RU37762U1 - PREVENTOR - Google Patents

Abstract

1. The preventer, comprising a sealing element in the form of an elastic sleeve placed in the cavity of the housing with a cover, and a radial channel in the housing, to which a pipe is connected connecting the cavity of the housing with a source of pressure of the working fluid, characterized in that the elastic sleeve is placed in the cavity of the metal sleeve installed in the cavity of the housing on rolling bearings, while the ends of the metal sleeve are sealed in the housing and fastened to the ends of the elastic sleeve, and in the wall of the metal sleeve made radial to channels for communication of the cavity of the housing with the cavity between the bushings. 2. The preventer according to claim 1, characterized in that the pipeline led to the radial channel of the housing is equipped with a differential piston, the smaller diameter of which is located on the side of the housing, and the larger is connected to the downhole pressure, while the portion of the pipeline between the housing and the differential piston is filled with working fluid , and between the differential piston and the borehole - downhole fluid.

Description

2004100407

-.- r- at g h 5 6 / .V d, MPKE21V 33/06

The utility model relates to blowout equipment designed to seal the mouth of oil and gas wells with a tool located in them to prevent emissions and open fountains in the process of repairing wells.

Known preventers containing a housing with a cavity and a cover, a sealing element, a plunger and pipelines connecting the control cavity of the preventer with a source of working fluid pressure (see AS No. 346472, 1161690, class E21B 33/06).

The disadvantage of this type of preventer is the design complexity.

Known preventer type "K company" Regan (USA), having a simpler design. It consists of a housing with a cavity and a lid and a radial channel, to which a pipeline is connected connecting the cavity of the housing with a source of pressure of the working fluid. A sealing element in the form of an elastic sleeve is installed in the body cavity (see. Review of foreign literature. New in preventive construction abroad. VNIIOENG, Moscow, 1970).

In the open position of the preventer, the drilling tool passes freely into the sealing element.

When the preventer is closed, the working fluid under a pressure higher than the downhole pressure fills the cavity between the housing and

sealing element, causing it to deform and tighten the drilling tool located in it.

The specified design of the preventer is taken as a prototype.

A common disadvantage of the known preventers is the inability to rotate the sealing element.

w

 t

Preventer

ky :. -i The task, which the proposed utility model is aimed at, is to create a preventer that is simple in design with the possibility of rotation of the sealing element. To solve this problem, a preventer is proposed that includes, like the closest known to it, sealing element in the form of an elastic sleeve placed in the cavity of the housing with a cover, and a radial channel in the housing, to which a pipeline is connected connecting the cavity of the housing with a working pressure source liquids. In contrast to the known one, in the proposed preventer, the elastic sleeve is placed in the cavity of the metal sleeve installed in the body cavity on the rolling bearings, while the ends of the metal sleeve are sealed in the body and fastened to the ends of the elastic sleeve, and radial channels are made in the wall of the metal sleeve for communication of the cavity housing with a cavity between the bushings. In addition, the pipeline led to the radial channel of the housing is equipped with a differential piston, the smaller diameter of which is located on the side of the housing, and the larger is connected to the downhole pressure, while the section of the pipeline between the housing and the differential piston is filled with working fluid, and between the differential piston and the well - downhole fluid. Thanks to the introduction of new features, it is possible to rotate the drill tool in the closed position of the preventer and automatic control of the preventer from downhole pressure. The drawing shows a preventer - a General view. The preventer comprises a housing 1 with a cover, inside of which a metal sleeve 2 is installed, the ends of which are sealed in the housing 1. An elastic sleeve 3 is installed in the cavity of the metal sleeve 2, the ends of which are hermetically fastened to the ends of the metal sleeve 2. Metals Between the metal sleeve 2 and the elastic sleeve 3 is formed the preventer control cavity A communicated with the cavity of the housing 1 by means of radial channels 5 made in a metal sleeve 2.

The housing 1 has a radial channel 6 to which a pipeline 7 is connected, connecting the cavity of the housing 1 with a source of pressure of the working fluid through the differential piston 8. The undergrowth cavity of a smaller diameter 9 faces the housing 1 and is filled with the working fluid, and the undergrowth cavity of a larger diameter 10 through the pipeline 11 is associated with downhole pressure and is filled with well fluid. As the working fluid is used, for example, mineral oil for hydraulic systems.

The preventer works as follows.

If it is necessary to seal the drilling tool, a downhole pressure is supplied under the differential piston 8 through the pipe 11, under the action of which the differential sleeve 8 moves towards the housing 1 and displaces a part of the working fluid located in the area between the differential piston 8 and the housing 1.

The working fluid under a pressure exceeding the downhole pressure due to the difference in the diameters of the differential piston 8, passing through the pipeline 7 and the radial channels 6, 5 will enter the control cavity of the preventer, deforming the elastic sleeve 3, seals the drilling tool in the preventer.

With the approach and the elastic sleeve 3 of the coupling or lock of the drilling tool, the cavity A of the control of the preventer is somewhat reduced due to their increased size. The pressure under the small diameter 9 increases, the differential piston 8 is shifted towards the well, while part of the well fluid from under the larger diameter 10 will be discharged into the well.

After the passage of the coupling or lock of the drilling tool, the preventer closes again under the action of downhole pressure.

The effectiveness of the proposed preventer is ensured by the possibility of rotation of the sealing element together with the tool in the preventer of a simple design.

Claims (2)

1. The preventer, comprising a sealing element in the form of an elastic sleeve placed in the cavity of the housing with a cover, and a radial channel in the housing, to which a pipe is connected connecting the cavity of the housing with a source of pressure of the working fluid, characterized in that the elastic sleeve is placed in the cavity of the metal sleeve installed in the cavity of the housing on rolling bearings, while the ends of the metal sleeve are sealed in the housing and fastened to the ends of the elastic sleeve, and in the wall of the metal sleeve made radial to channels for communication of the cavity of the housing with the cavity between the bushings. 2. The preventer according to claim 1, characterized in that the pipeline connected to the radial channel of the housing is equipped with a differential piston, the smaller diameter of which is located on the side of the housing and the larger is connected to the downhole pressure, while the portion of the pipeline between the housing and the differential piston is filled working fluid, and between the differential piston and the borehole - downhole fluid.