SU767889A1 - Device for protecting asynchronous alternator against loss of excitation and asynchronous performance - Google Patents

Description

3 .7 occurs on the OB and in modes that are not necessarily accompanied by asynchronous rotor turns. Thus, in the modes of rassforsyrovki excitation systems with controllable gates and ARVs of a strong design, cTfij Mx, when the controlled transducer is transferred to the inverter mode, a reverse polarity voltage arises on the AC. Such a mode, however, is not always asynchronous as it is, but the device therefore works FALSE in these cases. ; The purpose of the invention is to increase the reliability and selectivity of protection. Goal Achieved by the fact that in the device to lock the synchronous generator as a current organ. Tercx, connected to the current-carrying bus in the circuit of MOTKJ3 excitation, is successively in contact with the switch & half sensible relay. The drawing shows a diagram of the proposed device. . . The device contains a reed switch 1, an OUT relay 2. The reed switch in this device is an excitation current sensor and is installed on the current-carrying bus 3 in the t5S-4 circuit through an insulating gasket. The setpoint of the SMPSK: ger1 6ia control is governed by its rotation in the magnetic field formed by the flow of the current. Such a current sensor allows adjusting the set point in wide ip cases and, therefore, controlling the fact that the excitation current: the generator disappears. As a field of field sensing, a relay which in this device is a blocking organ can be used: a electrolyte or a polarized relay or a relay, which, when changing the polarity of the monitored parameter, is provided with a stabilizer, or a stabilizer, this time. The relay has 2 voltages providing the SP with the help of Zener diode 5, which, with a positive voltage on an OP, shunts the relay winding, preventing its operation, and a negative voltage on the OB enables the relay to operate. Resistance 6 - adjusting, 7 - ballast. The ability to perform on the basis of the joint action of the reed current sensor of the excitation and the blocking relay of the generator's selective protection against the loss of the exciter and the asynchronous mode, which is based on it, is based on the following. . It is known that when the asynchronous mode of the synchronous Maypgay arises, due to the loss of current, induced by the sociotpOHbi of the stators of the OM, when the latter is short-circuited to the uninterruptible arrestor, or to the root of the electrolyte excitant exciter, the alternating syphilic captomycapsuper actect. OB is zero. With the closure of the ON to the valves of the rectifying installation of the excitation system, the current in its circuit periodically changes from a certain positive value when the valves are open to zero when they are locked. With controllers, in the conservation of control pulses, the current in the circuit is similarly, and with the loss of control pulses; the pulses of the valves turn out to be locked, regardless of the polarity of the EMF induced on the CB. In all these cases, the voltage at the clamps ON is also of alternating alternating character. However, if the current in the longitudinal loops of the rotor, including in the OV circuit, changes in phase with the emf determining it, then the voltage at the terminals of the OV varies in phase with it. The induced current in the longitudinal contours of the rotor and the voltage at the terminals of the OF as the rotor slides relative to the stator field simultaneously passes through zero, but at the same time changes in opposite directions. Therefore, with a negative polarity of the current in the HF or in the period of its equality to zero due to the locking of the rectifier installation valves, the voltage is positive and vice versa. When short-circuiting an actuator is short-circuited (including through the opening of the valves), the voltage at the terminals of the switch is equal to zero. .: P |) and drop from the synchronism of the excited generator due to a decrease in the excitation below the level sufficient to maintain synchronous operation, the voltage at the terminals is positive as the voltage of the current induced in it with the induced current from the exciter and when the field is reverse current characteristics, induktednb in the longitudinal contours of the rotor. In the latter case, when the valves of the expansion installation are locked, when the current in the OT is equal to zero, an overvoltage of the same polarity as the voltage is generated at its terminals due to an increase in slip, i.e. positive., in. In all these cases, the operation of the device is ensured under the conditions. current in OB C 0; voltage U. U.): Q. In the case of a deep generator excitation by an action of an APB with the transfer of the control converter to the Inverting mode, which is possible with a sharp increase in the mains voltage or decreased frequency, as well as periodically when the power system swings in The OF circuit is reduced or has a zero value with a negative voltage across its terminals.

In this case, the blocking relay is triggered and

,

Prevents the possibility of improper action of the protection, prohibiting the passage of the sitala from the reed switch. .-y::, :: iJ

The effectiveness of this device is determined by the fact that it prevents the costly generation of damage from switching to the asynchronous dashboard aSfShaEiGrb; the shaft of their shutdown yoke unloading floTtyc of the appropriate level. In the latter case, the generator can be left in the network, which increases the reliability of energy supply to consumers.

Claims (2)

1. Tomash I. Protection in case of loss of excitation of synchronous machines. Energettka (6SR), 1961, G 1. 2. Authors certificate of the USSR N456338, cl. H 02 H 7 / 06,1972 .. e g S