RU52906U1 - PREVENTOR PLATFUL-SLIDER SEPARATE "UNIVERSAL" (PPShR "UNIVERSAL") - 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 with upper and lower flanges and has a through axial channel for the passage of pipes lowered into the well, two upper side channels and a lower side channel closed by side covers. Dies are located in the upper lateral channels, and a movable slide plate in the lower one. Each die and slide plate is moved by a self-contained screw drive installed in the corresponding side cover. The dies, when moving towards the vertical axis of the housing to the extreme closed position, provide sealing of the pipes by the outer diameter. In the absence of pipes in the well, the slide plate moves in the direction of the vertical axis of the preventer and blocks the axial channel of the housing. Through radial holes are made in the upper flange of the housing, in each of which there is a means for fixing the sealing insert. On the outside of the casing, stiffeners are made in the area between the side cover covering the lower side channel and the upper flange.

The utility model allows to increase the structural strength of the preventer and the reliability of sealing the wellhead during repair, as well as reduce the weight of the preventer.

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 known preventer comprising a housing having a through axial channel for passage of pipes with technological equipment, dies with a drive and a movable slide plate with a drive (RU 2196874, C2, 2003). A disadvantage of the known preventer is that the slide plate is located in the guide grooves of one of the dies, as a result of which its performance directly depends on the performance of the dies.

A known preventer containing a housing with an axial channel, pipe dies with a screw drive for sealing pipes and a movable slide plate with a screw drive located under the dies in guides that are kinematically not connected with pipe dies and which serves to block the axial channel in the absence of pipes in the well, the axis of the screw drive of the slide plate is located at an angle to the axis of the screw drive of the dies (RU 35651, U1, 2004). A disadvantage of the known preventer is the use of a metal-intensive, heavy and cumbersome case in it, which entails certain difficulties both in the manufacture of the preventer and in its operation.

Known preventer containing a housing in the form of a steel casting with minimum overall dimensions, in particular, with minimum lengths. The housing has an axial channel and channels for drives with

dies and for the drive with a gate. The preventer also includes a slide gate cover, side covers with channels for driving dies, dies with a drive and a slide with a drive (RU 47954, U1, 09/10/2005). This preventer due to the minimum length of the housing has a lightweight design, which, however, negatively affects the strength characteristics of the housing. In addition, in each of the above preventers, a sufficiently reliable fixation of the sealing inserts is not provided, 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 increase the structural strength of the preventer and its service life, to improve its performance by providing reliable sealing of the wellhead during its repair in order to safely conduct work and prevent emissions and open fountains as well as in reducing the weight of the preventer.

To achieve the technical result, a preventer is proposed comprising a housing with upper and lower flanges, having a through axial channel for passage of pipes being lowered into the well, two upper side channels located opposite each other, oriented perpendicular to the axial channel and closed by side covers, and made under the upper channels and closed by its side cover the lower side channel, the axis of which is located at an angle to the axis of the upper channels. A ram shutter is placed inside the housing, containing two oppositely located dies for sealing pipes along the outer diameter, mounted in the upper side channels of the housing with the possibility of movement in the direction perpendicular to the axial channel, and a movable slide plate designed to block the through axial channel in the absence of pipes in the well and installed in the lower side channel with

the ability to move in a direction perpendicular to the axial channel. The preventer has one self-contained screw drive for each die and for the slide plate installed in the corresponding side cover. The housing is equipped with load gripping elements and is made of one-piece with load-gripping elements of alloy steel. The through axial channel in the housing is either cylindrical in whole, or a part of this channel located above the upper lateral channels is made conical, facing the large base of the cone outward, while at least two lateral radial through holes are made when the part of the axial channel is conical in the upper flange holes, each of which is intended for tight placement of the fixing means of the sealing inserts, while the working shank of the fixing means is made with a longitudinal flat. An annular groove is made on the end parts of the upper and lower flanges, which serves to accommodate the sealing ring. On the outer sides of the housing in the areas between the side flanges made stiffeners. The upper surface of the slide plate is made with a slope to the free end, and its side faces are provided with longitudinal grooves made parallel to the lower horizontal guide of the slide plate

The screw drive of the plate is installed hermetically and is made with a two-stage screw located in the drive body with a thread of right-hand winding at one of its stages interacting with the drive body and a thread of left-hand winding at another stage interacting with a ram pusher arranged to move in the drive case, at the same time, to control the position of the movable die, on the end part of the two-stage screw carrying the thread of the right-hand winding, made ring

a protrusion, the end of which serves to limit the movement of the screw when closing the dies and annular grooves, the distance between which is correlated with the movement of the movable die from one extreme position to another, while one of the annular grooves is adjacent to the annular protrusion. The upper surface of the slide plate is made with a slope to the free end, and its lateral faces are provided with longitudinal grooves made parallel to the lower horizontal surface of the slide plate.

The screw drive of the slide plate is also installed hermetically and is made with a two-stage screw located in the drive housing with a thread of right-hand winding on one of its steps, interacting with the drive housing, and a thread of left-hand winding at another step, interacting with a slide valve pusher located the drive housing, in this case, to control the position of the movable slide plate, on the end of the two-stage screw bearing the thread of the right-hand winding, They have an annular protrusion and annular grooves, the distance between which is correlated with the movement of the slide plate from one extreme position to another, while one of the annular grooves is adjacent to the annular protrusion.

The lateral radial through holes in the upper flange are predominantly located relative to each other at the same angle. The screw of the screw drive has a shank for installing the helm of the screw drive.

When the preventer is assembled, the ratio of the distance between the outer ends of the side covers covering the upper side channels and the distance between the ends of the preventer housing adjacent to the inner ends of these side covers is from 1.45 to 1.7.

The implementation of the upper flange with at least two through lateral radial holes, in each of which is placed a means of fixing the sealing insert, allows you to securely fix the insert in the preventer and thereby secure the process of well repair; the presence of a longitudinal flange on the working shank provides an additional pressing-additive of the sealing insert to the axial channel, the presence on the end part of the upper flange of the annular groove and the annular collar adjacent to it from the side of the axial channel of the housing, which serves to accommodate the sealing ring, creates a pump compressor pipes additional conditions to prevent emissions and open fountains.

The presence of stiffeners on the outer side of the housing in the areas between the side covers, allows to increase the structural strength and increase the life of the preventer.

The utility model is illustrated by drawings, where: in Fig.1 shows a General view of the preventer in an exploded state; figure 2 is a preventer, a side view with a partial section; figure 3 is a preventer, a front view with a partial section; figure 4 is a fragment of a preventer with a sealing insert installed in it; figure 5 - screw drive dies.

The preventer comprises a housing 1 with an upper flange 2 and a lower flange 3. 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 4 for passage of pipes being lowered into the well, two upper side channels 5 and located under the channels 5 lower side channel 6. Advantageously, this angle is 90 °. The part of the through axial channel 4 located above the upper side channels can be made conical 7 (in the shape of a truncated cone) made in the upper part of the casing 1 of the preventer, and cylindrical

section 8, constituting the rest of the channel 4. The conical section 7 faces its large base 9 outward of the upper flange 2.

The upper side channels 5 are located opposite to each other and oriented perpendicular to the axial channel 4. The axis of the lower side channel 6 is located at an angle of 90 degrees to the axis of the upper side channels 5. Outside the housing 1, the side channels 5 are closed by the side covers 10 and 11, and the channel 6 is closed by the side lid 12.

With the assembled state of the preventer, the ratio of the distance L between the outer ends of the side covers 10 and 11 covering the upper side channels 5 and the distance L ₁ between the ends of the housing 1 of the preventer adjacent to the inner ends of the side covers 10 and 11 is from 1.45 to 1, 7.

Inside the housing 1 there is a ram valve, which consists of two oppositely located dies 13, designed to seal the pipes according to their outer diameter. The dice 13 is installed in the side channels 5 of the housing 1 and can move in these channels in the direction perpendicular to the axial channel 4 of the housing 1.

Each plate 13 has a self-contained screw drive 14, which is installed in the side cover (10, 11). The screw drive 14 of the plate 13 contains a two-stage screw 16 located in the housing 15 of this drive 16. The two-stage screw 16 has a section 17 with a right-hand thread on one of its steps, interacting with the case 15, and a section 18 with a left-hand thread on another, its interacting with a pusher 19 of the corresponding die 13.

On the end part of the two-stage screw 16 carrying the right-handed thread (section 17), annular grooves 20 and 21 are made. Thanks to the grooves 20 and 21, the position of the die 13 inside the housing 1 can be checked. The distance between the grooves 20 and 21 correlates with the movement of the movable die 13 from one extreme position to another. Each two-stage screw 16 has a shank 22 for installing the helm 23 of a screw drive. Limiter for

the helm 23 is the end face of the annular protrusion 24 adjacent to the annular groove 20. The other end of the protrusion 24 serves as a limiter to the movement of the screw when closing the dies.

In the lower side channel 6 of the housing 1, a movable slide plate 25 is installed, which is designed to overlap the through axial channel 4 of the housing 1 in the absence of pipes in the well. The upper surface 35 of the Siberian plate is made with a slope to the free end, and its side faces are provided with longitudinal grooves 36 made parallel to its lower horizontal surface. The slide plate 25 is installed in the channel 6 with the possibility of movement in the direction perpendicular to the axial channel 4. To move the slide plate 25 in the preventer there is a self-contained screw drive, the design of which is similar to the design of the standalone drives of the dies 13.

When the upper part of the axial channel is tapered, the upper flange 2 has through lateral radial holes 26. The minimum number of holes 26 is two, however, it is possible to use a larger number of such holes. Each hole 26 is designed to install in it a means of fixing 27 of the sealing insert 28, the working shank 37 of which is made with a longitudinal conical flat 38, interacting with the conical surface 39 of the sealing insert 28. The holes 26 can be located at the same angle relative to each other, and from different angles.

On the end part 29 of the flanges 2,3, an annular groove 30 is made, which serves to accommodate the sealing ring 32.

On the outer side of the housing 1 in the area between the side covers 10, 11, covering the upper side channel 5, the implementation of the stiffeners 33.

The housing 1 additionally has a cavity for supplying a coolant through a cover with a fitting. The heat carrier is removed through the cover on the other side of the housing.

When using a preventer, its lower flange 3 is mounted on the upper flange of the wellhead reinforcement and fastened to the latter. In the initial state, the dies 13 are located in the extreme open position. To ensure the sealing of pipes placed in the well and previously fixed by means of fixation placed in the radial holes, autonomous screw drives of the dies are actuated 13. As a result, the dies 13 begin to move toward the pipe from their extreme open position to the extreme closed position, in which they come into contact with the sealed pipe and tightly compress it. The depressurization of the pipes is carried out by moving the dies 13 to the extreme open positions in the reverse sequence. In the absence of pipes in the well, the axial channel 4 is closed with a slide plate 25, which for this is moved by a self-contained screw drive in the direction of the vertical axis of the housing 1. The preventer ensures safe operation of the well, the prevention of emissions and open fountains and the protection of the subsoil and the environment in accordance with regulatory requirements.

Claims (7)

1. A preventer comprising a housing with upper and lower flanges, having a through axial channel for passage of pipes being lowered into the well, two upper side channels located opposite to each other, oriented perpendicular to the axial channel and closed by side covers, and made under the upper channels and closed by side cover the lower side channel, the axis of which is located at an angle to the axis of the upper side channels, a ram valve located inside the housing, containing two oppositely located sealing plates pipe diameters along the outer diameter, installed in the upper side channels of the housing with the possibility of movement in the direction perpendicular to the axial channel, a movable gate plate designed to block the through axial channel in the absence of pipes in the well and installed in the lower side channel with the ability to move in the direction perpendicular axial channel, and one stand-alone screw drive for each die and for the slide plate installed in the corresponding side cover, different t The housing is equipped with load-gripping elements and is made of one-piece with load-gripping elements made of alloy steel, the through axial channel in the body is either completely cylindrical, or the part of this channel located above the upper side channels is made conical, facing the large base of the cone outward, while at least two lateral radial through holes are made in the execution of the axial channel part conical in the upper flange, each of which is designed for the tight placement of means and fixing the sealing insert, while working shank fixation means is formed with a longitudinal flattened conical, and the end parts of the upper and lower flanges formed an annular groove for housing a seal ring, and on the outer sides in the housing portions between the side flanges formed stiffening ribs. 2. The preventer according to claim 1, characterized in that the screw drive of the die is installed hermetically and is made with a two-stage screw located in the drive housing with a right-hand thread on one of its steps, interacting with the drive body, and a left-hand thread on another step, interacting with a ram pusher arranged to move in the drive housing, in order to control the position of the movable ram on the end part of a two-stage screw carrying a thread of right-hand winding, s annular protrusion, which serves as end stop during closing movement of the screw ram and annular grooves, the distance between which is correlated with the course of the movable die from one extreme position to the other, wherein one of the circumferential grooves adjacent to the annular flange. 3. The preventer according to claim 1, characterized in that the upper surface of the slide plate is sloped to the free end, and its side faces are provided with longitudinal grooves made parallel to the lower horizontal surface of the slide plate. 4. The preventer according to claim 1, characterized in that the screw drive of the slide plate is sealed, made with a two-stage screw located in the drive housing with a right-hand thread on one of its stages, interacting with the drive body, and a left-hand thread on another level, interacting with a slide plate pusher located with the possibility of displacement in the drive housing, at the same time, for controlling the position of the movable slide plate, on the end part of a two-stage screw carrying threads on the right-hand winding, an annular protrusion and annular grooves are made, the distance between which is correlated with the movement of the slide plate from one extreme position to another, while one of the annular grooves is adjacent to the annular protrusion. 5. The preventer according to claim 1, characterized in that the lateral radial through holes in the upper flange are located relative to each other at the same angle. 6. The preventer according to claim 1, characterized in that the screw drive screw has a shank for installing the helm of the screw drive. 7. The preventer according to claim 1, characterized in that when it is assembled, the ratio of the distance between the outer ends of the side covers covering the upper side channels and the distance between the ends of the preventer housing adjacent to the inner ends of these side covers is from 1.45 to 1.7.