RU2761430C1 - DEVICE FOR RESTORING FULL-PHASE VOLTAGE IN A 4-WIRE NETWORK OF 0.4/0.23 kV - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering to ensure uninterrupted power supply to consumers when one of the phases of the supply network is interrupted. The primary and secondary windings of three-phase power transformers are switched on according to the “star with zero - star with zero” scheme and are powered from a four-wire network. These windings, when power is lost from one of the four supply wires, restore the full-phase voltage in the primary and secondary windings of the transformer by adding the magnetic fluxes generated by the primary windings fed from the remaining two phase conductors in the de-energized transformer winding while maintaining the phase order. The three-phase load is distributed symmetrically over the two remaining phases with a load exceeding them by no more than 50%.

EFFECT: increase in the reliability of power supply to consumers and a reduction in electrical injuries when one of the supply phases of the transformer with a voltage of 6 (10) kV is broken.

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Description

The invention relates to the field of electrical engineering and is intended to ensure uninterrupted power supply to consumers in the event of a break in one of the phases of the supply network.

To increase the reliability of power supply, consumers of the first and second categories are provided with electricity from two independent mutually redundant power sources and an interruption in their power supply in the event of a power failure from one of the sources can be allowed only for the time of automatic restoration of power to consumers of the first category, or (for consumers of the second category) - for the time required to turn on the backup power source by the actions of the personnel on duty or the mobile operational brigade. For consumers of the third category, power supply interruptions should not exceed 1 day [Electrical Installation Rules, cl. 1.2.19-1.2.21. Novosibirsk. Siberian University Publishing House. 2005. - 854 s.].

Disadvantages of the existing power supply system:

1) to turn on the backup power supply of the second category power consumers, it may be necessary to leave the operational team, which reduces the efficiency of restoring power supply and increases the downtime of mechanisms;

2) the duration of the restoration of power supply to power consumers of the third category, disrupts the normal activities of consumers of electrical energy.

The closest in technical essence to the claimed invention is a device for restoring phase voltage in a four-wire network, containing network terminals A, B, C, three voltage control relays, a group of normally closed contacts containing three normally closed contacts of these relays, a compensating capacitor, a group normally open contacts, containing two series-connected normally open contacts in each phase, belonging to the relay of adjacent phases, phase chokes and output terminals, while the network terminals A, B, C are connected to an alternating current source, each of the voltage monitoring relays is connected between the terminal networks of the corresponding phase and a neutral wire, the phase chokes are included in the cut of the corresponding phases between the network terminals of the same name and the output terminals, and each of these chokes is shunted by a pair of contacts of a group of normally open contacts, characterized in that the first contacts of the group of normally closed contacts are connected to a common point, and their second terminals are connected to the corresponding terminal of the network, an additional group of contacts is introduced, containing in each phase of the circuit from series-connected normally open contacts of a relay of the same phase and normally closed contacts of a relay of the next phase, while circuits of all phases of an additional group of contacts united by a common point, a compensating capacitor is connected between the common points of a group of normally closed contacts and an additional group of contacts, and the free terminals of the circuits of each phase of the additional group of contacts are connected to the network terminals of the corresponding phase [Gapanovich V.A., Kirillov N.P., Shabalin N. G., Katarzhin V.V. Patent RU No. 2340063 IPC H02J 9/06, Н02Н 7/09. Publ .: 27.11.2008 Bul. No. 33].

The disadvantage of this device is the impossibility of phase recovery in a four-wire network, in the event of a break in one of the 6 (10) kV supply phases.

The objective of the invention is to create a device that restores the full-phase voltage in a four-wire network of 0.4 / 0.23 kV, increasing the reliability of power supply to consumers.

The task is achieved by a device for recovering the full-phase voltage in a four-wire network of 0.4 / 0.23 kV in the event of a break in one of the 6 (10) kV supply phases of the transformer, containing network terminals A, B, C, three voltage control relays, a group of normally closed contacts, containing three normally closed contacts of the said relays, a group of normally open contacts and output terminals, while the network terminals A, B, C are connected to an alternating current source, and each of the voltage monitoring relays is connected between the network terminal of the secondary winding of the transformer of the corresponding phase and the neutral wire, normally open contacts are included in the control circuit of the phase voltage control relay, the normally closed contacts of the phase voltage control relay control the load switches included in the cut of the corresponding phases, the first terminals of which are connected to the network terminals A, B, C, and the second terminals to the corresponding terminals of the primary winding of the power transformer, zero terminals of the power tra nsformer, connected according to the Y _H / Y _H scheme, are grounded, each phase of the secondary winding of the power transformer is connected to the corresponding terminal of the same name of the 0.4 / 0.23 kV network, the winding of the power transformer has turns independent of the main winding, designed to compensate for the voltage drop across lines (with possible load unbalance).

New essential features:

1) the device for restoring the full-phase voltage in a four-wire network of 0.4 / 0.23 kV allows you to restore the supply voltage in the event of an interruption of any one of the supply phases with a voltage of 5 (10) kV of the transformer while maintaining the phase sequence;

2) automatic disconnection of the damaged wire of the 6 (10) kV network excludes possible overload and failure of the transformer with a de-energized phase;

3) automatic disconnection of the damaged wire of the high-voltage network allows a three-phase transformer powered from a four-wire network to restore the voltage of the disconnected phase in its secondary winding;

4) restoration by windings of a three-phase transformer, powered from a four-wire voltage network in the disconnected phase, restores the consumer's power supply until the malfunction is eliminated, excluding an interruption in the power supply to consumers;

5) each phase of the secondary winding has turns independent of the main winding, designed to compensate for possible voltage asymmetry in phases;

6) simplification of the automatic control circuit for the recovery of the supply voltage increases the reliability and safety of the device during its operation.

The listed new essential features, together with the known ones, provide a technical result in all cases that are covered by the requested scope of legal protection.

The technical result of the invention, which ensures an increase in the reliability of power supply to consumers and a decrease in electrical accidents in electrical installations, is a device for restoring the full-phase voltage in a four-wire network of 0.4 / 0.23 kV when one of the supply phases of a 6 (10) kV transformer is interrupted, achieved by using the unique properties of analog devices - three-phase electrical networks and three-phase power transformers, with primary and secondary windings connected according to the "star with zero - star with zero" scheme, powered by a four-wire network, which, when power is lost from any one of the four supply wires due to the continuity of magnetic fluxes , the reversibility of electrical machines and the properties of axial symmetry - reflections ("remember" the object), automatically (after physical disconnection of the lost phase) restore the full-phase voltage in the primary and secondary windings of the transformer by adding the magnetic fluxes generated by the primary windings outlets powered by the remaining two phase wires in the de-energized winding of the transformer while maintaining the order of the phases, distributing the three-phase load symmetrically over the two remaining phases with the load exceeding the two remaining phases by no more than 50%, using the possibility of the transformer and the line for 4 ... withstand an overload of 30 - 40% (but not whiter than 50%) for 5 hours, allowing the line and the transformer to function, providing power supply to consumers, excluding from 67 to 92% of the total number of power outages due to breaks of one phase conductor ( or a single-phase short circuit on the line after its physical disconnection from both sides and from both transformers), excluding possible overload and failure of the surviving phases of the primary winding and the transformer.

The device (Fig. 1) contains network terminals A, B, C, three voltage control relays 1, 2, 3, a group of normally closed contacts containing three normally closed contacts (conventionally not shown) of these relays, a transformer T and output terminals L1, L2 , L3 while the network terminals A, B, C are connected to an alternating current source, each of the coils of the voltage monitoring relay 1, 2, 3 is connected between the terminal of the secondary winding of the transformer T and the output terminal L1, L2, L3 of the corresponding phase and the neutral wire, normally open contacts are included in the control circuit of the phase voltage control relay (conventionally not shown), the normally closed contacts of the phase voltage control relay (conventionally not shown) control load switches 4, 5, 6 phase lines included in the cut of the corresponding phases, the first outputs of which are connected to the terminals networks A, B, C, and the second terminals to the corresponding terminal of the primary winding of the transformer T, connected according to the "star with zero - star with zero" scheme, powered by four x-wire networks, which, upon loss of power from any one of the four supply wires due to the continuity of magnetic fluxes and reversibility of electrical machines, automatically (after physical disconnection of the lost phase) restore the full-phase voltage in the primary and secondary windings of the transformer by adding the magnetic fluxes generated by the primary windings supplied from the remaining two phase wires in the de-energized winding of the transformer while maintaining the order of the phases, distributing the three-phase load symmetrically over the two remaining phases with the load exceeding the two remaining phases by no more than 50%, using the possibility of the transformer and lines for 4 ... 5- for hours to withstand an overload of the transformer by 30 - 40% (but not whiter than 50%), allowing the lines and the transformer to function, providing power supply to consumers, excluding from 67 to 92% of the total number of power supply interruptions due to breaks of one phase conductor ( or a single-phase short circuit on the line after it is physically disconnected from both sides and from both transformers), excluding possible overload and failure of the transformer with a dead phase.

The list of items in FIG. one

1, 2, 3) Relay for monitoring the voltage of the secondary windings of phases L1, L2, L3 of the power transformer T, connected between the phase wire and the neutral wire 0.

4, 5, 6) Load break switches for phases A, B, C of the primary winding of the power transformer T.

Claims (1)

A device for restoring full-phase voltage in a four-wire network of 0.4 / 0.23 kV in the event of a break in one of the supply phases of a 6 (10) kV transformer, containing network terminals A, B, C, three voltage monitoring relays, a group of normally closed contacts containing three normally closed contacts of these relays, a group of normally open contacts and output terminals, while the network terminals A, B, C are connected to an alternating current source, characterized in that each of the voltage monitoring relays is connected between the network terminal of the secondary winding of the transformer of the corresponding phase and the neutral wire, normally open contacts are included in the control circuit of the phase voltage monitoring relay, the normally closed contacts of the phase voltage monitoring relay control the load switches included in the cut of the corresponding phases, the first leads of which are connected to the network terminals A, B, C, and the second leads to the corresponding terminals of the primary power transformer windings, zero terminals of the power transformer, in connected according to the "star with zero - star with zero" scheme, are grounded, each phase of the secondary winding of the power transformer is connected to the corresponding terminal of the same name of the 0.4 / 0.23 kV network, the winding of the power transformer has turns independent of the main winding, designed to compensate for the fall line voltage with possible load unbalance.

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