DE1917403A1 - Photographic reproduction process for exposing a photosensitive layer - Google Patents

Description

Photographic reproduction process for exposing a photosensitive Layer priority: Switzerland; April 5, 1968 No. 5047/68 The invention relates to a photographic reproduction process for exposing a light-sensitive layer, initially the blackening as a function of the amount of light for the photosensitive Layer is determined and the minimum amount of light is determined at which the gradation curve begins to run approximately linearly.

When going through a photographic reproduction process Original templates of various kinds to meet the requirements the following Treat printing processes accordingly.

Every complete photographic reproduction process lies in the Primary functions are based on exposure and development.

In addition to precisely controlled exposure processes, there are corresponding development processes necessary. A picture-contrast reproduction that is true to the original is obtained from the films used required, whereby experience teaches that the original contrast range and the printable Contrast ranges correspond to each other only in exceptional cases. Play while editing the highly differentiated image contrast ranges that cannot be influenced in the original plays an important role, since for the photographic reproduction of the Printing process certain image contrast range is decisive. This boils down to a the rule-forming change in the original image contrast ranges. The change of image contrast ranges or

Gradation changes are known in conventional photographic Reproduction process achieved in that either a film material corresponding Counting the gradation characteristic, the contrast characteristic of the developer solution adjusted or the ratio of exposure to development is varied. This known method are associated with significant uncertainty factors, of which the following some are listed.

Since the film materials of different gradations are mutually exclusive show different degrees of blackening, the endpoints may well meet the standards correspond, but experience has shown that the intermediate contrast values differ greatly from one another may differ.

The use of different active developers makes that impossible Application of machine development methods.

The change in exposure and development conditions caused a strong curvature of the blackening curve, which has similar phenomena as above mentioned can cause.

Usually one with constant brightness and color temperature is used burning light source exposed. Ss methods are already known in which by means of Dimming the optical system results in a more or less constant exposure time applied at variable intensity.

If the exposure time is changed, the accuracy of the Exposure, however, is severely affected by the reciprocity error, since this The effect that occurs with any photographic emulsion is not proportional to the Exposure time behaves.-When stopping down the optical system, however, arise Diffraction effects that influence the resolution and the image size.

Attempts have also been made to carry out the conventional working methods To improve the application of indirect measurement technology. The original templates will be analyzed with the help of special measuring devices. The resulting measurement results serve as a basis for determining the range of contrasts to be achieved, the Exposure times and or development modalities.

This known method is believed to improve the quality average and increases production safety and speed, but can reduce the template and do not record the diffusion effects caused by the equipment, because you are through the performance limit There are limits to the indirect measurement method.

It is an object of the invention to provide a method for exposing photosensitive Indicate layers, this allows these layers to be exposed in such a way that they then developed mechanically and rationally under constant conditions with the greatest possible contrast range and high quality will.

The inventive method is characterized in that one the illuminance prior to the exposure of the light-sensitive layer the darkest point of the projected image of a template that you can then measure the projected image is also evenly illuminated until the on the Illuminance measured in the darkest point corresponds to a value which together with a certain exposure time the said minimum amount of light results in that then the brightest point of the projected image while at the same time additional lighting measures and the light intensity with which the template illuminates is changed until an illuminance is at the brightest point of the image is measured, which is sufficient to determine the approximately optimal blackening at the Exposure time to achieve, and that one then during the certain exposure time the image is projected onto the light-sensitive layer and this is also projected at the same time illuminated.

The invention is described below with reference to the accompanying drawings for example explained in more detail. They show: FIG. 1 a basic illustration a device for exposing a photosensitive layer, FIG. 2 is a block diagram of the device -according to FIG. 1, FIG. 3 shows a view from below of an objective with an aid similar to FIG. 4, a section along the line IV-IV of FIG. 3, and Fig. 5 is a graphical representation of the gradation of a particular one Film material as a function of the amount of light with which the film has been exposed.

The device for exposure shown in principle in FIG. 1 of light-sensitive layers has a light source 1 for illuminating a transparent original template 2 and a lens to project the image of the Template 2 on a base 4. The light source 1 is supplied by a feed device 5 with electrical energy supplied. This is to keep the light intensity constant Light source 1 via a light-sensitive resistor 6, which is passed through part of the light generated in the light source is illuminated, optically / electrically with the Feed unit 5 is jerk-coupled.

Between the original 2 and the lens 3 are a shutter 7 and a rotatable color filter 8 is arranged. The latter can be powered by an electric motor 9 can be powered and remotely controlled.

The device also contains a command device 10 with a program memory 11, a device 12 for measuring the illuminance at individual points of the projected image of the template and an auxiliary light source 13 for additional and evenly illuminate the projected image to change the contrast.

The auxiliary light source 13 is formed in a ring shape and in the vicinity of the lens 3 arranged, the optical axis of the lens perpendicular to the Level of the annular IIilfslichtquelle 13 is. The intensity of the light source 1 and the auxiliary light source 13 is continuously adjustable.

2 shows a block diagram of the above-mentioned device. The light source 1 contains several xenon pulse lamps 14. These are via a ballast 15-, an actuator 16 and a power switch 17 are connected to the power cord.

In the vicinity of the pulse lamps 14 is the photosensitive resistor 6 arranged, the Moss output to a controller 18, which also has a not shown Contains pulse converter, supplied. Via a control element 19, the setpoint of the Regulator 18 can be changed continuously. The pulses generated by the pulse converter reach an ignition device 21 via a pulse delay circuit 20. The latter generates a high-voltage pulse with each mains half-wave, which is applied to capacitive Deposits 22 passed on outside the pulse lamps in the vicinity of the electrodes will. As a result, the xenon gas is ionized with each high-voltage pulse, so that the main current can flow within the pulse lamps.

The controller 18 controls the actuator 16 in such a way that the pulse lamps 14 main current pulses of different lengths only as required during the half-periods are fed. After every The pulse lamps go out when the main current pulse is activated 14 and are re-ignited again and again by the high-voltage pulses. By Changing the width of the main current pulse through the body is the light intensity regulated, but the color temperature of the generated light remains constant.

From a control circuit 23, a start button 24 and a stop button 25 has, on the one hand the power switch 17 and on the other hand via a first Time circuit 26, a solenoid 27 of the shutter 7 can be actuated. Next is connected to the control circuit 23, a second timing circuit 28, which in turn is a stabilized Controls feed device 29, which supplies the auxiliary light source 13 with electrical power. The output voltage of the power supply and thus the light intensity of the auxiliary light source 13 can be continuously adjusted with a control element 30.

The device 12 for measuring the illuminance on individual Points of the projected image of the original includes a measuring head 31 with a Photomultiplier tube, an amplifier 32 and a converter 33, and a display device 34 for the illuminance. The = displayed measured value is transferred to the control elements 19 and 30 are transmitted and also fed to the control circuit 23. This transfer can manually or automatically.

3 and 4 represent an embodiment of the lens with a Color filter and the auxiliary light source 13. The lens is in two parts and has an upper lens set 35 and a lower lens set 36. Between these two is an aperture ring 37, part of a rotatable filter disk 38 and one fixed arranged contact disk 30 is provided. The filter disc and the contact disc are housed within a two-part housing 40. on each part of the housing a pipe section 41 and 42 is placed and retaining rings 43 and 44, respectively, are placed on them screwed on to hold the lens sets 35 and 36, respectively. The filter disk 38 is rotatable mounted on a shaft 45 and has eight round cutouts 46 in which red, blue and green color filters 47 are inserted. Between one of these cutouts 46 and the center of the filter disk 39 is a permanent magnet 48 for actuating Magnetic switches 49 attached to the contact disk 39 are arranged. At the scope of the Filter disk 38 is a toothing that meshes with a pinion 50, is provided, which can be driven by an electric motor 51 are on the contact disc two spring contacts 52 riveted on, with contact pieces attached to the filter disk 38 53 interact. The spring contacts are in the motor circuit in a manner not shown switched on so that it drives the filter disc until the next position is reached, the contact strips 53 are dimensioned such that the circuit is interrupted as soon as the Filter disk 38 the intended Position.

The annular auxiliary light source 13 contains a total of 33 lamps 54, which are each arranged in a bore 55 of a fastening ring 56 for themselves the bores are closed with a small color filter 57 at the bottom are held by a transparent ring 58 which diffuses the light. A red, blue or green small color filter 57 is assigned to every third hole and all third lamps 54 are connected in parallel so that in groups all red, blue or green color filters 57 are illuminated.

These lamps 54 can be switched on and off with the magnetic switches 49 by moving the permanent magnet 58 through the filter disk 38 from one to the other Magnetic switch 49 is moved, when, for example, a red color filter 47 is in the passage area of the lens, those lamps 54 by one of the magnetic switches 49 are switched on, which are also assigned a small red filter 57 is.

Thanks to the permanent magnet 48 and the magnetic switches 49 is inevitable the correct correspondence of the color filters for the light source 1 and that of the Auxiliary light source 13 reached.

Through the translucent ring 58 is the from the auxiliary light source 13 generated light evenly distributed on the base 4 (fig. 1).

Fig. 5 shows a graphical representation of the for a particular Film material achieved blackening after developing this film material in function the amount of light with which it was previously exposed. The darkness is in Percent applied, with a blackening of 0% practically completely translucent is, while a blackening of 100% means that there is practically no more light through the developed film passes through.

The function shown has three sections a, b, c.

Only the section b is more or less linear, while the Sections a and c rises are curved. Within the last two sections the blackening is not proportional to the amount of light. Is the footage using an original is exposed so that the lightest point of the projected image of the Original is irradiated with an amount of light that corresponds to the value 59 the contrast values at sections a and b, i.e. at the darkest and at the brightest areas, not reproduced correctly.

About the incorrect reproduction of these contrast values in the range of this To correct both sections, according to the new procedure, the film material, which rests on the base 4, at the same time as the auxiliary light source 13 in addition evenly illuminated and thus the threshold point 60 against the linear section b shifted Dte light intensity of Light source 1 is adjusted so that that the brightest illuminated point with an amount of light that corresponds to the ert 61, is illuminated. If a suitable contrast grid is used during the exposure, so the passage of section b of the curve can be stretched even further.

If necessary it is possible with a final exposure without additional Illumination with the auxiliary light source 13 to expose the brightest areas again, so that a complete blackening is achieved at these points, for which purpose only the amount of light small d is necessary. In this way it becomes an almost almost linear one Course of the blackening curve from point 60 to point 62 is achieved as this is done by the dash-dotted line is shown.

With the device described above, this can be done above.

specified exposure process carried out in a convenient and rational manner will. First of all, the light source 1 and the auxiliary light source 13 are switched on and the shutter 7 is opened. With the device 12, the light intensity is on the darkest point of the projected image of the original 2 measured. The intensity the light source 13 is then adjusted with the control element 30 such that during an exposure time determined in advance an amount of light corresponding to the value 63, occurs at this point. The device 12 then becomes the brightest Location of the projected image measured and with the control element 19 the intensity of the light source 1 is set so that this brightest point, with Consideration of the exposure time determined in advance, with an amount of light that corresponds to the value 61, is illuminated.

If the intensity of the light source 1 has to be readjusted strongly repetition of the measurement in the darkest point is recommended.

Regulating the light intensity of the light source 1 and the auxiliary light source 13 can be manual or automatic based on the value determined by the display device 34 take place.

After calibration and adjustment, both light sources will be switched off and the shutter 7 closed.

Then the film to be exposed is placed on the base 4 and then simultaneously with both light sources for the allotted time exposed. A final exposure may also follow.

The measurements of illuminance levels on the darkest and the brightest The projected image must be positioned with the red, blue and green filters will. The determined values are stored in the program memory 11, so that after the measurement has been carried out, the film material is completely exposed. The the Exposures corresponding to different colors will be beneficial executed on the same film material, of course shifted opposite one another and then developed together with a standard developer.

A major advantage of this method described above is the time saving, because in contrast to the previous method in general only two measurements are sufficient to adjust the light sources, as with these two Measurements of both light sources can be recorded at the same time. Even during the exposure Both light sources act simultaneously on the light-sensitive layer.

Uniform film material can also be used, which can be done by machine is developed in a standard developer0 Because the contrast range of the original template is converted to a normal value by regulating the two light sources9 all footage is properly exposed9 so that there is an individual development of the footage is unnecessary. The aperture is kept largely constant so that the diffusion effects caused by the apparatus are largely eliminated aindo through the photometric adjustment of the blackening curve endpoints results in constant values Deletion times, whereby the reciprocity error is eliminated. When measuring are at the same time the template-related, device-specific or by different Diffusion effects caused by imaging scales are switched off. The one described above Keeping allows a single film gradation and a single film to be used Developer type. As a result, for example, four-color separations can be applied to a single Film sheet can be reproduced.

Claims (5)

Claims Photographic reproduction process for exposing a photosensitive Layer, whereby initially the blackening as a function of the amount of light for the light-sensitive Layer is determined and the minimum amount of light is determined at which the gradation curve begins to run approximately linearly, characterized in that one precedes the exposure of the photosensitive layer the illuminance at the darkest Position of the projected image of a template that you can then measure the projected image is also evenly illuminated until the darkest The measured illuminance corresponds to a value which, together with a Exposure time the mentioned minimum amount of light shows that you can then the brightest point of the projected image with additional lighting at the same time measures and the light intensity with which the original is illuminated is changed in such a way until an illuminance is measured at the brightest point of the image, which is sufficient, the approximately optimal blackening for the specific exposure time to achieve, and that one then the image during the certain exposure time projected onto the light-sensitive layer and also illuminates it at the same time. 2. The method according to claim 1, characterized in that according to the exposure of the photosensitive layer for Correcting the Contrast in the bright areas, a final exposure without additional lighting executes. 3. The method according to claim 2, for producing color eyes, thereby characterized that the different color separations on the same support of the photosensitive Layer are exposed next to each other. 4. Device for logging the method according to claim 1, with a continuously adjustable main light source to illuminate the original, a Lens for projecting the original onto the light-sensitive layer, an adjustable one Auxiliary light source for additional and uniform illumination of the light-sensitive ' Layer and a device for measuring the illuminance at individual points of the projected image, characterized in that the auxiliary light source (13) is arranged in a ring around the objective (3) and that the closure of the objective and the auxiliary light source for exposing the photosensitive layer through a electronic command device (10) can be controlled at the same time. 5. Device according to claim 4, characterized in that the command device (10) a program memory (11) for determining the intensity of the two light sources and the exposure times.