SU767375A1 - Device for positively closing non-return valve in steam take-off line of turbine - Google Patents

Description

-. ;one

The invention relates to a power system and can be used to protect steam turbines from the reverse flow of steam and to increase their injectivity .5

Devices for forcibly closing a check valve are known, comprising a mechanical emergency shutdown assembly made in the form of a rod with a spring loaded plate, 10 and a latch with an electromagnet, and a cocking mechanism (1 ..

When an alarm is triggered. the power of the electromagnet closes, it acts on the latch, releasing 5 the spring that moves the rod, forcibly closing the check valve.

The disadvantage of such devices is that the automaton is incompletely automated, since the drive after the actuation is carried out manually. In addition, under the conditions of use of forcibly closing a check valve for 25 fixing the power of the turbine, when the pressure in the steam pipe after the valve decreases, the pressure drop across the valve increases and, due to its effect, the check valve opens.

c, since the spring force in the released state is insufficient.

It is also known a device for controlling turbine regulating bodies, comprising an emergency shutdown unit connected via a self-braking mechanism with a cocking motor and connected to an alarm sensor p. When using this device to forcibly close a check valve. On the steam extraction line from the turbine, the electric motor coaxes the drive through a self-braking mechanism, and the valve is forcibly closed by a signal from the protection system,

All valve control operations can be performed automatically.

The specified device is closest to the technical essence and the achieved result.

The disadvantage of this known device should be considered the complexity of its design when using the device to increase the pick-up of the tour. bins In order for the device to keep the valve in the closed state, - a watch for the effect of the vapor pressure drop towards the opening, it is necessary

supply the device with a spring that has a considerable pre-tension. In this case, the spring in a fully compressed state develops an excessively large force, which leads to an increase in size and complication of the device as a whole.

The purpose of the present invention is to simplify the design of the device when using it to increase the acceleration capacity of the turbine.

To achieve this goal, an alarm sensor is connected to the cocking motor.

The drawing shows a schematic diagram of the device.

The cocking motor 1 is connected by a self-braking mechanism 2 and an emergency shutdown node 3 with a non-return valve 4. The turbine protection system sensor 5 is connected to node 3, the power system alarm sensor b is connected in parallel to node 3 and the cocking motor 1.

If the device is triggered by a signal from sensor b, then node 3 closes check valve 4, as a result of which the turbine takes the load and the pressure drop across the valve gradually increases. At the same time, according to the signal of the same sensor b, the electric motor 1 moves the self-braking mechanism 2 in the direction of closing the valve, thereby preventing it from opening under the action of increasing pressure drop.

This device, with a rather simple design, can improve the participation of the turbine in the emergency automation of the power system, due to which a decrease in the magnitude can be obtained: a permanent emergency reserve and a decrease in the volume of consumer disconnections in emergency situations. -

The device can be used to drive check valves installed on Regular 1X and regenerative steam extraction from turbines.

Claims (2)

1.Tubnsky L.I. and Frenkel L.D. LMZ high pressure steam turbines. ML, Gosenergoizdat, 1956, with. 248-253. 2. Authors certificate of the USSR 259913, cl. F 01 D 17/24, 1968.