CS234191B1 - Connection for load of three-phase AC rotating machine in thermal tests - Google Patents

Abstract

The invention relates to a circuit for loading a three-phase alternating current rotating machine during thermal tests, which is intended for rotating machines of high power. The circuit consists of a three-phase transformer with two secondary windings, a thyristor switch and a machine under test. It is made in such a way that the machine under test is connected to one terminal of the first secondary winding of each phase of the three-phase transformer and a three-phase thyristor switch is connected to the second terminal of the same secondary winding by the input terminal of each phase. Its output terminal of each phase is connected to one terminal of the second secondary winding of each phase of the three-phase transformer. The second terminals of the second secondary windings are connected in a star. The primary windings of each phase of the three-phase transformer are connected to a three-phase power supply network.

Description

BACKGROUND OF THE INVENTION The invention relates to a circuit for loading a three-phase AC rotary machine in thermal tests for high power rotary machines.

Sr. ........

fPV * · 5226 - Qj) is known wiring for these tests, which consists of the machine under test, a thyristor switch and two three-phase transformers. This circuit is fully functional for its purpose, especially when space is not necessary and two three-phase transformers are already available. If it is necessary to save the space of the test room as well as the production costs of two three-phase transformers that have yet to be manufactured, the previous solution is disadvantageous.

These drawbacks are eliminated by a three-phase AC rotating machine load in thermal tests, which consists in connecting one of the first secondary windings of each phase of the three-phase transformer with the machine under test and the other terminal of the same secondary winding with its input terminal of each phase three-phase thyristor switch. Its output terminal of each phase is connected to one terminal of the second secondary winding of each phase of the three-phase transformer, while the other terminals of the second secondary windings are connected to the star. The primary windings of each phase of the three-phase transformer are connected to the three-phase power supply.

The advantage of the connection according to the invention is that only one three-phase transformer is sufficient, the substantial production and investment costs as well as the space required in the test room are reduced.

234 191

In the accompanying drawing, FIG. 1 shows an example of a circuit for loading a three-phase AC rotating machine in the thermal tests of the invention, and FIG. 2 is a vector diagram of voltages.

The test machine 6 is a rotating three-phase alternating current and is connected to one terminal of the first secondary winding 4 of each phase of the three-phase transformer 6. A three-phase thyristor switch 6 is connected to the second terminal of the same secondary winding 6 with its input terminal of each phase, the output terminal of each phase being connected to one terminal of the second secondary winding 2 of each phase of the three-phase transformer. The primary windings 3 of each phase of the three-phase transformer are connected to a three-phase supply network with phases R,,, T and are connected to the star.

There is a voltage at the terminals of the machine under test, for example phase R. The predominant component of the voltage U is formed by the voltage at the first secondary winding of the three-phase transformer 2. The smaller components -Upg, -U _pT are the voltages at its second secondary winding. The smaller components -Upg and -U _{p p} are oriented against the phase stresses of phase fáze and phase £. Interconnection of the two secondary windings. Is performed £ £ thyristor switch in a way that the predominant component voltage U _R of the phase R to the first secondary winding is connected £ -Upg.napětí minor component phase at £ £ secondary winding such that it is oppositely oriented than phase voltage £. It is therefore marked with a negative sign.

The smaller component -Upg is assigned by the thyristor switch £. A lesser component -Upg corresponding to the ES phase, gives a + U _M voltage on the machine under test, which is fully extended. The smaller component -Up _T corresponding to phase, gives a voltage UU on the machine under test, which is indicated by dashed lines.

This vector addition allows the thyristor switch 6 to be early in all three phases R 1, JP. The test machine is then swings around the synchronous speed of the motor to generator condition shave angle ¢ 6 resulting voltage + U _M machines either positive. + QC or negative - ^ 0. The alternation of the orientation of the angle provádí 6 is carried out by the thyristor switch 2 due to its control, which is not indicated for the sake of simplicity in Fig. 1. The rotor of the machine under test tends to accelerate its moment of inertia at an angle. + -. The machine under test then works periodically, both as a motor and as a generator. Then it is possible to load the tested machine 7 with current and power to the required value, which is adjustable by the frequency of control pulses of the thyristor switch 6.

Claims (1)

SUBJECT OF THE INVENTION 234 191 Circuit for loading a three-phase AC rotary machine in thermal tests, characterized in that a test machine (1) is connected to one outlet of the first secondary winding (4) of each phase of the three-phase transformer (2) and to a second outlet of the same secondary winding (4) with its input terminal of each phase a three-phase thyristor switch (6), the output terminal of each phase of which is connected to one terminal of the second secondary winding (5) of each phase of the three-phase transformer (2), , taking, primary. guilt tx_ (s 3l..každ-phase three-phase transformer (2) are connected to different winter ia _r (R, S, T) a three-phase supply network.