RU136848U1 - BAILER - Google Patents

Abstract

A choke comprising a housing having an inner cylindrical cavity with a valve seat and a spring-loaded ball housed therein and axially displaced therein relative to the housing and contacting a spring with a spring ball having an inner hole along the axis, slots and a plug at the lower end, different the fact that a grating is placed in the lower part of the cylindrical cavity, a guide is installed in the spring with the possibility of axial movement relative to the grating, the upper one with the centering ball by basting, a part of the guide is made with a diameter larger than the diameter of the spring and smaller than the diameter of the ball, and a recess in contact with the ball is made from the bottom of the plug.

Description

The utility model relates to the oil, gas and mining industries, and in particular to devices for cleaning wells during development and repair.

Known flap (see US patent N 4493383, E21B 27/00, publ. 1985), containing a housing, a rod having a hole along the axis, and a valve consisting of a locking element, spring-loaded to the seat, The valve has a locking element in the form a spring-loaded plate with an elastic seal, which is mounted on a slider placed in the saddle, and a blind end hole is made along the axis of the slider, connected to the outer surface of the slider by perpendicular windows.

The disadvantage of this flap is the low reliability of the flap, because the use of an elastic seal in the valve causes its rapid destruction. The plate works with a medium having a high hydraulic resistance due to a sharp rotation of the liquid behind it by 90 degrees.

Known flap (see patent RU No. 2173760, E21B 27/00, publ. 09/20/2001), containing a housing having an inner cylindrical cavity with guides, a valve seat and a spring ball placed in it and placed in it with axial movement relative to the housing and contacting the spring-loaded ball with a rod having an inner hole along the axis, slots and a plug at the lower end. The specified bellow in technical essence and the achieved result is closest to the proposed bailer and it can be taken as a prototype.

The disadvantage of the prototype is the large hydraulic resistance between the ball and the inner cylindrical surface of the housing.

The technical result of the claimed utility model is to reduce the hydraulic resistance between the ball and the inner cylindrical surface of the housing and increase reliability during operation.

The technical result is solved by the described bailer comprising a housing having an inner cylindrical cavity with a valve seat and a spring-loaded ball placed therein and axially displaceable relative to the housing and contacting a spring with a spring-loaded ball having an inner hole along the axis, slots and a plug for lower end.

What is new is that a lattice is placed in the lower part of the cylindrical cavity, a guide is mounted in the spring with the possibility of axial movement relative to the lattice, the upper part with the centering ball indentation is made with a diameter larger than the spring diameter and smaller than the ball diameter, and a depression contacting the ball is made from the bottom of the plug.

Placement in the lower part of the cylindrical cavity of the grate, installation of a guide into the spring with the possibility of axial movement relative to the grate, execution of the upper part with a centering ball indentation of the part of the guide with a diameter greater than the spring diameter and smaller than the diameter of the ball, the bottom of the plug contacting the ball with the ball to reduce the hydraulic resistance between the ball and the inner cylindrical surface of the housing by increasing the bore between them, to increase reliability during exp uatatsii bailer by preventing bending of the spring during its operation, the centering ball against the seat and ball retention seat of the axis at its interaction with the plug.

The set of distinctive features of the proposed bailer allows to solve the problem.

The figure schematically shows the bailer.

The flap includes a housing 1 in the inner cylindrical cavity 2 of which there is a valve seat 3, a seal 4 and a spring-loaded ball 5 with a spring 6 is placed, and a rod 7 is placed, having an inner hole 8 along the axis, a slot 9 and a plug 10 at the lower end of the rod 7. A grating 11 is placed in the lower part of the inner cylindrical cavity 2. A guide 12 is mounted in the spring 6; the lower part of which passes through the grating 11 with the possibility of axial movement relative to it, and the upper part of the guide 12 with a recess centering ball 5 is made with a diameter larger than the diameter of the spring 6 and smaller than the diameter of the ball 5. At the bottom of the plug 10, a recess is made in contact with the ball 5. The choke in the upper part communicates with the tubing string 13, and in the lower part with the shank 14.

The flap works as follows. The choke together with the liner 14 on the string of tubing 13 is lowered into the well. As you lower the shank 14 is filled with liquid. In this case, the ball 5 is pressed against the seat 3 by the spring 6 and separates the liquid from falling into the hole 8, and therefore into the tubing 13. As soon as the liner 14 touches the bottom of the well and stops, the tubing string 13 will move the rod 7 with its weight way down. The rod plug 10 presses on the ball 6, which, compressing the spring 7, will move away from the seat 3, while the movement of the ball 6 in the direction perpendicular to the axis of the inner cylindrical cavity 2 is limited by the guide 12 and the plug 10, and the springs 6 by the guide 12. Since the liquid level in the well is much higher than the liquid level in the liner 14, due to the pressure difference, the liquid will rush through the grate 11 at a high speed, cut 9 into the hole 8 of the rod 7, and then into the tubing string 13 and fill it until the level fluid in wells not equal to the liquid level in the column tubing 13.

When lifting the string of tubing 13 from the well, the rod 7 will move up, while the ball 5 is pressed against the seat 3 by the spring 6 and disconnects the cavity of the shank 14 from the hole 8.

When liquid is filled with tubing string 13 from the bottom of the well into the cavity of the liner 14, sand and sludge are sucked in, which together with the liner 14 are lifted from the well. The shank 14 is emptied and, if necessary, repeat the cleaning cycle.

The use of the claimed solution in comparison with all known means of a similar purpose provides a reduction in hydraulic resistance between the ball and the inner cylindrical surface of the housing and an increase in reliability during operation of the bobbin.

Claims (1)

A choke comprising a housing having an inner cylindrical cavity with a valve seat and a spring-loaded ball housed therein and axially displaced therein relative to the housing and contacting a spring with a spring ball having an inner hole along the axis, slots and a plug at the lower end, different the fact that a grating is placed in the lower part of the cylindrical cavity, a guide is installed in the spring with the possibility of axial movement relative to the grating, the upper one with the centering ball by basting, a part of the guide is made with a diameter larger than the diameter of the spring and smaller than the diameter of the ball, and a recess in contact with the ball is made from the bottom of the plug.

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