SU1321808A1 - Gas-lift valve - Google Patents

Abstract

The invention relates to the oil, gas, chemical, and other industries. The purpose of the invention is to improve the reliability of the valve (K) by increasing the sensitivity. For this, K has a housing 1 with radial channels 3 for communication with the annulus of the well. In the upper part of the housing 1 there is a charge chamber (LC) 5, filled with compressed gas. Inside the housing 1, a valve 6 and a bellows 7 are interconnected. In the latter, there is a sleeve 8, which forms an annular cavity 9 filled with a damping fluid and a hydraulic valve 5 connected to the bellows 7. Under the valve 6, the saddle 10 and the return K. In the lower part of the sleeve 8, the bottom 12 is installed, and in the upper part - the nozzle 13. Its height exceeds the level of the damper fluid at the moment of the extreme upper position of the shutter 6. The medium pressure in the annulus through the channels 3, acts on the shutter 6, squeezes the bellows 7 pre pressing the gas pressure in the gas valve 5. At the same time, the bellows 7 moves the valve 6 from the saddle 10, ensuring the passage of gas through the valve 6 and K into the cavity of the discharge pipes. The damper fluid flows into LC 5. The braking movement of the bolt 6 slows down. When the bellows 7 is stretched, this fluid is drawn from the LC 5 into the cavity 9. 3 Il. F oh oo ND 00 O 00

Description

The invention relates to reinforcement, can be widely used in the oil, gas, chemical and other sectors of the industry, and can also be used to extract oil from the depths of the seabed when operating oil wells in a mechanized way.

The aim of the invention is to increase the reliability of the valve by increasing the sensitivity.

FIG. I is a gas-lift valve; in fig. 2 - node I on

FIG. one; .on FIG. 3 - node II in FIG. 2

The gas-lift valve has a housing consisting of two parts 1 and 2 with radial channels 3, through which the housing cavity 4 communicates with the well annulus, charging chamber 5, which is connected to the upper part of the housing and filled with compressed gas. An inside of the housing is provided with a shutter 6 and a bellows 7 interconnected. Inside the bellows 7 a sleeve 8 is installed, which forms an annular cavity 9 filled with a damping fluid and hydraulically connected to the charging chamber 5. A saddle 10 is placed under the valve 6 check valve 11. In addition, the valve contains a bottom 12 installed in the lower part of the sleeve 8, and a pipe 13 placed in the upper part of the sleeve 8, and the height of the pipe 13 exceeds the level of the damper fluid at the moment of the extreme upper position of the gate 6.

The valve operates as follows.

Before charging the gas pressure of the charging chamber 5, the damping fluid is introduced until the annular cavity 9 is completely filled so that at the moment of the extreme upper position of the shutter 6 the damping fluid level is below the upper end of the nozzle 13. The valve opening pressure is determined by the charging pressure of the charging gas 5. When the valve is operating, the bellows 7 moves along the outer surface of the sleeve 8.

The pressure of the medium in the annulus through the channels 3, acting on the shutter 6, compresses the bellows 7, overcoming the gas pressure in the charging chamber 5. As the compressing bellows 7 moves the shutter 6 from the saddle 10, ensuring the passage of gas through

the valve and check valve 11 into the cavity of the discharge pipes. Non-return valve And prevents the flow of working agent in the annulus.

When the bellows is compressed, the damper fluid flows into the charging chamber 5. The shutter movement is braked. When the bellows is stretched, the damper fluid is drawn from the charging chamber 5 to

Q annular cavity 9 bellows.

The valve design increases the capacity of the charging chamber while maintaining the valve overall dimensions, which increases

J-sensitivity, enhances the effect of damping the gate, carried out by the damping fluid, and thus increases the reliability of the valve, reducing the chipping of the active sealing surfaces of the valve

0 and saddles and preventing premature destruction of bellows corrugations. In addition, increasing the pressure of the charged gas allows for the efficient operation of wells with increased pressure of the working agent, increasing the depth of the installation and reducing the number of valves in each well.

Claims (1)

Invention Formula 0 A gas-lift valve, comprising a housing with radial channels for communicating its cavity with the annulus of the well, associated with the upper part of the housing, a charging chamber filled with compressed gas, installed inside the housing and interconnected a valve and bellows inside the latter sleeve, forming a ring cavity with the bellows, filled with a damping fluid and hydraulically connected to the charging chamber, A valve and a check valve placed in the housing under the valve, characterized in that, in order to increase the reliability of the valve by increasing the sensitivity, it is provided with a bottom installed in the lower part of the sleeve and a branch pipe placed in 5 of the upper part of the sleeve, the height of the nozzle being higher than the level of the damping fluid at the moment of the extreme upper position of the shutter. // (rig. 3 1 Editor I. Shulla Order 2729/22 VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4 Compiled by V. Boriskina Tehred I. VeresKorrektor B. But ha Circulation 532 Subscription