RU2780204C1 - Method and device for seasonal power supply backup - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular to the automation of electrical networks. The effect is achieved by setting the first and second groups of consumers, setting and counting the first and second groups of time intervals in accordance with the season of the year, and the intervals are set per second, during which it is necessary to backup the power supply of the first or second, respectively, groups of consumers from a backup source of power supply when disconnected the main source of power supply, the disconnection of the main source of power supply is controlled, if the main source of power supply is turned off at the moment when the countdown of one of the first or second group of time intervals is turned on, then they give an informative signal to select and connect, respectively, the first or second group of consumers to the backup source power supply, when the main source of power supply is switched on again, an informative signal is issued to switch the first or second group of consumers from the backup source of power supply to the main one.

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EFFECT: increasing the reliability of power supply to consumers and expanding functionality.

Description

The invention relates to the automation of electric networks and is intended for seasonal backup of power supply to consumers in the presence of a power shortage of a backup power supply source to backup power to all consumers. In this case, consumers can be understood as groups of power consumers, as well as individual power consumers.

There is a known method of connecting responsible consumers to a backup power plant, which consists in issuing an informative signal to select responsible 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 given time delay, the voltage of the other two phases is applied, after which the responsible consumers are connected to the power supply from the 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 connected in a bridge circuit, designed for switching, protecting the electrical network, metering electricity, monitoring the quality of electricity, controlling the amount and time of voltage disconnection in distribution electrical networks of three-phase current, including output switching elements of manual control, switching elements of remote control, control units for switching elements of remote control, remote control unit for power circuits of a multi-contact switching system, local control unit for power circuits of a multi-contact switching system, current control unit, electricity metering unit with power quality control function, switching element position control unit, data transmission unit, voltage control unit (patent No. 2726855, IPC H02J 13/00, H02J 9/06, publ. 16.07. 2020, Bull. 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 in a bridge circuit, including a switching element and a control and protection unit, contains four output switching elements for manual control, four switching elements for remote control, representing are power contact groups with independent control, four control units for remote control switching elements, a control unit for a multi-contact switching system, an uninterruptible power supply unit, four surge arresters (Patent No. 2755156 Russian Federation, IPC H02J 13/00, H02J 9/06. publ. 13.09 .2021, Bulletin No. 26)

A disadvantage of the known method and device is the low reliability of power supply to consumers and insufficient functionality due to the fact that the method and device are not applicable for seasonal backup of power supply to consumers in the presence of a power shortage of a backup power supply source for power backup of all consumers.

The technical objective of the invention is to increase the reliability of power supply to consumers and expand the functionality due to seasonal backup of power supply to consumers in the presence of a power shortage of a backup power supply source to back up power to all consumers.

The above technical result is achieved by the fact that in the proposed method of seasonal power supply reservation, which consists in issuing an informative signal to select a part of consumers from the total number of consumers and connect them to a backup power supply source, according to the invention, the first and second groups of consumers are set, the first group of intervals is set and counted time in accordance with the season of the year, and the intervals are set per second, during which it is necessary to backup the power supply of the first group of consumers from the backup power supply when the main power supply is turned off, the second group of time intervals is set and counted in accordance with the season of the year, or time of day, in during which it is necessary to carry out backup of the power supply of the second group of consumers from a backup source of power supply when the main source of power supply is turned off, control the shutdown of the mains of the main power supply source, if the main power supply source is turned off at the moment when the countdown of one of the first group of time intervals is turned on, then an informative signal is given to select and connect the first group of consumers to the backup power supply source, when the main power supply source is turned on again, an informative signal is given to switching of the first group of consumers from the backup power source to the main one, if the main power source is turned off at the moment when the countdown of one of the second group of time intervals is on, then an informative signal is given to select and connect the second group of consumers to the backup power source when the main power source turns on again, give an informative signal to switch the second group of consumers from the backup power source to the main one.

The technical result is also achieved by the fact that the proposed device for seasonal power backup, including switching elements and a control unit, according to the invention, contains two manual control output switching elements installed in power circuits connected to the main and backup power supply sources, two automatic protective switching devices, installed in power circuits connected to the first and second groups of consumers, four switching elements of remote control, which are power contact groups with independent control, installed in power circuits between output switching elements of manual control, automatic protective switching devices, four control units for switching elements of remote control connected to the corresponding switching elements of the remote control, a data receiving and transmitting unit connected to the control unit at seasonal backup device and uninterruptible power supply unit, control unit of the seasonal backup device, connected to each of the switching elements of manual and remote control, connected to each of the control units of the switching elements of remote control, connected to each of the automatic protective switching devices, connected to the power circuits of the device seasonal backup between switching elements of remote and manual control, connected to the data transmission unit, connected to the uninterruptible power supply unit, uninterruptible power supply unit connected to the control unit of the seasonal redundancy device and the unit for receiving and transmitting data, two surge arresters connected to the power circuits at the terminals seasonal backup devices connected to the main and backup power supply, the main power supply, the backup power supply, the first group of consumers beaters, the second group of consumers.

The essence of the proposed method is illustrated by the drawing, which shows a block diagram of the device for seasonal power backup.

The seasonal power supply backup device with four power circuits contains the first automatic protective switching device (AZKA1), the first switching element of the remote control (KEDU2), the second switching element of the remote control (KEDU3), the third switching element of the remote control (KEDU4), the fourth switching element of the remote control (KEDU5), the first output switching element of manual control (VyKERU6), the second automatic protective switching device (AZKA7), the second output switching element of manual control (VyKERU8), the control unit of the first switching element of the remote control (BUKEDU9), the control unit of the second switching element of the remote control unit (BUKEDU10), control unit for the third switching element of the remote control (BUKEDU11), control unit for the fourth switching element of the remote control (BUKEDU12), control unit for the seasonal redundancy (BUUSR13), data receiving and transmitting unit (BPD14), uninterruptible power supply unit (BBP15), first surge arrester (OPN16), second surge arrester (OPN17), main power supply source (IE18), backup power supply source (RIE19), first consumer group (GP20), the second group of consumers (GP21).

AZKA1 is installed in the first power circuit and performs its manual, remote and automatic switching and protection. VyKERU6 is installed in the second power circuit and performs its manual switching. AZKA7 is installed in the third power circuit and performs its manual, remote and automatic switching and protection. VyKERU8 is installed in the fourth power circuit and performs its manual switching. KEDU2 is installed in the power circuit between AZKA1 and VyKERU6, carries out its automatic and remote switching. KEDU3 is installed in the power circuit between VKERU6 and AZKA7, carries out its automatic and remote switching. KEDU4 is installed in the power circuit between AZKA7 and VyKERU8, carries out its automatic and remote switching. KEDU5 is installed in the power circuit between VKERU8 and AZKA1, carries out its automatic and remote switching. BUKEDU9 is connected to KEDU2 and BUUSR13, transmits commands to turn on and off KEDU2. BUKEDU10 is connected to KEDU3 and BUUSR13, transmits commands to turn on and off KEDU3. BUKEDU11 is connected to KEDU4 and BUUSR13, transmits commands to turn on and off KEDU4. BUKEDU12 is connected to KEDU5 and BUUSR13, transmits commands to turn on and off KEDU5. BPD14 is connected to BUUSR13 and to BBP 15, transmits data. BUUSR13 is connected to KEDU 2, to KEDU 3, to KEDU 4, to KEDU 5, to AZKA1, to VyKERU6, to AZKA7, to VyKERU8, connected to BUKEDU9, to BUKEDU10, to BUKEDU11, to BUKEDU12, connected to the power circuits of the seasonal backup device between all switching elements of remote and manual control, connected to BPD14, connected to BBP15. BUUSR13 transmits commands to turn on and off the corresponding switching elements of the remote control, controls their position, transmits commands to turn on and off the corresponding automatic protective switching device, controls the current and voltage in power circuits, records electricity consumption, controls the quality of electricity, archives data, control of shutdown of the main and backup power supply, counting of the first and second groups of time intervals, generation of information signals to select the first and second groups of consumers and connect them to the backup power supply and switch from the backup to the main power supply, transfer data about the operation of the device to the BPD14 seasonal reservation and receives commands from it for remote control of switching elements of remote control. BBP15 is connected to BUUSR13 and BPD14, provides their uninterrupted power supply. OPN16 is connected to the fourth power circuit up to VKERU8 on the fourth output of the seasonal backup device, and provides its protection against overvoltages. OPN17 is connected to the second power circuit up to VKERU6 at the second output of the seasonal backup device, and provides its protection against overvoltages. IE18 is connected by the fourth power network to VKERU8, provides power to consumer groups. RIE19 is connected by a second power network to VKERU6, provides backup power to consumer groups. GP20 is connected by the first power network with AZKA1. GP21 is connected by the first power network with AZKA7.

The method is implemented as follows using the proposed device.

In normal operation mode, VKERU6, VyKERU8, AZKA1, AZKA7, KEDU4, KEDU5 are enabled, KEDU2, KEDU3 are disabled. The memory BUUSR13 contains the given first and second groups of time intervals (per second during the year), in which, respectively, it is necessary to reserve the first or second group of consumers. The power supply of GP20 and GP21 is carried out from IE18. BUUSR13 controls current and voltage in power circuits, counts the corresponding time intervals, controls the position of switching devices. BPD14 is waiting for information to arrive, BBP15 supplies power to BUUSR13 and BPD14, OPN16 and OPN17 protect power circuits from surges.

When IE18 is turned off for any reason, the voltage in the corresponding power circuits disappears, the fact of this is recorded by BUUSR13, which concludes that IE18 is turned off. In this case, if at the time of switching off IE18, one of the first group of time intervals was counted, BUUSR13 generates an information signal to turn off KEDU5, KEDU4 and simultaneously turn on KEDU2, to prohibit the inclusion of KEDU3 and sends it, respectively, to BUKEDU12, BUKEDU11, BUKEDU9 and BUKEDU10 , which carry out the inclusion, disabling, prohibition of the inclusion of the corresponding KEDU. Thus, the first group of consumers GP20 is selected and connected to the reserve power supply source RIE19. Backup power is not supplied to GP21. BUUSR13 generates information about this situation and transmits it to the BPD, which transmits this information to the network dispatching system. When IE18 is turned on, voltage appears in the corresponding power circuits. BUUSR13 makes a conclusion about the inclusion of IE18 and generates an information signal transmitted by it through the corresponding BUKEDU to turn on KEDU5, KEDU4, turn off KEDU2 and remove the ban on turning on KEDU3. Power GP20 switches, thus, to the main source of power supply IE18. BUUSR13 generates information about this situation and transmits it to the BPD, which transmits this information to the network dispatching system.

If at the time of switching off IE18, one of the second group of time intervals was counted, BUUSR13 generates information signals to turn off KEDU4, KEDU5 and simultaneously turn on KEDU3, to prohibit the inclusion of KEDU2 and sends it, respectively, to BUKEDU11, BUKEDU12, BUKEDU10 and BUKEDU9, which carry out the inclusion , disabling, prohibiting the inclusion of the corresponding KEDU. Thus, the second group of consumers GP21 is allocated and connected to the backup power supply source RIE19. Backup power is not supplied to the GP20. BUUSR13 generates information about this situation and transmits it to the BPD, which transmits this information to the network dispatching system. When IE18 is turned on, voltage appears in the corresponding power circuits. BUUSR13 makes a conclusion about the inclusion of IE18 and generates an information signal transmitted by it through the corresponding BUKEDU to turn on KEDU4, KEDU5, turn off KEDU3 and remove the ban on turning on KEDU2. Power GP21 switches, thus, to the main source of power supply IE18. BUUSR13 generates information about this situation and transmits it to BPD14, which transmits this information to the network dispatching system.

In case of short circuits, overloads in the first power network supplying GP20, AZKA1 is turned off, BUUSR13 generates a signal for its automatic re-enabling; information to the network management system.

In case of short circuits, overloads in the third power network supplying GP20, AZKA7 is turned off, BUUSR13 generates a signal for its automatic reactivation, if it is unsuccessful, BUUSR13 generates a signal to prohibit the inclusion of AZKA7, generates information about this situation and transmits it to BPD14, which transmits this information to the network management system.

In case of overvoltages in the fourth or second power network, OPN16 or OPN17 are activated, respectively, protecting the device from overvoltage.

The use of the proposed method and device makes it possible to increase the reliability of power supply to consumers in the presence of a power shortage of a backup power supply source for backing up the power supply of all consumers by taking into account the seasonal nature of consumer technological processes.

Claims (2)

1. The method of seasonal power supply reservation, which consists in issuing an informative signal to select a part of consumers from the total number of consumers and connect them to a backup power supply source, characterized in that the first and second groups of consumers are set, the first group of time intervals is set and counted in accordance with the season of the year, and the intervals are set per second, during which it is necessary to back up the power supply of the first group of consumers from the backup power supply when the main power supply is turned off, set and count the second group of time intervals in accordance with the season of the year or time of day, during which it is necessary to back up the power supply of the second group of consumers from a backup power supply when the main power supply is turned off, they control the shutdown of the main power supply, if the main power is turned off power supply occurs at the moment when the countdown of one of the first group of time intervals is turned on, then an informative signal is given to select and connect the first group of consumers to a backup power supply source, when the main power supply source is turned on again, an informative signal is given to switch the first group of consumers from a backup power supply source 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 select and connect the second group of consumers to the backup power supply, when the main power supply is turned on again, an informative signal is given to switch the second group of consumers from a backup source of power supply to the main one. 2. A seasonal power supply backup device, including switching elements and a control unit, characterized in that it contains two manual control output switching elements installed in power circuits connected to the main and backup power supply sources, two automatic protective switching devices installed in power circuits connected to the first and second groups of consumers, four switching elements of remote control, which are power contact groups with independent control, installed in power circuits between output switching elements of manual control, automatic protective switching devices, four control units for switching elements of remote control connected to the corresponding switching remote control elements, a block for receiving and transmitting data connected to a control unit for a seasonal reservation device and an uninterruptible pi control unit of the seasonal backup device, connected to each of the switching elements of manual and remote control, connected to each of the control units of the switching elements of remote control, connected to each of the automatic protective switching devices, connected to the power circuits of the seasonal backup device between the switching elements of the remote and manual control, connected to the data transmission unit, connected to the uninterruptible power supply unit, uninterruptible power supply connected to the control unit of the seasonal backup device and the data receiving and transmitting unit, two surge suppressors connected to the power circuits at the terminals of the seasonal backup device, connected to the main and backup power supply sources, the main power supply source, the backup power supply source, the first group of consumers, the second group of consumers.

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