RU59698U1 - WELL MOUNT SEALER AND INSERT FOR SEALING TUBE COMPANIES WITH A CABLE OR WITHOUT A CABLE - Google Patents

Abstract

The utility model relates to the design of a sealant used to seal the mouth of oil and gas wells, as well as to the design of an insert for sealing pipe assemblies with or without cable. The sealant contains a base with a through axial channel and an insert for sealing pipe assemblies with or without cable, installed in the base channel. The insert is fixed at the base with sliders moving in the radial channels of the upper base flange. The insert body has a through axial channel and a lateral longitudinal groove open from the outside. An annular sealing collar is installed on the side surface of the lower part of the casing, which has a through longitudinal groove for the cable or plug and a slot for forming a petal that bends outward when filling the cable into the groove of the cuff. To close the axial channel of the insert body during sealing of the wellhead, a ball valve is used, which consists of a ball with a through diameter hole installed inside the insert body and means for turning the ball from the “open” position to the “closed” position and vice versa. In the “open” position, the hole of the ball coincides with the axial channel of the insert body. In the “closed” position, the surface of the ball overlaps the axial channel of the insert body. The sleeve installed inside the insert body from the side of its upper end and the insert body portion adjacent to the ball form the upper seat and lower seat of the ball, respectively. Supporting elements are in contact with the ball, each of which is made in the form of a ring. On the end surface of the ring there is an annular shoulder resting on the surface of the saddle facing it. The utility model allows to expand the technological capabilities of the sealant and insert and increases the service life of the sealant as a whole and the insert used in it for sealing pipe assemblies.

Description

The utility model relates to wellhead equipment used in oil and gas wells. Specifically, the claimed utility model relates to the design of a sealant used to seal the mouth of oil and gas wells in order to prevent gas and oil occurrences during routine or major repairs of wells, including for sealing an ESP cable of the KPPPP type or KPPBK type (round cable) and insert designs for sealing pipe assemblies with or without cable.

A wellhead sealant is known, comprising a base with a through axial channel provided with upper and lower flanges, an insert for sealing pipe assemblies with or without cable, installed in the axial channel of the base, sliders for fixing the insert in the base, arranged to move in radial channels, made in the upper flange of the base, and means of moving the sliders in the radial channels. The insert contains a housing with a through axial channel and a lateral longitudinal groove for accommodating a cable or plug, open outside, an annular sealing collar on the side surface of the lower part of the housing, which is used for installation in the axial channel of the base, having a through longitudinal groove under the cable or plug and a slot for forming the cuff of the cuff, bent outward when filling the cable into the groove of the sealing cuff (see RU 2160354 C1, 2000). The known design is intended for sealing pipe assemblies both with an electric cable and without a cable, however, it does not provide sufficiently reliable sealing of the wellhead.

A wellhead sealant is known, comprising a base with a through axial channel provided with upper and lower flanges, an insert for sealing pipe assemblies installed in the axial channel of the base, sliders for fixing the insert in the base, arranged to move

in radial channels made in the upper flange of the base, and means for moving the sliders in the radial channels. The insert contains a housing with a through axial channel, a ball valve to close the axial channel of the insert housing when sealing the wellhead, and a sleeve with a flange located inside the insert housing from the side of its upper end. The lower part of the insert body, used for installation in the axial channel of the base, is provided externally with ring sealing elements. The ball valve consists of a ball mounted inside the insert body with the possibility of rotation around an axis perpendicular to the axis of the channel of the insert body and having a through diameter hole and means for turning the ball from the “open” to the “closed” position and vice versa, the ball being located in the housing the insert in such a way that when the position is “open” the hole of the ball coincides with the axial channel of the insert body, and when the position is “closed” the surface of the ball overlaps the axial channel of the insert body. The sleeve and the body portion adjacent to the ball form the upper seat and lower seat of the ball, interacting with the latter through support elements contacting the ball, each of which is made in the form of a ring (see RU 2160355, 2000). The specified technical solution is analogous to both the inventive sealant and the insert for sealing pipe assemblies. A disadvantage of the known design is the impossibility of using it to seal pipe assemblies with or without cable. Moreover, the structural embodiment of the ball mounting unit used in the well-known technical solution inside the insert does not allow to “smooth out” the loads that occur during rotation of the ball and during operation of the insert on supporting elements (rings) in contact with the ball. As a result of this, unwanted premature wear of the ball valve occurs and thereby reduces the life of the sealant as a whole and the insert used therein. The means of turning the ball from the "open" to the "closed" position and vice versa, used in the known technical solution, has a complex structure, providing for the presence of additional elements to limit the rotation of the ball. The insert sleeve forming the upper seat is connected to the insert body by means of radially mounted keys, closed

from above a split spring ring covering the sleeve and the housing in the area of their connection; the use of a split spring ring in the specified connecting node does not provide a rigid fastening of the sleeve with the housing, necessary for reliable operation of the insert.

The closest analogue to the claimed group of utility models is a wellhead sealant containing a base with a through axial channel provided with upper and lower flanges, an insert for sealing pipe assemblies installed in the axial channel of the base, sliders for fixing the insert in the base, arranged to move in radial channels made in the upper base flange, and means for moving the sliders in the radial channels. The insert presented in this analogue contains a body with a through axial channel, the lower part of which is used for installation in the axial channel of the base, is provided with ring sealing elements from the outside, a ball valve to block the axial channel of the insert body when sealing the wellhead, and located inside the insert body from the side its upper end, a sleeve with a flange resting on the upper end of the insert body. The ball valve consists of a ball mounted inside the insert body with the possibility of rotation around an axis perpendicular to the axis of the channel of the insert body and having a through diameter hole and means for turning the ball from the “open” to the “closed” position and vice versa, the ball being located in the housing the insert in such a way that when the position is “open” the hole of the ball coincides with the axial channel of the insert body, and when the position is “closed” the surface of the ball overlaps the axial channel of the insert body. The sleeve and the body portion adjacent to the ball, respectively form the upper saddle and lower saddle of the ball, interacting with the latter through the contact elements contacting the ball, each of which is made in the form of a ring (see RU 2191884 C2, 2002). The specified technical solution is analogous to both the inventive sealant and the insert for sealing pipe assemblies. The known design also cannot be used for sealing pipe assemblies, both with cable and without cable. Used in the known technical solution, the structural implementation of the installation site of the ball

inside the insert also does not allow to “smooth out” the loads that occur during rotation of the ball and during operation of the insert on the supporting elements (rings) in contact with it, as a result of which unwanted premature wear of the ball valve occurs and thereby reduces the life of the sealant as a whole and used in mute insertion. The insert sleeve forming the upper seat is connected to the insert body by means of radially mounted dowels, closed from above with a split spring ring covering the sleeve and the body in the area of their connection; the use of a split spring ring in the specified connecting node as well as in the above first analogue does not provide a rigid fastening of the sleeve with the housing necessary for reliable operation of the insert.

The technical result that is achieved by using the proposed group of utility models is to expand the technological capabilities of both the sealant and the sealing insert due to the possibility of using them to seal pipe assemblies, both with cable and without cable, as well as to increase the life of the sealant in general, and inserts used therein for sealing pipe assemblies while ensuring reliable sealing of the wellhead.

To achieve the specified technical result, a wellhead sealant is proposed which comprises a base with a through axial channel provided with upper and lower flanges, an insert for sealing pipe assemblies with or without cable, installed in the axial channel of the base, sliders for fixing the insert in the base, located with the ability to move in radial channels made in the upper flange of the base, and means of moving the sliders in the radial channels. The insert contains a housing with a through axial channel and a lateral longitudinal groove for accommodating a cable or plug, open outward, an annular sealing collar on the side surface of the lower part of the housing, which serves for installation in the axial channel of the base, a ball valve to close the axial channel of the insert body when sealing the wellhead , and a sleeve with a flange located inside the insert body from the side of its upper end. Sealing cuff

has a through longitudinal groove under the cable or plug and a slot for the formation of a petal cuff, bent outward when the cable is inserted into the groove of the sealing cuff. The ball valve consists of a ball mounted inside the insert body with the possibility of rotation around an axis perpendicular to the axis of the channel of the insert body and having a through diameter hole and means for turning the ball from the “open” to the “closed” position and vice versa, and the ball is located in the housing the insert in such a way that when the position is “open” the hole of the ball coincides with the axial channel of the insert body, and when the position is “closed” the surface of the ball overlaps the axial channel of the insert body. The sleeve and the body portion adjacent to the ball, respectively, form the upper saddle and lower saddle of the ball, interacting with the latter through the supporting elements in contact with the ball - saddles, each of which is made in the form of a ring having an end surface facing its corresponding saddle in its zone the outer peripheral part of the annular shoulder, resting on facing the surface of the corresponding saddle.

The lower part of the insert body, which is used for installation in the axial channel of the base, has a conical shape, while the through axial channel of the base is conical at least in part of its length, and the conical surface of the lower part of the insert body corresponds to the lateral surface of the conical part of the base channel.

The sleeve is installed in the insert body by means of a threaded connection, while on the lateral surface of the axial hole of the sleeve, a thread is made for a threaded pipe to be connected from above.

The sleeve is fixed from turning on the insert body by means of fasteners, for example, screws passing through the sleeve flange and the upper portion of the body, with the axis of each fastener being parallel to the axis of the axial channel of the insert.

The means for turning the ball from open to closed and vice versa contains a rotary shaft located in the side channel made in the insert body, perpendicular to the axis of the body axial channel and connected to the ball, and a handle mounted on the shaft of the rotary shaft.

The rotary shaft is made in the form of a cylindrical stepped rod with steps of a smaller and a larger diameter, while steps of a smaller diameter are limited on both sides by steps of a larger diameter with the formation of annular grooves in which the ring sealing elements of the shaft are located.

On the side surface of the lower part of the insert body, which is used for installation in the axial channel of the base, an annular groove is made for the sliders to enter when the insert is fixed in the base.

The lower part of the plug in the cross section has the shape of a groove made in the sealing collar, and the upper has supporting shoulders located in the annular groove of the insert body flush with the outer surface of the body.

The insert is equipped with a hinged segment installed in the area of the lower part of the longitudinal groove of the insert body with the possibility of rotation on an axis fixed in the housing, while on the inner surface of the segment there is a socket that covers the lower part of the plug when it is installed in the groove of the sealing collar.

The wall of each radial channel, made in the upper base flange, has a threaded section on the side of the flange’s side surface, and each means of moving the sliders in the radial channels contains a handle mounted in the shell, as well as a coaxially located sleeve placed in the radial channel on the side of the side surface the upper flange and having a threaded portion on its outer surface, interacting with a threaded portion of the wall of the radial channel, and a threaded portion on its inner surface spine, and a holder having the shape of a cup, fitted from the side of its open end to the tail of the slider and having a thread on its outer surface that interacts with a threaded portion on the inner surface of the sleeve, and on the outer side of the bottom of the cup a shank is made on which, by means of a detachable connection fixed handle clip.

On the end surfaces of the upper and lower flanges of the base, annular grooves are made, which serve to accommodate the sealing ring.

The shell of the handle of the means for moving the sliders is mounted on the shank of the glass by means of a screw installed in the side wall of the shell.

The slider has a cylindrical shape, with the diameter of the main part of the slider adjacent to its tail part being larger than the diameter of the tail part, the glass being made with the possibility of acting with its open end upon its movement on the end face of the main part of the slider formed on the section of the diameter difference of the parts of the slider.

On the outer surface of the main part of the slider there is a groove in which the stopper is located, located in the hole made in the upper flange, which makes it possible to prevent the slider from turning in the radial channel during translational movement.

An annular groove is made on the outer surface of the main part of the slider, in which the sealing ring is located.

As the second object of the group of utility models, an insert is proposed for sealing pipe assemblies with or without a cable, which contains a housing with a through axial channel and a lateral longitudinal groove for accommodating a cable or plug extending outward and covered by a hinged segment, an annular sealing collar on the side surface of the lower part of the body used for installation in the axial channel of the base, a ball valve to close the axial channel of the insert body when sealing the wellhead, and located inside wipe the insert body from the side of its upper end the sleeve with the flange. The sealing cuff has a through longitudinal groove for the cable or plug and a slot for forming a petal of the cuff, bending outward when the cable is inserted into the groove of the sealing cuff. The ball valve consists of a ball mounted inside the insert body with the possibility of rotation around an axis perpendicular to the axis of the channel of the insert body and having a through diameter hole and means for turning the ball from the “open” to the “closed” position and vice versa, and the ball is located in the housing inserts in such a way that when the position is “open” the hole of the ball coincides with

the axial channel of the insert body, and in the closed position, the surface of the ball overlaps the axial channel of the insert body. The sleeve and the body portion adjacent to the ball, respectively, form the upper saddle and lower saddle of the ball, interacting with the latter through the supporting elements in contact with the ball - saddles, each of which is made in the form of a ring having an end surface facing its corresponding saddle in its zone the outer peripheral part of the annular shoulder, resting on facing the surface of the corresponding saddle.

The lower part of the insert body, which is used for installation in the axial channel of the base of the sealant of the wellhead, has a conical shape corresponding to the conical surface of the axial channel of the base.

The sleeve is installed in the insert body by means of a threaded connection, while on the lateral surface of the axial hole of the sleeve, a thread is made for a threaded pipe to be connected from above.

The sleeve is fixed to the insert body by means of fasteners, for example screws passing through the sleeve flange and the upper portion of the body, with the axis of each fastener being parallel to the axis of the insert axial channel.

The means for turning the ball from open to closed and vice versa contains a rotary shaft located in a side channel made in the insert body, perpendicular to the axis of the body axial channel and connected to the ball, and a handle mounted on the shaft end of the rotary shaft. The rotary shaft is made in the form of a cylindrical stepped rod with steps of a smaller and a larger diameter, while steps of a smaller diameter are limited on both sides by steps of a larger diameter with the formation of annular grooves in which the ring sealing elements of the shaft are located.

On the side surface of the lower part of the insert body, which is used for installation in the axial channel of the base, an annular groove is made for the sliders to enter when the insert is fixed in the base.

The entire plug in the cross section has the shape of a groove in the cross section has the shape of a groove made in a sealing collar, and the top has

supporting shoulders located in the annular groove of the insert body flush with the outer surface of the body.

The insert is equipped with a hinged segment installed in the area of the lower part of the longitudinal groove of the insert body with the possibility of rotation on an axis fixed in the housing, while on the inner surface of the segment there is a socket that covers the lower part of the plug when it is installed in the groove of the sealing collar.

The implementation of the insert body with a lateral longitudinal groove extending outward and overlapped by a hinged segment, and an annular sealing collar with a through longitudinal groove and with a slot for forming a petal bent outward, provides the possibility of sealing pipe assemblies as with a cable (the cable is threaded into the longitudinal grooves the insert body and the sealing sleeve), and without cable (in this case, the groove of the sealing sleeve is plugged with a stopper). This embodiment allows you to expand the technological capabilities of both the sealant and the sealing insert.

Due to the implementation of the ring support elements used in the ball valve, which contact the ball with the annular collar, these elements rely on the surface of the corresponding saddle facing them only by means of the collar, while the rest of the ring forms an annular cantilever from the side of the ring opening, which is largely it absorbs the effect of the loads arising during the rotation of the ball and during operation of the insert on the supporting elements in contact with the ball. As a result, premature wear of the ball and supporting elements - the seat (rings) is prevented and the service life of the sealant as a whole and the insert used in it is increased. The connection of the insert sleeve forming the upper saddle with the insert body by means of fasteners extending vertically through the sleeve flange and the upper part of the body provides a rigid fastening of the sleeve to the body, which is necessary for reliable operation of the insert installed in the sealant.

The utility model is illustrated by drawings, where:

figure 1 shows the base of the sealant wellhead, front view with a partial section;

figure 2 - insert for sealing pipe assemblies, front view with a partial section;

figure 3 is an insert for sealing pipe assemblies, a side view from the side of the handle;

figure 4 - insert for sealing pipe assemblies, top view;

figure 5 is an insert for sealing pipe assemblies, a side view from the side of the tube;

figure 6 is a hinged segment, a top view.

The sealant of the wellhead during geophysical work contains a base 1 with a through axial channel 2 and an insert 3 for sealing pipe assemblies. Advantageously, the housing 4 of the base 1 is cylindrical. The channel 2 in the base 1 can be made cylindrical along its entire length or conical, at least in part of its length, as shown in figure 1. When the channel 2 is conical, the larger base of the cone is facing outward from the upper flange.

The base 1 has a lower flange 5 and an upper flange 6. In the upper flange 6 there are made radial through channels 7. The wall 8 of each radial channel 7 from the side of the side surface 9 of the upper flange 6 has a threaded section 10.

An insert 3 is installed in the through axial channel 2 of the base 1 to seal the pipe assemblies.

The insert comprises a housing 11 with a through axial channel 12. The lower part 13 of the housing 11 has a conical shape and is used for installation in the conical part of the channel 2 of the base 1. The conical surface of the lower part 13 corresponds to the side surface of the conical part of the channel 2. On the side surface of the lower part of the channel 12 thread 14 is made under the pipe 3 connected to the bottom of the insert 3 with a threaded nipple that is screwed to the tubing. On the side surface of the lower part 13 of the housing 11 is made

an annular groove 15 in which an annular sealing collar 16 is mounted.

Inside the housing 11, on the side of its upper end 17, a sleeve 18 is installed with a flange 19, which rests on the upper end 17 of the housing 11. The axial hole 20 of the sleeve 18 forms part of the axial channel 12 of the housing 11.

The sleeve 18 is installed in the housing 11 by means of a threaded connection 21. On the lateral surface of the axial hole 20 of the sleeve 18, a thread 22 is made under the threaded nipple of the tubing.

Additionally, the sleeve 18 is fixed to the housing 11 by means of fasteners, for example screws 23, which pass through the flange 19 of the sleeve 18 and the upper portion of the housing 11. The axis of each screw 23 is parallel to the axis of the insert channel 12. The flange 19 has slots 24 for deepening the heads of the screws 23 in them.

A ball valve is located in the insert body 11 to close the axial channel 12 of the body 11 when sealing the wellhead.

The ball valve consists of a ball 25, which is installed inside the housing 11 of the insert 3, and means 26 for turning the ball. The ball 25 is installed in the housing 11 with the possibility of rotation around the axis 27, perpendicular to the axis 28 of the channel 12 of the housing 11 of the insert 3. In the body of the ball 25, a through diameter hole 29 is made. The means 26 ensures the rotation of the ball 25 from the open position to the closed position, and vice versa, while the ball 25 is located in the housing 11 of the insert 3 in such a way that when the "open" position, the hole 29 of the ball 25 coincides with the axial channel 12 of the housing 11 of the insert 3, and when the position is "closed" the surface of the ball 25 overlaps the axial channel 12.

The sleeve 18 and the portion 30 of the housing 11 adjacent to the ball 25 form, respectively, the upper saddle and lower saddle of the ball 25, which interact with the ball 25 through the supporting elements. Each of the supporting elements - saddles is made in the form of a ring 31, for example, from a copolymer of polyamide 610L. The shape of the surface 32 of the ring 31 interacting with the ball 25 corresponds to the surface of the ball. On the end surface of each ring 31 facing the corresponding saddle there is an annular shoulder 33, which forms an annular step protruding above said end surface and rests

on the surface facing it (positions 34 and 35) of the corresponding saddle. An annular collar 33 is located in the area of the outer peripheral part of the ring 31 and its outer side surface is a continuation of the outer side surface of the ring 31. Thus, the collar 33 is integral with the ring 31 and forms a stepped profile together with the ring. In this embodiment, the part of the ring 31 located outside the shoulder 33 forms an annular console 36 from the side of the opening of the ring.

The tool 26 for turning the ball 25 comprises a shaft 37 mounted for rotation in the side channel 38 made in the insert body 11 of the insert 3. The axis of the channel 38 is perpendicular to the axis of the axial channel 12 of the insert body 11. The shaft 37 is made in the form of a cylindrical stepped rod with steps 39 of a smaller diameter and steps 40 of a larger diameter. Steps 39 of smaller diameter are bounded on both sides by steps 40 of larger diameter to form annular grooves 41. In the grooves 41 are located ring sealing elements 42. At one end of the shaft 37 there is a shank 43 on which a handle 44 is mounted that controls the rotation of the shaft 37, and the end face of the shank 43 is made risk identifying the position of the ball. At the other end of the shaft 37, a shank 45 is provided, mounted in the socket 46 of the ball 25, made from the side of the lateral surface of the latter.

An annular groove 47 is made on the lateral surface of the conical lower part of the housing 11 of the insert 3.

In the insert body 11, a lateral longitudinal vertical groove 48 is made open outside (i.e., facing out). The annular sealing collar 16 has a through longitudinal groove 49, which, depending on the cable cross-section, is either round or oval, which, when the insert is assembled, is a continuation of the groove 48. A slot 50 is made in the cuff 16, which extends into the groove zone 49 on one side. and on the other, on the outer side surface of the cuff 16. Due to the slot 50, part of the cuff 16 forms an outward bending petal 51.

In the design of the insert, a plug 52 is used, which plugs the groove 49 when the pipes are sealed without cable. Transverse section

the bottom of the plug 52 follows the shape of the groove 49. At the top of the plug 52 there are shoulders 53 which, when the plug is inserted into the groove 49 of the cuff 16, are located in the annular groove 47 flush with the side surface of the lower part of the insert body 11.

In the lower part of the groove 48, a hinged segment 54 is mounted, which can be rotated around an axis 55 fixed in the insert body 11. A slot 56 is formed on the inner surface of segment 54, which covers the lower part of plug 52 when it is installed in groove 49 and when the segment is placed flush with the side surface of the insert body 11 and the side surface of the cuff 16.

In each radial channel 7 of the upper flange 6 of the base 1, there is a slider 57, which, when moved in the direction of the vertical axis of the base 1, enters the annular groove 47, made on the side surface of the lower part of the housing 11 of the insert 3, and fixes the insert in the base 1. On the outer surface the slider 57 is made an annular groove 58, in which the sealing ring 59 is located. In addition, on the outer surface of the main part 60 of the slider 57 there is a groove 61, which includes a stopper 62 located in the hole made in Khnemu flange 6. The limiter 62 eliminates the rotation of the slider 57 in the radial duct 7 during forward movement of the slider.

There is a means of moving the slider 57 in the radial channel 7, which contains a handle 63 mounted in the holes 64 of the shell 65 perpendicular to the axis of the latter. The handle 63 can move in the holes 64 relative to the shell 65. In addition, the means for moving the slider 57 includes a coaxially arranged sleeve 66 with a flange and a sleeve 67.

The sleeve 66 is installed in the radial channel 7 from the side of the side surface of the upper flange 6. On the outer surface of the sleeve 66 there is a threaded section that interacts with the threaded section 10 of the wall of the radial channel 7. On the inner surface of the sleeve 66, a threaded section 68 is provided.

The holder 67 is in the form of a glass, planted from the side of its open end on the tail portion 69 of the slider 57. The diameter of the tail portion 69 is smaller

the diameter of the main part 60 of the slider 57. On the outer surface of the glass, a thread is made that interacts with the threaded section 68 on the inner surface of the sleeve 66. The bottom of the glass protrudes beyond its lateral surface, forming a shoulder 70, which on one side can abut against the flange of the sleeve 66, and on the other in contact with the end face of the shell 65.

A shank 71 is made on the outside of the bottom of the beaker, on which the shell 65 is mounted until it stops against the shoulder 70. The shell 65 is fixed to the shank 71 by means of a screw 72.

There is a throttle hole 73 in the bottom part and the shank of the cup for supplying lubricant to the threaded parts of the cup and sleeve

On the end surfaces 74 of the upper flange 6 and the lower flange 5, annular grooves 75 are made, which serve to accommodate the sealing ring.

When installing a removable insert 3 in the base 1, the insert is previously assembled in a single unit. Place the handle 44 on the shank 43 of the shaft 37. Check the position of the ball valve in the insert 3 by the location of the risks that exists on the rotary shaft 37. If the risk is located along the longitudinal axis (vertically) - the ball is open, if the risk is located perpendicular to the longitudinal axis (horizontal) - the ball is closed. If necessary, the ball is transferred using the removable handle 44 to the desired position. After setting the ball in the closed position, the handle is removed and the insert is ready for operation.

Attach to the insert 3 a lifting pipe from above under the size of the pipe elevator and a threaded nipple from below under the size of the riser tubing. The resulting assembly is placed in the operator’s area of operation at the well, observing the current standards for safe work at the well.

In the case when the pipes are sealed without a cable (electric cable), a plug 52 is installed in the groove 49 of the sealing collar 16. The shoulders 53 are placed in the annular groove 47 flush with the outer side surface of the insert body 11, which is then installed in the axial channel 2

of the base 1. Synchronously rotate the two handles 63 of the sliders 57 (7-9 turns clockwise), thereby fixing the insert 3 in the base 1 with sliding sliders 57, which, when the arms 63 rotate, move in the direction of the central axis of the base 1 and go into the annular groove 47, made on the side surface of the lower part 13 of the insert body 11. In this case, the cork is oriented and placed between the sliders.

If it is necessary to seal the wellhead with a pipe-cable suspension, the prepared insert is screwed onto the tubing string. The hinged segment 54 is turned outwardly and the plug 52 is removed from the groove 49 of the sealing collar 16. A mount is inserted into the groove 49 by means of which the tab 51 of the collar 16 is bent outward and the cable is inserted into the groove 49 of the cuff through the gap formed. The hinged segment 54 and the lobe 51 of the cuff 16 are returned to their original position, flush with the side surface of the insert and cuff. Insert the insert into the axial channel 2 of the base 1. Synchronously rotate the two handles 63 of the sliders 57 (7-9 turns clockwise), thereby fixing the insert 3 in the base 1 with sliding sliders 57.

Claims (26)

1. A wellhead sealant, characterized in that it comprises a base with a through axial channel provided with upper and lower flanges, an insert for sealing pipe assemblies with or without cable, installed in the axial channel of the base, sliders for fixing the insert in the base, located with the ability to move in radial channels made in the upper flange of the base, and means for moving the sliders in the radial channels, while the insert contains a housing with a through axial channel and a lateral longitudinal groove m to accommodate a cable or plug, open outside, an annular sealing collar on the side surface of the lower part of the housing, used for installation in the axial channel of the base, having a through longitudinal groove for the cable or plug and a slot for forming a petal of the cuff, bent outward when the cable is inserted into the groove sealing cuff, ball valve to block the axial channel of the insert body when sealing the wellhead, and a sleeve with a flange located inside the insert body from the side of its upper end, ball valve the thief consists of a ball mounted inside the insert body with the possibility of rotation around an axis perpendicular to the axis of the channel of the insert body and having a through diameter hole, and means for turning the ball from the open position to the closed position and vice versa, the ball being located in the insert body so that in the “open” position the hole of the ball coincides with the axial channel of the insert body, and in the “closed” position, the surface of the ball overlaps the axial channel of the insert body, with the sleeve and the portion of the body adjacent to the ball, respectively form an upper saddle and a lower saddle of the ball, interacting with the latter through the contact elements-saddles in contact with the ball, each of which is made in the form of a ring made of copolymer of polyamide 610L having on its facing the corresponding saddle the end surface in the area of its outer peripheral parts of the annular shoulder, resting on the surface of the corresponding saddle facing it. 2. The sealant according to claim 1, characterized in that the lower part of the insert body, which is used for installation in the axial channel of the base, has a conical shape, while the through axial channel of the base is conical at least in part of its length, and the conical surface the lower part of the insert body corresponds to the lateral surface of the conical part of the base channel. 3. The sealant according to claim 1, characterized in that the sleeve is installed in the insert body by means of a threaded connection, while a thread is made on the lateral surface of the axial hole of the sleeve for a threaded pipe to be connected from above. 4. The sealant according to claim 1, characterized in that the sleeve is fixed to the insert body by means of fasteners, for example screws passing through the sleeve flange and the upper portion of the housing, wherein the axis of each fastener is parallel to the axis of the insert axial channel. 5. The sealant according to claim 1, characterized in that the means for turning the ball from open to closed and vice versa contains a rotary shaft located in the side channel made in the insert body, perpendicular to the axis of the body axial channel and connected to the ball, and a handle installed on the shank of the rotary shaft. 6. The sealant according to claim 5, characterized in that the rotary shaft is made in the form of a cylindrical step rod with steps of smaller and larger diameter, while steps of a smaller diameter are limited on both sides by steps of a larger diameter with the formation of annular grooves in which the ring sealing elements are located shaft. 7. The sealant according to claim 1, characterized in that on the side surface of the lower part of the insert body, which is used for installation in the axial channel of the base, an annular groove is made for the sliders to enter when fixing the insert in the base. 8. The sealant according to claim 7, characterized in that the lower part of the plug in cross section has the shape of a groove made in a sealing collar, and the upper has supporting shoulders located in the annular groove of the insert body flush with the outer surface of the body. 9. The sealant according to claim 7, characterized in that the shape of the groove of the sealing collar corresponds to the cross-section of the cable, and the collar itself is replaceable. 10. The sealant according to claim 8, characterized in that the insert is equipped with a hinged segment mounted in the area of the lower part of the longitudinal groove of the insert body with the possibility of rotation on an axis fixed in the housing, while on the inner surface of the segment there is a socket that covers the lower part of the plug when installing it in the groove of the sealing sleeve. 11. The sealant according to claim 1, characterized in that the wall of each radial channel, made in the upper flange of the base, has a threaded section on the side of the side surface of this flange, and each means of moving the sliders in the radial channels contains a handle mounted in the shell, and coaxially located sleeve located in the radial channel from the side of the side surface of the upper flange and having a threaded section on its outer surface, interacting with the threaded section of the wall of the radial channel and a threaded section on its inner surface, and a holder having the shape of a glass, fitted from its open end to the tail of the slider and having a thread on its outer surface that interacts with the threaded section on the inner surface of the sleeve, and on the outer side of the bottom of the glass a shank is made on which the handle clip is fixed by means of a detachable connection. 12. The sealant according to claim 10, characterized in that the shell of the handle of the means for moving the sliders is mounted on the shank of the glass by means of a screw installed in the side wall of the shell. 13. The sealant according to claim 10, characterized in that the slider has a cylindrical shape, while the diameter of the main part of the slider, to which its tail part adjoins, is larger than the diameter of the tail part, and the glass is made with the possibility of impact with its open end when moving on the end the main part of the slider formed on the plot of the diameter difference of the parts of the slider. 14. The sealant according to item 12, characterized in that on the outer surface of the main part of the slider there is a groove in which the stopper is located, located in the hole made in the upper flange, and eliminating the rotation of the slider in the radial channel during translational movement. 15. The sealant according to item 12, characterized in that on the outer surface of the main part of the slider is made an annular groove in which the o-ring is located. 16. The sealant according to claim 1, characterized in that on the end surfaces of the upper and lower flanges of the base ring grooves are made, which serve to accommodate the sealing ring. 17. An insert for sealing pipe assemblies with or without cable, characterized in that it comprises a housing with a through axial channel and a lateral longitudinal groove for accommodating the cable or plug, which extends an annular sealing collar on the side surface of the lower part of the housing, which is used for installation in an axial channel of the base having a through longitudinal groove for the cable or plug and a slot for forming a petal of the cuff, bent outward when filling the cable into the groove of the sealing cuff, ball valve for per covering the axial channel of the insert body when sealing the wellhead, and a sleeve with a flange located inside the insert body from the side of its upper end, a gap is made between the sleeve flange and the upper end of the body, and the ball valve consists of a ball rotatably mounted inside the insert body around an axis perpendicular to the axis of the channel of the insert body, and having a through diametrical hole, and means for turning the ball from the "open" to the "closed" position and vice versa, and the ball is located in the insert housing in such a way that, in the “open” position, the hole of the ball coincides with the axial channel of the insert body, and in the “closed” position, the surface of the ball overlaps the axial channel of the insert body, with the sleeve and the body portion adjacent to the ball form the upper saddle and lower the saddle of the ball interacting with the latter through the supporting elements in contact with the ball - saddles, each of which is made in the form of a ring having an end surface facing its corresponding saddle in the area of its outer peripheral part of the annular shoulder, resting on facing the surface of the corresponding saddle. 18. The insert according to clause 16, characterized in that the lower part of the insert body, which is used for installation in the axial channel of the base of the sealant of the wellhead, has a conical shape corresponding to the conical surface of the axial channel of the base. 19. The insert according to clause 16, characterized in that the sleeve is installed in the insert body by means of a threaded connection, while a thread is made on the lateral surface of the axial hole of the sleeve for a threaded pipe to be connected from above. 20. The insert according to clause 16, characterized in that the sleeve is fixed to the insert body by means of fasteners, for example, screws passing through the sleeve flange and the upper part of the housing, while the axis of each fastener is parallel to the axis of the axial channel of the insert. 21. The insert according to clause 16, characterized in that the means for turning the ball from open to closed and vice versa contains a rotary shaft located in the side channel made in the insert body, perpendicular to the axis of the body axial channel and connected to the ball, and a handle mounted on shank of the rotary shaft. 22. The insert according to clause 16, characterized in that the rotary shaft is made in the form of a cylindrical step rod with steps of smaller and larger diameter, while steps of a smaller diameter are limited on both sides by steps of a larger diameter with the formation of ring grooves in which the ring sealing elements are located shaft. 23. The insert according to clause 16, characterized in that on the side surface of the lower part of the insert body, which is used for installation in the axial channel of the base, an annular groove is made for the sliders to enter when fixing the insert in the base. 24. The insert according to claim 22, characterized in that the lower part of the plug in cross section has the shape of a groove made in a sealing collar, and the upper has supporting shoulders located in the annular groove of the insert body flush with the outer surface of the body. 25. The insert according to item 23, characterized in that it is equipped with a hinged segment mounted in the area of the lower part of the longitudinal groove of the insert body with the possibility of rotation on an axis fixed in the housing, while on the inner surface of the segment there is a socket that covers the lower part of the tube when installing it in the groove of the sealing sleeve. 26. The insert according to item 23, characterized in that the groove of the sealing sleeve is made in accordance with the cross-section of the cable, and the sleeve itself is replaceable.