RU150322U1 - DEVICE FOR LOGIC PROCESSING OF SIGNALS FOR CONTROL OF ELECTROMAGNETS OF AIR BLOCKS OF PASSIVE HEAT REMOVAL SYSTEM - Google Patents

Abstract

A device for the logical processing of control signals of electromagnets of air gates of a passive heat removal system, comprising an automatic switch and a first, second and third executive relay, characterized in that an isolation transformer is inserted, connected in parallel with the output terminals of the automatic switch, an indicator connected in parallel with the output terminals of the isolation transformer, block power supply, the input of which is connected in parallel with the output terminals of the isolation transformer, the first, second and the third delay relay, a temperature sensor connected in parallel to the output terminals of the isolation transformer, normally open contacts of the temperature sensor, a resistor connected in series with the normally open contacts of the temperature sensor to form the temperature sensor actuator circuit connected in parallel with the output terminals of the isolation transformer, the first normally open pressure sensor contact in the area of the air lock, connected in series with the first delay relay with the formation the first delay circuit connected in parallel to the output terminals of the power supply unit, the second normally open contact of the pressure sensor in the air lock zone, connected in series with the second delay relay to form a second delay circuit connected in parallel with the output terminals of the power supply, the third normally open contact of the pressure sensor in the air zone a shutter connected in series with the third delay relay to form a third delay circuit connected in parallel with the output terminals of the power supply, the first circuit

Description

The utility model relates to techniques for relay protection and automation and can be used in control systems for electromagnets of air gates of the system of passive heat removal of nuclear power plants.

Structurally, the device runs on a board in a single housing.

A device is known [RU 2495778, C2, B61L 21/04, 10/20/2013], containing a microprocessor control unit for monitoring the status of floor devices connected to a two-channel device for processing information and generating control actions through two identical serial ports, and to each two-channel device processing of information and generation of control actions through two additional serial interfaces, a second microprocessor control unit for monitoring and monitoring the status of outdoor devices is connected, outputs ervogo and second control units and control of outdoor units connected in a logical "OR" through an additional relay circuit and through relay circuit linkage connected to the same outdoor units.

The disadvantage of this device is the relatively narrow functionality, because, although the known device performs logical signal processing, it cannot be used as a logical signal processing device for controlling electromagnets of air gates of a passive heat removal system.

The closest in technical essence to the proposed one is the device [RU 2495778, C2, B61L 21/04, 10.20.2013], containing power lines “-” and “+”, n of the same type of redundant relay cells, consisting of four relays and four isolation diodes , the first, second, third switched power buses “+”, the fourth switched power bus “+”, four remote switches with two normally closed contacts, five current sensors, a controller, the second windings in each cell are connected respectively to the first, second, third the fourth switched power bus "+", the first, second, third, fourth current sensors are installed respectively on the first, second, third, fourth switched power buses "+", which through the first normally closed contact respectively the first, second, third, fourth remote switch connected to the common power bus "+", and the fifth current sensor is installed on the power bus "-", the outputs of the current sensors are connected to the information inputs of the controller, in which the signal inputs through the second normally closed contact Assortments respectively first, second, third, fourth remote switch connected to a common signal input of the controller.

The disadvantage of this device is the relatively narrow functionality, because, although the known device performs logical signal processing, it cannot be used as a logical signal processing device for controlling electromagnets of air gates of a passive heat removal system.

The task to which the utility model is directed is the expansion of functionality.

The required technical result is to expand the functionality.

The required technical result is achieved by introducing an additional arsenal of technical means that provide the extension of the functionality of the known device and the possibility of using the device for the logical processing of control signals by the electromagnets of the air gates of the passive heat removal system.

For this purpose, an isolation transformer connected in parallel to the output terminals of the automatic switch, an indicator connected in parallel to the output terminals of the isolation transformer, a power supply whose input is connected in parallel with the output terminals, are introduced into the device containing the automatic switch and the first, second and third actuating relays, according to the utility model decoupling transformer, first, second and third delay relay, temperature sensor connected in parallel to the output terminals decoupling of the transformer, normally open contacts of the temperature sensor, a resistor connected in series with normally open contacts of the temperature sensor to form an executive circuit of the temperature sensor connected in parallel with the output terminals of the isolation transformer, the first normally open contact of the pressure sensor in the area of the air lock, connected in series with the first delay relay with the formation of the first delay circuit connected in parallel with the output terminals of the power supply, the second is normal the open contact of the pressure sensor in the area of the air shutter, connected in series with the second delay relay with the formation of a second delay circuit connected in parallel with the output terminals of the power supply, the third normally open contact of the pressure sensor in the area of the air shutter, connected in series with the third delay relay with the formation of the third delay circuit connected in parallel to the output terminals of the power supply, the first circuit of normally open contacts, containing the first normally p the open contact of the first delay relay and the first normally open contact of the second delay relay, the second circuit of normally open contacts containing the second normally open contact of the first delay relay and the first normally open contact of the third delay relay, the third circuit of the normally open contacts connected in parallel with the first and second circuit of normally open contacts and containing a second normally open contact of the second delay relay and W second normally open contact of the third delay relay, the fourth normally open contact circuit containing the first normally open contact of the first temperature relay for the charge water return and the first normally open contact of the second temperature relay for the charge water return, the fifth normally open contact circuit, containing the series connected the second normally open contact of the first temperature relay on the return of charge water and the first normally p open contact of the third temperature relay on the return of charge water, the sixth circuit of normally open contacts connected in parallel with the fourth and fifth circuit of normally open contacts and containing the second normally open contact of the second temperature relay on the return of charge water and the second normally open contact of the third temperature relay on return charge water, normally open contact of the sensor relay leak from the first to the second circuit and normally open the key relay contact, moreover, the normally open contact of the key relay is connected in series with the first, second and third executive relays connected in parallel and forms the first executive circuit connected in parallel to the output terminals of the power supply, and the first, second and third circuits of the normally open contacts connected in parallel are normal open relay contact of the sensor leak from the first to the second circuit, the fourth, fifth and sixth circuits of normally open contacts and parallel connected The first, second and third actuator relays are connected in series and form a second actuator circuit connected in parallel with the output terminals of the power supply.

The drawing shows an electrical block diagram of a device for the logical processing of control signals by electromagnets of air gates of a passive heat removal system.

A device for the logical processing of control signals of electromagnets of air gates of a passive heat removal system includes an automatic switch 1 and a first 2, a second 3 and a third 4 executive relays.

In addition, the device for the logical processing of control signals of the electromagnets of the air gates of the passive heat removal system includes an isolation transformer 5 connected in parallel to the output terminals of the automatic switch 1, an indicator 6 connected in parallel to the output terminals of the isolation transformer 5, a power supply 7 whose input is connected in parallel with the output transformer 5, first 8, second 9 and third 10 delay relays, temperature sensor 11, connected in parallel with the output terminals ra coupling transformer 5, normally open contacts 12 of the temperature sensor, a resistor 13 connected in series with normally open contacts 12 of the temperature sensor with the formation of the Executive circuit of the temperature sensor connected in parallel with the output terminals of the isolation transformer 5.

The device for the logical processing of control signals of electromagnets of the air gates of the passive heat removal system also contains a first normally open contact 14 of the pressure sensor in the area of the air gate, connected in series with the first delay relay 8 to form the first delay circuit connected in parallel with the output terminals of the power supply unit 7, the second normally open contact 15 of the pressure sensor in the area of the air lock, connected in series with the second delay relay 9 with the formation of the second delay circuit connected in parallel to the output terminals of the power supply unit 7, the third normally open contact 16 of the pressure sensor in the area of the air shutter connected in series with the third delay relay 10 to form a third delay circuit connected in parallel with the output terminals of the power supply unit 7, the first normally open contact circuit containing in series included the first normally open contact 17 of the first delay relay and the first normally open contact 18 of the second delay relay, the second circuit of normally open contact kt containing the second normally open contact 19 of the first delay relay in series and the first normally open contact 20 of the third delay relay, the third normally open contact circuit connected in parallel with the first and second normally open contacts and containing the second normally open contact 21 of the second delay relay in series and a second normally open contact 22 of the third delay relay, a fourth normally open contact circuit comprising the first normally open contact 23 of the first temperature relay for charging water return and the first normally open contact 24 of the second temperature relay for charging water return, the fifth circuit of normally open contacts containing the second normally open contact 25 of the first temperature relay for charging water return and the first normally open contact 26 of the third temperature relay on the charge water return, sixth circuit of normally open contacts, connect parallel to the fourth and fifth circuits of normally open contacts and containing the second normally open contact 27 of the second temperature relay for charging water return and the second normally open contact 28 of the third temperature relay for charging water return, normally open contact 29 of the sensor relay from the first to the second circuit and normally open contact 30 of the key relay.

In the device for the logical processing of the control signals of the electromagnets of the air gates of the passive heat removal system, the normally open contact 30 of the key relay is connected in series with the first 2, second 3 and third 4 actuating relays connected in parallel and forms the first actuating circuit connected in parallel with the output terminals of the power supply unit 7, and in parallel included first, second and third circuits of normally open contacts, normally open contact 29 of the sensor relay leak from the first to the second circuit, fourth I, the fifth and sixth parallel-connected circuits of normally open contacts and parallel-connected first 2, second 3 and third 4 actuator relays are connected in series and form a second actuator circuit connected in parallel to the output terminals of the power supply unit 7.

A device for the logical processing of control signals of the electromagnets of the air gates of the passive heat removal system operates as follows.

When you turn on the input AC voltage of 220 V using a circuit breaker 1, it is through an isolation transformer 5, which provides, in particular, protection of the device from interference and possible power surges, is supplied to indicator 6, which signals the presence of input AC voltage, and to the input of power supply unit 7 that converts the input AC voltage to a DC voltage of 24 V.

If the pressure sensor in the area of the air lock is triggered, then the first 14, second 15 and third normally open contacts corresponding to it, individually or in combination, enter the closed state. The first 8, second 9 or third 10 delay relays included in the circuit of the corresponding closed contact are activated, for example, after 120 seconds.

In this case, the voltage to the first 2, second 3 or third 4 actuating relays will be applied if the normally open contact 30 of the key relay switches to the closed state.

In addition, the supply voltage to the first 2, second 3 or third 4 actuating relays will be applied in the event of a transition to the closed state, normally open contact 29 of the sensor relay leak from the first to the second circuit if at least one of the first, second, and third circuits is required normally open contacts and at least one of the fourth, fifth and sixth circuit of normally open contacts.

The operation of the first 2, second 3, or third 4 actuating relays with a high degree of reliability means an emergency and their contacts (not shown) close the corresponding electrical control circuits of the electromagnets of the air gates of the passive heat removal system.

The device is structurally performed in a separate housing that provides protection from external influences. To control the temperature regime, a temperature sensor 11 is used, and to eliminate excessive moisture inside the case, for example, when temperature changes, a resistor 13 is used that performs the function of heat generation.

Thus, due to the introduction of an additional arsenal of technical means, the proposed utility model achieves the required technical result, which consists in expanding the functionality of the known device, since it is possible to use the device for the logical processing of control signals of the electromagnets of the air gates of the passive heat removal system.

Claims (1)

A device for the logical processing of control signals of electromagnets of air gates of a passive heat removal system, comprising an automatic switch and a first, second and third executive relay, characterized in that an isolation transformer is inserted, connected in parallel with the output terminals of the automatic switch, an indicator connected in parallel with the output terminals of the isolation transformer, block power supply, the input of which is connected in parallel with the output terminals of the isolation transformer, the first, second and the third delay relay, a temperature sensor connected in parallel to the output terminals of the isolation transformer, normally open contacts of the temperature sensor, a resistor connected in series with the normally open contacts of the temperature sensor to form the temperature sensor actuator circuit connected in parallel with the output terminals of the isolation transformer, the first normally open pressure sensor contact in the area of the air lock, connected in series with the first delay relay with the formation the first delay circuit connected in parallel to the output terminals of the power supply unit, the second normally open contact of the pressure sensor in the air lock zone, connected in series with the second delay relay to form a second delay circuit connected in parallel with the output terminals of the power supply, the third normally open contact of the pressure sensor in the air zone a shutter connected in series with the third delay relay to form a third delay circuit connected in parallel with the output terminals of the power supply, the first circuit l normally open contacts containing the first normally open contact of the first delay relay and the first normally open contact of the second delay relay, the second normally open contacts containing the second normally open contact of the first delay relay and the first normally open contact of the third delay relay, the third a circuit of normally open contacts connected in parallel to the first and second circuit of normally open contacts and containing the second normally open contact of the second delay relay and the second normally open contact of the third delay relay, the fourth normally open contact circuit comprising the first normally open contact of the first temperature relay on the return of charge water and the first normally open contact of the second temperature relay on the return of charge water , the fifth circuit of normally open contacts containing sequentially connected a second normally open contact contact of the first temperature relay on the return of charge water and the first normally open contact of the third temperature relay on the return of charge water, the sixth circuit of normally open contacts connected in parallel with the fourth and fifth circuit of normally open contacts and containing the second normally open contact of the second temperature relay on return, connected in series charge water and a second normally open contact of the third temperature relay on the charge water return, normal but the open contact of the sensor relay flows from the first to the second circuit and the normally open contact of the key relay, and the normally open contact of the key relay is connected in series with the first, second and third actuating relays connected in parallel and forms the first actuating circuit connected in parallel with the output terminals of the power supply, and parallel connected first, second and third circuits of normally open contacts, normally open contact of the sensor relay leak from the first to the second circuit, fourth, fifth and melting parllelno included chains of normally open contacts and the parallel-connected first, second and third actuators relay are connected in series and form a second actuating circuit connected to parallel output terminals of the power supply.

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