DE4000567C2 - Photographic printing process - Google Patents

Description

Basics of the invention

The present invention relates to a photographic printing method according to the Preamble of claim 1.

With color copiers, a suitable copy exposure for the three colors blue, green and Red independently of each other using a formula to calculate the exposure calculated in which at least one characteristic value of a negative image is applied det. An exposure with a certain relationship to the copy exposure becomes practical tion calculated to automatically affect three color components of the copying light rivers.

In such a color copier, exposure control is performed by inserting color film tern to lock out the color components of the copying light and so egg provide a desired color balance. Such a copy becomes a negative control to measure the amount of light that is emitted by a light source delivered white light is regulated significantly. When the negative is exposed, the light emerging from the light source with the help of a variable stop or trimmed by ND filters to reduce exposure of the three color components, whereby the exposure times with the color filters can be changed to adjust the to trim the corresponding color components of the light. This is what happens gene because a lamp is used as the light source, which a large amount of the Ko serving light emits to effect high-capacity copying.

After calculating the amount of light to be regulated, an exposure calculates for each color, an exposure based on the measured value in the form of an exposure time. In accordance with the exposures provided for the three colors, one is Aperture open to expose a colored paper to the white light from the light source. During this exposure, a suitable complementary color filter is used ne color component of the light locked out, the exposure time has expired. On in this way, copying takes place with the set color balance.  

Since in the photographic copying method explained above, copying after the end the calculation of the exposures or exposure times begins and the calculation of the Exposures or exposure times take more time than other work steps with the fotogra fishing copier, it is now difficult to use the photographic copier to use high efficiency. This has been particularly time-consuming in recent years Practical calculation of exposures has become a serious problem because of the calculation of exposures or exposure times in the manner of a distinction between patterns An original is made and based on the pattern the exposures are corrected to the exposures with high accuracy setting.

DE 36 05 150 A1 describes a device for adjusting the exposure in copiers ten known, in which the brightness of a copying lamp of the copying machine is controlled. The brightness is controlled as a function of the calculated exposure data. The device further comprises a sampling circuit and a correction circuit. The Cor correction circuit corrects calculated exposure data as a function of the Ab Density density determined originals to be copied.

Methods according to the preamble of claim 1 are known from DE-PS 9 72 204 and DE- AS 12 66 122 known. With these methods, exposure is carried out with white light Art that according to the determined exposure times for the shares of the three basic colors white light after the exposure time has ended dazzling color filter swung into a light beam consisting of white light becomes.

It is the object of the present invention, a method according to the Oberbe handle of claim 1 to provide an exposure in a short period of time and Exposure with high effectiveness allowed.

This object is achieved by the features specified in claim 1.  

Accordingly, the present invention relates to a method for producing an Ab Zugs from an original using white light, being based on one Light measurement, e.g. B. the density of the original for the three primary colors, exposure times for the three primary colors are calculated and three color components of white light each because independently with the help of three complementary color filters according to the exposure times are hidden. The total amount of light required for exposure is set beforehand so that an exposure for any primary color whose exposure is the shortest of the three after the end of a calculation of the exposure times for the three primary colors ends. Before calculating the exposure times for the three primary colors is completed, a white replication begins Light source to produce the total amount of white light.

Before the white light source is adjusted to produce the total amount of white light the total amount of white light intended for exposure can be transmitted through a calculation based on the results can be determined to allow exposure for any primary color whose exposure time is the shortest of the three primary colors ben after the end of a calculation of the exposure times for the three primary colors is ended.

Brief description of the drawings

Fig. 1 shows the timing of the copying process according to a preferred embodiment of the present invention;

Fig. 2 schematically shows the copier which carries out the copying method of the present invention;

Fig. 3 shows the timing of a copying process according to a known copying process.

Detailed description of the invention

Reference is now made to Fig. 1, which shows a photographic copier with which a copying method according to a preferred embodiment of the invention is carried out; it contains a lamp 10 used for lighting and a box-like mirror arrangement 11 made of a square, hollow tube, the inner walls of which are mirrored, and of an upper and lower diffusion plate. The coming from the lamp 10 de white light passes through the mirror assembly 11 and is thereby brought to diffusion ge. After the passage of the diffuse light through a color original or a nega tive color film 13 , which is arranged between a holder 12 A for the negative film and a frame aperture 12 B, so that it is just inserted at an exposure station E, the diffuse light with the help a copying lens 17 focused on photographic color paper 18 to produce a latent image of the negative color film 13 under the influence of an aperture 25 which is acted upon by an aperture control 26 to be opened for a certain period of time.

Between the copying lens 17 and the aperture 25 , three complementary color filters 21 , 22 and 23 , namely in the colors cyan, magenta and yellow, are provided. Regardless of the other two color filters, each color filter 21 , 22 or 23 is inserted into the copy path X in a controlled manner by means of a filter controller 20 . After exposure, the photographic color paper 18 is conveyed from a paper supply roll 50 by one image by means of drawing rolls 51 which are actuated by an electric motor (not shown) which supplies impulses, in order to bring an unexposed section into a copying station P, which is operated by a Frame aperture 52 is set.

The negative ink film 13 is pulled off a roller 30 and in Fig. 1 from left to right with the help of two motor-driven rollers 28 and 29 , which are arranged on both sides of the exposure station E, and with the aid of a guide roller 31 , which before the motorized rollers 28 lies; finally, the ink film 13 is wound around a take-up roll 32 . Between the rollers 29 and the holder 12 A for the negative film, a sensor 27 for detecting recesses is arranged, which are attached to the images to be copied.

Above the exposure station E there is an image scanner 37 with a lens 35 and an image area sensor 36 , e.g. B. a CCD arrangement to perceive the light that has passed through a large number of dots of the negative color film 13 , which is inserted in the exposure station E. The signals output by the image scanner 37 are sent separately to a value recording unit 38 in order to obtain characteristic values from each image of the negative color film 13 , e.g. B. a large area transparency density, a maximum and a minimum density for each color, which in turn are transmitted to a control unit 40 . The unit 38 recording the values, which may contain a known, commonly used microcomputer, automatically calculates exposure correction values for the three colors red, green and blue on the basis of the signals output by the image scanner 37 . This means that the signals output by the image scanner 37 are stored in a memory of the recording unit 38 and subjected to processing of the preceding signals, so that characteristic values of an image which has just been measured can be easily extracted. The unit 38 calculates the large-area permeability density and supplies an average density of specific surface areas as characteristic values, which are based on the processed output signals, in order to determine an image pattern of the image being measured. The determination of an image pattern is carried out using the characteristic values and rough correction values, which are provided in several correction methods and a previous test method. Finally, exposure correction data corresponding to the color in the recording unit 38 is obtained and transmitted to the control unit 40 .

The control unit 40 , which contains a microcomputer, determines exposures according to the color in the form of an exposure time which is based on the exposure correction values and permeability-dense large areas using known formulas for calculating the exposure. In addition, the control unit 40 adjusts the amount of light supplied by the lamp 10 on the basis of the signals emitted by the image scanner 37 and influences the filter control 20 , the aperture control 26 and a stop control 15 . The control unit 40 takes over a sequence of controls, which is shown in FIG. 2 ge.

Before copying, the negative color film 13 is visually inspected using a known negative tester to record rough exposure correction data in the form of a hole pattern in a paper tape. The exposure correction data are read by a tape reader 41 which interacts with the color copier and transmitted to both the control unit 40 and the unit 38 recording the characteristic values. Since the image scanner delivers 37 measured values and automatically calculates exposure correction data for each image, the exposure correction data provided in the visual inspection can consist of coarse data which indicate the general tendency for an exposure correction for each image. For example, the coarse exposure correction data can only consist of information indicating the existence of object errors, e.g. B. a color and / or density error, the type of Ge object, z. B. display a human figure or a scene to which the scanner 37 is unsatisfactorily adjusted.

The tested, negative color film 13 , which is placed in the holder 12 A at the exposure station E, is conveyed so that an image automatically reaches the exposure position. The automatic introduction of the image is effected by the control unit 40 in that the recesses of the negative color film 13 are sensed by the sensor 27 . When the lamp 10 is switched on, its white light, which passes through the box-like mirror arrangement 11 and is thereby made diffuse, illuminates the negative color film 13 which is introduced between the holder 12 A and the frame panel 12 B. The Bildab scanner 37 measures the illuminated, negative color film 13 to emit electrical information signals. The control unit 40 carries out a calculation in order to readjust the quantity of light emitted by the lamp 10 on the basis of the signals supplied by the image scanner 37 , so that the stop control 15 is actuated and a variable lock 14 is operated in such a way that for a suitable exposure the through the amount of light falling through it is limited. With this adjustment of the light, the control unit 40 influences the variable lock 14 in such a way that a minimum exposure time T1 is extended between the end of a calculation of the exposure and the introduction of one of the three complementary color filters 21 , 22 and 23 , e.g. B. the cyan filter 21 is set. Therefore, the light is not readjusted for some negative films. After the calculation for an adjustment of the quantity of light, a calculation of the exposure is started, taking into account the quantity of light that is reproduced; at the same time, the variable lock 14 is practically actuated in order to reduce the amount of light let through according to the result of the calculation for the adjustment of the light. Then the aperture control 26 causes the aperture 25 öff net, whereby an exposure to white light takes place. After the end of the calculation of the exposure, each complementary color filter 21 , 22 and 23 is inserted into the copy path X at the end of a sufficient exposure time to see the calculated exposure before and to cut out or cut off the corresponding color component of the light. In this way, the time periods of the calculation of the exposure and the exposure between the end of the calculation and the start of the exposure partially overlap; in this way the total exposure time is shortened by a time period T2.

When the exposure is ended to form a latent image of the negative color film 13 in the color paper 18 , both the negative color film 13 and the color paper 18 are advanced by one picture. In order to image all images of the negative color film 13 on the color paper 18 , the same process is repeated again and again.

Although in the illustrated embodiment the variable lock 14 can be adjusted accordingly to the measured value of the negative color film and thereby the total amount of light passing therethrough to adjust the minimum exposure time T1, the lock 14 can be omitted if the amount of light emitted by the light source is small is. Furthermore, the changeable lock 14 can be replaced by neutral density filters, which are introduced into the copy path X in a desired combination, in order to provide an optimum amount of light in accordance with the result of the calculation of a light regulation.

Although in the photographic copying method according to a preferred embodiment of the present invention, exposure when copying can be effected with high accuracy because a pattern can be recognized from each image of the negative color film 13 based on values of a large number by the image scanner measured pixels and the distribution of the measured values, none the less enables exact testing of negatives using a light sensor, e.g. B. a known type of cadmium sensors, and a calculation of exposures when copying, which are based only on surface transparency densities.

Although the present invention has been completed based on its preferred embodiment men is described with reference to the accompanying drawings, is intended tends that the invention is not limited to any details of this description becomes, unless otherwise prescribed, but rather that it is broad within its scope and scope is interpreted as set out in the appended claims is opposed to each other.

Claims (5)

1. A method of making a copy of a color original using white light exposure composed of the three primary colors, the exposure times for each of the three primary colors based on transmission densities of the color original for the three primary colors derived from light transmitted through the color original are measured, calculated and the primary color components of the white light are hidden using three color blocking filters corresponding to the exposure times for the respective primary colors, characterized in that during the calculation of the exposure times of the three primary colors, the white light exposure is started with a predetermined light intensity, whereby the calculation of the exposure time is completed before the end of the white exposure. 2. The method of claim 1, further comprising the steps:
Determining a smallest of the three transmission densities for the three primary colors of the color original,
Comparing the smallest transmission density with a reference transmission density, where the reference transmission density is determined such that an exposure time obtained on the basis of the reference transmission density and the given light intensity is longer than a constant calculation time which is necessary for calculating the exposure times of the three primary colors , and
Decreasing the intensity for the white light exposure according to a difference between the smallest transmission density and the reference transmission density if the smallest transmission density is smaller than the reference transmission density. 3. The method of claim 2, wherein the beginning of the calculation of the exposure times of the three primary colors coincide with the end of the comparison. 4. The method of claim 2 or 3, wherein the start of the white light exposure approximately with coincides with the end of the decrease in intensity. 5. The method according to any one of claims 2, 3 or 4, wherein the beginning of the decrease the intensity together with the beginning of the calculation of the three exposure times falls.