DE1270399B - Switching device for exposure control for photographic copiers - Google Patents

Description

Switching device for exposure control for photographic copiers The invention relates to a switching device for exposure control for photographic Copier equipped with a gas discharge tube.

As is well known, both heated thyratrons and so-called cold cathode interrupter tubes have a relatively large scatter range with respect to their ignition insert, which has the effect that the replacement of one interrupter tube by any other in photographic copiers is often not possible because this requires a major change in the circuit would. In a known control circuit, such ignition voltage spreads can be partially compensated for by making the necessary density correction via capacitive switching paths inserted in the grid circle of the switching tubes used, each of which can be influenced via an additional adjustment potentiometer.

The disadvantage of this control circuit, however, is that the Switching path for density correction consists of a capacitor chain that is used for the case of a color system using the subtractive method in each of the three color circles must be available and also only a relatively rough graduation of the capacity and so that the correction values have.

The object of the invention is therefore to use a photocell controlled gas discharge tube to put a switching path of a copier, the can be replaced with a minimum of circuitry regardless of ignition point spreads Interrupters is.

In a switching device for exposure control for photographic Copier, which is equipped with a gas discharge tube, in its grid circle one chargeable by the current of an illuminated photocell and by a switch is connected to a fixed potential load capacitor and its grid bias is adjustable by changing the cathode potential, this task becomes solved that the fixed potential is tapped at a variable potentiometer in steps will. In this way you have it in hand, both with regard to ignition point spreads different specimens of the interrupters as well as the ignition point scatter at a and switch off the same tube and that with the replaced tube with known ones Increments already used potentiometers of the exposure correction switching path to be used again in the usual way, since the assignment of this switching path to the exact exposure times is retained even when the tube is changed. That as a controlled system The potentiometer used proves to be due to the possibility of fine gradations economically much cheaper than the mentioned capacitive input of the correction values for exposure time control. The effort of the exposure correction is still going to be further reduced when the switching path than for all color circles one after one Subtractive method working color copier common total density correction element is trained.

The invention is described below with reference to an illustrated embodiment: A switching tube 1 is connected to a voltage source 5 via a pushbutton switch 2, a relay 3 and a potentiometer 4. In the grid circle of the interrupter 1 there is, in addition to a limiting resistor 6, a charging capacitor 7 which can be connected to the voltage source 5 via a switch 8 and a potentiometer 9, which can be regulated in fixed steps, and a series resistor 10 . A photocell 11 can be connected to the charging capacitor 7 . Another series resistor is designated by 12.

The mode of operation of the switching device according to the invention is as follows: For the purpose of correcting the exposure of the copy material, a more or less high voltage is applied to the charging capacitor 7 in the illustrated position of the switch 8 by means of the potentiometer 9 according to the existing empirical values, which in this way is applied to a certain bias voltage. can charge, which includes the exposure time correction. After switching the switch 8 , the capacitor 7 is further charged by the current emitted by the illuminated photocell 11 until the switching tube 1 ignites and the relay 3 responds, which in turn terminates the exposure of the copy material in a known manner. As already emphasized, the ignition voltage of different specimens of a gas discharge tube lies in a relatively large scatter range, so that a reproducible start of ignition is not easily achieved when the tube is changed. In order to make the achievable exposure times independent of these ignition point voltages, when a new interrupter is used, its cathode is set to a potential by means of the potentiometer 4 which only allows the tube to be ignited in conjunction with a certain grid potential. This ignition voltage mediated by the charging capacitor 7 has a level which is above the known scatter range of the interrupter tubes that can be used, ie. H. the tube ignites at a capacitor voltage that is independent of the actual value of the ignition voltage of the interrupter (meaning the ignition voltage that applies when the cathode is not biased). Since this capacitor ignition voltage is fixed at a constant value, the start of the ignition is also reproducibly constant by choosing the cathode bias voltage. It is advisable to set the capacitor ignition voltage as high as possible in order to obtain a larger controllable range of the exposure correction. Due to the reliably reproducible ignition start of the interrupter, the switching steps of the potentiometer 9 can be used again for exposure correction in the usual manner before the change after the change of the tube, without the need to change the same.

The circuit shown can be used both in black and white copiers and in color copiers. In a copier working according to the subtractive method, in which, in addition to three photocells, three separate interrupter tubes are used, there is the already mentioned advantage that, apart from the interchangeability of all three interrupter tubes ensured by the invention, the switching path shown by the potentiometer 9 z. B. can act as a common switching path for all three color circles for the total density correction. Not only is the switching section less complex per se, but the complexity of the total density switching sections required for all color circles is also reduced to a minimum. In this way, the same density correction effect will occur in all color circles. In the circuit described, the connection to the other color circles, which apart from the correction control system have the same structure as shown, is indicated. Without departing from the scope of the invention, the photocell of the circuit can of course be designed as a secondary electron multiplier, which is relieved by inserting a controlled system directly into the thyratron circuit. The subject matter of the invention can be used both with interrupters that ignite the ignition characteristic in the first quadrant and with those that ignite the ignition characteristic in the second quadrant.

Claims (2)

Patent claims: 1. Switching device for exposure control for photographic copiers, which is equipped with a gas discharge tube, in the grid circle of which there is a charging capacitor that can be charged by the current of an illuminated photocell and connected to a fixed potential by a switch and whose grid bias can be adjusted by changing the cathode potential, d a - characterized in that the fixed potential is tapped at a variable potentiometer (9). 2. Switching device according to claim 1, characterized in that the switching path is designed as a total density correction element common to all color circles of a color copier. Documents considered: German Auslegeschrift No. 1 154 650.