RU2583479C1 - Valve - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to valve industry, namely to valves with pneumatic control, and is intended for start-up and shut-off of working medium in wide range of pressures, including under conditions of low temperatures. Valve comprises housing with inlet and outlet channels and groove. In housing there is a gate in contact with seat. Gate is made with internal grooves, at larger of which gate interacts with stepped bushing installed in housing. At outer diameter of stepped bushing there is a groove, in which there is a collar for sealing inlet and outlet cavities of valve. In groove of housing is installed piston with rod with end seal of piston, contacting with seat. Piston rod interacts with stepped bushing on inner groove in which there is a seal to seal inlet and outlet cavities of valve. Piston rod end interacts with a sleeve with rod fitted in gate, and rod bush interacts with internal groove in cover, installed in input of housing cavity.

EFFECT: use of said unit allows to reduce hydraulic resistance of valve, providing multiple operation at high working pressures at inlet, including under conditions of low temperatures, simplified design and reducing weight compared to prototype.

4 cl, 1 dwg

Description

The invention relates to valve manufacturing, namely to valves with pneumatic control, and is intended for starting and cutting off the working fluid in a wide range of pressures, including at low temperatures. The invention can be used in mechanical engineering, for example, in power plants placed on aircraft, for example airplanes, or in rocket technology, for example in propulsion systems.

Known control valve with a perforated cup (application JP 2-53661, IPC F16K 3/32, F16K 47/02) comprising a housing, a perforated cup with a large number of holes, a locking element and a tapered flange in contact with the shutter. The locking element in this design is made unloaded.

The disadvantages of this valve is the increased value of hydraulic resistance at high values of the flow of the working fluid and the difficulty of ensuring high tightness at the place of sealing of the locking element on the conical surface of the flange.

Known shut-off and shut-off valve (patent RU 2386880 C1, IPC F16K 3/24, F16K 39/02, F16K 47/02) comprising a housing with input and output channels, a shutter made in the form of a rod with a piston, with a sealing surface and holes, locking and regulating shutter, made in the form of a stepped sleeve-plunger with a sealing surface, and a saddle mounted in the housing. The locking element in this design is made unloaded.

The disadvantages of this valve are the complexity of manufacture, increased hydraulic resistance and inoperability of the unit at low temperatures.

A known electromagnetic valve (application JP 1-224580, IPC F16K 31/06), comprising a housing, an electromagnet coil, a stator core, a plunger with a locking element (small shutter), a large shutter in the form of a housing.

The disadvantages of the solenoid valve include the complexity of manufacturing, increased hydraulic resistance, inoperability of the unit at low temperatures due to the location of the electromagnetic drive near the flow cavity of the unit.

Closest to the invention in technical essence is a shut-off and control valve (patent RU 2298128 C2, IPC F16K 3/24, F16K 47/04 - prototype), comprising a housing with input and output channels, a cover, a shut-off and double-seal shutter with a step internal groove and holes, stem and actuator.

The disadvantages of the shut-off and control valve, adopted as a prototype, include the complexity of manufacturing the valve, increased hydraulic resistance, inoperability of the unit at low temperatures, as well as the high mass of the unit for valves with a large flow area.

The objective of the invention is to reduce the hydraulic resistance of the valve, providing multiple valve actuation at high operating pressures at the inlet, including at low temperatures, simplifying the design, reducing weight.

The problem is solved as follows.

In the known device comprising a housing with input and output channels, a cover, a shutter with a stepped internal groove and openings, a rod and an actuator, according to the invention, a saddle is made in the housing in the input cavity, and a groove with a saddle is made in the control cavity, a step sleeve is installed in the housing with a central stepped inner groove and two grooves of a larger stage from the side of the valve inlet cavity, interacting with the outer diameter of the larger stage and the inner diameter of the larger groove of the shutter a, a damping sleeve is installed in the large groove of the stepped sleeve, which is in contact with the bore of the shutter holes, while the diameter of the larger step of the stepped sleeve is made equal to or less than the average diameter of the seal of the shutter, a piston with a groove with a rod and an end seal in contact with the seat is installed in the groove of the housing control cavity interacting with the outer diameter of the piston with the inner diameter of the groove of the housing and the smaller diameter of the rod with the inner smaller diameter of the groove in steps th sleeve, a groove is made in the cover, a sleeve with a rod is installed in the valve, interacting along the end with the piston rod and the rod with the inner surface of the cover groove.

A seal in the form of an L-shaped cuff is installed in the smaller groove of the stepped sleeve from the inlet cavity, at the end of which there is a sealing protrusion interacting with a smaller rod diameter and the stepped sleeve end.

A seal is installed in the groove of the piston in the form of a cuff of a L-shaped section, at the end of which there is a sealing protrusion interacting with the inner surface of the groove of the housing and the end of the piston.

A seal in the form of an L-shaped cuff is installed in the large groove of the stepped sleeve, at the end of which there is a sealing protrusion interacting with the inner surface of the larger shutter groove and the end of the stepped sleeve.

The proposed valve is shown in the figure of FIG. 1, where:

1 - housing;

2 - shutter;

3 - step sleeve;

4 - damping sleeve;

5 - piston with a rod;

6 - a cover;

7 - a sleeve with a rod;

8, 9, 10 - seal;

11, 12, 13 - slotted spring;

14, 15, 16 - support;

17, 18 - nut;

19 - spring;

A is the saddle;

B - saddle of the control cavity;

In - the central step internal groove of the sleeve;

G - grooves of the greater step of the sleeve;

D is the diameter of the larger step groove shutter;

E is the bore of the shutter holes;

G is the diameter of the larger step of the step sleeve;

K is the groove of the body;

L - groove of the piston with a rod;

M - mechanical seal.

The valve comprises a housing 1 with input and output channels and a groove K, a shutter 2 is installed in the housing 1, which is in contact with the seat A, the shutter is made with internal grooves, most of which the shutter interacts with a stepped sleeve 3 installed in the housing 1, according to the outer diameter of the stepped sleeve, a groove D is made in which a cuff is installed to seal the inlet and outlet cavities of the valve, a piston with a rod 4 with a mechanical seal to the pistons in contact with the seat B is installed in the groove of the body K, the piston rod interacts it is connected with a stepped sleeve 3 along the internal groove D, into which a seal is installed to seal the inlet and outlet cavities of the valve, the piston rod interacts along the end with the sleeve with a rod 7 installed in the valve 2, and the rod of the sleeve 7 interacts with the internal groove in the cover 6 installed in the input cavity of the housing 1.

The valve operates as follows. On command to open the valve, control pressure is supplied through the nozzle "Horn.", The pressure will fall into the control cavity of the housing 1 and, acting on the effective area of the piston with the stem 5, overcomes the force from the differential pressure on the rod, the valve 2 and the force of the spring 19, moves the valve 2 until the piston with the rod 5 is seated on the seat A, and the valve bore is opened.

To ensure that the valve opens at high pressures, the shutter 2 is unloaded, for which a large step of the groove of the shutter is made equal to or less than the average diameter of the seal of the shutter.

This valve position is maintained during the entire time the control pressure is applied. When the valve is closed, the control pressure is released from the “Horn.” Fitting, the shutter 2 moves under the action of the spring force 19 and the differential pressure of the working fluid on the shutter, while the shutter seal 2 sits on the seat A, closing the valve inlet section along the “Inlet-Outlet” line . When the passage section of the openings E is blocked by the damping sleeve 4, the pressure in the internal cavity of the shutter drops, which ensures an unshocked fit of the shutter 2 on the seat A.

Since the use of the valve is planned in power plants located on aircraft, such as airplanes, or in rocket technology, its parts are made of materials: steel 07X16H6 for housing 1; shutter 2; step sleeve 3; damping sleeve 4; piston with rod 5; lids 6; bushings with a rod 7; slotted springs 11, 12, 13; supports 14, 15, 16; nuts 17, 18; ftoroplast - 4 for seals 8-10; steel 12X18H10T for the spring.

Thus, the use of this valve allows to reduce the hydraulic resistance of the valve, to provide multiple response at high working pressures at the inlet, including at low temperatures, to simplify the design and reduce weight in mechanical engineering products.

Claims (4)

1. A valve comprising a housing with inlet and outlet channels, a cover, a shutter with a stepped internal groove and openings, a stem and actuator, characterized in that a saddle is made in the housing in the input cavity, and a groove with a saddle is made in the control cavity, the housing is installed a stepped sleeve with a central stepped inner groove and two grooves of a larger stage from the side of the valve inlet cavity, interacting with the outer diameter of the larger stage and the inner diameter of the larger stage of the shutter groove, into a larger the damping sleeve is installed on the step sleeve bore, which is in contact with the bore of the shutter openings, while the diameter of the larger step of the step bushing is equal to or less than the average diameter of the shutter seal, a piston with a groove with a stem and an end seal in contact with the seat of the control cavity is installed in the groove of the housing the outer diameter of the piston with the inner diameter of the groove of the housing and the smaller diameter of the stem with the inner smaller diameter of the groove of the stepped sleeve, in ke has a groove in the bolt a sleeve with the rod, at its end cooperating with the rod and the piston rod with the inner surface of the bore of the cover. 2. The valve according to claim 1, characterized in that a seal in the form of an L-shaped cuff is installed in the smaller groove of the step sleeve from the inlet cavity, at the end of which there is a sealing protrusion interacting with a smaller stem diameter and the end of the step sleeve. 3. The valve according to claim 1, characterized in that a seal is installed in the piston groove in the form of an L-shaped cuff, at the end of which there is a sealing protrusion interacting with the inner surface of the housing groove and the piston end. 4. The valve according to claim 1, characterized in that a seal in the form of an L-shaped cuff is installed in the large groove of the stepped sleeve, at the end of which there is a sealing protrusion interacting with the inner surface of the larger groove of the shutter and the end of the stepped sleeve.

Images