SU836718A1 - Ation of phases - Google Patents

Description

The invention relates to electrical engineering and can be used to control and protect a three-phase load from working in two phases and from reverse phase rotation.

Known devices for monitoring breakage. One of the phases of the power supply network containing ferromagnetic converters and a pulse sequence control unit GP and C?}.

A disadvantage of the known devices is that they maintain operability in a limited range of input currents due to disruption of the operation of ferromagnetic converters.

The closest in technical essence to the proposed device is a device containing three input transformers with cores of magnetic material with a rectangular magnetization loop, loaded from the secondary side with resistors. The unipolar leads of the secondary windings of the transformers through a three-phase, half-wave bridge are connected to the control unit G31,

The disadvantages of this device are the limited working range of the input currents and the inability to detect reverse phase rotation.

The purpose of the invention is to increase reliability by expanding the working range of input currents.

This is achieved by the fact that the known device for protecting a three-phase load from working on two phases and from phase reversal, containing three saturable current transformers, the primary windings of which are connected in series to the mains phases by a load, the secondary windings of the transformers are connected to a star, rectifier, output which is connected through an amplifier with an actuator, is additionally equipped with an RS-flip-flop, a JK-flip-flop and a capacitor, and others the conclusions of the secondary836718 windings of current transformers of the first and second Second phases are connected respectively to the inputs R and $ RS-trigger whose output is connected to the C input of JK-flip-flop, the output of the current transformer secondary winding of the third phase is coupled to J and K inputs of JK-flip-flop, the latter through the output capacitor is connected to the input of the rectifier.

To exclude the influence of the amplifier malfunction on the operation of the device, the rectifier output is connected to the input of the actuator, and the amplifier is connected between the output of the JK trigger and the capacitor.

In FIG. 1 shows a diagram of the proposed device; in FIG. 2 - voltage diagrams explaining the operation of the device.

The device consists of three saturable current transformers 1, 2, 3,

JK flip-flop 4, RS-flip-flop 5, isolation capacitor 6, rectifier 7, amplifier 8 and actuator 9. The secondary transformer windings of formators 1 and 2 are connected to the R and S inputs of trigger 5, the secondary winding of transformer 3 is connected to J and K inputs flip-flop 4. Input C of the latter is connected to the output of flip-flop 5. The output of flip-flop 4 through an isolation capacitor 6 is connected to the input of the rectifier, the output of which through amplifier 8 is connected to the actuating element 9.

The device operates as follows. With the correct phase sequence, trigger 5 goes to the zero state at the moments of transition through zero (I moments t ^, t ^, in Fig. 2a). After the pulse arrives at the input S of trigger 5 at the moment, trigger 5 goes into a single state, which remains until t ^. In this case, the voltage at the output of trigger 5 has the form of rectangular pulses with a duration of 2/3 of the period # Trigger .4 is triggered from the trailing edge of the pulse from the output of trigger 5, and the voltage at the output of trigger 4 has the form of rectangular pulses with a frequency 2 times lower than the frequency of the mains . This voltage is supplied through a capacitor 6 to a rectifier 7, amplified by an amplifier 8, and supplied to an actuator 9. When the phases are reversed, the positive pulses at the inputs

J and K of trigger 4 appear at the moment of zero potential at input C of trigger 4 and the latter does not prepare for switching and does not switch ₅ at times t ^, tyH etc., and the constant potential from its output is not passed through capacitor 6 and the executive element 9 does not work.

If any phase of the supply network is interrupted, positive pulses will be absent at inputs R and S of trigger 5 or at inputs J and K of trigger 4, as a result of which they will not switch, at the output of trigger 4 there will be a constant potential that is not passed by capacitor 6. Executive element 9 will not work.

Breakage of the secondary windings of transformers 1,2, 3, malfunction of flip-flops 4, 5 leads to the appearance of a constant potential at the input of capacitor 6 and return of the actuator 9. If it is necessary to exclude the influence of malfunction of amplifier 8 on the operation of the device, the amplifier can be connected between the output of trigger 4 and capacitor 6. The second output of the capacitor30 is connected to the input of the rectifier, and the output of the latter is connected to the input of the actuator.

Thus, the device allows to increase the reliability of protection of the three-phase load from the breakdown of one of the phases and from the reverse phase rotation.

Claims (3)

(54) DEVICE FOR PROTECTION OF THREE-PHASE LOAD WORK ON TWO PHASES AND FROM REVERSE PHASE ROTATION 3 GOVERNMENTAL windings of current transformers per howling and second phases are connected, respectively, with R and S RS-trigger inputs which vpsod connected to the C input of JK-flip-flop output the secondary winding of the third-phase current transformer is connected to the J and K inputs of a JK-flip-flop, the output of the latter through a capacitor is connected to the rectifier input. In order to determine the influence of the malfunction of the amplifier on the operation of the device, the output of the rectifier is connected to the input of the actuator, and the amplifier is connected between the output of the JK-trigger and the capacitor. On .fig. } the scheme of the proposed device is depicted; in fig. 2 - voltage diagrams for the device operation. The device consists of three plug-in transformers 1, 2, 3 of current JK-flip-flop 4, RS-flip-flop 5, separation capacitor 6, rectifier 7, amplifier 8 and actuator 9. Secondary windings Tpa of formatters 1 and 2 are connected to R and S to the trigger inputs 5, the secondary winding of the transformer 3 is connected to J and K to the trigger inputs 4. The latter is connected to the trigger output 5. The trigger output 4 is connected via a separation capacitor 6 to the rectifier input, the output of which is through the amplifier 8 is connected to the executive element 9 The device works AET sledunmtsim way. With the correct alternation of the F flip-flop 5, it passes into the zero state at the moments of transition through zero current in the first phase (moments t, t, t in Fig. 2a). After the impulse arrives at the input S of the trigger 5 at the moment tg, the trigger 5 passes to the unit state which remains until the moment t. In this case, the voltage at the output of the trigger 5 has the form of rectangular pulses with a duration of 2/3 of the period; The trigger .4 triggers from the back of the pulse from the output of trigger 5, and the voltage at the output of trigger 4 is a kind of rectangular pulse with a frequency 2 times lower than the frequency of the mains supply. This voltage through the capacitor 6 is fed to the rectifier 7, amplified by the driver 8 and fed to the actuator 9. With reverse phase rotation, positive pulses at inputs 184 J and K of trigger 4 appear at the time of zero potential at input C of trigger 4 and the latter is not prepared for switching and does not switch at times t, j, tr, etc., and the constant potential from its output does not pass through the capacitor 6 and the actuating element 9 does not work. If any of the phases of the power supply is broken at the inputs R and S of the trigger 5 or at the inputs J and K of the trigger 4, there will be no positive pulses, as a result, they will not switch, at the output of the trigger 4 there will be a constant potential not passed by the capacitor 6. Actuator 9 at the same time it will not work. . Break of the secondary windings of transformers 1,2, 3, failure of the flip-flops 4, 5 leads to the appearance of a constant potential at the input of the capacitor 6 and the return of the actuator 9. If necessary, to avoid the influence of the failure of the amplifier 8 on the operation of the device, the amplifier can be turned on between the output of the trigger 4 and the capacitor 6. The second output of the capacitor is connected to the input of the rectifier, and the output of the latter is connected to the input of the actuator. Thus, the device makes it possible to increase the reliability of protection of a three-phase load against the interruption of one of the phases and against reverse phase alternation. Claim 1. A device for protecting a three-phase load from working on two phases and from reverse phase alternation, containing three current transformers, the primary windings of which are included in the supply mains phases in series with the load, the secondary windings of transformers are connected in a star, and the rectifier, the output of which is connected via an amplifier to an actuator, characterized in that, in order to increase reliability by expanding the operating range of the input currents, it is additionally equipped with an RS-trigger, JK-t a rigger and a capacitor, while the terminals of the secondary windings of the trans5 current format for the first and second phases are connected respectively to the R and S inputs of the RS flip-flop, the output of which is connected to the C input of the JK flip-flop, the output of the secondary winding of the third-phase current transformer is connected to J and K the inputs of the JK-trngger, the output of the latter through a capacitor is connected to the input of the rectifier. 2. The device according to claim 1, which is designed so that, in order to eliminate the injuriousness of the amplifier to the device, the output 8 of the rectifier is connected to the input of the actuator, and the amplifier is connected between the output of the JK flip-flop and a capacitor. Sources of information, gfintye into account during the examination 1. The author's certificate of the USSR No. 576739, cl. H 02 H 3/28,. 2. USSR author's certificate fr 553709, cl. H 02 H 3/24, 1976. 3. Author's certificate of the USSR 470034, cl. H 02 H 7/08., 1972. " trt e / Hb-wa t $ t / 9.2