RU2761860C1 - Input-metering and distribution device with the ability to connect a generator and an automatic frequency unloading function - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, in particular to input-accounting and distribution devices. The effect is achieved by the fact that the device allows for manual and remote switching of the consumer's network, monitoring the amount and duration of deviations of the power quality indicators at the consumer's input, identifying the reasons for disconnection of switching devices installed in the input-metering and distribution device, automatic restoration of the consumer's power supply after outages, preventing, if necessary, unauthorized supply of voltage from the consumer's network to the general network, ensuring the possibility of connecting the generator, which is on the consumer's balance sheet, to the general network, or only to supply the consumer's loads, allows the consumer's loads to be divided into two or more groups, carries out the functions of protection against sparking, carries out the functions of automatic frequency unloading.

EFFECT: expanding functionality, providing the possibility of dividing the load into two or more groups and providing protection of the consumer's network from arcing.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, in particular, to input-metering and distribution devices and is intended for switching, protecting the consumer's electrical network, reversing electricity metering, partial and complete limitation of consumption when the contractual power consumption is exceeded, control of the number and duration of interruptions in the consumer's power supply, monitoring the number and duration of voltage deviations at the consumer's input, identifying the reasons for disconnection of switching devices installed in the input-metering and distribution device, automatically restoring the consumer's power after outages, preventing, if necessary, unauthorized supply of voltage from the consumer's network to the general network, ensuring the possibility of connecting a generator , which is on the balance of the consumer to the general network, or only to supply the consumer's loads, to carry out the functions of automatic frequency unloading when the voltage frequency decreases.

The closest in technical essence to the proposed invention is an input-metering and distribution device with the ability to connect a generator, containing switching devices, an electricity meter, a controller, a modem, voltage and current sensors, an uninterruptible power supply, a device for collecting, receiving and transmitting data, a liquid crystal screen , an indication unit, four "Start" buttons, four "Stop" buttons, designed to ensure switching, protection of the consumer's electrical network, electricity metering, partial and complete limitation of consumption when the contractual power consumption is exceeded, control of the number and duration of interruptions in the consumer's power supply, control the number and duration of deviations of power quality indicators at the consumer's input, identifying the reasons for disconnection of switching devices installed in the input-metering and distribution device, automatically restoring the consumer's power after disconnections, preventing, if necessary, unauthorized supply of voltage from the consumer's network to the general network, ensuring the possibility of connecting the generator, which is on the consumer's balance sheet, to the general network, or only for supplying consumer loads (RF patent No. 2739064, IPC Н02В 1/00, Н02В 13/00 , Н02J 4/00, publ. 12.21.2020, Bul. No. 36).

The disadvantage of the known input-metering and distribution device with the possibility of connecting a generator is its insufficient functionality, including the impossibility of performing the functions of automatic frequency unloading, the functions of reverse metering of electricity, protecting the consumer's network from arcing, as well as the limited division of the load into only two groups.

The objective of the present invention is to expand the functionality by providing the possibility of automatic frequency unloading and reverse metering of electricity, ensuring the possibility of dividing the load into two or more groups, protecting the consumer's network from arcing.

As a result of using the proposed invention, the functionality of the input-metering and distribution device is expanded due to the implementation of the functions of automatic frequency unloading, reverse metering of electricity, ensuring the possibility of dividing the load into two or more groups, protecting the consumer's network from sparking.

The above technical result is achieved by the fact that the proposed input-accounting and distribution device with the ability to connect a generator and the function of automatic frequency unloading, containing switching devices, an electricity meter, a controller, a modem, voltage and current sensors, an uninterruptible power supply, a device for collecting, receiving and transmitting data, a liquid crystal screen, an indication unit, four "Start" buttons, four "Stop" buttons, according to the invention, contains an input switching device designed for manual switching of the input power network, a reversible electric meter designed for metering electricity in the forward and reverse directions, power quality control, current and voltage control in the input power network, transmission of data on electricity consumption, current and voltage values in the input power network to the device controller, a switching device with the ability to remotely control, installed in the input power network, switching devices installed in power networks of load distribution groups between a switching device with the possibility of remote control installed in an input power network and differential switching devices intended for switching power networks at the point of their installation using local and remote controls, differential switching devices installed in power networks after switching devices with the possibility of remote control, intended for switching power networks at the point of their installation and protecting power networks from overloads, short circuits and leakage currents, a switching device with the possibility of remote control installed in the power network of the generator connection between the switching a device with the possibility of remote control installed in the input power network and a differential switching device installed in the power network for connecting the generator, designed nd for switching the power network at the point of its installation using local and remote control means, a differential switching device installed in the power circuit for connecting the generator between the switching device with the possibility of remote control and the generator, designed to switch the power network for connecting the generator at the point of its installation and protection the power network for connecting the generator against overloads, short circuits and leakage currents, a voltage sensor connected to the input power network in front of the input switching device, connected to the controller and designed to monitor the voltage at the point of its installation and transmit information to the controller, a voltage sensor connected to the input power network after the switching device with the possibility of remote control, connected to the controller and designed to control the voltage in the input power network at the point of its installation and transfer information to the controller, voltage sensors, soy connected to the power networks of the load distribution groups between the switching device with the possibility of remote control, installed in the input power network and the corresponding differential switching devices, connected to the controller, designed to monitor the voltage at the point of their installation and transmit information to the controller, a voltage sensor connected to the power a generator connection network between the corresponding switching device with the possibility of remote control and a differential switching device connected to the controller, designed to monitor the voltage at the point of its installation and transmit information to the controller, current sensors connected to the power networks of the load distribution groups between the corresponding switching devices with the ability remote control and differential switching devices connected to the controller, designed to control the current at the point of their installation and transfer information and to the controller, a current sensor connected to the power network for connecting the generator between the corresponding switching device with the possibility of remote control and a differential switching device, connected to the controller, designed to control the current at the point of its installation and transmit information to the controller, position sensors of each switching device, installed in the device, devices connected to the corresponding switching devices and the controller, designed to control the position of the switching devices and transmit information about the position of the switching devices to the controller, the first frequency sensor connected to the input power network and to the controller and designed to control the frequency in the input power network and transmitting information about the frequency at the point of its installation to the controller, a second frequency sensor connected to the power network for connecting the generator and the controller and designed to control the frequency in the input power network and transmission of frequency information at the point of its installation to the controller, controller connected to position sensors, voltage sensors, current sensors, frequency sensors, switching devices with the possibility of remote control, an uninterruptible power supply unit, a device for collecting, receiving and transmitting data, a liquid crystal screen, a unit indication, "Start" buttons and "Stop" buttons, a reversible electricity meter, which performs the functions of switching on and off switching devices with the possibility of remote control using local and remote control, as well as automatically in accordance with the laid down algorithm, in particular for partial or complete limitation consumption when the power consumption is exceeded by the contractual conditions, when the power is disconnected from the mains and for connecting the generator, which is on the balance of the consumer to the general network, or only for supplying the consumer's loads, performing power quality control, position control of all switching devices and identifying the reasons for their shutdown based on processing data from voltage sensors, current sensors, position sensors, frequency sensors and current values in the input power network, blocking, if necessary, the possibility of unauthorized supply of voltage to the general network from the consumer's network by disconnecting the first of a switching device with the possibility of remote control, automatic switching on of switching devices with the possibility of remote control after the voltage is restored at the input, the implementation of the functions of automatic frequency unloading when the frequency decreases in the input power network, or in the generator connection network in the case when the loads are supplied from the generator, performing the functions of switching off the power supply of loads when fixing a spark in the consumer's wiring, an uninterruptible power supply unit connected to the controller, supplying power to the controller in the absence of voltage in all power networks in a water metering device, a device for collecting, receiving and transmitting data, connected to the controller, receiving and transmitting data, commands for controlling the operation of an input-metering and distribution device, a liquid crystal screen connected to the controller, performing a local output of information on the display, a unit indication, connected to the controller, which provides local indication of the operating modes of the input-accounting and distribution device, the "Start" buttons connected to the controller, intended for local switching on of the corresponding switching devices with the possibility of remote control, the "Stop" buttons connected to the controller, intended for local disconnection of the corresponding switching devices with the possibility of remote control.

The essence of the invention is illustrated by a drawing, which shows a block diagram of an input-accounting-distribution device with the possibility of connecting a generator and an automatic frequency unloading function, which assumes the division of loads into two groups. The scheme is carried out in a similar way when the loads are divided into a larger number of groups.

The input-accounting-distribution device contains an input switching device VKA 1, a switching device with the possibility of remote control of KA 2, a switching device with the possibility of remote control of KA 3, a switching device with the possibility of remote control of KA 4, a differential switching device YES 5, a differential switching device YES 6, differential switching device YES 7, voltage sensor DN 8, voltage sensor DN 9, voltage sensor DN 10, voltage sensor DN 11, current sensor DT12, current sensor DT13, current sensor DT14, position sensor DP 15, position sensor DP 16, position sensor DP 17, position sensor DP 18, position sensor DP 19, position sensor DP 20, position sensor DP 21, generator monitoring and control device UKiUG22, reversible electric counter RES 23, START button KP 24, START button KP 25, STOP button KS 26, STOP button KS 27, liquid crystal screen LCD screen 28, display unit Block In dication 29, uninterruptible power supply unit BBP 30, device for collecting, receiving and transmitting data USPPD 31, controller CONTROLLER 32, position sensor DP 33, switching device with the possibility of remote control KA 34, generator G35, voltage sensor DN 36, button "START" KP 37, button "START" KP 38, button "STOP" KS 39, button "STOP" KS 40, frequency sensor DCh 41, frequency sensor DCh 42. When the load is divided into more than two groups, switching devices with the possibility of remote control, differential switching devices, as well as current and voltage sensors.

VKA 1 is installed in the input power network. KA 2 is installed in the first power network between KA 34 and DA 5. KA 3 is installed in the second power network between KA 34 and DA 6. KA 4 is installed in the third power network between KA 34 and DA 7. YES 5 is installed in the first power network after KA 2. YES 6 is installed in the second power network after KA 3. YES 7 is installed in the second power network after KA 4. DN 8 is connected to the CONTROLLER 32 and to the input power network before VKA1. DN 9 is connected to CONTROLLER 32 and to the first power network between KA 2 and YES 5. DN 10 is connected to CONTROLLER 32 and to the second power network between KA 3 and YES 6. DN 11 is connected to CONTROLLER 32 and to the third power network between KA 4 and YES 7. DT 12 is connected to the CONTROLLER 32 and to the first power network between KA 2 and YES 5. DT 13 is connected to the CONTROLLER 32 and to the second power network between KA 3 and YES 6. DT 14 is connected to the CONTROLLER 32 and to the third power network between KA 4 and YES 7. DP 15 is connected to VKA 1 and to CONTROLLER 32. DP 16 is connected to KA 2 and to CONTROLLER 32. DP 17 is connected to YES 5 and to CONTROLLER 32. DP 18 is connected to KA 3 and to CONTROLLER 32. DP 19 is connected to DA 6 and to CONTROLLER 32. DP 20 is connected to KA 4 and to CONTROLLER 32. DP 21 is connected to DA 7 and to CONTROLLER 32. UKiUG 22 is connected to G 35 and to CONTROLLER 32. RES 23 is installed in input power network between VKA 1 and KA 34. KP 24 is connected to CONTROLLER 32. KP 25 is connected to CONTROLLER 32. KS 26 is connected to CONTROLLER 32. KS 27 is connected to CONTROLLER 32. LCD screen 28 is connected with CONTROLLER 32. Display unit 29 is connected to CONTROLLER 32. BBP 30 is connected to CONTROLLER 32. USPPD 31 is connected to CONTROLLER 32. CONTROLLER 32 is connected to KA 2, KA 3, KA4, DN 8, DN 9, DN 10, DP 11, DT 12, DT 13, DT 14, DP 15, DP 16, DP 17, DP 18, DP 19 DP 20, DP 21, UKiUG 22, RES 23, KP 24, KP 25, KS 26, KS 27, LCD screen 28, Display unit 29, BBP 30, USPD 31, DP 33, KA 34, G 35, DN 36, KP 37, KP 38, KS 39, KS 40. DP 33 is connected to KA 34 and to CONTROLLER 32. KA 34 is installed in the power circuit between RES 23 and KA2, KA 3, KA4. G 35 is installed in the power circuit after DA 7 and is connected to UKiUG 22. DN 36 is connected to the power circuit between KA 34 and KA 2, KA 3, KA 4. KP 37 is connected to CONTROLLER 32. KP 38 is connected to CONTROLLER 32. KS 39 connected to CONTROLLER 32. KC 40 is connected to CONTROLLER 32. DCh 41 is connected to the input power network and CONTROLLER 32. DCh 42 is connected to the power network for connecting the generator and CONTROLLER 32.

The device works as follows.

With the help of the voltage sensor DN 8, the voltage at the input in front of VKA 1 is monitored to obtain information about the presence or absence of voltage at the input from the side of the power transmission line (PTL). With the help of DN 9 and DN 10, the voltage on the networks supplying the consumer's load is monitored, with the help of DN 11, the voltage in the generator network, and with the help of DN 36, the voltage in the input network after KA 34. With the help of the RES 23 electric meter, the voltage and current in point of installation, as well as electricity consumption. In this case, electricity consumption is taken into account both when transferring from the general network to the consumer's loads, and when transferring electricity from the generator to the general network, that is, reversibly. Position sensors DP 15 ... DP 21, DP 33 control the position of all switching devices. Current sensors DT 12… DT 14 control the current in the power networks at the points of installation of the corresponding sensors. The presence of the above information allows the CONTROLLER 32 to be programmed in such a way that it could detect and control different modes of operation of the consumer's network. The DCh 41, DCh 42 sensors control the voltage frequency at the points of their installation.

The switching on and off of the power supply networks of the consumer's loads is carried out using the local (using buttons KP 24, KP 25, KP 37, KP 38, KS 26, KS 27, KS 39, KS 40) and remote (using commands sent through USPD 31 by the dispatcher networks) control, as well as automatically when the input voltage disappears (in this case, KA 2, KA 3, KA 34 are turned off, and when a voltage appears, they are automatically turned on again by a command generated by the CONTROLLER 32 controller);

Power consumption is limited as follows. When the power consumption exceeds the set value (the agreed value of the power consumption), the CONTROLLER 32 with a time delay (to avoid shutdowns at short-term peak power values higher than the set one) issues a command to shutdown KA 2, through which part of the consumer's load is connected. This achieves a partial limitation of consumption. If, after that, the consumed load is higher than the preset one, CONTROLLER 32 issues a command to shutdown KA 3. This ensures a complete limitation of consumption. When distributing the load connected to the first and second power networks, powered through KA 2 and KA 3, the most important electrical receivers should be connected to the second power network (after KA 3), the disconnection of which will lead to damage (for household electrical appliances, for example, a refrigerator, a computer , lighting circuit), and to the first power network (after KA 2) - the rest of the electrical receivers.

The control of the number and duration of interruptions in the consumer's power supply is carried out by analyzing the signals coming from the voltage sensor DN 8. In the absence of a signal from the DN 8, it is concluded that there is no voltage at the input and the timing of the interruption in the power supply begins. When the voltage is restored at the input, a signal from DN 8 will appear, which will stop the countdown of the break duration. Interruption data is saved to a removable memory card installed in the CONTROLLER 32 with reference to the time of events. All durations of breaks for the reporting period, for example, for a year, are summarized and stored on a removable memory card (can be displayed on the LCD screen 28) and transferred to the network manager to monitor the reliability of power supply to consumers.

The control of the number and duration of deviations of power quality indicators (PQI) at the input of the consumer is carried out by analyzing the voltage values transferred by RES 23 to CONTROLLER 32. If the deviation of one or another PQE is higher than the normative one, it is concluded that this PQE does not deviate above the permissible value in that or the other side and the countdown of the PQE deviation time begins. When fixing the deviation of the PQE within the normal range, the counting of the duration of the deviation stops. Deviation data is saved to a removable memory card installed in the CONTROLLER 32 with reference to the time of events. All the duration of deviations for the reporting period, for example, for a year, are summed up and stored on a removable memory card (can be displayed on the LCD screen 28) and transmitted to the network manager to monitor the quality of electricity supplied to consumers.

Revealing the reasons for disconnection of switching devices installed in the input-metering and distribution device is carried out by comparing the facts of disconnection of these devices, monitored using position sensors DP 15 ... DP 21, DP 33 and the values of current and voltage received from RES 23, DT 12 , DT 13, DT 14 and DN 8 ... DN 11, DN 36. When a current appears in the input power network above the set value of operation of the switching device YES 5, YES 6, YES 7 or VKA 1 (if VKA 1 is equipped with protection against short currents short circuit and overload) by overload or short circuit current, and the subsequent disconnection of one of these devices, it is concluded that the disconnection of this device was due to an overload or short circuit. If the device turns off, but there were no short-circuit currents or overloads, it is concluded that the shutdown was manual. When the switching devices KA 2, KA 3, KA 4, KA 34 are disconnected using the buttons KS 26, KS 27, KS 39, KS 40, it is concluded that they have been manually disabled. When the voltage disappears or fails in the input power network, the disconnection of KA 2, KA 3, KA 34 due to an interruption in the power supply is recorded. When KA 2, KA 3 is disconnected due to exceeding the agreed level of power consumption, this reason for the disconnection is recorded. When KA 2, KA 3, KA 4, KA 34 are disconnected in accordance with the dispatcher's commands or on the basis of the CONTROLLER 32 commands, the fact of such a disconnection is recorded. When KA 2, KA 3, KA 4, KA 34 are disconnected, this reason for the disconnection is fixed in accordance with the automatic frequency unloading function. If the shutdown of KA 2, KA 3, KA 34, KA 4 is recorded not for the above reasons, then their false shutdown or shutdown due to failure is recorded.

Automatic restoration of consumer power after outages is performed in the following cases. After a power outage, KA 2, KA 3, KA 34 are automatically switched on and voltage is supplied to the first and second power networks. KA 4 is disabled in this case. After the complete limitation of consumption, switching on is performed automatically after a predetermined time delay, first of KA 3, if at the same time there is no excess of the value of the consumed power, then, also with a time delay, KA 2. power, these switching devices are turned off and can only be turned on again manually using the KP 24, KP 25 buttons.

Prevention of unauthorized supply of voltage from the consumer's network to the general network is achieved due to the fact that when the input voltage disappears (there is no signal from DN 8), KA 34 is disconnected, due to which the connection between the consumer's network and the general network is broken. Turning on the KA 34 in the absence of a signal from DN 8 and in the absence of a signal to unblock the network dispatcher is blocked by the CONTROLLER 32.

Protection of the consumer's network from overloads, short circuits and leakage currents is carried out by switching devices DA5, DA 6 and DA 7, as well as VKA 1 (if it is equipped with appropriate protection means). Protection against voltage dips and voltage deviations above the permissible value is carried out by turning off KA 2 and KA 3 by a signal from CONTROLLER 32, which analyzes data from voltage sensors and RES 23.

Automatic frequency unloading is carried out when the frequency of the supply network drops below the permissible value. In this case, the DCh 41 sensor, when the consumer's loads are powered from the common network, or the DCh 42 sensor, when powered by the generator, fixes a decrease in frequency, transmit information about this to the CONTROLLER 32. The CONTROLLER 32 first disconnects part of the loads, generating a command to disconnect KA 2 , and then, if the frequency does not restore the permissible values for a given period of time, it disconnects the remaining loads, disconnecting KA 3. After a predetermined time interval, CONTROLLER 32 restarts at the beginning KA 3, and if the frequency is within the permissible values, then KA 2 , thus restoring the power supply of the consumer loads.

Protection against sparking in the consumer's wiring is carried out by processing information from current and voltage sensors installed in the device and identifying higher harmonics and other signs characteristic of sparking. When arcing is detected, CONTROLLER 32 generates a signal to turn off the corresponding switching device with the possibility of remote control.

Remote control involves the transmission of commands by the dispatcher to shutdown KA 34, KA 2, KA 3 if it is necessary to limit consumption, if it is necessary to disconnect the consumer's network from the general network, for example, when performing routine maintenance on it, in other necessary cases. In this case, a blocking is introduced for self-activation of KA 34, KA 2, KA 3 by the consumer. The blocking is released by the network manager.

The display unit 29 serves to display the following information: the presence of voltage at the input; the presence of blocking the inclusion of KA 2, KA 3; position of KA 2, KA 3; the presence of power limitations.

An uninterruptible power supply unit provides power to the controller during power outages. USPD 31 serves to transmit and receive information and commands of the network dispatcher. The LCD screen 28 is used to display information about the modes of operation of the device.

The control of the generator, if it is not allowed to connect it to the general network, and it works as a backup source of electricity, is carried out as follows. When the power is disconnected from the mains, that is, in the absence of a signal from the DN 8 sensor, KA 34 is turned off and the possibility of turning it on is blocked. KA 2 and KA 3 are also switched off. The CONTROLLER 32 controller sends the UKiUG 22 command to start the G 35 generator, it starts up. After that, KA 4 is turned on, and then KA 2 and KA 3. The loads connected to the 1st and 2nd power networks are powered from G 35. When a signal from the DN 8 sensor appears, the G 35 generator is turned off, the spacecraft is turned off and blocked. 4, KA 34 is switched on, and then KA 2 and KA 3. The loads connected to the 1st and 2nd power networks are powered from the common network.

The control of the generator, if it is allowed to be connected to the general network, and it works as the main source of electricity for the consumer's loads and, in addition, can supply energy to the general network, is carried out as follows. The CONTROLLER 32 controller sends the UKiUG 22 command to start the G 35 generator, it starts. After that, KA 4 is switched on, and then KA 2, KA 3, KA 34. The loads connected to the 1st and 2nd power networks are powered from G 35, the electricity is also given to the general network (VKA 1 should be is switched on, and the RES 23 counter must be reversible). When the generator is turned off for any reason or manually, KA 4 is turned off. Power to the loads connected to the 1st and 2nd power networks is carried out from the common network.

Other algorithms for controlling the generator, switching devices of the input-accounting-distribution device can be implemented.

The proposed device allows for manual and remote switching of the consumer's network, protection of the consumer's electrical network, reverse metering of electricity, partial and complete limitation of consumption when the contractual power consumption is exceeded, control of the number and duration of interruptions in the consumer's power supply, control of the number and duration of deviations of power quality indicators at the input of the consumer, identifying the reasons for disconnection of switching devices installed in the input-metering and distribution device, automatic restoration of the consumer's power after outages, preventing, if necessary, unauthorized supply of voltage from the consumer's network to the general network, ensuring the possibility of connecting the generator, which is on the balance of the consumer to the general network , or only for supplying consumer loads, allows dividing consumer loads into two or more groups, performs spark protection functions, implements It has automatic frequency dumping functions.

No. 2739064 - prototype

The objective of the proposed invention is to expand the scope of application by providing the possibility of partial or complete limitation of consumption when the contractual power consumption is exceeded, control of the number and duration of interruptions in the consumer's power supply, control of the number and duration of deviations of power quality indicators at the input of the consumer, identifying the reasons for disconnection of switching devices installed in the input-metering and distribution device, automatic restoration of the consumer's power after outages, preventing, if necessary, unauthorized supply of voltage from the consumer's network to the general network, ensuring the possibility of connecting the generator, which is on the consumer's balance sheet, to the general network, or only to supply the consumer's loads.

The technical result consists in ensuring switching, protecting the consumer's electrical network, metering electricity, partially and completely limiting consumption when the contractual power consumption is exceeded, monitoring the number and duration of interruptions in the consumer's power supply, monitoring the number and duration of deviations of power quality indicators at the consumer's input, identifying the reasons for outages switching devices installed in the input-metering and distribution device, automatic restoration of the consumer's power after outages, preventing, if necessary, unauthorized supply of voltage from the consumer's network to the general network, ensuring the possibility of connecting the generator, which is on the consumer's balance sheet, to the general network, or only for power supply of consumer loads. It is achieved by the fact that the device contains switching devices, an electricity meter, a controller, a modem, voltage and current sensors, an uninterruptible power supply unit, a device for collecting, receiving and transmitting data, a liquid crystal screen, an indication unit, four Start buttons, four Stop buttons ...

Claim

An input-metering and distribution device with the ability to connect a generator, containing switching devices, an electricity meter, a controller, a modem, designed to control the consumption of electricity and prevent its consumption in excess of the established norms and limits, characterized in that it contains an input switching device designed for manual switching of the input power network, an electric meter designed for metering electricity, monitoring the quality of electricity, monitoring the current and voltage in the input power network, transmitting data on electricity consumption, the value of current and voltage in the input power network to the device controller, the first switching device with the possibility of remote control installed in the water power network, the second switching device installed in the first power network between the first switching device with the possibility of remote control and the first differential switching device, is intended data for switching the first power network at the point of its installation using local and remote control means, the third switching device with the possibility of remote control, installed in the second power network between the first switching device with the possibility of remote control and the second differential switching device, intended for switching the second power network at the point of its installation using local and remote controls, the first differential switching device installed in the first power circuit after the second switching device, designed to switch the first power network at its installation point and protect the first power network from overloads, short circuits and currents leakage, the second differential switching device installed in the second power network after the third switching device with the possibility of remote control, intended for switching the second power network at point e installation and protection of the second power network from overloads, short circuits and leakage currents, the fourth switching device with the possibility of remote control, installed in the power network for connecting the generator between the first switching device with the possibility of remote control and the third differential switching device, intended for switching the second power network at the point of its installation using local and remote control means, the third differential switching device installed in the power circuit of the generator connection between the fourth switching device with the possibility of remote control and the generator, designed to switch the power network of the generator connection at the point of its installation and protect the power connection network generator from overloads, short circuits and leakage currents, the first voltage sensor connected to the input power network before the input switching device, connected to the controller and designed to monitor the voltage at the point of its installation and transmit information to the controller, the second voltage sensor, connected to the input power network after the first switching device with the possibility of remote control, connected to the controller and designed to control the voltage in the input power network at the point of its installation and transmission information to the controller, the third voltage sensor connected to the first power network between the second switching device with the possibility of remote control and the first differential switching device, connected to the controller, designed to monitor the voltage at the point of its installation and transmit information to the controller, the fourth voltage sensor connected with the second power network between the third switching device with the possibility of remote control and the second differential switching device, connected to the controller, designed to control the voltage at the point of its installation and before transferring information to the controller, the fifth voltage sensor, connected to the power network, connecting the generator between the fourth switching device with the possibility of remote control and the third differential switching device, connected to the controller, designed to control the voltage at the point of its installation and transmit information to the controller, the first current sensor , connected to the first power network between the second switching device with the possibility of remote control and the first differential switching device, connected to the controller, designed to control the current at the point of its installation and transfer information to the controller, the second voltage sensor connected to the second power network between the third switching a device with the possibility of remote control and a second differential switching device connected to the controller, designed to control the current at the point of its installation and transmit information to the controller, the third sensor current, connected to the power network for connecting the generator between the fourth switching device with the possibility of remote control and the third differential switching device, connected to the controller, designed to monitor the voltage at the point of its installation and transmit information to the controller, position sensors of each switching device installed in the device, devices connected to the corresponding switching devices and the controller, intended for monitoring the position of switching devices and transmitting information about the position of switching devices to the controller, a controller connected to position sensors, voltage sensors, current sensors, switching devices with the possibility of remote control, an uninterruptible power supply unit, a device collection, reception and transmission of data, a liquid crystal screen, an indication unit, buttons "Start" and buttons "Stop", which carries out the functions of switching on and off switching devices ATVs with the possibility of remote control using local and remote control, as well as automatically in accordance with the laid down algorithm, in particular for partial or complete limitation of consumption when the power consumption is exceeded by the contractual conditions, when the power is disconnected from the mains and for connecting the generator, which is on the balance of the consumer , to the general network, or only for powering the consumer's loads, monitoring the quality of electricity, monitoring the position of all switching devices and identifying the reasons for their shutdown based on processing data from voltage sensors, current sensors, position sensors and current values in the input power network, blocking in in necessary cases, the possibility of unauthorized supply of voltage to the general network from the consumer's network due to the disconnection of the first switching device with the possibility of remote control, automatic switching on of switching devices with the possibility of remote control after reconnection voltage rise at the input, an uninterruptible power supply unit connected to the controller, supplying power to the controller in the absence of voltage in all power networks of the input-metering and distribution device, a device for collecting, receiving and transmitting data connected to the controller, which receives and transmits data, control commands the operation of the input-accounting and distribution device, a liquid crystal screen connected to the controller, which carries out local output of information to the display, an indication unit connected to the controller, which performs local indication of the operating modes of the input-accounting and distribution device, the first "Start" button connected to the controller , intended for local switching on of the first switching device with the possibility of remote control, the second “Start” button connected to the controller, intended for local switching on of the second switching device with the possibility of remote control, the third “Start” button, connect connected with the controller, intended for local switching on of the third switching device with the possibility of remote control, the fourth "Start" button connected to the controller, intended for local switching on of the fourth switching device with the possibility of remote control, the first "Stop" button connected to the controller, intended for local disconnection of the first switching device with the possibility of remote control, the second "Stop" button, connected to the controller, intended for local disconnection of the second switching device with the possibility of remote control, the third "Stop" button, connected to the controller, intended for local disconnection of the third switching device with the possibility of remote control, the fourth "Stop" button connected to the controller, intended for local shutdown of the fourth switching device with the possibility of remote control.

Claims (1)

An input-metering and distribution device with the ability to connect a generator and an automatic frequency unloading function, containing switching devices, an electricity meter, a controller, a modem, voltage and current sensors, an uninterruptible power supply unit, a device for collecting, receiving and transmitting data, a liquid crystal screen, an indication unit, four buttons "Start", four buttons "Stop", characterized in that it contains an input switching device intended for manual switching of the input power network, a reversible electric meter intended for metering electricity in the forward and reverse directions, monitoring the quality of electricity, monitoring the current and voltage in the input power network, transmission of data on electricity consumption, the value of current and voltage in the input power network to the device controller, a switching device with the possibility of remote control installed in the input power network, switching devices installed in the power networks of groups of races load distribution between a switching device with the possibility of remote control installed in the input power network and differential switching devices intended for switching power networks at the point of their installation using local and remote control devices, differential switching devices installed in power networks after switching devices with the possibility of remote control, designed for switching power networks at the point of their installation and protecting power networks from overloads, short circuits and leakage currents, a switching device with the possibility of remote control, installed in the power network for connecting a generator between a switching device with the possibility of remote control installed in the input power network, and a differential switching device installed in the power network for connecting the generator, designed to switch the power network at the point of its installation using m of local and remote control devices, a differential switching device installed in the generator power circuit between the switching device with the possibility of remote control and the generator, designed to switch the generator power network at the point of its installation and protect the generator power network from overloads, short circuits and leakage currents, a voltage sensor connected to the input power network before the input switching device, connected to the controller and designed to monitor the voltage at the point of its installation and transmit information to the controller, a voltage sensor connected to the input power network after the switching device with the possibility of remote control, connected to the controller and designed to monitor the voltage in the input power network at the point of its installation and transmit information to the controller, voltage sensors connected to the power networks of the load distribution groups between the comm. a remote control device with the ability to remotely control, installed in the input power network, and the corresponding differential switching devices connected to the controller, designed to control the voltage at the point of their installation and transmit information to the controller, a voltage sensor connected to the power network connecting the generator between the corresponding switching device with the possibility of remote control and a differential switching device, connected to the controller, designed to monitor the voltage at the point of its installation and transfer information to the controller, current sensors connected to the power networks of the load distribution groups between the corresponding switching devices with the possibility of remote control and differential switching devices, connected to the controller, designed to control the current at the point of their installation and transmit information to the controller, a current sensor connected to the power network to the generator between the corresponding switching device with the possibility of remote control and a differential switching device, connected to the controller, designed to control the current at the point of its installation and transfer information to the controller, position sensors of each switching device installed in the device, connected to the corresponding switching devices and the controller devices designed to control the position of switching devices and transmit information about the position of switching devices to the controller, the first frequency sensor connected to the input power network and to the controller and designed to control the frequency in the input power network and transmit information about the frequency at the point of its installation to the controller , the second frequency sensor, connected to the power network for connecting the generator and the controller and designed to control the frequency in the input power network and transmit information about the frequency at the point of its installation to the controller, to controller connected to position sensors, voltage sensors, current sensors, frequency sensors, switching devices with the possibility of remote control, an uninterruptible power supply unit, a device for collecting, receiving and transmitting data, a liquid crystal screen, an indication unit, "Start" and "Stop" buttons , a reversible electricity meter, which performs the functions of turning on and off switching devices with the possibility of remote control using local and remote control, as well as automatically in accordance with the laid down algorithm, in particular for partial or complete limitation of consumption when the power consumption exceeds the contractual conditions, when the power is turned off from the network and to connect the generator, which is on the balance of the consumer to the general network, or only to supply the consumer's loads, which monitors the quality of electricity, monitors the position of all switching devices and identifies the reasons for their disconnection on the Again, data processing from voltage sensors, current sensors, position sensors, frequency sensors and current values in the input power network, blocking, if necessary, the possibility of unauthorized supply of voltage to the general network from the consumer's network by disconnecting the first switching device with the possibility of remote control, automatic switching on switching devices with the possibility of remote control after the voltage is restored at the input, the implementation of the functions of automatic frequency unloading when the frequency decreases in the input power network, or in the generator connection network in the case when the loads are powered from the generator, the functions of disconnecting the power supply to the loads when fixing the spark in consumer wiring, uninterruptible power supply unit connected to the controller, supplying power to the controller in the absence of voltage in all power networks of the input-metering and distribution device, collection device, reception a and data transmission, connected to the controller, receiving and transmitting data, commands to control the operation of the input-metering and distribution device, a liquid crystal screen connected to the controller, performing local output of information on the display, an indication unit connected to the controller, performing local indication of modes operation of the input-metering and distribution device, Start buttons connected to the controller, intended for local switching on of the corresponding switching devices with the possibility of remote control, Stop buttons connected to the controller, intended for local switching off of the corresponding switching devices with the possibility of remote control.

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