RU2270391C2 - Stop-control valve - Google Patents

Abstract

FIELD: valving.

SUBSTANCE: stop-control valve comprises housing with inlet and output passages. The housing receives control gate valve connected with the rod actuated by the drive, stop gate valve connected with the rod, and additional gate valve at the end of the rod. The stop gate valve is mounted concentrically in the bottom section of the control gate valve to define ring passage connected with the inner space through the radial passages. The seat of the additional gate valve is made in the stop gate valve which is provided with the axial passage. The seat of the stop gate valve underlies the control seat.

EFFECT: enhanced reliability and reduced sizes.

1 dwg

Description

The invention relates to high pressure pipe fittings for contaminated environments, for example, to control the flow and shut off the flow of liquids and can be used in gas production, petrochemical and other industries.

The reliability of shut-off and control valves at the integrated gas treatment facilities for long-distance transport determines the accident-free and stable operation of the installation and affects the economic performance of the fields.

The operating conditions of shut-off and control valves in the conditions of gas fields are very "tough". The pressure drop on the control valves in the production cycle reaches 8.5-13.0 MPa, and on the valves of the control valves of wells and pipelines 25 MPa.

The working medium is the fluid carried by the gas from the reservoir, as well as the process fluids supplied to the gas stream, contain abrasive particles - sand of various fractions, also carried by the gas from the reservoir. So, for example, absorbent discharged from technological devices, diethylene glycol supplied to them for gas dehydration, contains up to 20 g / l of solid particles.

The control valve under such conditions undergoes abrasion and cavitation erosion. Its durability when using the most durable materials in real conditions is from several days to several months. The blurred valve, which acts as a water seal in the apparatus, is not able to maintain the liquid level. This can cause gas to leak into the liquid lines and create an emergency.

In order to prevent gas leakage into the liquid lines in the pipeline, a shut-off valve is installed in front of the control valve.

In order to reduce the pressure drop on the control valve in the pipeline set unregulated throttle. However, it provides pressure redistribution only at nominal flow rates, with a decrease in flow rate, its operation becomes ineffective and the entire differential is realized on the valve.

Known shut-off and control valves, designed to operate at large pressure differences (Armature automatic control systems. M: Mechanical Engineering. 1977, p. 49, Fig. 23, 24). In such valves, the throttling part of the shutter is a hollow cylinder, on the lateral surface of which there are round holes or slots of a special configuration, which realize, together with a seat made in the form of a sleeve covering the shutter, a throttle passage. The medium enters through the openings in the shutter into its internal cavity. At the end of the stroke, with a decrease in the flow rate of the medium, the bolt "sits" on its saddle with its increased diameter, ensuring the shutter tightness.

The disadvantage of such shut-off and control valves is that in conditions of contaminated liquids, as well as on clean liquids at low flow rates, the throttling of the medium occurs along the annular gap of the sealing surfaces of the shutter and seat and leads to their rapid abrasive and cavitation erosion, the valve is leakproof.

Known control valve DN 50, PN 10 MPa A2D 2.503.025 TO (drawing AYAD 2.503.023). In this valve, the shutter of the regulatory body is made in the form of a cylindrical sleeve with through-holes, moving in a cylindrical bore of the body. An adjustable throttle passage is formed between the end face of the bore in the valve body and the shutter windows. The locking element consists of a rubber ring on the shutter, above the passage windows and a special sleeve, through which the ring with the shutter is inserted into the cylindrical bore of the housing, ensuring the shutter is tight.

The disadvantage of this shut-off and control valve is that the rubber ring is inserted into the sleeve at a full differential pressure across the valve. The ring crosses the end gap between the special sleeve and the end surface of the bore in the housing, which may not be equal to zero due to the ingress of solid particles and erosion of the edge of the bore, which leads to ring cutting and a violation of the shutter tightness.

Known locking and regulating device (SU 1753142 A1, class F 16 K 3/00, 08/07/1992). The device comprises a housing with inlet and outlet channels and a saddle with a hole in which are mounted controlled by the action of a movable rod connected to the actuator, regulating the shutter in the form of a flat gate with a hole and sealing surfaces and a rotary shutter connected to the rod and consisting of two shutters, one of which is blind with a sealing surface, and the other is unloading with a sealing surface and a hole.

The rotary locking element provides a tight seal of the hole in the flat gate, after the latter closes the hole in the saddle, thus providing a tight seal of the entire device.

The disadvantage of this locking and regulating device is that it does not provide reliable operation due to the complex implementation of the rotary locking element, maintenance and repair require highly qualified staff and are laborious. The rotary locking element requires a significant internal volume of the housing, which leads to a significant increase in size. Unbalanced control gate - a flat gate with a hole is pressed by the pressure of the controlled medium to the saddle with considerable effort, which requires large permutation forces and, accordingly, drive power.

Known shut-off and control valve (RU 2162179 C1, class F 16 K 1/44, 01/20/01). The valve comprises a housing with inlet and outlet channels. Two gates are located in the housing: a regulating valve, connected to the rod, moved by the actuator, and a shutter, connected to the rod. The valve is equipped with an additional valve, the seat of which is fixed in the lower part of the housing coaxially with the stem, and the locking valve is disk-shaped, placed on the floor extension of the stem well below the control valve in the direction of flow of the medium and its seat is fixed in the body coaxially with the rod, and in the floor extension of the stem made radial holes located above the poppet. The control shutter is multi-stage, its steps are connected to the stem with the possibility of synchronous opening of all the valve seats when moving the rod.

The disadvantage of this valve is that it does not provide reliable operation, because the poppet is movably placed on the stem and has a movable seal; the seat of the additional shutter is located in the lower part of the housing and is subject to constant exposure to the flow of medium; the leakage relief valve after the control valves is made in the elongation of the stem with radial channels and has significant resistance, which creates a pressure differential on the poppet and makes it difficult to open. The shutter seat is fixed in the housing below the control seat, along the medium flow, by the size of the distance sleeve due to the movement of the shutter, which increases the dimensions of the valve.

The problem to which the invention is directed, is to create a technical solution that provides increased reliability of the valve and reduced overall dimensions.

To achieve the aforementioned technical result, the shut-off and control valve contains a body with input and output channels, the gates are located in the body: control, connected to the rod, a movable actuator, shut-off, connected to the rod, and an additional shutter - the end of the rod.

The claimed technical solution differs from the prototype in that the shutter is placed concentrically in the lower part of the control shutter, forming an annular channel connected by radial channels with its internal cavity, the seat of the additional shutter is made in the shutter, which has an axial passage channel, the seat of the shutter is placed directly under the adjusting saddle.

The invention is shown in the drawing, where the valve is shown in section at the beginning of the opening.

The valve comprises a housing 1 with input 2 and output 3 channels, a seat 4 with openings 5 of the control shutter, a control shutter 6 connected to the stem 7, a seat 8 of the shutter, a shutter 9 located at the bottom of the control shutter and forming an annular channel 10, the shutter has radial channels 11, a seat 12 with an axial channel 13, an additional shutter 14, which is the end of the rod, the internal cavity 15 and the spring 16.

The valve operates as follows.

In the initial position (closed), the holes 5 of the seat 4 are closed by the control valve 6, the shutter valve 9 is spring-loaded 16 and the pressure of the controlled medium flow to the valve seat 8, the additional shutter 14 is pressed to the seat 12, there is no adjustable medium flow, the valve is closed.

When the valve is opened, the actuator moves the stem 7 upward, the additional shutter 14 moves away from the seat 12. The flow of the controlled medium from the cavity 15, through the channel 13 gets access to the output channel 3, the pressure of the flow of the controlled medium on the shutter 9 drops, the leakage of the controlled medium through the control shutter 6, along the annular channel 10, the radial channels 11, the channel 13 enters the channel 3.

With further movement of the rod upward, the shutter 9 moves away from the seat 8 of the shutter, after which the control shutter 6 begins to open holes 5 in the seat 4. Regulation takes place.

When closing the valve, the rod 7 moves down, the shutter 6 blocks the holes 5, the main flow of the controlled medium is blocked.

With further movement of the rod 7 down, the shutter 9 "sits" on the saddle 8 of the shutter and is pressed by the spring 16.

The controlled medium leaks through the clearance of the control shutter 6 and the seat 4 through the annular channel 10, the radial channels 11 into the internal cavity 15, and from it through the axial channel 13 into the output channel 3. At the end of the stroke, the additional shutter 14 "sits" on the saddle 12, the flow of the controlled medium stops, the pressure in the inner cavity 15 rises to the inlet and presses the shutter 9 to the seat 8 of the shutter. The valve is closed.

The design documentation for the valve for the Yamburg and Urengoy gas condensate fields is currently being developed.

Claims (1)

Shut-off and control valve, comprising a housing with input and output channels, gates are located in the housing: control, connected to a rod, a movable actuator, shut-off, connected to the stem, and an additional shutter - the end of the stem, characterized in that the shutter is concentrically located in the lower part of the control shutter, forming an annular channel connected by radial channels with its internal cavity, the additional shutter seat is made in the shutter, which has an axial channel, the shutter saddle is placed under the adjusting saddle.