DE1522890A1 - Photographic copier with electronic control of the exposure time and an additional device to control the additional light for the purpose of gradation conversion - Google Patents

Description

Photographic copier with electronic control of the exposure time and an additional device for controlling the additional light for the purpose of gradation conversion. The present invention relates to a copier having an electronic Control device for the copying light of a magnifying device in a known manner Execution and a switching device for an additional exposure to achieve a Gradation conversion of the copy material possesses. This additional light is known in Wise used, starting from a relatively hard gradation of the copy material, by metered addition to the copy light by converting the gradation of the copy material to achieve an adaptation to the copy templates. Usually additional light is used and copier light through separate, parallel acting electronic control devices controlled, both simultaneously or independently to adapt to the sensitivity of the copy material influenced by adjusting devices can be. Also known is a method where the Vorlicht, from an electrical Timer controlled, but to achieve a constant density of the copy Summation together with the copying light from a measuring device, e.g. a photocell, is measured. This achieves two things. "Once it is always constant Copy density, e.g.

in the event of intensity fluctuations as a result of a varying mains voltage on the other hand, if the freely selectable switching time is changed, the Timer for the purpose of gradation conversion automatically changes the gopier light time so that that in turn a constant density of the copy is achieved.

In another embodiment, a sensitivity to the additional light to a different sensitivity for the copy light during the Exposure process when using only one electronic tless device for the intensity of additional and main light switched.

With the known methods, the goal is to get one through the density the master exposure, which is determined in its duration, has a graduated, in to add constant additional exposure to the dosage for the individual gradation levels. The amount of light or switching time for the additional light must therefore be kept constant because every influence immediately shifts to a different gradation level has the consequence. This can only be done precisely with considerable effort by electronic lighting of the additional light that is independent of the main exposure by means of photoelectric measuring equipment, e.g. in the form of a potentiometer. Just In this way, for example, mains voltage fluctuations when using a Unregulated power supply for the additional light source by extension or Reduction of the additional exposure time must be taken into account.

With the summing measurement of additional and main light by a common photoelectric measuring device is a constant density of the copy achieved, a consideration of intensity fluctuations due to changes in the However, supply voltage for the additional light source cannot take place because the electrical time switch used for this to a predetermined, constant switching time is set. The main exposure then becomes automatic in the case of summing metering varies so that a copy of constant density is created. The result is a shift the gradation in the copy.

In addition, all timers work in such a way that one fixed or variable charging resistor, which also depends on the light intensity Internal resistance of a photoelectric measuring cell can be formed, a charging capacitor is charged up to a predetermined threshold value. When this threshold is reached will usually a threshold switch, e.g. a multivibrator or a thyratron, triggered. With these charging circuits, it is important to ensure that that the adjustable threshold is based on the maximum charging voltage in the linear Part of the charge process on the charging capacitor remains in proportion to the light intensity To achieve exposure times.

According to the proposed invention, it is recommended that the charging circuit consisting of charging resistor and charging capacitor to be dimensioned so that always the non-linear part of the charging curve is used, i.e. the threshold value for a subsequent threshold value switching in the range of the maximum achievable Charging voltage is applied.

Use an unregulated charging voltage that is proportional varies with the fluctuation of the mains voltage.

In Fig. 1, the functional charge behavior is shown. The curve of charge 1 shows the behavior at the nominal value of the supply voltage, curve 2 in the case of overvoltage and curve 3 in the case of undervoltage. Line 4 is the threshold voltage of a subsequent threshold switching that switches the additional light. The non-proportional change in switching time t can be read on axis 5. With this simple measure it becomes possible to obtain a time switch for an amount of light that is independent of the supply voltage within wide limits, but that is always constant. Since a change in the supply voltage for the additional light source results in a non-proportional change in the exposure time to achieve a constant amount of light, this simple charging circuit can always achieve a satisfactory constancy of the amount of additional light within wide limits, regardless of the supply voltage, through a suitable choice of the threshold value. The individual gradations can be graded by varying the charging capacitor, and the switching time can be varied to adapt to the sensitivity of the copy material by changing the charging resistance.

The advantage lies in the low cost of switching means. It can the use of an electronic additional light measurement can be dispensed with. as well is a regulation of the charging voltage depending on the mains voltage, like them is necessary in electrical time switches with a high degree of constancy, is superfluous. on the other hand can also dispense with expensive voltage stabilizers for the additional light source will.

An exemplary embodiment is shown in FIG. 2.

The operating voltage U8 is applied to terminal 6 of the charging circuit placed. With the setting resistor 7 can a charging voltage Set UL at charging point 8, which is above the threshold voltage that can be removed at point 9 US for a subsequent threshold voltage switch implemented in a known manner, but in the non-linear part of the charge curve of the time constant term, consisting from the charging resistor 10 and the charging capacitors 11, 12 and 13 is located.

To graduate the charging time in a fixed ratio for different The charging capacitors 11, 12 and 13 can be switched in gradation levels. To the continuous variation of the charging time, the charging resistor 10 can be known in a known manner Regulate way.

From both of them. However, possible variations are shown in FIG. 1 described charging behavior is not influenced, so that an operating voltage fluctuation non-proportional charge curve and the associated reaching of a threshold voltage for controlling a threshold switch for the additional light of an exposure device with gradation conversion is retained.

Claims (1)

P a t e n t a n s p r u c h copier with a device for electronic control of the exposure time of the copy light and another Device for controlling the additional light for the purpose of converting the gradation of the copy material, characterized in that it shows that the charging circuit of an electronic switch is dimensioned so that the threshold value of a connected to the charging circuit Threshold switch in the non-linear part of the loading function of the elements of the charge circuit is placed. Documents considered: DAS 1 187 483 DAS 1 174 163 DBP 1 072 885