RU2786195C1 - Method and device for seasonal power supply backup with selection of a backup power supply source - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular to the automation of electrical networks. In the power supply redundancy method with the selection of a backup power supply source, the backup and additional backup power supply sources are connected, the first group of time intervals is set and counted during which the backup is performed from the backup source, the second group of time intervals is set and counted during which the backup is performed from the additional backup source, control the shutdown of the main source, when the main source is turned off at the moment of time when the countdown of one of the first group of time intervals is turned on, they give a signal to connect consumers to the backup source, when the main source is turned off at the moment of time when the countdown of one of the second group of intervals is turned on time, then give a signal to connect consumers to an additional backup source, when the main source turns on again, give a signal to switch consumers from a backup or additional backup and source on the main.

EFFECT: increasing the reliability of power supply to consumers with the seasonal nature of the operation of backup power sources.

2 cl, 1 dwg

Description

The invention relates to the automation of electric networks and is intended for seasonal backup of power supply with the choice of a backup source of power supply in the seasonal nature of the operation of backup sources.

A known method of connecting all-season consumers to a backup power plant, which consists in issuing an informative signal to select all-season consumers from the total number of consumers when starting a backup power plant after the disappearance of a centralized power supply, according to which the sequence of phase-by-phase voltage supply to the network is used as an informative signal, while first, the voltage of one specific phase, and then with a predetermined time delay, the voltage of the other two phases is applied, after which all-season consumers are connected to power from a backup power plant [RF Patent. No. 2253934, class. H 02 J 9/06, 13/00, publ. 06/10/2005, Bull. No. 16].

The closest in technical essence to the proposed invention is a method for connecting consumers to a backup power supply source, which consists in issuing an informative signal to select a part of consumers from the total number of consumers with a decrease in electricity generation by the main power supply source and connecting them to a backup power supply source, as well as in issuing an informative signal to connect all consumers to a backup power supply source in case of insufficient electricity generation by the main power supply source, in which a wind farm is used as the main power supply source, and a centralized power supply system is used as a backup power supply source, (Patent No. 2733203 Russian Federation, IPC H02J 3 / 00, H02J 9/06, H02J 13/00 SPK H02J 3/00, published on September 30, 2020 Bull. No. 28).

A device is known - a multi-contact switching system with independent control of four power contact groups having a common connection point, including output switching elements for manual control, switching elements for remote control, control units for switching elements for remote control, a remote control unit for power circuits of a multi-contact switching system, local control unit for power circuits of a multicontact switching system, current control unit, electricity metering unit with power quality control function, switching element position control unit, data transmission unit, voltage control unit /06.published 16.07.2020 Bulletin No. 20).

The closest in technical essence to the proposed invention is a device - a multi-contact switching system with four power contact groups connected to a common point, containing four output switching elements of manual control, four remote control switching elements, which are power contact groups with independent control, four blocks remote control switching elements, control unit for a multi-contact switching system, uninterruptible power supply unit, four surge arresters

The disadvantage of the known method and device is the insufficiently high reliability of power supply to consumers and insufficient functionality due to the fact that the method is not applicable for seasonal backup of power supply to consumers with the choice of a backup source of power supply with the seasonal nature of the operation of backup sources.

The technical objective of the invention is to increase the reliability of power supply to consumers and expand the functionality due to the seasonal reservation of power supply to consumers with the choice of a backup source of power supply with the seasonal nature of the operation of backup sources.

The above technical result is achieved by the fact that in the proposed method of seasonal power supply backup with the choice of a backup power supply source, which consists in issuing an informative signal to select consumers and connecting them to the main and backup power supply sources, according to the invention, an additional backup power supply source is connected, the first one is set and counted. a group of time intervals during which it is possible to back up the power supply to consumers from a backup power supply source when the main power supply is turned off, the second group of time intervals is set and counted during which it is possible to back up the power supply to consumers from an additional backup power supply source when the main power supply is turned off, control disconnection of the main power supply, if it occurs at the moment when the countdown of one from the first group of time intervals, give an informative signal to connect consumers to the backup power supply, when the main power supply is turned on again, give an informative signal to switch consumers from the backup power supply to the main one, if the main power supply is turned off at the moment when the countdown of one from the second group of time intervals, then an informative signal is issued to connect consumers to an additional backup power supply source, when the main power supply source is turned on again, an informative signal is issued to switch consumers from the second backup power supply source to the main one.

Also, the technical result is achieved by the fact that the proposed device for seasonal power backup with a choice of a backup power source, including switching elements and a control unit, according to the invention, contains the first contact group installed in the power circuit between the common connection point of the contact groups of the device and the main source of power supply, the second a contact group installed in the power circuit between the common connection point of the contact groups of the device and a backup power supply, the third contact group installed in the power circuit between the common connection point of the device contact groups and the consumer group, the fourth contact group installed in the power circuit between the common connection point of the contact groups of the device and an additional backup power supply, the main power supply connected by a power circuit to the first contact group, the backup power supply is connected power circuit with a second contact group, a group of consumers connected by a power circuit to a third contact group, an additional backup power supply connected by a power circuit to the fourth contact group, a control unit for a seasonal redundancy device connected to power circuits, a common connection point of contact groups and contact groups.

The invention is illustrated by a drawing, which shows a block diagram of a device for seasonal power backup with a choice of a backup power source that implements the proposed method for seasonal power backup with a choice of a backup power source.

The seasonal power backup device with a choice of a backup power source contains the main power source IE1, the backup power source RIE2, the additional backup power source RIE3, the control unit for the seasonal backup device BUUSR4, the first contact group KG5, the second contact group KG6, the third contact group KG7, the fourth contact group KG8, consumer group GP9.

KG5 is installed in the power circuit between the common connection point of the contact groups of the device and the main source of power supply, performs switching at this point. KG6 is installed in the power circuit between the common connection point of the contact groups of the device and the backup power supply, it performs switching at this point. KG7 is installed in the power circuit between the common connection point of the contact groups of the device and the group of consumers, performs switching at this point. KG8 is installed in the power circuit between the common connection point of the contact groups of the device and the second backup power supply source, it performs switching at this point.

IE1 is connected by a power circuit to KG5 and supplies power to GP9. RIE2 is connected by a power circuit to KG6 and provides backup power supply to GP9. GP9 is connected by a power circuit with KG7. RIE3 is connected by a power circuit to KG8 and provides backup power supply to GP9. BUUSR4 is connected to power circuits, a point of common connection of contact groups and contact groups, monitors voltage and current in power circuits, performs contact group control algorithms when voltage disappears in different power circuits and when it appears, counts time intervals, monitors the position of contact groups, stores and, upon request, transmits information to the network manager about the status of the device and the results of its operation, the values of current and voltage in the controlled power circuits.

The method is implemented as follows using the proposed device.

In BUUSR4, two groups of time intervals are set, the first - when it is possible to carry out backup power supply from RIE2 and the second - when it is possible to carry out backup power supply from RIE3. Intervals are set per second in order to take into account both the seasons of the year and the time of day. At the same time, the countdown is coordinated with astronomical time in order to continue counting from the point of the current astronomical time in the event of a meter shutdown due to a power outage and discharge of the internal battery of the device and thus take into account the time missed when the device was turned off. Also, the intervals can be edited by the dispatcher servicing the seasonal reservation device, taking into account various factors that affect the shift in the schedule for the readiness of RIE2 and RIE3. BUUSR4 counts the groups of time intervals and controls the shutdown of the main power supply of IE1 by monitoring the voltage in the power circuit to which IE1 is connected. The moment of switching off IE1 is fixed, at the same moment KG5 is switched off.

If IE1 is turned off at the moment when the countdown of one of the first group of time intervals is turned on, then BUUSR4 gives an informative signal for connecting consumers to RIE2 by turning on KG6, controls the change in the position of KG6, controls the on position of KG7, the appearance of voltage at the common connection point of the contact groups , in the power circuit to which GP9 is connected, generates information about the successful connection of GP9 to RIE2. When IE1 is turned on again, BUUSR4 detects this fact by monitoring the appearance of voltage in the power circuit to which IE1 is connected, gives a signal to switch HP9 from RIE2 to IE1 by turning off KG6 and turning on KG5, controls the success of connecting GP9 to IE1 by monitoring the voltage in the power circuit, to which GP9 is connected, for monitoring the on position of KG5 and KG7, generates the relevant information, and transmits it to the dispatcher upon request.

If IE1 is turned off at the moment when the countdown of one of the second group of time intervals is turned on, then BUUSR4 gives an informative signal for connecting consumers to RIE3 by turning on KG8, controls the change in the position of KG8, controls the switched position of KG7, the appearance of voltage at the common connection point of the contact groups , in the power circuit to which GP9 is connected, generates information about the successful connection of GP9 to RIE3. When IE1 is turned on again, BUUSR4 detects this fact by monitoring the appearance of voltage in the power circuit to which IE1 is connected, gives a signal to switch HP9 from RIE3 to IE1 by turning off KG8 and turning on KG5, controls the success of connecting GP9 to IE1 by monitoring the voltage in the power circuit, to which GP9 is connected, for monitoring the on position of KG5 and KG7, generates the relevant information, and transmits it to the dispatcher upon request.

Thus, seasonal redundancy of HP1 is provided with the choice of a backup source of power supply.

The use of the proposed method and device allows to increase the reliability of power supply to consumers in the seasonal nature of the backup power supply sources.

Claims (2)

1. The method of seasonal power supply backup with the choice of a backup power supply source, which consists in issuing an informative signal to select consumers and connect them to the main and backup power supply sources, characterized in that an additional backup power supply source is connected, the first group of time intervals is set and counted, during which it is possible to back up the power supply to consumers from a backup power source when the main power supply is turned off, set and count the second group of time intervals during which it is possible to back up the power supply to consumers from an additional backup power source when the main power supply is turned off, control the shutdown of the main power supply if it occurs at the moment when the countdown of one of the first group of time intervals is turned on, an informative signal is given to n connection of consumers to a backup power supply, when the main power supply is turned on again, an informative signal is given to switch consumers from the backup power supply to the main one, if the main power supply is turned off at the moment when the countdown of one of the second group of time intervals is turned on, then an informative signal is given to connect consumers to an additional backup power supply, when the main power supply is turned on again, an informative signal is issued to switch consumers from the second backup power supply to the main one. 2. A device for seasonal power backup with a choice of a backup power source, including switching elements and a control unit, characterized in that it contains the first contact group installed in the power circuit between the common connection point of the contact groups of the device and the main source of power supply, the second contact group installed in power circuit between the common connection point of the device contact groups and a backup power supply, the third contact group installed in the power circuit between the common connection point of the device contact groups and the consumer group, the fourth contact group installed in the power circuit between the common connection point of the device contact groups and an additional backup power supply, main power supply connected by a power circuit to the first contact group, backup power supply connected by a power circuit to the second contact group, pot consumers connected by a power circuit to the third contact group, an additional backup power supply connected by a power circuit to the fourth contact group, a seasonal backup device control unit connected to the power circuits, the common connection point of the contact groups and the contact groups.

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