DE951516C - Operating arrangement for mechanical converters - Google Patents

Description

There are mechanical converters known in which one in an evacuated or a vessel containing protective gas, rotating liquid jet for contacting is sprayed against fixed contacts. These converters are suitable for this, for example to feed a fluorescent lamp system as an inverter from a battery. Of the Drive of such a rotating liquid jet, which is generated by a centrifuge is generated from a liquid sump, is done by a direct current shunt motor. The advantage of such a device is, inter alia. in the fact that one is comparatively large Can implement services and only requires a relatively small motor. Such a small DC motor has the disadvantage, without further aids, that it can fluctuate relatively strongly in its speed. This has the consequence that the output frequency of the inverter fluctuates to the same extent.

In the invention, an arrangement for stabilizing such Propulsion motor proposed; after that there should be two electrical at the armature of the motor Taps offset from one another by 180 ° tapped a voltage and at least be fed to a resonance circuit, which is tuned to the nominal frequency of the motor is.

The transfer takes place by means known per se, such as brushes, Slip rings; Collectors etc. In this way it is achieved that the engine only can vary in speed within very small limits.

Fig. I illustrates an embodiment of the invention. Therein i is a liquid centrifuge, which, as indicated schematically, a A jet of liquid splashes against fixed contacts and thus the voltage of a battery : 2 alternately to one and the other winding end of the primary winding of the Transformer 3 sets, from which the desired alternating voltage is then taken on the secondary side can be. The centrifuge i is driven by a motor q. with armature 5 and shunt winding 6 powered. The supply source for the motor can also be the battery 2.

and 8 mean the taps on the armature of the motor, which is via slip rings 9 and io an alternating voltage is taken, which is fed to the resonance circuit i i will. If f o is the rotation: f setpoint frequency of the motor, then the output frequency is the Inverter either fo or an integral multiple thereof. The latter depends on the number of fixed electrodes arranged on a circumference are. The resonance circuit ii should now be tuned to this frequency fo. Accepted, If the frequency of the motor drops, this resonance circuit i i also becomes an alternating current fed to this lower frequency. This creates a lagging reactive current, because the capacitance in the resonance circuit for this alternating current has a lower frequency larger and the inductance represents a smaller resistance. Through this lagging reactive current; der 'on the armature and through the parallel connection of the Field also acts back on the field winding 6, the field is weakened, and the The engine runs faster again. Conversely, it will be faster than the setpoint frequency running motor creates a leading reactive current that strengthens the field and the Engine runs slower. With this simple rule arrangement you can create a very achieve precise constant frequency maintenance.

Fig. 2 shows a further embodiment of the invention. Thereafter- the above-mentioned voltage tapped at the armature becomes two series resonance circles 21 and 22 which are connected to the output transformer 3. These However, switching is only possible if the motor frequency and output frequency are the same are, but then has the advantage that on the anchor or on the field a stronger Performance acts back, whereby the control process is accelerated.

Claims (2)

PATENT CLAIMS: i. Operating arrangement for one as an inverter working mechanical converter with in an evacuated or containing inert gas Vessel rotating liquid jet, characterized in that on the armature of the direct current drive motor A voltage is tapped at two taps electrically offset from one another by 180 ° and at least one resonance circuit is fed to the target frequency of the Engine is tuned. 2. Arrangement according to claim i, characterized in that two series resonance circuits are provided, which are connected to the output transformer of the Inverter are connected.