking.

Claims (9)

1. A method for copying photographic originals with different density range on photographic copying material with a certain gradation, characterized in that depending on the original character one of several copying materials ( 14 a, 15 a) different gradation is provided for the copying process and the exposure of the original ( 10 ) is carried out in adaptation to the respective copy material. 2. The method according to claim 1, characterized in that the decision on the copy material to be used for the respective template ( 14 a, 15 a) is made manually by an operator. 3. The method according to claim 1, characterized in that the decision on the copy material to be used for the respective template ( 14 a, 15 a) automatically by an evaluation of the area measured measured values, in particular by comparing the density range with a limit of z. B. 1.5 is hit. 4. The method according to any one of the preceding claims, characterized in that the optionally to be used color copying materials ( 14 a, 15 a) in their spectral sensitivity in the three colors are largely selected in unison. 5. Apparatus for carrying out the method according to claim 1, characterized in that a roller copier a plurality of cassettes ( 14 , 15 ) with tape-shaped copying material ( 14 a, 15 a) of different gradation, each associated with a cassette a cutting device ( 20 , 21 ) and one Device ( 22 , 23 ) for transporting the copying material into a lighting station contains that, based on the decision about the copying material to be used in each case ( 14 a, 15 a), one or the other cutting and transport device ( 20 , 21 ; 22 , 23 ) can be activated and that the Be lighting station is followed by a sheet product development device ( 3 ). 6. The device according to claim 5, characterized in that the material decisions made for the individual templates are stored and with the template change, the control of the transport devices ( 22 , 23 ) and the cutting devices ( 20 , 21 ) takes place in such a way that the decision Appropriate copy material tape ( 14 a, 15 a) advanced, cut off and the section in the paper stage ( 13 ) is positioned. 7. The device according to claim 5 or 6, characterized in that an operable switch by the operator ( 24 a) between the two types of paper ( 14 a, 15 a) is provided, in particular a switch when returning to the position for a standard material return switch . 8. Apparatus according to claim 5 or 6, characterized in that a device ( 26 ) for area-by-area measurement of the original density values in the three colors ( 26 a, 26 b, 26 c) is provided in a roller copier that an evaluation device ( 27 ) for the density values are provided for determining the amount of copy light required for each original and a device ( 28 ) for determining the density range D _max - D _min = ΔD of each original and for comparing this difference ΔD with a comparison value ΔD _limit for deciding on the type of copy material to be used according to the position of the density range ΔD of this template to the limit. 9. The device according to claim 8, characterized in that for formation of the density range ΔD the gray density values and / or only such templates areas are used, which are in the central image area.