RU182825U1 - MECHANISM OF FIXATION OF SEALING INSERTS OF ANTI-EMISSION EQUIPMENT - Google Patents

Abstract

The technical solution relates to the oil and gas industry, to equipment for oil and gas wells, is used in the mechanisms for fixing the blowout inserts of the blowout equipment. The mechanism for fixing the blowout inserts of the blowout equipment contains a bearing nut 1 with internal and external threads, in which a cylindrical lead screw 2 is installed transition diameter, equipped with a first external thread 8 and a second thread 9, the first end of the lead screw for started to install the handle 4, the second end of the lead screw is used to install the slider by means of a screw drive, the lead screw forms the first screw pair with the bearing nut, the lead screw forms the second screw pair with the slider, the screw pairs have threads in opposite directions, the slider is cylindrical in shape the thrust end of the slider 10 is partially chamfered, the threaded thread is made at the second end 11. The thread 8, 9 of the lead screw is completely hidden inside the mechanism, when moving the lead screw from one th position to another extreme position the thread is not exposed. A cylindrical surface with an external thread 8 of the lead screw contains a smooth groove 12 located between the external thread and the first end of the lead screw 2. A wiper 13 is installed between the bearing nut and the lead screw. The technical result is to increase the reliability of the mechanism. In addition, an indication of the position of the slider is provided, and ease of assembly is further provided. 9 s.p. 3 ill.

Description

The field of technology.

The technical solution relates to the oil and gas industry, to the equipment of oil and gas wells, is used in the mechanisms of fixing the sealing inserts of blowout control equipment.

The prior art.

A known preventer is a die-plate separate “universal” (patent RU 52906; source [1]). Known preventer die dual PPS "GARANT" (patent RU 52907; source [2]). 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. The means for fixing the sealing insert contains a bearing nut installed in the bore of the blowout flange of the blowout equipment, with internal and external threads, in which, through a screw drive, a lead screw is installed, equipped with internal and external threads, forming the first screw pair with the bearing nut. The lead screw is cylindrical with a thrust shoulder. The first end of the lead screw is used to install the handle; at the second end of the lead screw, a slider is installed by means of the screw drive, forming a second screw pair with the lead screw. Screw pairs have threads in opposite directions (right and left). The slider is made of a cylindrical shape of a transitional diameter, contains an annular groove in which a sealing element is installed, a face is partially chamfered at the stop end of the slider, a longitudinal groove is made on the side surface of the slider. The mechanism provides a double stroke due to the use of multidirectional threads on the lead screw.

In analogues [1; 2] when unscrewing the lead screw, its external thread leaves the bearing nut and exposes itself. Nothing protects the external thread of the lead screw from mechanical damage, dirt, dirt, dust, etc. During work at the well, various contaminants (dirt, snow, ice, dust, sand, etc.) inevitably fall into the screw pair of the lead screw / main nut and then into the mechanism. When the sealing insert is fixed, the lead screw is completely screwed into the bearing nut, impurities on the threaded surface of the lead screw interfere with the normal operation of the screw pair, can cause a failure of the mechanism, which can lead to the release of fluid and an accident. Contamination leads to premature wear of the screw pair, there are scoring, scratches, unacceptable gaps.

A known mechanism for fixing the sealing inserts of blowout control equipment (patent application RU 2018109590 source [3]) contains a bearing nut with an internal and external thread, in which a helical screw of a transition diameter is installed, equipped with an internal and external thread, forming the first screw pair with a nut , the lead screw is made with a thrust collar, a handle is installed on the first end of the lead screw, with the possibility of removal, the screw is installed on the second end of the lead screw a steel slider forming a second screw pair with a lead screw, screw pairs have threads of opposite directions, a cylinder slider, has an annular groove in which a sealing element is installed, a face is partially slanted, a face is partially beveled, a flat is formed, and a recess is made on the side surface of the slider and longitudinal grooves, the roughness (Ra) of the thread is not more than 3.2 micrometers, the roughness of the outer surfaces of the nut, spindle, slider is not more than 12.5 micrometers, the slider, nut, spindle is equipped With a protective coating, the lead screw is equipped with a channel in which the grease fitting is installed. The mechanism provides a double stroke due to the use of multidirectional threads on the lead screw.

In analogue [3], screw pairs are not protected from contamination and mechanical damage. The outer thread of the lead screw when it is unscrewing their bearing nut is completely exposed. In the process of working on the well, various contaminants (dirt, snow, ice, dust, sand, etc.) inevitably fall on the threaded surface. When the spindle is tightened, contaminants on the threaded surface interfere with the normal operation of the screw pair, and can cause a failure of the mechanism, which can lead to incomplete overlapping of the axial channel of the housing and to the release of fluid, accident. Contamination leads to premature wear of the screw pair, there are scoring, scratches, unacceptable gaps. The consequence of this is the low resource mechanism. If necessary, the sealing insert cannot be fixed in time and reliably.

From the prior art it is seen that the existing analogues [with 1; 2; 3] have flaws, and require improvement. The analogues do not provide reliable protection for screw pairs of the drive of the working bodies from the ingress of dirt, dust, ice, snow, etc. they are open and in contact with the environment. The screw pairs of the drives are not protected from mechanical damage (accidental impact, falling objects). The operation of equipment for oil and gas wells is carried out under conditions of aggressive exposure to the working environment (dirt, dust, sand, oil, gas, gas condensate, produced water, flushing fluid and mixtures thereof) and low temperatures (up to minus 45 ° С) in the winter. This leads to premature destruction of parts, leads to wear of rubbing surfaces and threads, an increase in gaps over established limits, a decrease in reliability, and can lead to jamming of mechanisms. Failure to work the mechanism for fixing the sealing inserts when servicing the well leads to the need for its replacement or repair, which increases the cost of labor, time and materials for servicing the well. Increasing the service life of the mechanisms for fixing the sealing inserts, increasing its durability, reliability, increasing the overhaul interval, MTBF, reliability is an actual technical task. The problem of contamination of screw pairs of fixing mechanisms of sealing inserts with a two-stage (with left-hand and right-hand thread) lead screw is not solved.

Disclosure of the essence of the technical solution.

The technical problem to which the utility model is directed is to improve the mechanism for fixing the blowout equipment sealing inserts equipped with a two-stage screw, to increase reliability, in order to increase its service life, increase its durability, reliability, increase the overhaul interval, the mean time between failures, by eliminating external harmful effects.

The technical result is to increase the reliability of the mechanism. In addition, an indication of the position of the slider is provided, and ease of assembly is further provided.

The technical result is ensured by the fact that the fixing mechanism of the blowout preventer inserts contains a bearing nut with internal and external threads, in which a helical screw of a cylindrical transition diameter, equipped with a first external thread and a second thread, is installed by means of a screw drive, the first end of the screw is designed to install the handle , the second end of the lead screw is designed to install the slider by means of a helical gear, the lead screw forms with a bearing nut the first screw pair, the lead screw forms a second screw pair with the slider, the screw pairs have threads in opposite directions, the first external screw thread is right-handed, the second screw screw thread is left-handed, the slider is cylindrical in shape, on the thrust end of the slide, the face is partially beveled, at the second end threaded thread is made. It is characterized in that the first external thread of the lead screw is completely hidden inside the bearing nut; when the lead screw moves from one extreme position to another extreme position, the thread is not exposed.

The specified entity ensures the achievement of the claimed technical result.

It is envisaged that the cylindrical surface with the external thread of the lead screw contains a smooth groove located between the external thread and the first end of the lead screw. Preferably, a wiper is installed between the bearing nut and the lead screw in contact with the smooth lead of the lead screw. Preferably, a coating is applied to a portion of the smooth groove surface of the lead screw to indicate the position of the lead screw. The coating can be done in red enamel. For convenience, on the side of the stop end of the slider, a recess is made in the radial direction on the lateral surface of the slider. The recess allows you to fix the slider during assembly using the hexagon. It is envisaged that the slider, nut, and lead screw are made of alloyed structural chrome steel. In order to effectively convert the rotation of the lead screw into the translational movement of the slide, the screw pair "lead screw-slider" is carried out by means of a trapezoidal thread, with a pitch in the range from 1.5 to 8 mm.

Screw drives "lead screw - bearing nut", "lead screw-slider" are used to transmit movement, they are made so that the friction force in the thread is minimal. Rectangular and metric threads have lower strength compared to trapezoidal threads. The device is operated in severe conditions, therefore a large thread pitch is used. A useful model increases the reliability of fixing the sealing insert, since it reduces the likelihood of failure of screw pairs, which manifests itself in the form of jamming due to contamination.

An example of the implementation of the technical solution is shown on the fixing mechanism of the preventer sealing inserts. The essence of the utility model is not limited to the description below, it can be used with other blowout control equipment.

The utility model is illustrated by drawings:

FIG. 1 - mechanism for fixing the sealing inserts of the preventer, General view, in the flange of the preventer with a cut;

FIG. 2 - mechanism for fixing the sealing inserts of the preventer, General view with spaced parts;

FIG. 3 - a mechanism for fixing the sealing inserts of the preventer, in the context.

Implementation of a utility model.

Example 1. The locking mechanism of the sealing inserts contains a bearing nut 1 (Fig. 1; 2; 3), a spindle 2 (Fig. 1; 3; 3), a slider 3 (Fig. 1; 2; 3), a handle 4 (Fig. . 13). The bearing nut 1 is made of a cylindrical shape made of alloy steel, with an internal thread 5 (Fig. 1; 2; 3), and an external thread 6 (Fig. 2; 3; 4). A protective layer is formed on the carrier nut 1 by chemical oxidation or chemical phosphating. The bearing nut 1 is made in the form of a sleeve with a shoulder 7 (Fig. 1; 2; 3), equipped with two flats on a turn-key basis (not marked). A lead screw 2 is installed in the bearing nut 1 by means of a helical gear. The lead screw 2 and the bearing nut 1 form the first screw pair. The lead screw 2 is made of a transitional diameter, cylindrical, contains the first and second ends (not shown in the diagrams). The lead screw 2 is made of alloy steel. A protective layer is formed on the lead screw 2 by chemical oxidation or chemical phosphating. The lead screw 2, on a cylindrical surface of a larger diameter, is equipped with a first external thread 8 (Fig. 1; 2; 3), designed to contact the internal thread 5 of the bearing nut 1. The lead screw 2, on a cylindrical surface of a smaller diameter, is equipped with a second external thread 9 (Fig. 1; 2; 3). The first end of the lead screw 2 is designed to install the handle 4, the second end of the lead screw is designed to install the slider 3. The lead screw 2 forms a second screw pair with the slide 3. Screw pairs have threads in opposite directions. The first screw pair has a right-handed thread (right-handed). The second screw pair has left-hand thread (left-hand thread). The second thread 9 on the lead screw 2 is made with a pitch of 3 mm turns. The first thread 8 on the lead screw 2 is made with a pitch of 3 mm turns. The slider 3 is made of cylindrical shape, on the thrust end 10 (Fig. 1; 2; 3) of the slider 3, the face is partially beveled, at the second end of the slider 3 there is a threaded thread 11 (Fig. 1; 2; 3). The second thread 9 on the lead screw 2 must be made external, and the reciprocal threaded thread (thread) 11 of the slider 3 is made internal. In this case, the second thread 9 of the lead screw 2 can equally be made internal, then the mating thread 11 of the slider 3 will be made external. The threads 8 and 9 of the lead screw are completely hidden inside the mechanism. When moving the screw 2 from one extreme position to another extreme position, the threads 8 and 9 are not exposed. Hidden threads 8, 9 (the first thread 8 is closed by the bearing nut 1, the second thread 9 is closed by the casing of the preventer, in which the bearing nut 1 is installed) do not allow dirt to get on the surface of the screw pairs. The slider 3, the bearing nut 1, the lead screw 2 can be made of alloyed structural chromium steel grade 40X, and can also be made of its substitutes 45X, 38XA, 40XH, 40XC, 40XF, 40XR.

Example 2. The locking mechanism of the sealing inserts contains a bearing nut 1 (Fig. 1; 2; 3), a spindle 2 (Fig. 1; 3; 3), a slider 3 (Fig. 1; 2; 3), a handle 4 (Fig. . 13). The bearing nut 1 is made of a cylindrical shape made of alloy steel, with an internal thread 5 (Fig. 2), and an external thread 6 (Fig. 2). A protective layer is formed on the bearing nut 1 by chemical oxidation by oiling. The bearing nut 1 is made in the form of a sleeve with a shoulder 7 (Fig. 1; 2; 3), equipped with two flats on a turn-key basis (not marked). A lead screw 2 is installed in the bearing nut 1 by means of a helical gear. The lead screw 2 and the bearing nut 1 form the first screw pair. The lead screw 2 is made of a transitional diameter, cylindrical, contains the first and second ends (not shown in the diagrams). The lead screw 2 is made of alloy steel. A protective layer is formed on the lead screw 2 by chemical oxidation by oiling. The lead screw 2, on a cylindrical surface of a larger diameter, is equipped with a first external thread 8 (Fig. 1; 2; 3), designed to contact the internal thread 5 of the bearing nut 1. The lead screw 2, on a cylindrical surface of a smaller diameter, is equipped with a second external thread 9 (Fig. 1; 2; 3). The first end of the lead screw 3 is for mounting the handle 4, the second end of the lead screw is for mounting the slide 3. The lead screw 2 forms a second screw pair with the slide 3. Screw pairs have threads in opposite directions. The first screw pair has a right-hand thread. The second screw pair has left-hand thread. The slider 3 is made of cylindrical shape, on the thrust end 10 (Fig. 1; 2; 3) of the slider 3, the face is partially beveled, at the second end of the slider 3 there is a threaded thread 11 (Fig. 1; 2; 3). The second thread 9 on the lead screw 2 must be made external, and the mating thread thread 11 of the slider 3 is made internal. In this case, the second thread 9 of the lead screw 2 can equally be made internal, then the mating thread 11 of the slider 3 will be made external. The threads 8 and 9 of the lead screw are completely hidden inside the mechanism. When moving the screw 2 from one extreme position to another extreme position, the threads 8 and 9 are not exposed. The cylindrical surface with the external thread 8 of the lead screw 2 contains a smooth groove 12 (Fig. 1; 2; 3) located between the external thread 8 and the first end of the lead screw 2 (on which the handle 4 is located). A wiper 13 (Fig. 1; 2; 3) is installed between the main nut 1 and the lead screw 2 in the form of an elastic ring (or sleeve) in the groove 14 (Fig. 3), which is in contact with the smooth groove 12 of the lead screw 2. Hidden threads 8, 9 (the first thread 8 is closed by the bearing nut 1, the second thread 9 is closed by the casing of the preventer, in which the bearing nut 1 is installed) do not allow dirt to get on the surface of the screw pairs. The wiper 13 additionally cleans the smallest contaminants from the surface of the smooth groove 12 of the lead screw 2, preventing them from entering the screw pairs. On part 15 (FIG. 3) of the smooth groove surface 12 of the lead screw 2, a coating 16 is applied (FIG. 1) to indicate the position of the lead screw 2. Cover 16 is made of red enamel. The second thread 9 on the lead screw 2 is made with a pitch of 6 mm turns. The first thread 9 on the lead screw 2 is made with a pitch of 6 mm turns. From the thrust end of the slider 3, on its lateral surface, in the radial direction, a recess 17 is made (Fig. 1; 2; 3). The slider 3 contains a sealing ring 18 (Fig. 1; 2; 3) polyurethane or PTFE. The slider 3, the bearing nut 1, the lead screw 2 can be made of steel grade 40X, and can also be made of its substitutes 45X, 38XA, 40XH, 40XC, 40XF, 40XR.

The locking mechanism of the sealing inserts works as follows.

The locking mechanism of the sealing inserts is installed in the flange 19 (Fig. 1; 3) of blowout equipment (for example, a preventer) in the radial holes 20 (Fig. 1; 3) made opposite the seat 21 (Fig. 1; 3) under the sealing insert 22 ( Fig. 3). Preferably, two locking mechanisms for sealing inserts are installed. Set the slider 3, the lead screw 2 and the bearing nut 1, in the radial hole 20 of the flange 19, fix the slider 3 from rotation with a steel screw key 23 (Fig. 1; 2; 3). When installing the lead screw 2 in the bearing nut 1, the slider 3 is screwed fully against the lead screw 2. Moreover, if the slide 3 contains a recess 17, a hexagon is installed in it, which allows the slide 3 to be fixed from turning. The bearing nut 1 is fixed in the flange 19. When installed on the threads 5, 6, 8, 9, 11, a plastic grease waterproof is applied. The screw pairs are adjusted so that the slider 3 in the starting position does not protrude into the seat 21. The preventer is installed at the wellhead. When performing repair work, use sealing inserts (KGOM). The sealing insert 22 is installed in the seat 21. To fix the sealing insert, rotate the handle 4 clockwise. The rotational force from the handle 4 is transmitted to the lead screw 2. The lead screw 2 rotates, and moves longitudinally in the bearing nut 1, towards the sealing insert 22. The longitudinal movement of the waste screw 2 is transmitted to the slider 3, as well as the rotation of the lead screw 2 through the second ( left-hand) screw pair causes an additional longitudinal movement of the slider 3 in the direction of the sealing insert 22. The sealing insert 22 is clamped by the slider 3 and fixed.

To release the sealing insert rotate the handle 4 in the opposite direction counterclockwise. The rotational force from the handle 4 is transmitted to the lead screw 2. The lead screw 2 rotates, and moves longitudinally in the bearing nut 1, in the direction from the sealing insert 22. The longitudinal movement from the lead screw 2 is transmitted to the slider 3, as well as the rotation of the lead screw 2 through the second the (left-side) screw pair causes an additional longitudinal movement of the slider 3 in the direction from the sealing insert 22. The sealing insert 22 is released. In this case, the first 8 and second thread 9 of the lead screw 2 are hidden from contamination and mechanical influences inside the preventer flange and in the bearing nut 21. The first external thread 8 does not extend beyond the bearing nut 1 and is not exposed. In the process of working on the well, various contaminants (dirt, snow, ice, dust, sand, etc.) do not fall on the threads 8 and 9 of the lead screw 2 and in the screw pairs. If the mechanism described in example 2 is used, then when tightening the lead screw 2, the smooth groove 12 passes through the wiper 13, which additionally cleans the smallest dirt from the surface of the smooth groove 12 of the screw 2, preventing them from penetrating the screw pairs. Since the position of the slider 3 is hidden inside the flange 19, in the mechanism described in example 2, to indicate the position of the screw 2 and the slider 3, the coating 16 is observed (Fig. 1; 2; 3). The coating 16 is made of red enamel and applied to a smooth groove 12 1 ... 2 mm from its edge, its position relative to the edge of the bearing nut 1 and correlates with the position of the slider 3.

The claimed technical solution is made using industrially manufactured products and materials, its elements can be manufactured and assembled at modern industrial enterprises. The utility model is applicable for the specified purpose and provides the claimed technical result.

Claims (10)

1. The locking mechanism of the blowout control insulating inserts, comprising a bearing nut with internal and external threads, in which a helical screw of a cylindrical transition diameter, equipped with a first external thread and a second thread, is installed by means of a screw drive, the first end of the screw is designed to install the handle, the second end of the lead screw is designed to install the slider by means of a screw drive, the lead screw forms the first screw pair with the bearing nut, the lead screw forms a second screw pair with a slider, screw pairs have threads in opposite directions, the first external screw thread of the screw is right-handed, the second screw thread of the screw is left-handed, the slider is cylindrical in shape, the face is partially tapered at the thrust end of the slide, and the threaded thread is made at the second end, characterized in that the first outer thread of the lead screw is completely hidden inside the bearing nut; when the lead screw moves from one extreme position to another extreme position, the thread is not exposed. 2. The mechanism according to p. 1, characterized in that the cylindrical surface of the lead screw with the first external thread contains a smooth groove located between the first external thread and the first end of the lead screw. 3. The mechanism according to claim 2, characterized in that a wiper is installed between the bearing nut and the spindle in contact with the smooth groove of the spindle. 4. The mechanism according to p. 2, characterized in that on a part of the surface of the smooth groove of the lead screw is coated, designed to indicate the position of the lead screw. 5. The mechanism according to claim 4, characterized in that the coating is made of red enamel. 6. The mechanism according to claim 1, characterized in that the second thread on the lead screw is made external, and the threaded counter thread of the slide is made internal, the threads are made with a pitch of turns in the range from 1.5 to 8 mm. 7. The mechanism according to claim 1, characterized in that a recess is made on the lateral end of the slide on its lateral surface in the radial direction. 8. The mechanism according to claim 1, characterized in that the slider, the bearing nut, the spindle are made of alloyed structural chrome steel. 9. The mechanism according to p. 1, characterized in that the slider contains a polyurethane or fluoroplastic o-ring. 10. The mechanism according to claim 1, characterized in that the second thread of the lead screw is made internal, and the threaded counter thread of the slider is made external.

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