SU928040A1 - Turbine control system - Google Patents

Description

The invention relates to a power system and can be used to automate the management of steam turbines.

Known turbine control system having controllers ⁵ masch- NOSTA and pressure associated with the entrance electrohydraulic transducer connected to the servo control valves, switches, θ off sensor and generator on the network. <

When the generator is disconnected from the network, the sensor through the switch breaks the connection of the power regulator with the converter, preventing an additional increase in the speed under the action of this controller [1].

However, the overall system does not fully utilizes possibilities for A rise _m sheniyu turbine reliability.

Closest to the proposed technical essence and the achieved result is a turbine control system2 containing power and pressure controllers connected through switches to the input of an electro-hydraulic converter connected to a control valve servomotor and sensors to disconnect the generator from the network and the turbine to idle AND.

A disadvantage of the known system is somewhat reduced reliability, since the signals received by the electro-hydraulic converter when the generator is disconnected from the network, not at all initial modes, provide the maximum closing speed of the control valves.

The purpose of the invention is to increase reliability.

To achieve this goal, the system additionally contains a circuit with a maximum signal unit and two switches connected to the input of the electro-hydraulic converter, and the turbine off-turbine sensor is off-block circuit and pressure-sensitive. Connections8 and {

the generator from the network is connected to the switches of the power and pressure regulators and one of the circuit switches, and the idle transition sensor is connected to the other body of the chain.

The drawing shows a turbine control system.

It includes a steam generator 1, a turbine 2, a generator 3, connected through a switch 4 to a network 5, and elements of an electro-hydraulic turbine control system.

To regulate the power, a 6-th controller and a 7-pressure regulator are provided through their switches with the inputs of the electro-hydraulic converter 10. 'The signal from the circuit 11, formed in series by the maximum signal unit 12 and the switches 13 and 14, is also fed to the input of the electro-hydraulic converter 10 is connected to a servo motor 15 of the turbine control valves.

The circuit also contains a sensor 16 for disconnecting the generator from the network, a sensor 17 for switching the turbine to idle, and a speed sensor 18.

The output of the sensor 16 for disconnecting the generator from the network is connected to the switches 8 and 9 of the power regulator and pressure regulator, as well as to the first switch 13 of the chain 11. The output of the sensor 17 of the turbine idling is connected to the second switch 14 of this chain.

The system works as follows.

When turning off the generator 5 using a switch, the chick 18 acts on the servomotor 15, which closes the valves of the turbine. The sensor 16 for disconnecting the generator from the network, acting on the switches 8 and 9 of the power regulator and pressure regulator, disconnects these regulators from the electro-hydraulic converter 10. In addition, the sensor 16 for disconnecting the generator from the mains acts on the switch 13, which provides the connection of the block 12 max. -

928040 4 signal through the switch 14 to the input of the electro-hydraulic converter 10. The output signal of the maximum signal unit 12, acting through the converter 10 on the servomotor 15, closes the turbine valves at maximum speed, which leads to a decrease in speed overshoot, and, consequently, to increased reliability * When the turbine goes to idle after the maximum speed, ° sensor 17 acts on the switch 14, which disconnects the maximum signal unit 12 from the electro-hydraulic about converter 10.

Thus, this system ensures closure of turbine valves when the generator is disconnected from the network with maximum speed, which improves the reliability of the turbine.

Claims (2)

The invention relates to a power system and can be used to automate the control of steam turbines. Turbine control systems are known that contain power and pressure regulators connected to the input of an electro-hydraulic converter connected to the control valve servomotor, switches and the generator disconnecting sensor from the mains. When the generator is disconnected from the mains, the sensor through the switch breaks the connection of the power regulator with the converter, preventing the additional increase in the rotation frequency under the action of this regulator l. However, in general, the system does not fully utilize the possibilities for improving the reliability of the turbine. Closest to the proposed technical essence and the achieved result is a turbine control system containing power and pressure controls connected via switches to the input of an electro-hydraulic converter connected to the servomotor of control valves and the turbine switching to idle Run 2. A disadvantage of the known system is a somewhat lower reliability, since the signals arriving at the electro-hydraulic converter when the g is disconnected from the generator of the network, not at all input modes provide a maximum speed of closing the control valves. The purpose of the invention is to increase reliability. To achieve this goal, the system additionally contains a chain with a maximum signal block and two switches connected to the input of an electro-hydraulic converter, the sensor disconnecting the generator from the mains is connected to the power control switches and pressure switches and one of the chain switches, and the turbine transition sensor at idle - with another chain switch. The drawing shows block diagrams of a turbine control system. It includes a steam generator 1, a turbine 2, a generator 3, connected via switch C to a network 5, and a network 5, the elements of an electro-hydraulic turbine control system. A power regulator 6 and a pressure regulator 7 connected through their switches 8 and 9 with the inputs of the electro-hydraulic converter 10 are provided for adjusting the power and pressure. The signal from the chain II formed by the series-connected maximum signal 12 and switches switches the input of the electro-hydraulic converter 10 13 and 1. Electro-hydraulic converter 10 is connected to the servomotor 15 of the turbine control valves. The circuit also contains sensor 1b for disconnecting the generator from the network, sensors 17 for turning the turbine to idle and sensor 18 for rotational speed .g The sensor output 1b for disconnecting the generator from the network is connected to switches 8 and 9 for the power regulator and pressure regulator, as well as the first switch 13 of the chain 11. The output of the turbine 17 switch to idle is connected to the second switch 1 of this chain. The system works as follows. When disconnecting the generator 3 from the network 5 using switch k, the sensor 18 acts on the servomotor 15 closing the turbine valves. The sensor 16 for disconnecting the generator from the mains, acting on the switches 8 and 9 of the power regulator and the pressure regulator, disconnects these regulators on the electro-hydraulic converter 10. In addition, the sensor 16 for disconnecting the generator from the network affects the switch 13, which provides a connection block 12 of the maximum signal through the switch to the input of the electro-hydraulic converter 10. The output signal of block 12 of the maximum signal, acting through the converter 10 on the servo-motor 15, ensures the closing of the valves the maximum speed of the machine, which leads to a reduction in the overspeed of the rotational frequency, and, consequently, to an increase in reliability; When the turbine goes out of idle after the maximum rotational speed, the sensor 17 acts on the switch 14, which turns off the maximum signal block 12 from the electro-hydraulic converter 10. Thus, this system provides for closing the turbine valves when the generator is disconnected from the network with maximum speed, which allows It does not increase the reliability of the turbine. The invention The turbine control system comprising power and pressure regulators connected through switches to the input of an electro-hydraulic converter connected to the servomotor of control valves and sensors disconnecting the generator from the network and switching the turbine to idling, which is reliability, the system further comprises a chain with a maximum signal unit and two switches connected to the input of an electro-hydraulic converter, and the switch-off gene The mains supply is connected to the power and pressure control switches and one of the circuit breakers, and the turbine idle transition sensor with another circuit breaker. Sources of information taken into account in the examination 1. Frag1n MS and others. Systems for regulating condensation turbines of great fashion LMZ. - Thermal Power Engineering. 1972, K 11, p. 19-25. 2. USSR author's certificate ff, cl. F 01 D 17/20, 1976.