DE602027C - Process for setting and automatic control of the exposure in photographic copiers - Google Patents

Description

The invention relates to a method for setting and automatic control of the Exposure in photographic copiers and those corresponding to these processes Devices.

In detail, it relates to such methods or copiers in which the Conductivity of a light-sensitive cell exposed to the copying light to the charge or discharge of a capacitor, grid of a triode or the like. Is made usable and where, when a certain value is reached, the circuit of the copy light source is interrupted.

The method aims in particular to automatically compensate for the voltage fluctuations the light source resulting from fluctuations in the intensity of the light source. In addition, the inventive Process a quick and safe setting of the copier to the most diverse negative densities and paper types within a large exposure interval allow. Facilities have already become known in which the light source circuit is controlled by a relay takes place, its sensitivity by changing the anode voltage of the used Triode can be adjusted. There are also facilities of the kind become known at which the sensitivity of the relay by changing a bias applied to the relay can be changed.

The present invention now uses fixed settings with the exception of the capacitor Individual parts, whereas the capacitor consists of a group of individual capacitors different but constant capacitance, which is determined by a suitable switching device optionally connected individually or in groups to specific end capacities can be, with a certain total capacity a very specific exposure is equivalent to. The interconnection of the individual capacitors is preferred Arrange so that the total capacity increases logarithmically.

The method according to the invention has the special compared to the known Advantage that it allows a practically unlimited latitude in exposure, so that negatives of various densities as well as papers of various sensitivities can be treated quickly and safely.

Another advantage to be mentioned is that the precise setting of the device

with fixed capacitors no wear and tear and electrical caused by it Is subject to changes, as is the case, for example, with the known arrangements, that work with variable resistors or variable capacitors, is the case.

The invention is shown schematically in the accompanying drawings, namely ίο represents

Fig. Ι a circuit which shows how the subject of the invention in the Can be implemented in practice.

Fig. 2 shows a modified form of the arrangement.

According to Fig. 1, 1 is a light source, which is fed from the power line 2 via a switch 3, which generates the light for the exposure area 4 to to expose a photosensitive emulsion there in a known manner. Simultaneously 'is a photosensitive element 5, hereinafter referred to as a photocell, arranged in such a way that it is also illuminated by the light source 1. The circuit of this photocell is parallel to a capacitor group 6, 9, 10, 11. The capacitor group can be charged by a battery 7 via a contact 8 and by the photocell S be discharged. The capacitance of the capacitor group 6, 9, 10, 11 can optionally be selected by Switching on or off individual capacitors can be changed. The desk 3 is open in the rest position and can be closed by a button 12 by the coil 13 of the switch 3 receives voltage via the contact 14 from the line · 2. The switch 8 is opened at the same time. A highly sensitive tube relay 15 is connected to its grid and the cathode to the capacitor group. The coil of the relay 16 with the contacts 14 is located in the anode circuit of the tube. With this arrangement, the closing time of the switch 3 is controlled.

It does this in the following way. The capacitance of the capacitor group is set to a specific value by connecting or disconnecting individual capacitors 9, 10, 11, which ensures a very specific exposure measured in level 4. When switch 3 is open, i.e. in the rest position, contact 8 is closed. As a result, the capacitor group is charged to a certain potential by the battery 7. If the contact 12 is now briefly depressed, the coil 13 receives voltage, whereby the switch 3 is closed. By closing the switch 3, the pushbutton contact 12 is bridged at the same time, so that the coil 13 keeps itself under tension until the excitation circuit is opened again by the contact 14. The switch 3 simultaneously closes the circuit for the light source i. Furthermore, by energizing the coil 13, the contact 8 in the capacitor charging circuit is interrupted. The capacitor group is now discharged via the photocell S, the conductivity of which corresponds to the light intensity emanating from the light source 1. The voltage on the grid of the relay tube 15 corresponds to the capacitor voltage and decreases with this during the discharge of the capacitors. If this grid bias has reached a certain critical value, an anode current begins to flow, which excites the coil 16, thereby opening the contact 14 and thus also switching off the excitation for the coil 13. The switch 3 triggers and the Beiichtang is interrupted. At the same time, the anode voltage is also switched off from the tube, and the entire arrangement is put into its idle state. In Fig. 2 a modified form of the circuit is shown. In this circuit, the charging of the capacitor group 17, 18, 19 via the photocell 5 is made usable in order to control the exposure of the surface 4 by the light source 1. Here, too, the switching coil of the switch 3 or 8 is again excited by a push button 12 and the light source 1 is switched on. The switch 14 in the excitation circuit of the switching coil 13 is in turn triggered by a switching coil 16 located in the anode circuit of the relay tube at a certain critical value of the anode current. In this arrangement, in the operating state, after the closing of the contact 8, the capacitor group 17, 18, 19 i _O o of the battery 7 depending on the conductivity of the photocell 5, which in turn depends on the irradiation by the light source 1, more or less charged quickly. When the charge or the grid voltage of the relay tube reaches a certain critical value, a corresponding anode current arises which, with the help of the coil 16, opens the contact 14, whereby the light source 1 is switched off and the entire arrangement is returned to its rest position.

Any type of voltage-sensitive Relays are used. The most obvious thing for this purpose is a normal triad, with both alternating and with DC can work to use. It can also work with a normal vacuum tube be used with a mechanical or dynamic relay. The switching coils used must be the Type of current must of course be adapted.

If the subject matter of the invention is described for the case that the. One and Turning off the light source itself is controlled by the arrangement, so it goes without saying also possible to control a shutter by the coil 13, which the corresponding Making exposure. Instead of the special batteries for discharging the capacitors, the required charging voltage can be used of course also together with the anode voltage and the light source voltage can be taken from one and the same power source using voltage dividers, ballast resistors. There are also other! a number of changes and improvements are possible, without deviating from the actual subject matter of the invention set out above.

Claims (1)

Claim: Process for setting and automatic control of the exposure in photographic copiers, in which the conductivity of a light-sensitive cell exposed to the copying light is made usable for charging or discharging a capacitor, grid of a triode or the like, and in which the electric circuit is used when a certain value is reached the copying light source sub "is broke, characterized in can be connected to the photocell in certain time units corresponding gradations groups that individually or capacitors. 1 sheet of drawings