RU60969U1 - Wellhead locking unit STRONG - Google Patents

Abstract

The utility model relates to the construction of the wellhead shut-off unit, which is a ball valve mounted on a string of tubing and threads on the tubing and designed to shut off the internal pipe channel during flushing operations. The ball valve is used in the shut-off assembly kit for routine and major well repairs, and can also be used in surface communications of wellhead equipment. The ball valve of the wellhead shut-off unit includes a housing with an axial channel and with a threaded section at one of its ends for installing the shut-off unit on a string of tubing and drill pipe. Inside the housing is a ball having a through diameter hole. The ball has the ability to rotate from the "open" position to the "closed" position and vice versa. The ball is installed in the ring support elements - saddles. The pressing of the supporting elements to the surface of the ball is carried out by a nut, which has a threaded thread on its outer side surface, interacting with the threaded section on the surface of the axial channel of the housing. The nut on its highlander facing the ball and the portion of the ball valve housing located on the opposite side of the ball to the nut have ring samples. Each sample has a corresponding support element. On the outer side surface of the nut, annular grooves are made in which the sealing rings are installed. The utility model provides an increase in the tightness of the locking unit, as well as an increase in its service life and operational reliability.

Description

The utility model relates to wellhead equipment used in oil and gas wells. Specifically, the claimed utility model relates to the construction of the wellhead shut-off unit, which is a ball valve mounted on tapered threads of tubing and drill pipe and designed to block the internal channel of the pipe during work on the well. The ball valve is used as part of the shut-off arrangement during drilling, repair and overhaul of wells, and can also be used in land communications as a shut-off device.

Known wellhead locking unit, made in the form of a ball valve, which contains a housing with an axial channel located inside the body of the ball, which can rotate around an axis perpendicular to the axis of the channel of the housing of the crane, using means to rotate it from the open position to the closed position "And vice versa, and made with a through diametrical hole, and two support elements, each of which is made in the form of a ring and forms a corresponding ball seat (RU 42576 U1, 2004). The design of the known site does not provide the necessary sufficient tightness of the ball valve under the influence of high pressure on the shut-off element.

The technical result that is achieved by using the claimed utility model is to increase the tightness of the locking unit, as well as to increase its service life and reliability in operation and maintainability.

To achieve the technical result, a wellhead shut-off unit is proposed, made in the form of a ball valve, which comprises a housing with an axial channel and with a threaded section at one of its ends for connection

a locking unit with a column of tubing or drill pipe. Inside the housing there is a ball made with a through diametrical hole and capable of rotation around an axis perpendicular to the axis of the channel of the crane body, by means of its rotation from the “open” position to the “closed” position and vice versa, and two support elements, each of which made in the form of a ring and forms the corresponding ball seat. The ball is located in the valve body in such a way that in the “open” position the hole of the ball coincides with the axial channel of the valve body, and in the “closed” position the surface of the ball overlaps the axial channel of the valve body. To tighten the supporting elements, a nut is used, which rests with its end facing the ball on the supporting element and has a threaded thread on its outer side surface, interacting with the threaded section on the surface of the axial channel of the housing. The nut at its end facing the ball and the body portion located on the opposite side of the ball to the nut have ring samples, each of which has a corresponding supporting element, and ring samples are made on the outer side surface of the nut, each of which has a corresponding bearing element, and on the outer side surface of the nut, annular grooves are made in which the sealing rings are installed. A stopper is installed in the body of the ball valve for fixing the nut in a position in which the nut is tightened by the nut against the surface of the ball. The stopper is made in the form of a screw on the side surface of the head of which an annular element can be placed, which prevents the thread of the nut from being contaminated with formation fluid. At the other end of the ball valve housing, a sub is installed, mounted in the housing by means of a threaded connection.

The means for turning the ball from open to closed and vice versa contains a rotary rod with an estimated risk located in the side channel made in the body of the ball valve and connected to the ball, and a handle mounted in the rotary rod and located outside the body, which, depending on the purpose of the valve, can to be both removable and fixed.

On the cylindrical part of the rotary rod interacting with the housing, annular grooves are made in which the annular sealing elements are located. In addition, the rotary rod has a protruding annular collar, the diameter of which is larger than the diameter of the stem portion installed in the side channel of the housing, while on the surface of the axial channel of the housing in the installation area of the ball turning means there is a stepped selection into which the annular collar is buried.

On the inner surface of the central hole of the nut there is a section for a hex wrench or another shape.

Due to the use of a nut installed in the wellhead locking assembly inside the ball valve housing and resting its end face on the support element, it is possible to adjust the degree of compression of the ring support elements to the surface of the ball, including in the case of wear of the friction pair “support element - ball surface”. The result is the necessary seal in the area of this pair. The location of the ring support elements in the ring samples facing each other, respectively made in the end face of the nut facing the ball and in the body section opposite to that end, ensures that the support elements from the nut side are subjected to uniform deformation in both axial and radial directions due to which the degree of sealing of the pair "supporting element - the surface of the ball" and increases the service life of the locking node. A possible loosening of the nut will inevitably lead to a decrease in the degree of sealing of the pair "support element - the surface of the ball." To prevent loosening of the pressing of the supporting elements to the ball due to unscrewing of the nut, a stop valve is provided in the ball valve to fix the nut in a position in which it ensures that the supporting elements are pressed against the ball. The presence on the outer side surface of the nut of the annular sealing elements further enhances the tightness of the locking assembly.

The utility model is illustrated by the drawing, which shows the wellhead shut-off unit in the form of a ball valve, shown in axial section.

The proposed wellhead locking unit is made in the form of a ball valve. The housing 1 of the ball valve has an axial channel 2. The lower end 3 of the housing 1 (in the position of the valve shown in the drawing) is a tapered threaded portion that serves to install the locking unit on the string of tubing or drill pipe. Inside the housing, on the side of its upper end 4, a sub 5 is installed with an external thread 6 interacting with a threaded section 7 in the housing and with an internal thread 8 for connecting to a pipe of the required size.

The ball 9 of the ball valve is mounted in the housing 1 with the possibility of rotation around the axis 10, perpendicular to the axis 11 of the channel 2 of the housing 1. The ball 9 has a through diameter hole 12. When the ball 9 is installed in the “open” position, the hole 12 coincides with the axial channel 2 of the housing 1, and in the closed position, the surface of the ball 9 overlaps the axial channel 2 of the housing 1.

The ball turning means 9 includes a rotary rod 13, which is located in the side channel 14 made in the housing 1. The axis of the lateral channel 14 is perpendicular to the axis of the axial channel 2 of the housing 1. The rotary rod 13 has a shank 15, through which the rod is connected to the ball 9. The shank 15 placed in the socket 16, made in the ball 9. In the rod 13, a hexagonal socket 17 is made, in which the shank 18 of the handle 19 is located. The portion 20 of the rod 13, located directly in the side channel 14 of the housing 1, has annular rings on its outer side surface grooves in which the annular sealing elements 21 are located. In addition, the rotary rod 13 has an annular shoulder 22, the diameter of which is larger than the diameter of the rod portion 20. Moreover, on the surface of the axial channel of the housing 1 there is a stepped sample 23, into which the annular shoulder 22 is buried. The presence of the shoulder 22 and its placement in the stepped sample 23 creates additional sealing in the mount of the ball turning means.

A risk is applied to the rotary rod 13, which determines the position of the ball valve (open or closed).

Support elements 24 and 25 are installed on the opposite sides of the ball 9 and perpendicular to the axis of the channel 2 in the housing 1. Each support element is made in the form of a ring and forms a corresponding ball seat 9. The seats of the ball 9 are made of a polyamide copolymer, which ensures their high reliability and allows discard additional grease.

A nut 26 is installed inside the housing 1, on the outer side surface of which there is a threaded thread 27 that interacts with the threaded section on the surface of the axial channel 2 of the housing 1. On the inner surface of the central hole 28 of the nut 26 there is a figured hexagon section 29 for a wrench. An annular sample 30 is made in the nut 26 from the side of its end facing the ball 9. A similar annular sample 30 is made on a portion 31 of the housing 1 located on the side of the ball 9 opposite to the nut 26. The nut 26 is designed to provide support for the supporting elements (seats) 24, 25 to the surface of the ball 9 in order to achieve the tightness of the valve.

On the outer side surface of the nut 26, annular grooves are made in which the sealing rings 32 and 33 are installed.

The fixed position of the nut 26 in the housing 1 is provided with a stopper 34, which prevents the nut 26 from being turned off. The stopper 34 is installed in the side hole 35 provided in the housing 1. The stopper 34 is made in the form of a screw. An annular groove is made on the side surface of the screw head 36, in which an annular sealing element 37 is located. A washer 38 is mounted under the screw head 36.

Ball valve operates as follows.

In the open position of the ball valve, the working medium passes freely through its axial channel. To close the tap, use the handle 19 to turn the stem 13 clockwise by 90 °, while the risk on the stem 13 must coincide with the letter “Z” (closed) on the housing 1. Opening is done by turning the stem 13 counterclockwise by 90 °, in this case, the risk on the rod 13 should coincide with the letter “O” (open) on the body 1.

Claims (6)

1. Wellhead locking unit, characterized in that it is made in the form of a ball valve containing a housing with an axial channel and with a threaded section at one of its ends for connecting the locking unit to a string of tubing or drill pipe and a ball located inside the housing, made with a through diameter hole and installed with the possibility of rotation around an axis perpendicular to the axis of the channel of the crane body, by means of its rotation from the “open” position to the “closed” position and vice versa, two supporting elements, each of which is made in the form of a ring and forms a corresponding ball seat, a nut for pressing the supporting elements to the surface of the ball, resting on its end face facing the ball on the supporting element and having a threaded thread on its outer side surface, interacting with the threaded section on the surface of the axial channel of the housing, and a sub mounted in the housing from the side of its other end by means of a threaded connection, the ball being located in the housing of the crane in such a way that in the “open” position The ball coincides with the axial channel of the valve body, and in the “closed” position, the surface of the ball overlaps the axial channel of the valve body, the nut at its end facing the ball, and the body section located on the opposite side of the nut of the ball have ring samples, in each of of which the corresponding supporting element is located, and on the outer side surface of the nut, annular grooves are made in which sealing rings are installed, and a through lateral hole for installing ki stopper for fixing the nut in the state in which the preload is provided by a nut support members to the ball surface. 2. The wellhead locking unit according to claim 1, characterized in that the means for turning the ball from open to closed and vice versa contains a rotary rod with an estimated risk located in the side channel made in the body of the ball valve and connected to the ball, and a handle mounted on rotatable stem and located outside the housing. 3. Wellhead locking unit according to claim 2, characterized in that the rotary rod has annular grooves in which annular sealing elements are located on the surface of its portion installed in the side channel of the housing. 4. Wellhead locking unit according to claim 2 or 3, characterized in that the rotary rod has an annular collar, the diameter of which is larger than the diameter of the stem portion installed in the side channel of the housing, while on the surface of the axial channel of the housing in the installation area of the ball rotation means there is a step sample into which the annular shoulder is buried. 5. The wellhead locking assembly according to claim 1, characterized in that a through lateral hole is made in the body of the ball valve to accommodate the stopper for fixing the nut, while the stopper is made in the form of a screw, on the side of the head of which is located an annular sealing element. 6. Wellhead locking unit according to claim 1, characterized in that on the inner surface of the Central hole of the nut provides a section for a hexagon wrench or other shape.