DE944620C - Optical-electromagnetic control device - Google Patents

Description

Optical-electromagnetic control device There are devices known, which are used with the help of optical signals, triggered by printed Brands or the like. The location of an existing print image z. B. on packaging material made of paper, cellulose film o4. Like. To the edge of the individual section, bag etc. .. Diesel devices normally use a photocell as a receiving organ, whose currents, which change with the signal, are further amplified and finally to operate, for example, a Ma. be used, who in turn the directly influencing the machine, so that its incorrect setting is corrected.

It. Hart has proven particularly advantageous., in such facilities To use grid-controlled gas discharge tubes, because these after their ignition able to deliver relatively large currents. One can then, on the use of Do without low-current relays and, under certain circumstances, operate the control magnets directly. This ensures that the time constants which interfere with fast switching sequences and that the number of components mechanically stressed by movement be reduced, which is of practical importance when there are very large numbers of operations be considered..

In the case of the new control device described below, a Magnet operated with a grid-controlled gas discharge tube., With power losses largely avoided and the entire available energy is brought to the actual consumer.

Compared to conventional amplifiers. That in the output stage with ordinary High vacuum tubes work, it is the peculiarity of the grid controlled. Gas discharge tubes that their anode current is zero in the rest position and after the Ignition at a considerable rate. Value jumps. This fact requires the use a separate. DC voltage source or a voltage divider for procurement the negative grid bias on the control tube. Since one for the photocell and the amplifier tube also needs graduated voltages is the solution by means of a common voltage divider the most advantageous, if one can achieve it can that no peeling on him. -Lend performance losses occur. This is in the. usually related circuits. where the consumer is in the anode lead is not the case. It is necessary here to apply the total voltage across the to increase absolutely necessary.

An embodiment of the new control device is shown in FIG. The function of this circuit is as follows: The total anode voltage from Zoo to 300 V is between -f- and - at the voltage divider W2 -I- lYI, where W2 is an ohmic resistance and M is the resistance of the magnet coil. The cathode of the grid-controlled gas discharge tube TH is placed between W2 and M. The grid voltage is picked up at the potentiometer P, which is connected in parallel with Al, and fed to the control grid G via the resistor W1. The interrupter U has the task of switching off the anode current again in a suitable period of time after ignition. When the control tube TH is switched on by means of a voltage pulse via the transmission capacity C, the current flows from -f via U directly to TH and from there through M to -. While previously the total voltage was largely due to the resistor W2, which is dimensioned so that the negative grid voltage required is set at M, but the current is not sufficient to attract the armature of the magnet., Occurs with the ignition of the control tube complete change of the potential distribution. The internal resistance of the control tube drops from almost infinite to a very small value, which is due to the mechanism of the gas discharge. As a result, the main part of the total voltage now comes to rest on the magnet. The current flowing through the magnet suddenly increases to such a value that the armature is attracted and the intended control process is carried out on the machine. It can be seen that in this way - at no point in the arrangement useless consumers are switched on and that after the ignition of the control tube, the magnate is supplied with the full switching capacity.

It may prove beneficial or necessary for specific reasons prove not to use the full solenoid as part of the voltage divider. In this case it is advisable to use a suitable tap to provide this to lead to the control grid and the rest of the coil into the to lay negative lead. Figure 2 illustrates this embodiment. Here is the division of the solenoid - symbolized by Ml and M2. M2 acts as Series resistor for the voltage divider W2 + M, and reduces the anode voltage by a relatively small amount. It. it is also possible to electrically separate M2 from M1 and turn it on in the anode line.

In all the cases described, the grid voltage is achieved for the control tube on the. Solenoid is removed and that from the voltage source supplied current must flow completely through the solenoid. This will make that Maximum efficiency achieved.

Claims (3)

PATENT CLAIMS: - 1. Optical-electromagnetic control device with photocell and. Amplifier stage which controls a grid-controlled gas discharge tube, characterized in that the consumer, for example a magnet, is used as part of a voltage divider and itself is used to supply the negative grid bias for the control tube, with practically the entire anode current the solenoid must flow through. 2. Control device according to claim i, characterized characterized in that the solenoid is divided and only partially for generation the negative grid voltage is used, while the not for this. Purpose related Part of the solenoid in, the positive or negative lead from the voltage source is switched. Printed publications: German; Patent Specification No. 622 693, 674 353, 658 883, 69o 167, 67o 69o, 684 594; Book by Nentwig, »Die Glimmröhre in: der Technik «, 1944, pp.6o, 61, 83; "Funk und Ton", 1950, no. 3, p. 155; "Westinghouse Reference Book", pp. 629, 63o.