SU70327A1 - Device for self-excitation of a three-phase synchronous machine - Google Patents

Description

The self-excitation of synchronous machines, being extremely convenient to operate, requires the use of means to ensure proper residual magnetization of the mash when implementing it using solid rectifiers. For this purpose, various means are used, in particular, magnetic pads of highly coercive material are installed under the poles, which reinforce the field of residual magnetism and ensure the initial self-excitation of the machine.

The subject of this invention is a device for self-excitation of a three-phase synchronous machine, which does not require such complications in the structure of the machine.

In the proposed device, a switch is used (as in the self-excitation schemes known from the literature) for switching the excitation winding from a low-voltage rectifier to a high-voltage one when the machine reaches a certain voltage, as well as a voltage relay automating the switching process.

The essence of the invention lies in the fact that this low-voltage rectifier is composed of the terminal rectifying elements of two phases of a high-voltage rectifier connected according to the three-phase Gretz circuit, and forms a single-phase two-wave Gretz circuit using rafts that short-circuits the middle elements of these phases in relay contacts auto auto switching process.

The foregoing is explained in the drawing, which shows a schematic electrical diagram of the proposed device.

The excitation winding 7 of a three-phase synchronous generator 2 is powered by rectified current from solid rectifiers connected according to the three-phase Gretz scheme and fed from the machine itself via an autotransformer 3.

In the three-phase Gretz scheme, two phases are shunted by jumpers 4, which exclude two elements in each phase. Thus, at the beginning of the synchronous generator re151

The alternating current of the core, formed by residual magnetism, is supplied to the single-phase, full-wave Gretz circuit, in each arm of which there is one rectifying element 5, consisting of one or a series of parallel-connected selenium washers.

The current is supplied to the single-phase rectifying circuit by means of conductors 6 and contact bridges 7 of relay 8 connected to the voltage of the machine.

The third phase of the Gretz circuit initially does not allow the current to pass due to the high resistance at low voltages of a series of selenium elements connected in series.

By increasing the voltage at the terminals of the core to 30-35 in the relay 8 for increasing the voltage, the rectifier shunts, switching to normal operation according to the three-phase Gretz circuit, which

It becomes possible due to sufficient AC voltage.

Subject and Inventions A device for self-excitation of a three-phase synchronous machine using solid rectifiers using a switch to switch the excitation winding from a low-voltage rectifier to a high-voltage one when the machine reaches a certain voltage, in that the low-voltage rectifier is made up of terminal rectifier electrics two phases of a high-voltage rectifier included in the three-phase circuit of Gretz ,. and forms the single-phase, full-wave Gretz circuit with shunt, shorting the middle elements of these phases in the voltage relay contacts, automating the switching process.