RU2693211C1 - Circulating valve - Google Patents

Abstract

FIELD: valves.

SUBSTANCE: invention relates to valve devices. Valve comprises upper and lower adapters, housing with radial hydraulic channels, sealing elements and hollow piston having a spring. Piston has a recess for its spring provided with a clamping element. Hydraulic chamber located between piston and inner surface of housing is communicated with radial hydraulic channels in housing. Spring with clamping element is located between end of upper adapter and ledge of piston pressed to end of lower adapter due to additional ledge made in piston from inner side. In the piston, on the outer side there is an annular recess arranged between the sealing elements forming a hydraulic chamber communicating with the radial hydraulic channels in the housing. In upper part of lower adapter there are radial holes, which in closed state of valve are closed by piston. Diameter of upper part of lower adapter on outer side is smaller than in lower part, forming, when piston moves up, additional hydraulic chamber connecting through radial hydraulic channels in housing and through radial holes in lower adapter in-tube and annular space. On inner lower part of upper adapter cylindrical recess is made, which forms shoulder, limiting piston movement upwards.

EFFECT: technical result consists in improvement of reliability of valve.

4 cl, 2 dwg

Description

The present invention relates to the field of operation of oil and gas wells, namely, valve devices that respond to the pressure of the working environment, and is intended to work in packer layouts of underground equipment during well operations associated with the pumping of liquid or gaseous media for communication annular and in-line space.

A circulation valve (valve) allows you to repeatedly create and interrupt the communication of these spaces in one descent into the well.

Known circulation valve 1КЦГ, comprising a housing with a radial hydraulic channel, a spool with a hydraulic channel installed in a spring-loaded body glass, made with grooves for sealing elements and having a shaped groove, where a movement lock is installed. The valve only works when it is dropped from the mouth of the saddle with a ball, thereby creating pressure inside the pipes, under the action of which the valve moves down to the stop. With increasing pressure, the support collar of the saddle is deformed and the saddle with the ball falls down, freeing the passage of the valve. Under the action of the spring, the valve moves upwards. The latch finger thus goes into the long slot of the spool and locks it in the open position. In the open valve, the hydraulic channels in the housing and the spool are the same. To close the valve, it is necessary to reset the new seat with the ball and repeat the operation (Reference Guide for the gas-lift method of well operation / Yu.V. Zaitsev, RA Maksutov, OV Chubanov, etc. - M .: Nedra, 1984, p. 90).

The disadvantage of the circulating valve 1КЦГ is low reliability due to the cut-off of the sealing elements when the working medium under pressure passes through them at the time of opening and the unbalance of the spool. In addition, due to dropping the saddle with the ball, there is an inconvenience in operation, which reduces the functionality of the valve.

A bypass valve is known that operates from the pressure of the working medium and communicates annular and in-line spaces and includes a barrel that has one or several radial hydraulic channels, an upper coupling or lower sub, upper and lower pipe threads with the same or different diameters. The barrel is made at one end with an external threaded groove for the coil spring and a regulating nut, two external seating surfaces with different diameters and grooves for the sealing elements and a differential piston mounted on the two external seating surfaces without or with an external support nut. The piston forms a hydraulic chamber with the barrel connected to the barrel cavity through one or more radial hydraulic channels. According to the invention, on the trunk from the other end there are additionally made external threaded groove for the coil spring and the adjusting nut and the seating surface. An additional differential piston without or with threaded radial bores, a travel stop, a latch and internal sealing elements is installed on the outer seating surface or a protective sleeve is placed to block off the sealing elements in the grooves on the middle outer seating surface of the barrel when the medium flows through one or more radial hydraulic channels . An additional differential piston forms with the barrel an additional hydraulic chamber connected to the barrel cavity through one or more radial hydraulic channels additionally formed. At the same time, either the two differential pistons or the differential piston and the protective sleeve interact with each other under the force of one or both coil springs. At the initial closed position of the valve, the sealing elements in the grooves hermetically separate the upper and / or lower hydraulic chambers from the external space, and when the valve is in the open position, moving the differential piston up or down, either another differential piston or protective sleeve can overlap the sealing elements (Sharifov's bypass valve for circulation and flow control of the medium. / Patent of the Russian Federation No. 2288348, IPC Е21В 34/02, Е21В 34/06, publ. 27.11.2006).

In the specified valve, the sealing elements are protected from the effects of differential pressure by means of a spring-loaded protective sleeve overlapping these sealing elements. In the valve due to the regulation of the coil springs installed on both sides of the barrel, the state of the differential piston after the opening of the valve is balanced, due to which pulsations do not occur.

The disadvantage of the valve is the complexity of the design, lack of reliability of the lock, holding the valve in the open position.

The closest in technical essence to the claimed circulation valve is a valve described in the patent of the Russian Federation No. 2439290 in the second variant (IPC E21B 34/06, publ. 10.01.2012) containing upper and lower adapters, a housing with a radial hydraulic channel and installed in a glass the lower adapter is a hollow piston having a coil spring, grooves for sealing elements and a piston movement latch, while the housing is assembled from two parts sealed relative to each other and interconnected with the upper and lower erehodnikami threaded fastening screws, a piston is formed with a ledge, an annular protrusion with a sealing ring, the abutment and the seating surface of its coil spring, biasing nut provided, which is installed with a gap relative to the piston and moves along the thread of the inner surface of one housing part. This part of the body is provided with a counter support for interaction with the piston stop and forms a hydraulic chamber connected to the inner pipe space with the outer surface of the piston, and to overlap the sealing elements in the grooves during circulation of the working fluid through the radial hydraulic channel of the other part of the body This part of the body is fitted with a safety sleeve with an additional coil spring located in the external bore of the piston. The latch movement of the piston is made in the form of a spacer ring, made in the wall of the piston. The upper and lower adapters are made with grooves for sealing elements and with mounting holes for mounting screws.

The disadvantage of the circulation valve according to patent No. 2439290 is the complexity of the design, as well as the direct contact of the well fluid containing abrasive mechanical impurities, with a spring, leading to a decrease in reliability.

The technical problem to be solved by the inventive circulating valve, is to increase the reliability in operation, reduce the size and simplify the design.

This technical problem is solved by the fact that in a circulation valve containing upper and lower adapters, a housing with radial hydraulic channels, sealing elements and a hollow piston having a spring, while the piston is made with a shoulder for its spring, provided with a pressure element, a hydraulic chamber located between the piston and the inner surface of the housing, which communicates with the radial hydraulic channels in the housing according to the invention, the spring with the gland element is located between the end face of the upper adapter and the ledge of the piston pressed to the end of the lower adapter due to the additional ledge made in the piston from the inner side, and in the piston from the outer side there is an annular recess located between the sealing elements, forming a hydraulic chamber communicating with the radial hydraulic channels in the housing, and in the upper part of the lower adapter there are radial holes, which in the closed state of the valve are blocked by a piston, while the diameter of the upper part of the lower adapter with an outer The lower side is smaller than in the lower part, forming an additional hydraulic chamber when the piston moves up, connecting through radial hydraulic channels in the housing and through radial holes in the lower adapter, the in-pipe and annular spaces, and on the inner lower part of the upper adapter ledge limiting upward movement of the piston.

In addition, the gland element can be made in the form of a washer and is located on the ledge of the piston.

In addition, the gland element can be made in the form of a washer and is located on the top of the spring.

In addition, more than one gland element can be used to adjust the valve opening pressure.

FIG. 1 is a schematic diagram of the valve in the transport position when the valve is closed.

FIG. 2 shows a schematic diagram of the valve in the open state.

The valve consists of a housing 1, the upper adapter 2 is screwed to the upper part, the lower adapter 3 is screwed to the lower part. Inside the housing 1 there is a hollow piston 4, pressed against the adapter 3 by a spring 5 pressed by a pressure element 6.

The piston 4 has in the upper part a reduction in external diameter, forming a ledge against which the spring 5 rests through the gland element 6, made, for example, in the form of a washer. The gland element 6 can be installed from below or above the spring 5, in this case from the bottom, on the ledge of the piston 4. The valve opening is adjusted by a set of pressing elements 6. The upper end of the spring 5 abuts against the end of the upper adapter 2. In the closed state of the valve piston 4 pressed to the end of the lower adapter 3 due to the additional ledge, made in the piston 4 from the inside.

Sealing between the parts is provided by sealing elements (rings) 7, 8, 9, 10. Radial hydraulic channels 11 are made in the lower part of the housing 1.

In the piston 4 on the outer side there is an annular recess 12 forming a hydraulic chamber 13 between the sealing surfaces of the housing 1 and located between the sealing rings 7 and 8 and communicating with the radial hydraulic channels 11 in the housing 1.

The lower adapter 3 has a diameter of the upper part on the outer side less than in the lower part, in its upper part there are radial holes 14, which in the transport position are blocked by a piston 4. Radial holes 14 open after moving the piston 4 upwards and communicate the annular space (in FIG. . Not shown) through the radial hydraulic channels 11 and the additional hydraulic chamber 15 with the internal cavity of the valve 16 (Fig. 2).

The proposed circulation valve operates as follows. The valve is mounted in the tubing string above the packer (not shown in the figure) and goes down to a predetermined depth. When the pressure in the annular annular space between the production casing and the tubing string is above the internal pipe pressure in the cavity 16 of the circulation valve, the piston 4 under the influence of increased pressure through the radial hydraulic channels 11 and due to the pressure in the hydraulic chamber 13 formed by the annular recess 12 in the piston 4 between seals 7 and 8, moves upward, compressing the spring 5 (Fig. 2.). As a result of movement of the piston 4 between the ledge of the lower adapter 3 and the lower end of the piston 4, an additional hydraulic chamber 15 is formed, and the annulus is communicated through radial hydraulic channels 11 with an additional hydraulic chamber 15, which increases the area of pressure on the piston 4. This allows the piston to move 4 at a lower pressure and open the radial holes 14 for communication with the cavity 16 of the valve and pump the fluid with a pump at a pressure lower than the srabaty pressure valve, helping to reduce the energy costs of the pumping unit for pumping well fluid. The upward movement of the piston 4 is limited by a ledge 17 formed by a cylindrical recess 18 (FIG. 1) made on the inner lower part of the upper adapter 2. The pressure at which the valve is actuated is regulated by a set of pressing elements 6.

After a pressure drop in the annular space, the piston 4 returns to its initial position under the action of the spring 5.

Claims (4)

1. A circulation valve containing upper and lower adapters, a housing with radial hydraulic channels, sealing elements and a hollow piston having a spring, while the piston is made with a shoulder for its spring, provided with a gland element, a hydraulic chamber located between the piston and the inner surface of the housing communicating with radial hydraulic channels in the housing, characterized in that the spring with the gland element is located between the end of the upper adapter and the ledge of the piston pressed to the end lower adapter due to the additional ledge, made in the piston on the inside, and in the piston on the outside there is an annular recess located between the sealing elements forming a hydraulic chamber connected to the radial hydraulic channels in the housing, and in the upper part of the lower adapter there are radial holes which in the closed state of the valve are blocked by a piston, while the diameter of the upper part of the lower adapter on the outside is made smaller than in the lower part, forming upward an additional hydraulic chamber when moving the piston, connecting through the radial hydraulic channels in the housing and through the radial holes in the lower adapter, the inner pipe and annular spaces, and on the inner lower part of the upper adapter, a cylindrical recess is formed, forming a ledge that limits the piston movement upwards. 2. The circulation valve under item 1, characterized in that the gland element is designed as a washer and is located on the ledge of the piston. 3. The circulation valve under item 1, characterized in that the gland element is designed as a washer and is located on the top of the spring. 4. A circulating valve according to any one of paragraphs. 1-3, characterized in that more than one gland element is used to adjust the valve opening pressure.

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