RU54083U1 - DOUBLE PREVENTOR WITH HYDRAULIC AND MANUAL DRIVE PPSG "GARANT-COMBI" (OPTIONS) - Google Patents

Abstract

The utility model relates to equipment designed to seal the mouth of oil and gas wells when performing ongoing or major repairs of wells, namely, to the design of the preventer. The preventer body is made two-stage with the upper and lower flanges and has a through axial channel for the passage of pipes lowered into the well and two pairs of side channels located in pairs in the upper and lower stages of the body. Each side channel is closed by a side cover. In the upper lateral channels are two pipe dies for sealing pipes along the outer diameter. In the lower lateral channels there are two blind dies for overlapping the axial channel of the body in the absence of pipes in the well. Each plate is moved by means of an autonomous drive mounted on the corresponding side cover. Each autonomous drive contains a hydraulic cylinder with a piston and a helical rod for moving the ram. The rod has a shank for installing the steering wheel used when the preventer is in manual mode. The through axial channel in the housing can be made cylindrical or conical, at least in the upper part of the housing, and facing the large base of the cone outward. In the upper flange there are lateral radial through holes designed to accommodate means for fixing the sealing inserts. An annular groove is made on the end part of the upper flange and serves to accommodate the o-ring. The autonomous drive of each plate is equipped with a means of switching the preventer to the "hydraulic drive" operating mode or to the "manual drive" operating mode. The utility model allows to increase the structural strength of the preventer and the reliability of sealing the wellhead during its repair.

Description

The utility model relates to equipment designed to seal the mouth of oil and gas wells in order to prevent gas and oil occurrences when performing ongoing or major repairs of wells, as well as during perforation, blasting and other geophysical work in the well.

A preventer is known that contains a two-stage housing with upper and lower flanges, having a through axial channel, pipe dies for sealing pipes that are lowered into the well through an axial channel in the body, blind dies for sealing the axial channel in the absence of pipes in the well and dies drive (RU 39909 U1 , 2004). The preventer does not provide sufficiently reliable fixation of the sealing inserts, as a result of which there is no guarantee of reliable sealing of the wellhead.

A known preventer comprising a two-stage housing with upper and lower flanges having a through axial channel, pipe dies with a screw drive for sealing pipes that are lowered into the well through an axial channel in the housing, blind dies with a screw drive for sealing the axial channel in the absence of pipes in the well, two pairs of side covers with fasteners for mounting dies (RU 40380 U1, 2004). The preventer also does not provide sufficiently reliable fixation of the sealing inserts, as a result of which there is no guarantee of reliable sealing of the wellhead.

The technical result that can be achieved by using the claimed utility model is to improve the operational properties of the preventer by improving the reliability of sealing the wellhead during repair to ensure safe work and prevent emissions and open fountains, as well as to increase the structural strength of the preventer and its service life.

To achieve the specified technical result, in accordance with the first embodiment, a preventer is proposed that comprises a two-stage housing with upper and lower flanges, having a through axial channel for passage of pipes being lowered into the well, and two pairs of side channels located opposite to each other made in the corresponding housing steps in each pair and oriented perpendicular to the through axial channel, the side flanges of which are closed by the side covers, two ram shutters, one of which it contains two opposed pipe dies for sealing the outer diameter pipes installed in the side channels of the upper stage of the housing with the possibility of movement by means of a pusher in the direction perpendicular to the axial channel of the housing, and the other two opposed located dies are blind to overlap the axial channel of the housing in the absence of pipes in well installed in the lateral channels of the lower stage of the housing with the ability to move

by means of a pusher in the direction perpendicular to the axial channel of the housing from the extreme open position to the extreme closed position and vice versa, and one hermetically mounted standalone drive for each ram pusher mounted on the corresponding side cover and including a hydraulic cylinder with a piston interacting with the pusher, with one end the hydraulic cylinder is mounted on the side cover, and its other end face is closed by a small cover with a nozzle made with a transverse slot and the chassis moving in it m screw made with a restrictive annular collar on its threaded head part, interacting with the ram pusher, and the free end of the lead screw is equipped with a shank for installing the helm used when the preventer is operated in manual mode, while the casing is equipped with load gripping elements and is made integral with load gripping alloy steel elements, the through axial channel in the housing is either cylindrical in both steps, or in the upper step above its side channels, it is made flax conical, facing the large base of the cone outward, while at least two lateral radial through holes are made in the upper flange, each of which is designed for pressurized placement of the fixing means of the sealing inserts, and the working shank of the fixing means is made with a longitudinal conical flat an annular groove is made on the end of the upper and lower flanges, which serves to accommodate the sealing ring, while the autonomous drive of each die is equipped with eklyucheniya preventer to work "hydraulic" mode or the operating mode "manual drive".

The switching means includes a plate having a figured “keyhole” type window with a larger and smaller diameter, longitudinally stepped with rounded opposite ends, and mounted with the possibility of movement and fixation in the transverse slot of the small cover, with a larger hole

made with the possibility of placing a lead screw in it to ensure the possibility of its translational movement along its axis when the preventer is in the "hydraulic drive" mode, and a smaller hole is made with the possibility of placing a lead screw in it to ensure its rotational movement when the preventer is in the "manual" mode drive unit".

The preventer housing has a cavity for supplying a coolant, while the coolant cavity is made circular.

Lateral radial through holes are located relative to each other at the same angle. The side covers and small covers are equipped with end choke holes connected to the internal channels for supplying fluidity in the cavity of the hydraulic cylinder, as well as an additional overflow channel connecting the over-piston and under-piston cavities. The side covers to the side flanges are fastened by means of elongated elements, the cantilever end of which is located in the spacer sleeve fixed by the end nut.

To achieve the specified technical result, in accordance with the second embodiment, a preventer is proposed which comprises a two-stage housing with upper and lower flanges, having a through axial channel for passage of pipes being lowered into the well, and two pairs of side channels arranged opposite to each other in the corresponding housing steps each pair oriented perpendicular to the through axial channel, the side flanges of which are closed by the side covers, two ram shutters, one of which contains two oppositely located pipe dies for sealing pipes with an outer diameter installed in the lateral channels of the upper stage of the body with the possibility of movement by means of a pusher in the direction perpendicular to the axial channel of the body, and the other two oppositely positioned dies are blind to block the axial channel of the body in the absence of pipes in the well, installed in the side channels of the lower stage of the housing with the possibility of movement by

the pusher in the direction perpendicular to the axial channel of the housing from the extreme open position to the extreme closed position and vice versa, and one hermetically mounted stand-alone drive for each ram pusher mounted on the corresponding side cover and including a hydraulic cylinder with a piston interacting with the pusher, with one end of the hydraulic cylinder mounted on the side cover, and its other end face is closed by a small cover with a nozzle made with a transverse slot and a moving screw moving inside it, filled with a restrictive annular collar on its head, which interacts with the ram pusher, and the free end of the spindle is equipped with a shank for installing the helm used when operating the preventer in manual mode, while the case is equipped with load-gripping elements and is made integral with load-gripping elements made of alloy steel and the through axial channel in the housing is either cylindrical in both stages, or in the upper stage above its side channels it is made conical, with a large base of the cone outward, while at least two lateral radial through holes are made in the upper flange, each of which is designed for sealed placement of the fixation means of the sealing inserts, and the working shank of the fixation means is made with a longitudinal conical flat, and on the end part the upper and lower flanges are made an annular groove serving to accommodate the sealing ring, while the autonomous drive of each plate is equipped with a means of switching the preventer to the "hydraulic drive" operating mode or to the "manual drive" operating mode, which includes a plate having a figured keyhole window with a larger and smaller diameter, stepwise longitudinally rounded with rounded opposite ends, and mounted with the possibility of movement and fixing in the transverse slot the nozzle of the small cover, while the larger hole is made with the possibility of placement

therein a lead screw to enable its progressive movement during the operation of the preventer in the "hydraulic drive" mode, and a smaller hole is made with the possibility of placing a lead screw in it to ensure its rotational movement when the preventer operates in the "manual drive" mode.

The preventer housing has a cavity for supplying a coolant, while the coolant cavity is made circular. Lateral radial through holes are located relative to each other at the same angle. The side covers and small covers are equipped with end choke holes connected to internal channels for supplying fluid to the hydraulic cylinder cavity, as well as an additional overflow channel connecting the suprasternal and subpiston cavities. The side covers to the side flanges are fastened by means of elongated elements, the cantilever end of which is located in the spacer sleeve fixed by the end nut.

The implementation of the upper flange with at least two through lateral radial holes, in each of which there is a means of fixing the sealing insert, allows you to securely fix the insert in the preventer and thereby secure the repair process of the well, while performing at least part the conical channel of the housing conical facilitates the installation of the sealing insert in the axial channel. The presence on the end of the upper flange of the annular groove serving to place the o-ring creates additional conditions when passing through the preventer of the tubing to prevent emissions and open fountains.

The utility model is illustrated by drawings, where:

figure 1 shows a General view of the preventer in an exploded state; figure 2 is a view of the preventer in front with a partial section; figure 3 is an autonomous drive plate in the context of the position of the preventer in the "hydraulic"; figure 4 - stand-alone drive plate in the context

in the position of the preventer in the "manual drive" mode; figure 5 is a fragment of the upper flange of the preventer with a sealing insert installed in it; figure 6 - plate - switching means

The preventer comprises a two-stage housing 1, consisting of an upper stage 2 and a lower stage 3 and having an upper flange 4 and a lower flange 5. The housing 1 is made of solid alloy steel and has load gripping elements 34. In the housing 1 there is a through axial channel 6 for passage well pipes. Channel 6 can be made cylindrical along its entire length. In addition, as shown in FIG. 2, channel 6 can consist of a conical section 7 (in the shape of a truncated cone) made in the upper stage 2 above its side channels, the casing 1 of the preventer, and cylindrical section 8, constituting the rest of the channel 6. The conical section 7 faces its large base 9 outward of the upper flange 4. It is also possible that the channel 6 has a conical section in the lower stage 3 of the housing 1. Such a conical section will face large base 5 of the lower flange outwardly.

In the upper stage 2 of the housing 1 there is a pair of side channels 10 located opposite to each other. In the lower stage 3 of the housing 1 also has a pair of side channels 11, which are located opposite to each other. The channels 10 and 11 are oriented perpendicular to the axial bore 6. The channels 10 are closed by the side covers 12 and the channels 11 are closed by the side covers 13.

The preventer also contains two ram shutters. One of the closures consists of two opposed pipe dies 14, which are designed to provide sealing of pipes on the outer diameter. The pipe dies 14 are installed in the lateral channels 10 of the upper stage 2 of the housing 1 with the possibility of movement by means of the pusher 18 in the direction perpendicular to the axial channel 6 of the housing 1. The second ram valve consists of two oppositely located dies of the blind 15, which serve to block the axial channel 6 of the housing 1 at

lack of pipes in the well. Deaf dies 15 are installed in the side channels 11 of the lower stage 3 of the housing 1 with the possibility of movement by means of the pusher 18 in the direction perpendicular to the axial channel 6 of the housing 1 from the extreme open position to the extreme closed position and vice versa.

Each pusher 18 of dies (14, 15) has an independent drive, which is mounted on the corresponding side cover (12, 13). The self-contained drive includes a hydraulic cylinder 16 with a piston 19 mounted on the pusher 18, while one end of the hydraulic cylinder is mounted on the side cover 12, 13, and the other end is closed by a small cover 20 provided with a pipe 21 made with a transverse slot 22. The lead screw moves in the pipe 23, equipped with a restrictive annular collar 24 located in the area of the end of the thread of its threaded head part 25 interacting with the pusher 18 for moving the dies. The free end of the lead screw is equipped with a shank 26 for installing the steering wheel 27, used when operating the preventer in the "manual drive" mode. In the transverse slot 22, a plate 28 is moved, which, after moving, is fixed, and which is a means of switching the preventer to the "hydraulic drive" operating mode or to the "manual drive" operating mode. The switching means plate 28 has a longitudinally located stepped figured window 29 with rounded “opposite keyhole” -type ends with a larger and smaller diameter. The hole of a larger diameter is made with the possibility of placing a lead screw 23 in it to ensure the possibility of its translational movement along its axis when the preventer is in the "hydraulic drive" mode. To switch the operation of the drive in the "manual drive" mode, the plate 28 is locked, moved to the slot 22 perpendicular to the axis of the drive and locked again. The hole of a smaller diameter is made with the possibility of placing a lead screw in it to ensure its rotational movement. The drive of each plate (14, 15) in the "hydraulic drive" mode has channels 31 and 32 in

side and small covers equipped with choke holes with fittings 47 for supplying the working fluid to the sub-piston and supra-root cavities of the hydraulic cylinder 16, as well as an additional bypass channel 30 for bypassing the working fluid, if necessary.

The upper flange 4 has through radial lateral openings 33. The minimum number of openings 33 is two, however, it is possible to use more such openings. Each hole 33 is intended for installation in it of means 34 for fixing the sealing insert 35. The working shank of the fixing means is made with a longitudinal flat 36, which when interacting with the sealing insert not only holds it, but also compresses it for better sealing. The holes 33 can be located both at the same angle relative to each other, and at different angles.

An annular groove 38 is provided on the end portion 37 of the flanges, which serves to accommodate the sealing ring 39.

The housing 1 additionally has a cavity for supplying the coolant through the cover 40 with the fitting 41. The heat carrier is discharged through the cover on the other side of the housing 1. The cavity for the coolant is circular, not shown in the drawing. The side covers 12, 13 are attached to the side flanges 42, 43 of the housing 1 by means of elongated elements 45, threaded in the end zones, and to tighten the fastening on the elongated element, put the spacer sleeve 46 with a fixed end nut. This embodiment of fastening the side covers greatly facilitates the maintenance of the preventer.

When using a preventer, its lower flange 5 is mounted on the upper flange of the wellhead reinforcement and fastened with it. In the presence of pipes in the well, the actuators of the dies of the pipe 14 are activated. In this case, the dies 14 are moved in the housing 1 independently of one another towards the axial channel 6 of the housing. As a result of the oncoming movement, the dies 14 reach the surface of the pipes to be sealed and tightly compress them. In the absence of pipes in the well, dice drives are used

deaf 15. In this case, the dies 15 move in the housing 1 independently of one another towards the axial channel 6 of the housing 1 and in their extreme closed position converge in the center of the housing and overlap the cavity of the well.

The preventer can operate both in the "hydraulic drive" mode and in the "manual drive" mode, depending on the situation.

When the preventer is in the “hydraulic drive” mode, the bypass channel is closed. The plate 28 is fixed in position providing the passage of the screw rod through its larger hole, thereby ensuring axial movement of the interacting screw rod with the pusher and dies. When the working fluid is fed into the hydraulic cylinder 16, the pusher 18 together with the lead screw 23 move along its longitudinal axis by the size of the working stroke of the die (14, 15). As a result, the plate moves from the initial position to the working one, i.e. extend and either cover the pipeline located in the axial channel, or blind dies 15 extend and overlap the axial channel.

When the preventer is in the “manual drive” mode, the plate 28 is fixed in a position where the lead screw 23 can only rotate in the smaller hole of the plate. The lead screw 23 rotates freely around its axis, but is limited from movement along this axis. When the screw rod 23 is rotated, its threaded portion 25 moves relative to the pusher 18, which, as it were, comes off the thread, thereby moves along its axis and pushes the die working stroke. As a result, the die moves from the initial position to the working one.

Claims (13)

1. The preventer, characterized in that it contains a two-stage housing with upper and lower flanges, having a through axial channel for the passage of pipes lowered into the well, and two pairs of side channels located opposite each other in each pair and oriented perpendicularly made in the corresponding steps of the housing a through axial channel, the side flanges of which are closed by side covers, two ram valves, one of which contains two opposed pipe rams for sealing pipes on the outside the diameter installed in the side channels of the upper stage of the body with the possibility of movement by means of a pusher in the direction perpendicular to the axial channel of the body, and the other two oppositely located dies are deaf for blocking the axial channel of the body in the absence of pipes in the well, installed in the side channels of the lower stage of the body movements by means of a pusher in a direction perpendicular to the axial channel of the housing from the extreme open position to the extreme closed position and vice versa, and one at a time a hermetically mounted stand-alone drive for each ram pusher mounted on a corresponding side cover and including a hydraulic cylinder with a piston interacting with the pusher, while one end of the hydraulic cylinder is mounted on the side cover and the other end thereof is closed by a small cover with a pipe made with a transverse slot, and a lead screw moving in it, made with a restrictive annular collar on its threaded head part, interacting with the ram displacement pusher, and the free end x a single screw is equipped with a shank for installing the steering wheel used when the preventer is operated in manual mode, while the housing is equipped with load gripping elements and is made integral with load gripping elements from alloy steel, the through axial channel in the housing is made either whole cylindrical in both steps or in the upper step above of its lateral channels, it is made conical, facing the large base of the cone outward, while at least two lateral radial through holes are made in the upper flange, each e of which is intended for the sealed placement of the fixing means of the sealing inserts, and the working shank of the fixing means is made with a longitudinal conical flat, moreover, an annular groove is made on the end of the upper and lower flanges, which serves to accommodate the sealing ring, while the autonomous drive of each plate is equipped with a switching means the preventer to the "hydraulic drive" operating mode or to the "manual drive" operating mode. 2. The preventer according to claim 1, characterized in that the switching means includes a plate having a figured keyhole-type window with a larger and smaller diameter, longitudinally stepped with rounded opposite ends, and mounted with the possibility of movement and fixing in the transverse slot of the small pipe the cover, while the hole of larger diameter is made with the possibility of placing a lead screw in it to ensure the possibility of its translational movement along its axis when the preventer is in the mode "Hydraulic actuator", and the opening of smaller diameter is adapted to accommodate the lead screw to ensure its rotary motion during operation in the BOP mode "manual transmission". 3. The preventer according to claim 1, characterized in that its housing has a cavity for supplying a coolant. 4. The preventer according to claim 3, characterized in that the coolant cavity is circular. 5. The preventer according to claim 1, characterized in that the lateral radial through holes are located relative to each other at the same angle. 6. The preventer according to claim 1, characterized in that the side covers and small covers are provided with end choke holes connected to internal channels for supplying hydraulic fluid in the hydraulic cylinder cavity, as well as an additional overflow channel connecting the over-piston and under-piston cavities. 7. The privator according to claim 1, characterized in that the side covers are attached to the side flanges by means of elongated elements, the cantilever end of which is located in the spacer sleeve fixed by the end nut. 8. The preventer, characterized in that it contains a two-stage housing with upper and lower flanges, having a through axial channel for the passage of pipes lowered into the well, and two pairs of side channels located opposite each other in each pair, oriented perpendicularly, made in the corresponding steps of the housing a through axial channel, the side flanges of which are closed by side covers, two ram valves, one of which contains two opposed pipe rams for sealing pipes along the outer and diameter installed in the lateral channels of the upper stage of the casing with the possibility of movement by means of a pusher in a direction perpendicular to the axial channel of the casing, and the other two oppositely located dies are deaf for blocking the axial channel of the casing in the absence of pipes in the well, installed in the lateral channels of the lower stage of the casing movements by means of a pusher in a direction perpendicular to the axial channel of the housing from the extreme open position to the extreme closed position and vice versa, and one g A sealed autonomous drive for each ram pusher mounted on a corresponding side cover and including a hydraulic cylinder with a piston interacting with the pusher, one end of the hydraulic cylinder mounted on the side cover and the other end closed by a small cover with a pipe made with a transverse slot, and a lead screw moving in it, made with a restrictive annular collar on its threaded head part, interacting with the ram displacement pusher, and the free end the rotor screw is equipped with a shank for installing the steering wheel used when the preventer is operated in manual mode, while the housing is equipped with load gripping elements and is made cast with load-gripping elements from alloy steel, and the through axial channel in the housing is made either completely cylindrical in both steps or in the upper stage above its lateral channels it is made conical, facing the large base of the cone outward, while at least two lateral radial through holes are made in the upper flange, each e of which is intended for the sealed placement of the fixing means of the sealing inserts, and the working shank of the fixing means is made with a longitudinal conical flat, moreover, an annular groove is made on the end of the upper and lower flanges to accommodate the sealing ring, while the autonomous drive of each plate is equipped with means for switching the preventer on the operating mode "hydraulic drive" or on the operating mode "manual drive", which includes a plate having a longitudinally spaced stepped a rounded keyhole-shaped figured window with a larger and smaller diameter, and installed with the possibility of movement and fixing in the transverse slot of the small cover pipe, the hole of a larger diameter is made with the possibility of placement of a lead screw in it to enable its translational movement the preventer operates in the "hydraulic drive" mode, and the hole of a smaller diameter is made with the possibility of placing a lead screw in it to ensure its rotational movement when the work of the preventer in the "manual drive" mode. 9. The preventer of claim 8, characterized in that its housing has a cavity for supplying a coolant. 10. The preventer according to claim 9, characterized in that the coolant cavity is circular. 11. The preventer of claim 8, characterized in that the lateral radial through holes are located relative to each other at the same angle. 12. The preventer according to claim 8, characterized in that the side covers and small covers are provided with end choke holes connected to internal channels for supplying fluid to the hydraulic cylinder cavity, as well as an additional overflow channel connecting the nip and torsion cavities. 13. The preventer of claim 8, characterized in that the side covers are attached to the side flanges by means of elongated elements, the cantilever end of which is located in the spacer sleeve fixed by the end nut.