RU2658166C1 - Drain and safety valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: drain-and-relief valve refers to the machine building industry, namely, to the valves building, and is designed to discharge excess gases from cryogenic fuel tanks with the permissible pressure exceeding therein and can be used in pneumatic and hydraulic systems of various industries. Drain-and-relief valve is equipped with a mechanism for the valve transferring from the low-pressure operation mode into the high-pressure operation mode and back. Proposed design allows remote resetting of the safety valve included into the drain and relief valve from the reduced setting of the pressure level to the increased one and back by means of the electric drive: when preparing at the launch complex and in flight at the propulsion system operation segment in the mode is increased setting, in flight in pauses is the lowered setting. Reducing the setting in the pause makes it possible to store the cryogenic components in the tanks at reduced pressures, which reduces the components heating up and their evaporation. Lower setting or the valve slight opening (with intensive evaporation) allows to perform the excess steam intensive discharge without the drainage safety valve forced periodic opening in the drainage mode, which allows to avoid the orbital launch provision system engines switching on to create a longitudinal overload before and during the drainage process.

EFFECT: use of the invention as part of the accelerating unit with the fuel cryogenic components ensures a reduction in the cryogenic components (oxygen, hydrogen) loss by evaporation, leakage, consumption for "effervescence", reduction of fuel reserves in the orbital launch provision system for the low thrust engines operation to create longitudinal overload with forced drainages of tanks.

1 cl, 1 dwg

Description

The invention relates to mechanical engineering, namely to valve engineering, and is intended for the discharge of excess gases from cryogenic fuel tanks when the pressure in them is higher than permissible and can be used in pneumatic and hydraulic systems of various industries.

Known drain safety valve (patent RU, No. 2142592 C1, IPC F16K 17/00, publ. 10.12.1999), comprising a housing with inlet and outlet channels and a drainage cavity, a seat and a shutter with a seal connected to the valve stem , bellows assembly, split intermediate housing and control device. The bellows assembly is connected to the shutter and is made with internal and external cavities. The outer cavity of the bellows assembly is in communication with the atmosphere. The valve is equipped with two outlet and one inlet purge fittings, a thrust located in the internal cavity of the bellows assembly. The rod kinematically connects the shutter to the control valve stem by means of hinges and a lower flange with upper flanges made at its ends. Adapters form axial gaps, respectively, with the inner end face of the upper adapter and the flanging made on the end face of the control valve stem and the inner end face of the shutter and the flanging of the lower adapter. An inlet and one outlet purge nipples are installed in a split intermediate housing. It communicates with the output channel through the drainage cavity. The outer surface of the drainage safety valve is covered with thermally insulating material. The sealing of the control valve is made radially in the form of a fluoroplastic ring with a mustache placed on the piston of the control valve. The adjusting device is made in the form of a nut and a sleeve with protrusions and is placed in a detachable intermediate housing with the possibility of axial movement.

The disadvantage of this drainage safety valve is the inability to remotely reconfigure the valve to discharge the working medium at two levels of response pressure: low and high.

A drainage safety valve is provided, comprising a housing with inlet and outlet channels and a drainage cavity; seat and valve with gasket; a bellows assembly located inside the valve and resting against it with a spherical protrusion, an intermediate housing with inlet and outlet purge fittings in communication with the internal cavity of the bellows assembly, with the outlet purge fitting communicating with the atmosphere; a pneumatic actuator for controlling a drain valve located in the inlet channel and having a control pressure supply fitting, characterized in that the drain and safety valve is equipped with a mechanism for remotely reconfiguring the valve by means of an electromagnet from the low pressure setting mode to the higher pressure setting mode and vice versa.

Thus, the remote reconfiguration mechanism makes it possible to discharge the working medium at two levels of response pressure.

This goal is achieved by the fact that two spiral concentrically mounted springs are used in the design. The first spring constantly presses the valve to the seat through the bellows assembly and ensures the operation of the drainage safety valve in the mode of reduced pressure of operation. It is installed in the internal cavity of the bellows assembly between the bottom of the bellows assembly and an abutment that can axially move by means of a threaded connection with an adjusting screw resting on its shoulder against a fixed base designed to adjust the spring to a reduced pressure for opening the valve. The second spring, located between the bottom of the bellows assembly and the collar of the sleeve, does not work in the mode of reduced pressure of the valve actuation and freely moves together with the sleeve along the axis of the valve. It turns on when the drainage safety valve is switched to the mode of increased pressure of operation, namely, by moving the limit stop placed in the intermediate housing along the axis of the valve, by means of an electromagnet, until it contacts the sleeve, thereby blocking it. The initial preload of the second spring, and consequently, the adjustment of the valve to operate from increased pressure, are provided by a rod freely sliding in the central bore of the sleeve and one end rigidly connected to the bottom of the bellows assembly, and a nut located in the stepped bore of the sleeve and screwed onto the free end of the stem.

In FIG. 1 shows a longitudinal section of a drainage safety valve.

The drainage and safety valve consists of the following main parts: body 1, seat 2, valve 3, pressed to the seat 2, electromagnet 4, lowered adjustment springs 5, highsetted spring 6, electromagnet 7, limit stop 8, spring limit stop spring 9, the base 10, the bellows assembly 11, the adjusting screw 12, the stop 13, the sleeve 14, the rod 15, the screw 16, as well as the pneumatic actuator for controlling the drain valve 17.

In the safety valve mode, the working medium, entering through the inlet channel of the drainage and safety valve, acts on valve 3, trying to tear it away from the seat 2. With a reduced setting pressure (electromagnet 4 is turned off), the force from the influence of the working medium on valve 3 is perceived only by a lower spring 5 and the bellows assembly 11. The spring 9 holds the limit stop 8 in its highest position, creating a gap between the limit stop 8 and the screw 16, the magnitude of which is greater than the stroke of the valve 3, which allows Fills sleeve 14 with a screw 16 and an oversized spring 6 installed between the sleeve 14 and the bottom of the bellows assembly 11 to move freely along the axis of the opening of the adjusting screw 12. The spring of the lower setting 5 is adjusted to the set opening pressure (reduced opening pressure) by rotating the adjusting screw 12, placed in the hole of the base 10 and abutting against it with its shoulder, and the axial movement of the stop 13, fixed from rotation due to the protrusion included in the longitudinal groove of the base 10, by means of threads th connection.

To put the drainage safety valve in the high pressure setting position, a voltage is applied to the electromagnet 4 winding, and the armature 18 is moved downward by means of the rod 7, which limits the stop 8 to touch the screw 16. Thus, the sleeve 14, rigidly connected to the screw 16 by means of a threaded connection , is fixed from axial movement, thereby creating an emphasis for the spring of high setting 6. As a result, the force of the working medium on the valve 3 is perceived by two springs: spring of low setting 5 increased adjustment spring 6. The increased adjustment spring 6 is adjusted to a predetermined opening pressure (increased opening pressure) using a nut 19 located in the stepped opening of the sleeve 14 and screwed onto the threaded end of the rod 15, the opposite end of which is rigidly connected to the bottom of the bellows assembly 11. When the rotation of the nut 19 changes the distance between the sleeve 14 and the bottom of the bellows assembly 11, thereby providing a change in the initial preload of the spring 6. To put the drainage safety valve back into operation Reductions pressure settings from the electromagnet 4 is de-energized and the rod 7 with a limiting stop 8, under the action of the spring-limiting abutment 9 is moved to the uppermost position.

With a further increase in pressure above the reduced (increased) pressure of the opening of the drainage safety valve, valve 3 breaks away from the seat 2. Through the gap formed, the working medium is discharged into the drainage through the outlet channel. Due to the discharge of the working medium, the pressure in the inlet cavity decreases and the valve 3, under the influence of the spring of low setting 5 or the combined action of the spring of low setting 5 and the spring of high setting 6, returns to its original position. The flow of the medium through the drainage safety valve stops.

In the drain valve mode, the valve 3 is opened by axial movement of the pusher 20 when the control pressure is supplied through the pneumatic actuator of the drain valve 17. The valve 3 closes when the control pressure is released through the pneumatic actuator nozzle of the drain valve 17.

The proposed design allows remote reconfiguration of the safety valve included in the drainage and safety valve from a lower setting pressure to an increased pressure and vice versa using an electric actuator: when preparing at the launch complex and in flight at areas of propulsion system operation, the mode is increased, during flight in pauses - lower setting. A decrease in pause setting makes it possible to store cryogenic components in tanks at reduced pressures, which reduces the heating of components and their evaporation. A reduced setting or slightly opening of the valve (during intensive evaporation) allows for intensive discharge of excess steam without forcibly periodically opening the drainage safety valve in the drainage mode, which eliminates the need to turn on the motors of the orbital start-up system to create a longitudinal overload before and during the drainage process.

The positive effect of the use of the invention in the composition of the upper stage with cryogenic fuel components:

- reduction of losses of cryogenic components (oxygen, hydrogen) due to evaporation, leakage, consumption for “boiling up”, etc .;

- reduction of fuel reserves in the system for providing orbital launch of small thrust engines to create longitudinal overload during forced tank drains.

Claims (6)

A drainage safety valve comprising: a housing with inlet and outlet channels and a drainage cavity; seat and valve with gasket; a bellows assembly located inside the valve and abutting against it by a spherical protrusion; an intermediate housing with inlet and outlet purge nipples in communication with the internal cavity of the bellows assembly, wherein the outlet purge nipple is in communication with the atmosphere; pneumatic control valve drain valve located in the inlet channel and having a nozzle for supplying control pressure, characterized in that it is equipped with: - a spring of reduced setting, installed in the internal cavity of the bellows assembly between the bottom of the bellows assembly and the stop of the regulating device, which has the possibility of axial movement by means of a threaded connection with the adjusting screw resting against its fixed base with its shoulder; - a spring of increased tuning placed concentrically with respect to a spring of reduced tuning between the bottom of the bellows assembly and the collar of the sleeve freely sliding in the hole of the adjusting screw along its axis; - limiting emphasis placed in the intermediate housing and having the possibility of axial movement by means of an electromagnet, until it touches the sleeve; - a rod freely sliding in the central hole of the sleeve and one end rigidly connected to the bottom of the bellows assembly; - a nut located in the stepped bore of the sleeve and screwed onto the free end of the stem.

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