DE808730C - Device for generating alternating current of a constant frequency - Google Patents

Description

For the generation of alternating current of a constant frequency by means of machines a constant speed is required. Keeping the speed of large ones constant Motors such as those required to drive high power alternators causes considerable difficulties. The known regulatory bodies, such as B. centrifugal governor, need contacts, which for larger contact capacities require constant maintenance by keeping clean and frequent readjustments.

The invention overcomes these difficulties by providing a resistance generator generates the alternating current of constant frequency and that this resistance generator is driven by an electric motor, the speed of which with a centrifugal contact controller is kept constant. The combination of a resistance generator with a centrifugal force controlled The drive motor is completely reliable because the resistance generator is too with greater power only a relatively small driving force to overcome the brush friction is required. The drive motor can therefore be kept small, so that the centrifugal contact only has to switch weak currents and practically none Is subject to wear and tear.

For example, a small drive motor with an output of 150 watts, , the speed of which is completely reliable thanks to the centrifugal contact controller can be kept in the device according to the invention, a resistance generator drive, which is dimensioned to deliver an alternating current power of up to 5 kW. The resistance generator converts direct current directly into alternating current in a known manner around and needs a mechanical force for the deformation itself. Only to overcome The mechanical force is used for bearing and brush friction; the brush friction is depends on the output alternating current power.

If you want to generate greater AC power, then you can Apply cascade connection using a synchronous motor from the first Resistance generator is fed and in turn a second resistance generator drives. Since the first resistance generator already has an AC output of up to 5 kW able to deliver, can by a second, driven by the synchronous motor Resistance generator very considerable alternating current outputs with absolutely constant Frequency are generated. An embodiment of the invention is shown in the drawing shown. It shows Fig. I schematically the basic arrangement of the invention, Fig. 2 schematically shows a second resistance generator with drive in cascade connection.

The motor M (Fig. I) can be designed as an alternating current or a direct current motor. It has a collector K1 and a centrifugal governor R with a spring F. On one end of the shaft of the motor sits a resistance generator with a collector K2, the resistor R and two slip rings S1 and S2. A direct current source, not shown, is connected to the terminals A, B and supplied to the ends of the resistor R via the slip rings S1 and S2. The taps of the resistor R are connected to the lamellas of the collector K2. The brushes sliding on this collector take the alternating current. In your example, three brushes are provided which are connected to terminals U, h and W , from which three-phase current can be drawn off.

A synchronous motor SM (Fig. 2) is connected to terminals U, h and W to generate high alternating current outputs. Another one sits on the shaft of this synchronous motor; Resistance generator with a correspondingly large dimension, consisting of collector K3, resistor R2 and slip rings S3 and S4.

Claims (2)

PATENT CLAIMS: i. Device for generating alternating current of constant frequency, characterized in that a resistance generator generates the alternating current and that the resistance generator is driven by an electric motor of relatively low power, the speed of which is kept constant by a centrifugal contact controller. 2. Device for generating alternating current of a constant Frequency according to Claim i, characterized in that the alternating current which the Resistance generator driven by the centrifugal contact controlled motor generated, drives a synchronous motor with which another resistance generator is coupled to generate alternating current of high power.