SU877089A1 - Apparatus for automatic starting of feeding pump drive steam turbine - Google Patents

Description

(54) DEVICE FOR AUTOMATIC STARTING OF STEAM TURBINE DRIVE OF NUTRITIOUS PUMP

   one

The invention relates to a power system and can be used to automate the start-up of steam turbines designed to drive feed pumps.

Closest to the present invention, there is a device for automatic start-up of a steam turbine for feeding a feed pump, comprising a turn regulator, to the inputs of which a software setpoint device and a tachogenerator are connected, and a relay element to the output, one of the outputs of which is connected to the actuator of the starting valve , to the input of which a tachogenerator is connected, and to the output - a prohibition scheme, the output of which is connected through the control transfer unit to the actuating mechanism of the regulating valve to set a trigger valve in series with the limit switch position open starting valve connected to the control input of the switch mode, the sensor and setpoint vrdy pressure in the pressure line of the pump. This device, in the initial period of start-up, makes the turbine turn by a starting valve at

fully open control, then it transfers control from the start valve to control, with which further start-up (1) is performed.

The disadvantage of the known devices is its

5 limited functionality The purpose of the present invention is to extend the functionality.

This goal is achieved by the addition of a serially connected pressure regulator to the device.

10 and an impact switch, the outputs of which are connected to the actuator of the regulating valve and the input of the pressure setting device, and the control input with a limit switch, the latter being also connected to the inputs of the setting device

 and a prohibition scheme, the second output of the mode switches is connected to the input of the software setpoint device, and the sensor and the water pressure setpoint device are connected to the input of the pressure regulator.

“The drawing is a diagram of the device. The device contains a tachogenerator 1 on the turbine shaft 2 of the feed pump drive, a control valve 3 with an actuator 4, a start valve 5 with an actuator 6 and an open position limit switch 7, a turn regulator 8 with a software setting 9, a turn regulator operation mode switch 10 , relay element II, prohibition scheme 12, control transfer unit 13, performing smooth control transfer from start-up to control valve, pressure regulator 14 with water pressure sensor in the pressure line pump and pressure setting device 16 and pressure control switch 7.

The device works as follows.

In the initial start-up period, the switches 10 and 17 are in the first position (position I in the drawing), the turn controller 8 is connected to the actuator 6 of the starting valve 5 and the turbine drives the feed pump according to the program set by the program setting device 9. The control valve 3 is completely open at this time, and the output of the pressure regulator 14 is connected via a switch 17 to the inlet of the pressure setting device 16, which monitors the pressure in the pressure line of the pump. When a certain rotational speed is reached, the relay element AND is turned on, which connects the unit through the prohibition circuit 12. 13 transferring control to the actuator 4, adjusting its valve 3, as a result of which the latter begins to close according to a previously calculated program. At the same time, the maximum setting value on the software setpoint 9 is limited and exceeds the operation setpoint of the relay element AND by an amount equal to two to four dead zones of the turn regulator 8. When the rotational speed decreases, the turn controller 8 opens the starting valve 5. If, as a result of closing the control valve 3, the turbine rotor speed 2 decreases below the permissible level, the relay element 11 turns off and, through the prohibition circuit 12, turns off the control transfer unit 13 from the actuator 4 to until, due to the opening of the starting valve 5, the rotation frequency of the rotor of the turbine 2 again increases above the switching on level of the relay element, element P. In the case of a repeated decrease in the frequency, these operations are repeated ts.

When the starting valve 3 is fully opened, the signal of the limit switch 7 turns off, from the actuator 4 of the control valve 3, the control translation unit 13 and switches the switches 10

to the position AND, thereby connecting the pressure regulator 14 to the actuator 4 of the control valve 3, and the turn regulator converts to the tracking mode. The further reversal is continued by acting on the pressure regulator 14 on the actuator 4 of the control valve 3 and stops when the feed pump reaches a predetermined pressure on the downstream sensor 16.

The use of the proposed device makes it possible to use controllers of various types (for example electronic and hydraulic) or with different laws of regulation (for example, relay AND proportional-integral) for controlling starting and regulating valves.

Claims (1)

Invention Formula A device for automatic start-up of a steam turbine to drive a feed pump, containing a turn regulator, to the inputs of which a software setpoint device and a tachogenerator are connected, and to the output a mode switch, one of which outputs is connected to the actuator of the starting valve, a relay element to whose input is connected tachogenerator, and to the output - a prohibition scheme, the output of which is connected through the control transfer unit to the actuator of the control valve installed in series with the A new valve, an open position limit switch of the starting valve connected to the control input of the mode switch, a sensor and a water pressure setter in the pump discharge line, characterized in that, in order to expand the functionality, a series-connected pressure regulator and switch are additionally introduced into it. influences, the outputs of which are connected to the actuator of the regulating valve and the inlet of the pressure setting device, and the control input - to the limit switch, and The one is also connected to the inputs of the setting device and the prohibition circuit, the second output of the mode switch is connected to the input of the software setting device, and the sensor and the setting device of water pressure are connected to the input of the pressure regulator. Sources of information taken into account in the examination L USSR Author's Certificate No. 732559, cl. F O D 19/00, 1977.