RU164951U1 - INTELLIGENT CONTROL UNIT FOR SWITCHING ELECTRIC NETWORK WITH REVERSE POWER SUPPLY - Google Patents

Abstract

An intelligent control device for switching devices of an electric network with reverse power supply, which contains a power supply and voltage sensor blocks, a microcontroller connected via an analog-to-digital converter to voltage and current sensor blocks and connected to the RS-485 interface, an optical port, and a backup power supply of current time built-in in the microcontroller of the watch and power supply, LED indicator of the device, LCD screen, control buttons, radio unit, connected to the power supply and supporting, but not limited to GSM, CDMA and IEE 802.11 data transmission standards, non-volatile memory having an additional memory register containing geographical coordinates and operational name of the installation location of the device, a backup power source, which is a replaceable battery, connected to the power supply unit and supplying the microcontroller and the radio block, the device is directly integrated or installed on the housing of the switching device, I connect connected to the mains with the help of a pin connector, a relay block is additionally connected to the microcontroller, which is powered from the power supply and the backup power source, giving commands to the control switches of the switching device, which allow using the additional equipment to control the contacts of the switching device, and to independent reserve control terminals , allowing you to turn on the backup source or start the generator, an additional sensor block is connected to the analog-to-digital converter Cove

Description

This utility model relates to the field of electrical engineering, switching control and signaling of the state of a three-phase electric network, namely, to multi-functional multi-tariff electric energy metering devices designed for the operational production of switching electric networks, technical metering of electric energy, power and monitoring the state of the electric network in power supply systems at energy facilities, with the ability to transmit information over the air.

The closest analogue of the Energomera CE303-S31-743-JAVQ electric meter is known (http://www.energomera.ru), consisting of a microcontroller, an LCD screen, non-volatile memory, a block of control buttons, a control relay, an RS-485 interface, a terminal block, and analog-to-digital conversion, a block of current and voltage sensors.

The disadvantage of this device is that if it is necessary to control an electrical network above 100 A, switching devices (circuit breakers, magnetic starters / contactors) are used, which are located in the non-meter body, for which additional connecting wires are used. The impact on the wires leads to a false response of the device, the device turns off when the meter is disconnected from the mains, it is not possible to perform emergency emergency recovery of the electric network with the signaling of the electrical network commutations indicating the exact location of the emergency, expensive design.

The closest in technical essence is an intelligent control device for switching devices of the electric network (RU No. 2534926 G05B 13/02, G01R 11/25), comprising, a power supply unit and voltage and current sensor units with a power supply network, a microcontroller connected via an analog-to-digital converter to the voltage and current sensor blocks and connected to the RS-485 interface, an optical port, a backup power supply for the current time of the clock integrated in the microcontroller and a power supply, an LED indicator of the device’s operation, control button locator, a radio unit connected to a power supply unit and supporting, but not limited to GSM, CDMA and IEE 802.11 data transmission standards, non-volatile memory having an additional memory register containing geographical coordinates and operational name of the installation location of the device, a backup power source representing a battery replaceable battery connected to the power supply unit and supplying the microcontroller and the radio unit, the device is directly integrated or installed I’m connected to the main body of the switching apparatus using a connection to the mains using a pin connector, a relay block is additionally connected to the microcontroller, which is powered from the power supply and the backup power source, and which gives commands to the control terminals of the switching apparatus that allow using the additional equipment to control the contacts of the switching apparatus independent reserve control terminals allowing the inclusion of a reserve or generator start, and to analog-to-digital conversion the body is connected to an additional block of voltage sensors, which takes parameters after the contacts of the switching device, in non-volatile memory contains a second additional memory register containing the parameters of the relay unit in case of emergency.

The disadvantage of the device is that when you disconnect the contacts of the switching device and the main power source is lost and when the backup source (generator) is turned on, the device will work only from the battery, since the device is not supplied with power after the contacts of the switching device. There is no LCD screen on the device.

The objective of this patent is to create a device that is protected from external influences in the production of switching, capable of taking into account active (kW * h) and reactive (kVar * h) energy, to monitor operating modes of the power grid in real time and when they deviate from the set values, including cases of absence voltage in a controlled electrical network, restore normal power supply by turning on the backup power source and signal about this with the geographical coordinates of the device, also remain in those as long as possible.

EFFECT: creation of a device that can be connected to a switching device without external wires, in the absence of voltage, independently restore power supply and signal about malfunctions in electric networks via a radio channel indicating the geographical coordinates of the emergency situation and remain in operation for a long time regardless of the supply direction.

The technical result is achieved by the fact that the device containing the power supply and voltage sensor blocks, a microcontroller connected via an analog-to-digital converter to the voltage and current sensor blocks and connected to the RS-485 interface, an optical port, a backup current power supply built into the microcontroller hours and a power supply, an LED indicator of the device, a liquid crystal screen, a block of control buttons, a radio unit connected to a power supply and supporting, but not limited to compatible with GSM, CDMA and IEE 802.11 data transfer standards, non-volatile memory having an additional memory register containing geographical coordinates and operational name of the device installation location, a backup power source, which is a replaceable battery connected to the power supply unit and supplying the microcontroller and radio block , the device is directly integrated or installed on the housing of the switching device using a connection to the mains using a contact of the connector, the relay block is additionally connected to the microcontroller, powered from the power supply unit and the backup power source, giving commands to the control terminals of the switching device, allowing to use the contacts of the switching device using additional equipment, and to the independent control terminals of the reserve allowing to turn on the backup source or start the generator , an additional block of voltage sensors is connected to the analog-to-digital converter, which takes parameters after of the contacts of the switching device, the non-volatile memory contains a second additional memory register containing the parameters of the relay unit in case of emergency. The difference is that the power supply is connected to the supply network through the reverse power supply, which can receive power through the connector, both before the contacts of the switching device and after the contacts of the switching device.

This minimal design allows you to install the power supply using the second additional memory register and the relay unit with independent outputs, fix the parameters of the power supply in real time and transmit the received information indicating the geographical coordinates without special labor costs inside or on the body of the switching device, independently, without the participation of the dispatcher via radio channels to the dispatcher due to the installed radio module and non-volatile memory with an additional register memory containing geographical coordinates, maintain the device’s operability when power is turned off due to the backup power source (battery), and also allows you to reduce the cost of the product by installing instead of a liquid crystal display the LED indicator of the device. When the main power is turned off, the device is powered by a backup source (generator).

Compared with the prototype of the claimed design has a distinctive feature in the combination of elements and their relative position.

A diagram of an intelligent control device for switching devices of an electric network with reverse power is shown in FIG. 1. The device contains a block of current sensors 1 and voltage 2, the primary windings of which are connected to the power supply 3 through the pin 4, while the primary winding of the current sensors 2 is connected to the power supply through measuring current transformers 5, and the secondary windings are connected to the analog digital converter 6, which transmits the converted signal to the microcontroller 7, connected to non-volatile memory 8 with additional memory registers 9 and 10, a backup power source for the current time 11, the button block is controlled I have 12, an optical port 13, which serves for reading information and programming user parameters and an RS-485 interface 14, which serves for external communication with the microcontroller 7, as well as for connecting additional devices not equipped with a radio module, an external display or connecting an additional executive device . The power supply of the microcontroller 7, the relay block 15 and the radio block 16 is provided by a power supply 17, based on a step-down three-phase rectifier and an output voltage regulator, powered by a reverse power supply 18 connected to the power supply 3 via pin 4. Microcontroller 7 is additionally connected to the LED operation indicator 19, a liquid crystal screen 20, a relay unit 15 provided with control terminals of the switching apparatus 21 which, using additional equipment (electric drive, electromagnets hydrochloric coil), produce control contacts of the switching device 22 and the independent control reserve terminals 23, radio unit 16 transmits information on radio channels in the GSM standards, CDMA, IEE 802.11 but not limited to, 24 and a backup power source for autonomous operation. An analog-to-digital converter is additionally connected to a second block of voltage sensors 25 that takes parameters after the contacts of the switching device 22.

The operation of an intelligent control device for switching devices of an electric network with reverse power is as follows:

The device, using terminal connector 4, is mounted inwardly or mounted on the housing of the switching device.

The blocks of voltage sensors 2 and 25 convert the voltage of the supply network 3 for each phase into analogue signals suitable for measurement, supplied to the analog-to-digital converter 6. Measuring current transformers 5 convert the current of the supply network 3 to a value convenient for measurement. The current signals for each phase in the block of current sensors 1, are converted using current transformers and resistors into voltage signals supplied to the input of an analog-to-digital converter

6. The analog-to-digital converter 6 transmits the current and voltage signals in the supply network in digital form to the corresponding inputs of the microcontroller

7, which, in turn, calculates the root mean square values of currents and voltages, full, active, reactive powers and energies, accumulates data received at its input, charges them in accordance with the current tariff program and current time, which is recorded in Built-in microcontroller watches. The energy parameters of the electric network are stored in non-volatile memory 8 in real time, while the additional memory register 9, after making changes through the optical 13 port or RS-485 interface 14, contains information about the coordinates of the location (latitude, longitude), and the operational name of the place device installation (transformer substation No., bus section No., operational name of the connection). The additional memory register 10, after making changes through the optical 13 port or RS-485 interface 14, contains commands to control the relay unit 15, which are activated by the microcontroller 7 in case of malfunctions in the electrical network. The liquid crystal screen 20 serves to display the measured data and additional parameters. The LED indicator 19 of the operation of the device converts the signals of the microcontroller into light pulses with a frequency proportional to the measured electricity per unit time, shows the presence of all three phases (A, B, C). At specified intervals, at the request of the dispatcher, or automatically in emergency mode (when powered by a backup power source 24), the microcontroller 7 sends information through the radio block 16 about the energy consumption, quality parameters, the state of the electric network sends geographical coordinates, the state of the contacts of the switching apparatus 22, operational name the installation location of the device in the event of an emergency on the wireless channel through the radio unit 16. Power supply of the microcontroller 7, relay unit 15 and the radio unit 14 in normal mode is carried out from the power supply 17, and in emergency mode in the complete absence of voltage from the backup power source 24.

In the event of an accident in electrical networks, data on the quality of the supply network 3 or its absence is recorded by the current sensor unit 1 and the voltage sensor unit 2 through an analog-to-digital converter 6 are transmitted to the microcontroller 7 which polls the additional memory register 10 and through the relay unit 15, using additional equipment ( electric drive, electromagnetic coil) connected to the control terminals of the switching device 21 disables the contacts of the switching device 22, after which the control terminals reserve 23 launch a generator or power backup. Due to the presence of the reverse power supply unit 18, it does not matter on which side the voltage will be supplied even when the contacts of the switching apparatus 22 are disconnected, the device will remain in operation. The direction of power is determined using the voltage sensor blocks 2 and 24.

After eliminating the accident after a predetermined time, the device can switch to normal operation, disabling the backup power source using the reserve control terminals 23 and turning on the main contacts of the switching device 22 using the control terminals of the switching device 21.

To control the operation of switching in the switching device and turning on the backup source, the device provides a second block of voltage sensors 25 network indicators, which are removed after the contacts of the switching device 22.

The device can be controlled using the block of control buttons 12 or from a remote workstation via radio block 16.

The advantage of the proposed technical solution is the low cost of construction, versatility, the possibility of using this device in automated systems for monitoring and accounting of electricity (ASKUE) and for the production of automated switching of the electric network.

The proposed device can be implemented on the basis of a multifunction meter that records the number of hours of power use.

The device can find application in the field of electric power, electricity metering for operational dispatch control and the quick automatic elimination of accidents in electric networks.

Claims (1)

An intelligent control device for switching devices of an electric network with reverse power supply, which contains a power supply and voltage sensor blocks, a microcontroller connected via an analog-to-digital converter to voltage and current sensor blocks and connected to the RS-485 interface, an optical port, and a backup power supply of current time built-in in the microcontroller of the watch and power supply, LED indicator of the device, LCD screen, control buttons, radio unit, connected to the power supply and supporting, but not limited to GSM, CDMA and IEE 802.11 data transmission standards, non-volatile memory having an additional memory register containing geographical coordinates and operational name of the installation location of the device, a backup power source, which is a replaceable battery, connected to the power supply unit and supplying the microcontroller and the radio block, the device is directly integrated or installed on the housing of the switching device, I connect connected to the mains with the help of a pin connector, a relay block is additionally connected to the microcontroller, which is powered from the power supply and the backup power source, giving commands to the control switches of the switching device, which allow using the additional equipment to control the contacts of the switching device, and to independent reserve control terminals , allowing you to turn on the backup source or start the generator, an additional sensor block is connected to the analog-to-digital converter voltage, taking parameters after the contacts of the switching device, in non-volatile memory contains a second additional memory register containing the parameters of the relay unit in case of emergency, characterized in that the power supply is connected to the mains through the reverse power supply, which through the contact connector can receive power supply both before the contacts of the switching device, and after the contacts of the switching device.

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