DE667649C - Device for adjusting the ignition point in grid-controlled gas or vapor discharge paths - Google Patents

Description

Device for adjusting the ignition point in grid-controlled gas or vapor discharge paths The subject of the main patent 642 626 is a device for adjusting the ignition point in grid-controlled gas or vapor discharge paths which receive their grid voltage from a saturated transformer. This saturated transformer is equipped on the primary side with two excitation windings, which are fed by two alternating currents that are phase-shifted by a fixed angle. The ignition point of the discharge paths can be adjusted by regulating the amplitude of one of the two alternating currents or both.

The invention relates to an improvement and perfecting of the device according to the main patent and refers to the changing the amplitude of one of the means used for both alternating current excitations. It should be noted that There must be so much resistance in the circuit of the excitation windings that when a sinusoidal alternating voltage is applied, the current in the excitation windings regardless of the time course of the magnetic flux in the highly saturated Magnetic circuit and independent of that induced by it in the excitation windings Voltage is also sinusoidal. In your main patent it is suggested the regulation of the current in the circuit of one of the alternating current excitation windings to be carried out with the help of an adjustable series resistor. This resistance For the reasons mentioned above, it would have to be an extraordinarily large one, taken in absolute terms Have a control range of about a few thousand ohms. Since also the excitation currents Regarding their size are not negligible, a regulator would be right result in considerable dimensions. Used instead of a sliding resistor a rotational resistance, so you get smaller dimensions, but must with the values given above for resistance size and current intensity of the resistance with Stages are equipped, the resistances of the individual stages by suitable Resistance cylinders are shown. If you also make the number of stages very large can, it turns out that with such a controller a sufficient fine gradation cannot be achieved. You also need three-phase circuits three such resistors, which require space accordingly.

According to the invention, these disadvantages are eliminated in that the resistance in which the variable excitation lies DC bias of a choke coil takes place. The E, rfindüng has the advantage over regulation by a variable ohmic resistance that a very fine, practically continuous gradation in the alternating current excitation can be achieved with simpler means.

To determine the inductance of the magnetic reluctance on mechanical 7u can regulate ways, one can regulate the corresponding magnetic circuit with a Air gap provided. With three-phase switching you can use one for all three Phases common choke coil get by, which are connected in parallel before the among themselves variable three excitation circuits is switched, whereby it must be assumed that that the excitation flushes are equal to one another. When changing the inductance, by changing the pre-magnetization of the choke, one can change the working winding of the Connect a direct current source in parallel, in series with a controllable choke Resistance lies. However, it is better to use a special one for the premagnetization Winding to be provided on the choke. The resistance in the pre-magnetization circle can then be significantly smaller than the rheostat, which corresponds to the Proposals of the main patent directly the excitation winding of the grid transformer is connected upstream. The current occurring in the bias circuit is only a fraction of the excitation current for the grid transformer, so it would be without Another possibility is, for this purpose, a continuously variable "resistance" to use. With this control device too, three-phase operation is finite only one regulating body.

Claims (1)

PATENT CLAIM: Device for adjusting the ignition point in grid-controlled gas or vapor discharge paths, which receive their grid control voltage from a saturated transformer: this transformer has two excitation windings on the primary side, which are fed by two alternating currents shifted in phase by a fixed angle one or both of the amplitude can be regulated by a variable resistor connected in the circuit, according to patent 642 626, characterized in that the resistance, the independence of the current waveform from the temporal flux in the grid transformer and the Keeping the phase position of the variable current constant, is designed as a variable inductance, the change in this inductance expediently by changing the magnetic resistance mechanically or by changing the direct current om premagnetization of a choke coil takes place: