RU39909U1 - PREVENTOR - Google Patents

Abstract

The invention relates to equipment used in the underground repair of oil and gas wells, and is used to seal the mouth in the event of an emergency at the well, as well as during a long break in work.

The technical problem solved by the invention is to equip the preventer with a switching mechanism from the ″ hydraulic drive ″ mode to the ″ manual drive ″ mode and vice versa.

The problem is solved in that the preventer containing a housing with an axial channel, pipe dies for sealing pipes that are lowered into the well through an axial channel in the body, dumb dies for sealing the axial channel in the absence of pipes in the well, the drive dies made in the form of a hydraulic cylinder with a piston and a screw rod, made so that the drive of the dies is equipped with a movable support plate with a figured hole made in the form of two mutually intersecting circles of different diameters, inside of which there is a screw rod, and the movable base plate has two fixed positions, one of which corresponds to the preventive mode ″ hydraulic actuator ″ and the other position corresponds to the preventive mode ″ hydraulic actuator ″, while in the preventive mode ″ hydraulic actuator ″ the screw rod is placed in the larger hole of the movable base plate with rotation and translational movement along the longitudinal axis, and in the preventive mode ″ manual drive ″ the screw rod is placed in the smaller hole of the movable base plate with the possibility of only rotational movement.

Description

The invention relates to equipment used in the underground repair of oil and gas wells, and is used to seal the mouth in the event of an emergency at the well, as well as during a long break in work.

Known preventer containing a housing with an axial channel, hydraulic dies for sealing pipes that are lowered into the well through the axial channel, blind dies with hydraulic drives for sealing the axial channel in the absence of pipes in the well, a screw rod used to manually drive dies in the event of a hydraulic failure or fixing dies after moving them to the “closed” position [1]. A disadvantage of the known preventer is the lack of a mechanism for switching the preventer from the "hydraulic drive" to the "manual drive" mode.

Also known is a preventer containing a housing with an axial channel, hydraulic dies for sealing pipes that are lowered into the well through the axial channel, blind dies with hydraulic drives for sealing the axial channel in the absence of pipes in the well, a helical rod used to manually drive dies in the event of a hydraulic failure or fixing the dies after moving them to the closed position [2]. A disadvantage of the known preventer is also the lack of a mechanism for switching the preventer from the "hydraulic drive" to the "manual drive" mode.

The technical problem solved by the invention is to equip the preventer with a switching mechanism from the "hydraulic drive" to the "manual drive" mode and vice versa.

The problem is solved in that the preventer containing a housing with an axial channel, pipe dies for sealing pipes that are lowered into the well through an axial channel in the body, dumb dies for sealing the axial channel in the absence of pipes in the well, the drive dies made in the form of a hydraulic cylinder with a piston and a screw rod, made so that the drive of the dies is equipped with a movable support plate with a figured hole made in the form of two mutually intersecting circles of different diameters, inside of which there is a screw rod, and the movable base plate has two fixed positions, one of which corresponds to the “hydraulic drive” preventer mode and the other position to the “manual drive” preventer mode, while in the hydraulic drive preventer mode, the screw rod is rotatably located in the larger hole of the movable base plate and translational movement along the longitudinal axis, and in the manual drive preventer mode, the helical rod is placed in the smaller hole of the movable support plate with the possibility of only rotational movement.

The invention is illustrated by drawings, which depict:

In figure 1 is a General view (in isometric) of the preventer.

In figure 2 is a General view (in isometric) drive dies in the preventer mode "manual drive",

In figure 3 is a General view (in isometric) drive dies in the preventive mode "hydraulic drive".

Figure 4 is a General view (in isometry) of the supporting movable plate.

Figure 5 is a General view (in isometry) of the screw rod.

In figure 6 is a horizontal section of the drive dies in the preventive mode "hydraulic drive",

The figure 7 is a section along aa.

In figure 8 is a horizontal section of the drive dies in the preventer mode "manual drive",

Figure 9 is a section along BB. The preventer comprises a housing 1 with an axial channel 2 for the passage of pipes (not shown), pipe dies, blind dies (not shown), a drive of dies 3 made in the form of a hydraulic cylinder 4, piston 5, screw rod 6, steering wheel 7 and movable support plate 8 with a figured hole made in the form of two mutually intersecting circles with diameters 9 and 10 (Fig. 1; 2; 3; 4; 5). The diameter 9 is less than the diameter 10. The movable support plate 8 has two holes 11 and 12 for fixing it with a bolt 13 either in the manual drive preventer mode (FIG. 2) or in the hydraulic drive preventer mode (FIG. 3). The drive of the dies 3 is equipped with channels 14 and 15 for supplying the working fluid to the hydraulic cylinder 4, For bypassing the working fluid when the preventer is in the “manual drive” mode, a bypass channel 16 with a valve 17 is made.

The preventer works as follows.

The hydraulic drive mode (Fig. 3; 6; 7). The bypass channel 16 is closed by the valve 17. The movable support plate 8 is fixed by a bolt 13 in the lower extreme position (Fig.6; 7), while the axis of the screw rod 6 coincides with the axis of the larger hole 10 and moves freely along its longitudinal axis with the piston 5. with which it is connected using a screw pair. When the working fluid is fed into the hydraulic cylinder 4, the piston 5 together with the screw rod 6 and the steering wheel 7 move along the longitudinal axis by the amount of the stroke, moving the die from the initial position to the working one, bringing its sealing elements into contact with the surface of the pipes to be sealed located in the axial channel of the preventer .

Manual drive mode (Fig. 2; 8; 9). The bypass channel 16 is opened by the valve 17. The movable support plate 8 is fixed by a bolt 13 in the upper extreme position (Fig. 8; 9), while the axis of the screw rod 6 coincides with the axis of the smaller hole 9. The screw rod 6 freely rotates around the axis without moving along its longitudinal axis. When the screw rod 6 is rotated, the piston 5 moves along the longitudinal axis by the magnitude of the stroke, moving the ram from the initial position to the working one, bringing its sealing elements into contact with the surface of the pipes to be sealed located in the axial channel of the preventer.

The presence of a mechanism for switching the drive of the dies from the “hydraulic drive” preventer mode to the “manual drive” mode allows you to manually seal the wellhead in case of failure of the power station supplying the converter.

Sources of information:

1. Composite catalog of oil and gas equipment and services. The third issue, under the leadership of V.Yu. Krasik, A.D. Kuzmina. Publishing house “Fuel and Energy, M. 1998, p. 501.

2. 1995-96. Composite catalog of oil and gas equipment and services. Volume 1. Published by Gulf Publiching Company. Publishing house “Fuel and Energy, M. 1998, p. 415.

Claims (1)

A preventer comprising a housing with an axial channel, pipe dies for sealing pipes that are lowered into the borehole through an axial channel in the housing, blind dies for sealing the axial channel in the absence of pipes in the well, die drive made in the form of a hydraulic cylinder with a piston and a screw rod, characterized in that the die drive is equipped with a movable support plate with a figured hole made in the form of two mutually intersecting circles of different diameters, inside of which there is a helical rod, while the movable support plate has two fixed positions, one of which corresponds to the preventive mode ″ hydraulic actuator ″ and the other position corresponds to the preventive mode ″ hydraulic actuator ″, while in the preventive mode ″ hydraulic actuator ″ the screw rod is placed in the larger hole of the movable support plate with the possibility of rotation and translational movement along the longitudinal axis, and in the preventive mode ″ manual drive ″ the screw rod is placed in the smaller hole of the movable support plate with the possibility of only rotational movement.