SU1053208A1 - Device for protecting three-phase synchronous motor from external and internal short circuits and abnormal modes of operation - Google Patents

Abstract

THE DEVICE FOR EMCITE OF THREE-PHASE SYNCHRONOUS MOTOR FROM EXTERNAL AND INTERNAL SHORT; , coil closing, incomplete cut, the inputs of which are connected to current sensors, and the executing organ connected to the outputs of these blocks through the element. OR, differs in that, in order to increase its sensitivity, speed and functionality, it is additionally equipped with a block. protection against asynchronous mode and a response set-up change unit, the input of which is connected to the output of the comparison element of the asynchronous protection protection unit, and outputs to the inputs of the comparison elements of the current cut-off and coarse-protection devices, the inputs of the asynchronous protection protection unit are connected to current sensors phase voltage sensors, in its outputs through the element OR - to the executive body. sd oo tc about 00

Description

The invention relates to relay protection and can be used to protect three-phase synchronous motors of motors against external and internal short circuits and abnormal modes. A device is known for protecting a synchronous electric motor against inter-dufen short-circuit and coil circuits, as well as overload 1. However, such a device It has a low sensitivity, which in the cutoff channel is obtained as a result. the fact that the actuation current is de-energized from the self-starting current, which is much larger than the external short circuit and inrush current. Protection against incomplete-phase mode and winding short-circuits provides maximum current protection with a large time lag, reacting to 30% or more closed turns of the windings. A device for protecting synchronous electric motors from an asynchronous mode is known, using the factor of changing the current phase in relation to phase voltage 2. This protection is sensitive, detachable from overload currents, but does not contribute to the sensitivity and speed of other protections such as current cut-off and winding protection closures. The closest technical. The essence of the invention is a device for the protection of three-phase electrons. a motor from external and internal short circuits and abnormal modes, containing intermediate transformers for current connected to forward and reverse current current filters, the first of which is connected to one rectifier bridge and the other through an isolation transformer to another rectifier bridge, and three actuating relays, one of which — with the time characteristic of instantaneous action — is connected via the elements of OR to both rectifying bridges, the other — the overload relay — is connected to rectifier bridges A direct current current filter bridge and a third, reverse sequence sensitive relay with a time dependent current characteristic is connected to a reverse current rectifier bridge. In this device, the incomplete phase mode, external and internal me. Phase failure short circuit reacts with the first relay with a current characteristic of instantaneous action. The motor is overloaded by a second relay with a time dependent current characteristic. Protection from mark closures and other types of asymmetry is provided by the third executive relay. The specified device provides a comprehensive protection of the motor mainly against all types of damage and abnormal modes 3. However, in the known device, the sensitivity of the cut-off and. winding closure protection, as well as fast closure protection performance, are low. The low sensitivity is explained by the detuning of the tripping current from the self-starting current, which is much larger than the starting current and short-circuit current. The presence of aperiodic stator current when the engine starts causes the reverse sequence current to appear. This current may cause false tripping of the closure protection. With synchronous start of the synchronous motor. due to the asymmetry of the rotor in the stator currents, a reverse-sequence current appears. This current may trigger the protection / winding fault. To prevent false triggering of tipK short circuits during an asynchronous start, you must either increase its threshold or perform it with a delay time equal to or longer than the start time, although the thermal stability of the winding during the short circuit is required to turn off the electric motor. The purpose of the invention is to increase the sensitivity, speed and functionality of the device to protect a three-phase synchronous motor from external and internal short circuits and abnormal modes. The goal is achieved by the device containing current sensors in each stator phase of the electric motor with current-voltage conversion at the output, sensor voltage, current, off, and protection against overload, closure, non-polyphase mode blocks, whose inputs are connected to current sensors, and the actuator connected to the outputs of these 5loes through the OR element is additionally packed with an asynchronous protection protection unit and —installation / response change unit, whose input is connected to the output of the asynchronous protection comparison element, and outputs to the inputs elements of the current cut-off and protection units of the coil circuit, the inputs of the protection unit from the asynchronous mode are connected to current sensors and phase voltage sensors, and its outputs through the OR element are connected to the actuator. The drawing shows the functional: on the scheme of the proposed device. The device, integrated protection of a three-phase synchronous electric motor, contains current sensors in each stator phase of the motor with current conversion to output voltage I, maximum overcurrent protection 2 with overload protection 3 and current cutoff 4, connected through an OR 5 element with an actuator b, protection from asymmetrical mode 7 with blocks of protection against winding closure 8 and incomplete phase mode 9 / connected via an element OR 10 with an actuator 6, protection unit from asynchronous mode 11, connected the cut element OR 12c by the executive body b, the phase voltage sensor 13 and the setting change block 14, the actuation whose input is connected to the output of the comparison circuit of the asynchronous mode protection unit 11, and the outputs to the inputs of the comparison circuit of the current cutoff 4 and winding protection closure 8. The device operates as follows. In the asynchronous mode of the electric motor (for example, start or loss of excitation, or exit from asynchronism), the comparison element of the asynchronous mode protection unit 11 outputs a signal to the input of the unit 14 for changing the mouth approx. The latter is triggered and sets the settings for the operation of the first stage of the current cut-off blocks 4 and protection against closure 8. When the motor starts up, the current cut-off block 4 does not work, because the current of the first stage is reset from the self-start current. The input signal of the anti-closure protection unit 8 is a signal proportional to the total current of the negative sequence caused by stator asymmetry; the rotor and the aperiodic component of the current, the latter does not trigger, since the current of the set point of the first-stage operation is tuned from this current. With synchronous engine mode. The setpoint measurement unit 14 activates sensitive setpoints of the second-degree actuation of the current cut-off blocks 4 and the protection of the loop closure 8. The resulting short-circuit operation of the current cut-off block 4 at a current less than the self-starting current. The resulting turn short circuit triggers the protection of the block from the loop closure 8 when the current is less than the total negative sequence current in the asynchronous mode. For correct operation of the protection unit against incomplete phase mode 9 (phase failure), it is necessary to provide a time delay of one or two periods of industrial frequency in case of non-simultaneous switching on of the phases by a switch. As a block introduced into the proposed device, changing (in particular, increasing) the settings of the operation of the current cut-off blocks and the protection against coil closure for the asynchronous mode (start, loss of excitation, out of sync) controlled by the asynchronous protection, any a device capable, upon receiving a signal about the presence of an asynchronous mode, to automatically increase the settings for the operation of the new shut-off and closure protection blocks for the duration of this mode, for example measures a device containing a pulse expander, a control key made on a transistor, and an executive authority. As an actuator, a garcon relay with opening contacts can be used, which, in sync mode, bypass the elements of the dividers, which set the trigger thresholds of the current cutoff and protection against coil current. In asynchronous mode, the contacts of the reed switch open and decouple the elements of the specified divide: due to which the protection thresholds increase. Thus, the | Current cutoff and protection against winding short circuits have two stages: the first operates in asynchronous mode, the second in synchronous mode. .. The cut-off current of the first cut-off stage is selected according to the detuning condition of the motor self-starting current in accordance with the expression: E. The second cut-off current tripping current is determined by the detuning condition of the external short-circuit current A & . cii X where Ej is equivalent to the electromotive force of the supply system, the electromotive force of the protected engine. in super transition mode short circuit. - ultra-transient inductive resistance of the engine along the longitudinal AXIS} -equivalent resistance of the feed system. Since JgJ, the work of the cut-off in synchronous mode with the setpoint, its automatic transfer to work with the setpoint Jpj in the asynchronous mode contributes to an increase in the sensitivity of the current cut-off unit. The current of the second stage winding protection block block "B" in synchronous mode is adjusted in magnitude from the current caused by the asymmetry of the engine, and in time from the time of operation of the cut-offs of adjacent connections. The current of the first stage is retracted from the total current r caused by the asymmetry of the stator, rotor and aperiodic composition of the driving current, i.e. from the asymmetry of the starting mode, so that the work of protection against the winding jam, “asynchronous mode with cii, its automatic transition to work with the if set in asynchronous mode helps to increase the sensitivity and speed of the protection against winding closure. Thus, the introduction of a comprehensive protection of a synchronous electric motor of a setpoint change unit increases its sensitivity and speed in general. As protection against asynchronous operation, any protection can be applied using the factor of changing the phase shift of the current with respect to the phase voltage when the operating mode of the electric motor is changed. The application of the invention allows the protection of a three-phase synchronous motor by automatically changing settings at the same time in two protections to increase sensitivity, speed and functionality, which reduces the amount of damage to the motor and, accordingly, reduces the cost of repair and its duration, causing a significant economic effect.

Claims (1)

A DEVICE FOR PROTECTING A THREE-PHASE SYNCHRONOUS ELECTRIC MOTOR FROM EXTERNAL AND INTERNAL SHORT-CIRCUIT AND ABNORMAL MODES, containing current sensors in the circuits of each phase of the stator of the electric motor with the conversion of the current-voltage to the output, the phase and the output *, the sensor circuit, full-phase mode, the inputs of which are connected to current sensors, and the executive: connected to the outputs of these blocks through an OR element, characterized in that, in order to increase its sensitivity performance, speed and functionality, it is additionally equipped with a protection block against asynchronous mode and a block for changing the setpoint of operation, the input of which is connected to the output of the comparison element of the protection block from the asynchronous mode, and the outputs to the inputs of the comparison elements of the blocks of the current cutoff and protection against coil short circuit , the inputs of the protection unit against asynchronous mode are connected to current sensors and phase voltage sensors, to its outputs through an OR element - to the executive body. X I