SU1396201A1 - Method of protection against internal damage of synchronous machine with longitudinal/transverse excitation - Google Patents

Abstract

The invention relates to electrical engineering, in particular to the protection of electric generators and motors. The purpose of the invention is to increase the reliability of a synchronous machine with longitudinal-transverse excitation when two exciter spatially shifted 90 windings are connected in parallel to one pathogen by accelerating the quenching of the magnetic field. l In case of emergency damages in the stator circuits, the impulse from the generator protection goes on switching off the switch 5 and suppressing the magnetic field by transferring the rectifiers to the inverter mode (for independent thyristor systems), or turning off the automatic blanking system (for electromagnetic excitation systems and thyristor systems). self-excitation). When the current in the transverse winding reaches a predetermined close to zero value, a signal is generated at the output of block 8, which causes the switching of the switching device 5 installed in the transverse field winding. By this time, the current in the driver circuit will not yet reach zero and will become equal to the current of the longitudinal field winding, and at the time of the current break in the driver circuit, the fields created by both excitation windings will be extinguished. For the case of synchronous machine operation in the motor mode, the switching device 6 breaks the longitudinal field winding when the current reaches the specified value in it. 1 hp f-ly, 1 ill. Yu

Description

The invention relates to electrical engineering, in particular to the protection of electric generators and motors.

The purpose of the invention is to increase on. the reliability of operation of a synchronous machine with longitudinal-transverse excitation when two excitation windings spatially shifted by 90 ° are connected in parallel to one exciter, by accelerating the quenching of the magnetic field.

The diagram shows a block diagram of the protection of a synchronous machine.

Synchronous machine 1 has two windings 15 2 and 3 spatially shifted 90 °, connected in parallel and connected to the exciter 4, equipped with a control device that allows the thyristor converter to be switched to inverter mode, or by a field blanking automaton. Machine 1 through the switch 5 is connected to the network.

_g · The protection device has a switching device 6, a sensor 7 of the excitation current-25, block 8 comparing the excitation current with the set, installed in the transverse circuit (for a synchronous generator) or longitudinal (for a synchronous motor) field winding. h (The output of the comparison unit 8 is connected to the control input of the switching device.

A method of protecting a synchronous machine when it is operating in generator mode is as follows.

In the event of accidental damage in the stator circuits, an impulse from the generator protection is supplied to the circuit breaker 5 and the damping of the magnetic field. The latter is carried out by transferring the rectifiers to the inverter mode (for systems of independent thyristor excitation) or by switching off the field suppression automaton (for electrical machine excitation systems and thyristor self-excitation systems.) When field is suppressed in a generator disconnected from the mains, currents change in the longitudinal and transverse excitation windings of the generator :: Regardless of its initial mode, it occurs in such a way that the current in the transverse winding is lower than the current of the longitudinal excitation winding. echnoy predetermined winding, close to zero, the output signal of the unit 8 is generated, which produce disabling switching unit 6 mounted in the transverse winding yaozbuzhdeniya.

The current in the exciter circuit at this point in time has not yet reached zero, and will become equal to the current of the longitudinal field winding. The process of damping the field created by the longitudinal field winding closed to the pathogen in the inverter mode or to the pathogen through the Arc of the grating of the field quenching machine is similar to the process that occurs in conventional synchronous generators. Thus, at the time of current interruption in the field of the pathogen field, the fields created by both field windings will be canceled.

When the synchronous motor is disconnected from the mains and the field is suppressed by inverting the thyristor converter or by disconnecting the field suppression automaton, the current in the longitudinal field winding is lower than the transverse winding current. Therefore, when the current of the longitudinal winding reaches a predetermined value close to zero by the signal generated at the output of block 8, the switching device 6 installed in the longitudinal excitation winding is turned off. In this case, the time of the disappearance of the electromagnetic field will be determined by the time of the current interruption in the pathogen circuit.

Claims (2)

Claim 1. A method of protection against internal damage of a synchronous machine with longitudinal-transverse excitation, which consists in disconnecting the machine from the network when the protection against internal damage and damping the magnetic field are introduced by introducing a counter-emf into the exciter circuit, characterized in that, in order to increase the reliability 5 operation of a synchronous generator with longitudinally transverse excitation when two excitation windings spatially shifted by 90 ° are connected in parallel to one exciter by accelerating the damping of the magnetic field, additionally measure the current in the transverse excitation winding and open it when the current in it reaches a predetermined value. 2. The method according to claim 1, characterized in that, in order to increase the reliability of the synchronous motor with longitudinal-transverse excitation when two spatially offset 90 ° excitation windings are connected in parallel to one exciter by accelerating the extinction of the magnetic field, additionally measure the current in the longitudinal field winding and open it when the current in it reaches the set value.