SU62725A1 - Device for reclosing high voltage - Google Patents

Description

In case of accidents with generator tubes of radio transmitters, it is very important to remove their anode high voltage the quickest way. In many cases, this event provides the restoration of the working ability of the lamp and allows it to be quickly put into operation again.

Thus, for example, when emissions in lamps of small portions of gas are important, it is important not to allow the arc discharge to develop inside the lamp, which will inevitably entail its complete failure. If the anode voltage is removed from the lamp within a few milliseconds, then after a period of time, measured in fractions of a second, required for internal deionization, the lamp can be turned on again. In this case, it is usually extremely desirable to first apply a reduced voltage against the nominal voltage to the anode of the lamp, and then bring it to normal.

All of the above can be carried out using the proposed device for re-enabling high voltage.

FIG. 1 shows the electrical circuit of the proposed device; in fig. 2 is a vector diagram illustrating the effect of the phasing transformer.

In the event of a DC fault, the ion rectifier / s of the control grids with a grid protection system receives a high negative potential on the grids for a very short period of time, due to which the current flowing through it stops. Since all the grid protection systems normally operate from overcurrent, upon termination of its passage, they will tend to occupy the initial position. It is not difficult to make this return take place not instantaneously, but slowly with a certain time delay, for example, 0.2 and 0.3 seconds. In electromechanical systems (grid relays) this is achieved

No. 62725

by using an anchor mechanism with flywheels, and in purely electrical systems, by choosing the proper time constant circuits. In the scheme shown in the drawing, the grid protection system is depicted as a relay 2, which, at a certain maximum value of the current flowing through its winding, supplies a large negative potential to the grids.

The termination of passage through the current rectifier is equivalent to the removal of high voltage lamps 3 from the anode. At the same time, the voltage from the potentiometer 4, from which the relay 5 receives power, will also be removed. intermediate relays 7. These relays, having received power, are introduced in series with the windings of the grid transformer of the winding of the phase transformer U, shifting the phases of the grid voltages by a certain angle. All this operation takes an interval of time somewhat less than the one that is required to return the grid relay 2 to its original position.

The phase angle of the grid voltages is chosen to be such that it provides for the presence of half voltage when it is switched on again. For example, in a six-phase rectification, in order to have a half-rectified voltage, it is necessary to obtain a phase shift between grid and anode voltages of 60 °. This can be achieved by sequential connection of the windings of the phase transformer 9 to the circuit of the grid transformer 8, which develops phase voltages on the secondary side equal in magnitude to the phase voltages of the grid transformer, but included according to the vector diagram in FIG. 2. In this figure, the vectors I, and, HI denote the phase voltages of the grid transformer, and the vectors /, //, /// denote the phase voltages of the phase transformer.

Thus, when the high voltage on the anodes of the lamps is re-enabled, its absolute value will be equal to half of the nominal value.

As soon as the restart is made, voltage is again applied to the winding of the relay 5, and this relay will open the power supply circuits of the 6 to 7 relay. what the full rectified voltage is set to.

The time interval of the presence of half voltage is determined by the magnitude of the throttle 10, connected in series with the relay coil 5, and is set from 0.1 to 0.2 seconds.

If the focus of the accident is eliminated, then the rectifier and lamps continue to operate normally. Otherwise, the whole process will be repeated from the beginning. The number of test inclusions is determined by the number of teeth in the mechanical system detector 6. After a certain number of samples, relay 6 breaks the power supply circuit of relay 7 and sends a current to disconnect the oil switch of the anode transformer.

Subject invention

A device for reclosing a high voltage to the anodes of a lamp of radio transmitters powered by a grid-controlled ion rectifier and grid protection characterized by