SU966251A2 - Slide valve free intensifier of turbine protection system - Google Patents

Description

(54) BEZOLOTNIKOY AMPLIFIER SYSTEM # 1 PROTECTION OF TURBINE

This invention relates to a heat generator and can be used in a turbine system.

By main avt.sv.gN 589,449 known bezzolotnikovy amplifier SIS1GSH4Y protect the turbine housing with the contents in it zgisreplennym soplssh and controls vhtsuyu plate cooperating with and connected to the cqjtmoM shtokomg which ustgshovlena -zaslonka chance osevgo movement, vklyuchennssh in supplying hydraulic fluid to the line Executive with servomotor fl.

A disadvantage of the known amplifier is a somewhat lower reliability. This is caused by a decrease in fluid pressure on the control plate as it rises as a result of the amplifier's response. The pull force of an electromagnet also decreases as the plate is raised, and the spring resistance increases as it compresses. Therefore, the upward movement of the plate in the process of operating is difficult, it can not begin to return to its original position, which leads to a self-drive, accompanied by hydraulic shocks in the lines of the working fluid.

The purpose of the invention is to increase reliability.

 To achieve this goal, guiding annular ledges are made on the control plate and on the outside of the zone from the interaction.

The drawing shows the design of a soundless amplifier.

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The amplifier includes a housing 1 with a nozzle 2 and covers 3 and 4, controls a plate 5 with a stem 6, on which the valve 7 is inserted between the 15 ledges 8 and 9 with the possibility of an axial transfer; 5 Me is 11, and electromagnet 12 is connected with needle 10 by lever 13.

Outside the interaction zone 14

20 of the plate 5 and the nozzles 2, the control plate 5 is provided with a guide annular shoulder 15, and the cone 2 is provided with a guide annular ledge 1.6. The working fluid of line 17 through the throttle 18 enters the chamber 19, and then into the internal cavity 20 of the nozzle 2 to the channel 21 and the servomotor, opening it.

When the protection system is activated

30 sign-on goes to electromagnet 12j

which, through the lever 13, overcoming the closing force of the spring 11, ipodnimaet needle 10, followed by the control plate 5 with the rod 6 under the influence of the pressure of the working fluid, opening the drain from the servo motor through the channel 21 through the internal cavity 20 of the nozzle 2 into the pipeline 22.

The pressure in the cavity 20 of the nozzle 2 above the valve 7 drops. Since the mass of the valve 7 and, accordingly, the inertia are small, it almost instantaneously moves along the stem, compartment: supply of working fluid to the cavity 20 and, accordingly, to the channel 21 to the servomotor.

Thus, the valve 7 stops supplying the working fluid to the servomotor before the electromagnet comes to the upper position. Therefore, the pressure in the cavity 20 of the nozzle 2 immediately decreases to the level created by the tension of the spring acting on the servo piston (not shown). The valve 7 remains pressed against the lower fitting of the nozzle 2 under the action of the pressure difference in the chamber

19 and cavities 20.

With decreasing pressure in the cavity

20, the pushing force on the control plate 5 should be reduced, however, due to the plastic ring guiding ring 15 to the ring guiding ring 16 on the nozzle 2, the force on the plate 5 acting on the opening is maintained. At the same time, to maintain the buoyancy,

the static pressure force acting on the increased plate area due to 15, and the flow reaction force / acting on the plate in the direction of lift when the flow under the plate turns due to the special profile of the ledges 15 and 16

The plate 5 with the rod 6 moves up to the stop of the ledge 9 into the flap 7. The magnitude of the buoyancy force

can be adjusted by increasing or decreasing the diameter of the mouth of the 15 and the shape of the ledge 16.

When the soundless amplifier is cocked, the electromagnet 12 is moved to the lower position. The plate 5 with the rod 6 is shifted until it stops in the valve 7 by the action of the spring 11. Through the gap between the valve 7 and the rod along the groove 23 in the ledge 8, the working fluid flows into the cavity 20 The pressure in the chamber 19 is lower than in line 17, because choke 18, which reduces the pull-off force.

Thus, in this design of the headless amplifier, the electromagnet 12 is moved to the lower position. The plate 5 with the rod 6 is shifted against the stop into the valve 7 under the action of the spring 11. Through the gap between the valve 7 and the rod along the groove 23 in the ledge 8, the working fluid flows into the cavity 20. The pressure in the chamber 19 is lower than in line 17, because choke 18 is installed. This allows the pull-off force to be reduced.

Thus, this design of the zero-gate amplifier enhances its reliability by increasing the force acting on the opening of the control plate during its movement.

Claims (1)

1. USSR author's certificate №589449, cl. F 01 D 21/18, 1976. i