SU1539339A1 - Device for supplying servodrive of check valves of steam turbine unit - Google Patents

Abstract

The invention relates to a power system, in particular, to turbine power plants of power stations, and allows to simplify the device, increase its reliability and provide the possibility of group rattling of servo drives when the turbine is operating under load. The device contains a condensate supply pipe 1 with filter 3 connected to distributing headers 4 and 5, to which pulse solenoid valves (K) 6 and additional K 7 are connected. Jumper 10 with valve 11 connects collectors 4 and 5 behind K 6 and 7. Jumpers 29 include three-way switches 25 connected to servo-drives 18. To individually retract any servo 18, the valve 11 is closed on jumper 10 between transfer headers 4 and 5 and three-way switches 25 are set to the appropriate position. After that, a signal is applied to K 6 or 7 and the actuation of the test servo 18 is monitored, while the health of other elements of the device is monitored. Reducing the number of elements of the device and simplifying it increase reliability, while ensuring control of all elements during group pacing of servo drives. 1 il.

Description

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lecturers 4i5zak6i7. Jumpers 29 include three-way switches 25 connected to servo-drives 18. For individual operation of any servo-drive 18, the valve 11 is closed on jumper 10 between transfer headers 4 and 5 and the three-way switches 25 are set to the appropriate position.

the signal is on K 6 or 7 and the actuation of the test servo 18 is monitored, while the health of the other elements of the device is monitored. Reducing the number of elements of the device and simplifying it increase reliability, while ensuring control of all elements during group pacing of servo drives. 1 il.

The invention relates to a power system and can be used in turbine power plants.

The aim of the invention is to simplify, increase reliability and provide group control of servo drives when the unit is operating under load.

The drawing shows a diagram of the proposed device for supplying servomotor check valves.

The device comprises a condensate supply pipeline 1 with a pump 2 and filter 3 connected to it, connected to two transfer manifolds 4 and 5, to which mutually duplicating pulse solenoid valve (ACK) 6 and an additional ACTION 7 are connected. Throttle washers 8 and 9 are connected to distributing collectors 4 and 5 in parallel with ISK 6 and 7. Distributing collectors 4 and 5 of ISK 6 and 7 are connected by an additional jumper 10 with a valve 11 included in it 11 Each of non-return valves 12 pipe 13 is connected with a turbine (selection chamber) 14 and pipeline 15 through the valve 16 with the regenerative heater 17,

The actuator 18 of the check valve 12 consists of a housing 19, in which a piston 20 with a spring 21 is installed. A pusher 22 is connected to the piston 20 and communicates with a valve cup 23 12. A drainage pipe 24 is connected to the lower part of the housing 19. with windows 26 and 27, interacting with the valve 28, is connected to the distributing collectors, 4 and 5 jumpers 29.

When the turbine is operating under load, steam from the turbine 14 through pipeline 13 through a check valve 12, pipeline 15 and - valve 16 post0

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It goes to the heater 17. ISK 6 and 7 are closed, the valve 11 is open, the dampers 28 of all servomotors 18 check valves 12 of the turbine are installed in the middle position. Condensate from pump 2 through pipeline 1 for supplying condensate through filter 3 and throttle washers 8 and 9 enter distributing collectors 4 and 5, fill them and compensate for leakage through piston 20 into drainage pipe 24. At the same time piston 20 of servo drive 18 under the action of a spring 21 and the condensate force is in the upper position, and the pusher 22 associated therewith does not prevent the opening of the cup 23 of the check valve 12.

When resetting by a turbogenerator (not shown), the electrical load is commanded to open ISK 6 and 7, which supply condensate to transfer headers 4 and 5 and through windows 26 and 27 of the three-way switch 25 to servo actuators 18 check valves 12. Increase condensate pressure above the piston 20 of the servo drive 18 causes the piston 20 and the pusher 22 to act on the cup 23 of the check valve 12 in the closing direction.

Due to the fact that when the turbine 14 is operated under load, the valve 11 is open, all the servos 18 are connected to both the ACTIONS 6 and 7, regardless of the position of the shutters 28. This ensures that the actuators 18 from each of the ACTION 6 and 7 are triggered even if the wrong one ( different from the average position of the flaps 28, due, for example, to erroneous actions.

If it is necessary to separate the check valve 12 for steam extraction with a servo 18, separate it is necessary to move the dampers 28 of the three-way valve.

the switches 25 in the servo drive 18 of the check valve 12 out to the outermost, for example left (indicated by an arrow and a dotted line), then close the valve 11 on the additional jumper 10. At the same time, all the servo drives 18 are connected to the distribution manifold 5 with the additional ICS 7 and disabled from distributing collector 4 with ISK 6, shut off valve 16 in pipeline 15, while the pressure drop across the valve (cup) 12 drops to zero (in case of large capacity heater 17 and pipeline 15, this operation can not be done th); move the valve 28 of the switch 25 of one of the servos 18 to the extreme right position, thereby disconnecting the servo 18 from the collector 5 and leaving it connected to the collector 4, and give an electrical signal to open the ISK 6; Having made sure that the servomotor 18 and check valve 12 are closed, close the ISK 6 (for example, by removing the electrical signal), return the flap 28 of the switch 25 to the leftmost position and open the valve 16.

After checking the operation of all servos 18 from ISK 6, their actuation from ISK is checked in the same way.

7, after which all the shutter 28 of the switches 25 must be returned to its original (middle) position and open the valve 11 on the additional jumper 10.

Claims (1)

Invention Formula A power supply device for servo drives of steam turbine installation check valves, containing a condensate supply pipeline with a filter included in it, connected to distribution headers connected by a jumper in which a switch connected to servo actuators is turned on, and a pulse solenoid valve is connected to one of the distribution headers characterized by the fact that, in order to simplify, increase reliability and enable the group disassembly of servos during operation of the installation under load, The device is equipped with an additional pulse solenoid valve connected to another dispensing manifold and bridges, one of which has 0 valve, connected to the distributing manifolds for pulse solenoid valves, and the other - the switch, while the switches are three-way.