RU167756U1 - HYDRAULIC DOUBLE PRE-PRESSOR WITH TECHNOLOGICAL CONE - Google Patents

Abstract

The utility model relates to equipment used to seal the mouth of oil and gas wells in the process of their construction and development to prevent oil and gas occurrences and open fountains in order to ensure safe operation, protection of the subsoil and the environment. The proposed preventer is intended for sealing a wellhead with a deflated pipe string with pipe dies and for sealing a well without a deflated pipe string with blank dies, overhaul the wells with the possibility of installing technological inserts in it, and working with hydraulic or manual control of the preventer. The preventer comprises a housing, which is made of two sections, with an upper and lower flange with two sides and two end faces. The housing has a through vertical cylindrical axial channel for lowering or lifting pipes into the well. Above and below the housing has flanges for connection to wellhead equipment. A cone is made in the upper flange in the axial cylindrical channel for connecting technological inserts of the KGOM or STTs type. In the upper flange, perpendicular to the axial channel, at least two holes are made for installing the slide mechanism in them for fastening technological inserts of the KGOM or STC type in the cone. The housing has two through horizontally located die channels, one in each section. A tube ram with two opposed tube rams is installed in the upper ram channel for sealing pipes along the outer diameter and annulus, with the possibility of movement in the upper ram channel

Description

The utility model relates to equipment used to seal the mouth of oil and gas wells in the process of their construction and development to prevent oil and gas occurrences and open fountains in order to ensure safe operation, protection of the subsoil and the environment. The proposed preventer is intended for sealing a wellhead with a deflated pipe string with pipe dies and for sealing a well without a deflated pipe string with blank dies, overhaul the wells with the possibility of installing technological inserts in it, and working with hydraulic or manual control of the preventer.

The closest analogue to the claimed utility model is a double preventer containing a two-stage housing with upper and lower flanges, having a through axial channel for the passage of pipes lowered into the well, and two pairs of side channels located opposite each other and oriented in the corresponding housing steps and oriented perpendicular to the through channel, the side flanges of which are closed by the side covers, two ram shutters, one of which contains two opposed pipe rams for ge Outer diameter of the pipes installed in the side channels of the upper stage of the body with the possibility of movement by means of a pusher in the direction perpendicular to the axial channel of the body, and the other two oppositely located dies are blind to overlap the axial channel of the body in the absence of pipes in the well, installed in the side channels of the lower housing steps with the possibility of movement by means of a pusher (RU 54083 U1, 01/23/2006).

The technical result achieved by using the proposed utility model is:

1. Improving the reliability and safety of work using the preventer is achieved by the simultaneous installation and use of four helms on the preventer. The introduction of plate seals into the design, which prevent the buckling of the seal when sealing the axial channel of the preventer, increases the reliability of sealing the preventer. The use of a sealed heating chamber, by introducing gaskets into the design or by using welds in the preventer design, which allow the covers to be sealed to the heating chamber. Heating the preventer under pressure allows you to increase the volume of the heat carrier pumped through the heating chamber, which increases the heat transfer of the heat carrier to the preventer. Introduction to the design of the preventer of the lifting loops that prevent the fall of the preventer when using a hoisting rope or slings when passing them through the lifting loops.

2. Improving the accuracy, ease of adjustment of the sliders and reliable fixing of the inserts in the preventer is achieved by introducing into the design of the slider adjustment groove.

3. Improving operating conditions is achieved by introducing into the design of the preventer a fitting, which is hermetically connected to the heating covers and allows you to quickly and reliably connect a sleeve with a coolant to the preventer.

4. An increase in the overhaul period during operation of the preventer is achieved by introducing nuts into the small structure of the preventer with a seal and a wiper. Introduction to the design of the pusher preventer is necessary to preserve the resource of a more expensive part - the piston, since when the preventer is in manual mode, the pusher-screw thread wears out intensively. Replacing a small part (pusher) is cheaper than replacing a piston.

To achieve the specified technical result, a preventer is proposed, the casing of which is made of two sections, with an upper and lower flange with two sides and with two end faces. The housing has a through vertical cylindrical axial channel for lowering or lifting pipes into the well. Above and below the housing has flanges for connection to wellhead equipment. A cone is made in the upper flange in the axial cylindrical channel for connecting technological inserts of the KGOM or STTs type. In the upper flange, perpendicular to the axial channel, at least two holes are made for installing the slide mechanism in them for fastening technological inserts of the KGOM or STC type in the cone. The housing has two through horizontally located die channels, one in each section. A tube ram with two opposed tube rams is installed in the upper ram channel for sealing pipes along the outer diameter and annulus, with the possibility of moving in the upper ram channel in the direction perpendicular to the axial channel of the housing to the extreme open position and vice versa to the extreme closed position. A pipe die consists of a pipe die body with a vertical T-groove, a pipe seal, an upper seal, which connects the die body and the pipe seal using pins inserted into it. In the closed position, the pipe dies are closed by pipe seals on the pipe, and the upper seals go into the mirror of the body and close each other, forming a pipe die valve, thereby sealing the pipe by the outer diameter and the annulus. To move the tube dies, in a direction perpendicular to the axial channel of the housing, a pair of hydraulic cylinders is installed attached to opposite sides of the upper section of the housing. Hydraulic cylinders have the ability to switch to manual movement of the tube dies, using the bypass needle valve and plate. The connection of each hydraulic actuator with the tube die is carried out through a T-shaped groove on the die and a T-shaped protrusion on the piston of the hydraulic actuator. In the lower ram channel, a blind ram valve is installed with two opposed blind rams for sealing the axial channel of the housing, with the possibility of moving along the lower ram channel in the direction perpendicular to the axial channel of the housing to the extreme open position and vice versa to the extreme closed position. A blank plate consists of a blank plate body with a vertical T-slot, a blank seal, an upper seal, which connects the blank plate body and the blank seal using pins inserted into it. Deaf seals are necessary to seal the axial bore in the preventer body when the pipe is not lowered through the preventer into the well and the blind die bodies through the deaf seals abut against each other. The upper seal is made of an elastomer in the form of a half ring with two pins installed in it. The top seal is installed in the corresponding groove of the blind die body. In the closed position, the deaf dies are closed by the seals deaf to each other, and the upper seals go onto the mirror of the casing and are closed together, forming a dumb ram valve, thereby sealing the axial hole in the preventer housing. To move the blind dies, in a direction perpendicular to the axial channel of the housing, a pair of hydraulic cylinders is installed attached to opposite sides of the upper section of the housing. Hydraulic cylinders have the ability to switch to the manual movement of deaf dies, using the bypass needle valve and plate. The connection of each hydraulic actuator with the tube die is carried out through a T-shaped groove on the die and a T-shaped protrusion on the piston of the hydraulic actuator. Each hydraulic actuator has tetrahedral shanks with holes located perpendicular to the axis of the hydraulic actuator on which extensions are installed, necessary for the simultaneous connection of 4 helms and the possibility of attaching cardans for each helm. Upper ram shutter extenders are shorter than lower ram shutter extensions. The shanks of the extensions are equipped with helms, with which you can manually move the dies to seal the well. Each hydraulic actuator consists of a large cover with a mechanical seal for the cover, a wiper, piston rod seals, a needle valve with O-rings and a lock nut, studs with holes, a piston with a seal and sliding bearings, a cylinder with cylinder seals, a small cover with it with a nut with nut seals and pusher seals, a pusher with a T-shank with a square shank screw installed in it, a switch bracket, which is fixed by a bolt m The preventer has, in the central part of the housing, between the upper die channel and the lower die channel, on both sides of the heating cavity, interconnected bypass channels and closed by covers for heating with a liquid or gaseous heat carrier. Each cover has at least one hole with nozzles installed in it for connecting the coolant. On the side of the preventer, tides are made on the sides with holes in which rigging loops are installed, through which a hoisting rope or slings can be passed, which makes it possible to reliably carry and install the preventer on the well. The preventer has improved operational properties, has manual and hydraulic modes of operation, the possibility of reliable attachment of technological inserts to it with convenient adjustment of the sliders, has a reliable design of gaskets that seal the preventer, an improved heating chamber that allows it to work in a wide temperature range with greater heating efficiency , convenient coolant connection, improved hydraulic drive.

The utility model is illustrated by drawings, where

In FIG. 1 is a view of a preventer in an assembled state;

In FIG. 2 - a section of the preventer in the longitudinal direction;

In FIG. 3 - section of the preventer in the transverse direction;

In FIG. 4 - slide mechanism;

In FIG. 5 - pipe die;

In FIG. 6 - the plate is deaf;

In FIG. 7 - sectional hydraulic drive.

The preventer consists of a housing 1, which is made of two sections, in which there is a through vertical cylindrical axial channel 2 for lowering or raising pipes into the well, with a cone 3 bored from above, into which the technological inserts are installed, with the upper flange 4 with holes perpendicular to to the flange and parallel to the axial hole in the housing for mounting the preventer to other flange equipment, inside the upper flange there is a slide mechanism 5, which fixes the inserts using at least the spirit of the slide 6, installed in the holes located in the upper flange perpendicular to the axial channel, the sliders are moved with screws 7 and the handles 8, when moved to the center of the axial channel, they abut the insert with an inclined flat 9, in each slide there is a groove 10 for adjusting the position of the protrusion of the slide in the axial hole and a groove 11 for installing a key 12 in it, which fixes the position of the slide from turning it in the hole with a screw 7, and the bottom flange 13 with holes located perpendicular to the flange and parallel to the axial hole in the housing for attaching the preventer to other flange equipment, the housing has two sides 14, on which there are at least two holes 15, connected to the heating cavities 16, closed by covers 17, attached to the housing with bolts through a gasket 18, to seal the covers, or a weld that secures and seals the lid with the housing, each lid is installed, by means of a threaded connection or a weld, fitting 19, which is necessary for connecting to heating with a liquid or gaseous coolant, the housing has two end faces 20, in which there is a through upper die channel and a through lower die channel, horizontally lower guides 21 and lateral guides 22, a sealing mirror 23 are located in each die channel, a tube die with two opposed located in the upper die channel pipe dies 24 for sealing pipes along the outer diameter and annulus, with the possibility of movement in the upper die channel in the direction perpendicular to the axial channel the housing to the extreme open position and vice versa to the extreme closed position, the tube die consists of a tube die body 25 with a vertical T-groove 26, a pipe seal 27, an upper seal 28 that connects the die body and seal using pins 29 inserted into it pipe, pipe seal made of elastomer, is installed in the corresponding groove of the tube die body, has inside the seal movable reinforcement 30, consisting of two steel plates that prevent excessive bulging elastomer into the gap between the pipe and the pipe die body, the pipe seal is necessary to seal the pipe body and the pipe die body, the upper seal 28 is made of elastomer in the form of a half ring with two pins 29 installed in it, the upper seal is installed in the corresponding groove of the pipe die body, the upper seal is necessary for sealing the tube die and mirror housing, in the closed position, the pipe dies are closed by pipe seals on the pipe, and the upper seals go to the mirror and each other, forming a pipe ram valve thereby sealing the pipe on the outer diameter and the annulus, a T-shaped protrusion 31 is provided for connecting to the pipe rams in the hydraulic actuator, a pair of hydraulic cylinders is installed in the direction perpendicular to the axial channel of the housing 32, attached to opposite end faces of the upper section of the housing with studs 34 and nuts 33, each hydraulic cylinder consists of a large cover 35, a seal on the end cover 36, a cover seal 37, piston seals 38, wiper 39, a piston with a T-groove 40 mounted in the cylinder cover 35 with seals 37, a pusher 43 with a T-shaped protrusion connected to the piston through a T-groove 44 and installed in a nut 45, which protected by a wiper 46 and sealed by a seal 47, the piston is moved manually from the extreme closed to the extreme open position of the hydraulic actuator by the pusher by rotating the small helm 48 connected by a bolt 49 through a small extension 50 with a square shank connected With a bolt and screw 51, when moving the plate 52 with a groove, which switches to manual control from the hydraulic control mode, when the bypass needle valve 53 is open, the hydraulic fluid flows through the hydraulic channels in the large and small cover 66 through the pin through the hydraulic channels with holes 54, when switching to the hydraulic control mode, the plate is moved in the small cover so that it occupies the opposite position relative to the manual control mode and its bolt is fixed m 55, the bypass needle valve is closed, which allows the piston to be moved with the hydraulic fluid from the extremely closed to the extremely open position of the hydraulic actuator, a blind ram with two opposed blind rams 56 is installed in the lower ram channel for sealing the through vertical cylindrical axial channel of the housing without deflated into it with a pipe, with the possibility of moving in the lower spot channel in the direction perpendicular to the axial channel of the housing to the extreme open position On the contrary, to the extreme closed position, the blind plate consists of a body of a blind plate 57 with a vertical T-groove 58, a deaf seal 59, an upper seal 28, which connects the die body and a deaf seal, a deaf seal using pins 29 inserted into it, made of elastomer, installed in the corresponding groove of the blind housing, has a movable blind reinforcement 60 inside the sealant, consisting of two steel plates that prevent excessive elastomer bulging into the gap between the blind and dies, a blank seal is necessary to seal the through vertical cylindrical axial channel of the housing without a pipe deflated into it, the top seal is made of an elastomer in the form of a half ring with two pins installed in it, the top seal is installed in the corresponding groove of the blind plate, the top seal is necessary for sealing cases of a blind plate and a mirror, in the closed position, blind plates are closed by blank seals on each other, and the upper seals go on a mirror and close each other, forming a blind ram valve, thereby sealing the through vertical cylindrical axial channel of the housing without a pipe deflated into it, a T-shaped protrusion is provided for connecting to the blind rams in order to move the blind rams in a direction perpendicular to the axial channel of the housing , a pair of hydraulic cylinders is installed, similar to hydraulic cylinders installed in the upper ram channel, connected to opposite end faces of the upper section of the housing with studs and nuts, alternating the piston is manually operated from the extreme closed to the extreme open position of the hydraulic actuator by the pusher by rotating the large helm 61 connected by a bolt through a large extension 62 connected by a bolt to a screw when moving the plate with a groove, which switches to manual control from hydraulic control mode, when the bypass needle valve is open, the hydraulic fluid in the manual control mode flows through the hydraulic channels in the large and small cover through When the switch is in hydraulic control mode, the plate with holes is moved in the small cover so that it occupies the opposite position relative to the manual control mode and secured with a bolt, the needle bypass valve is closed, which allows the piston to be moved with hydraulic fluid from the extreme closed to the extreme open position of the hydraulic actuator, the housing has at least one protrusion 63 with an opening 64 on the top of each side with a lifting loop 65 installed in the hole A blowout preventer is secure during transportation and installation at the well.

Claims (1)

The preventer consists of a housing, which is made of two sections, in which there is a through vertical cylindrical axial channel for lowering or raising pipes into the well, with a cone bore from above, into which technological inserts are installed, with an upper flange with holes located perpendicular to the flange and parallel to the axial channel in the housing for mounting the preventer to other flange equipment, inside the upper flange is a slide mechanism that fixes the insert using at least two sliders, setting In the holes located in the upper flange perpendicular to the axial channel, the sliders abut the insert with an inclined flat, in each slide there is a groove for adjusting the position of the protrusion of the slide in the axial channel and a groove for installing a key that fixes the position of the slide from turning it in the hole with a screw , and the bottom flange with holes perpendicular to the flange and parallel to the axial channel in the housing for mounting the preventer to other flange equipment, the housing has two sides on which at least two openings are located, connected to the heating cavities, closed by covers, attached to the housing with bolts through a gasket, to seal the covers, a fitting is installed in each cover by means of a threaded connection, which is necessary for connecting to heating with a heat carrier, the housing has two end faces, in which there is a through upper die channel and a through lower die channel, horizontally lower guides and side guides are located in each die channel, mirror, in the upper ram channel there is a tube ram with two opposed tube rams, the tube ram consists of a tubular ram body with a vertical T-groove, a tubular seal, an upper seal that connects the ram body and seal using pins inserted into it pipe, pipe seal made of elastomer, is installed in the corresponding groove of the tube die body, has movable reinforcement inside the seal, consisting of two steel plates, the upper seal is made of an elastomer in the form of a half ring with two pins installed in it, the upper seal is installed in the corresponding groove of the pipe ram body, a T-shaped protrusion is provided for connecting to the pipe rams, in the direction perpendicular to the axial channel of the housing, a pair of hydraulic cylinders is installed, attached to opposite end faces of the upper section of the body with studs and nuts, each hydraulic cylinder consists of a large cap, a mechanical cap seal, a seal pins, piston seals, wiper, T-grooved piston installed in a large cover with gaskets, T-shaped pusher connected to the piston through a T-groove and installed in a nut that is protected by a wiper and sealed with a sealant, into the pusher a screw with a square shank is screwed in, a small extension cord is connected to the screw with a square shaft, connected by a screw, a small helm is attached to the small extension cord, to the large cover, using studs and nuts and a stud with a hole it, a small cover is attached, in which a plate fixed by a bolt is installed, a needle valve is installed in a large cover, a blind ram valve with two opposed blind rams is installed in the lower ram channel, a blind ram consists of a blank ram body with a vertical T-shaped groove, deaf seal, upper seal, which connects with the help of pins inserted in it the die body and the deaf seal, the deaf seal made of elastomer, is installed in the corresponding groove the case of a blind die, has a movable blind reinforcement inside the sealant, consisting of two steel plates, the upper seal is made of an elastomer in the form of a half-ring with two pins installed in it, the upper seal is installed in the corresponding groove of the blind plate, for connecting to the blind dies in the hydraulic drive A T-shaped protrusion, for moving deaf dies, in a direction perpendicular to the axial channel of the housing, a pair of hydraulic cylinders is installed connected to the opposite end faces us the lower section of the housing with studs and nuts, each hydraulic cylinder consists of a large cover, a mechanical cover seal, a cover seal, a piston seal, a wiper, a piston with a T-groove installed in a large cover with seals, a pusher with a T-shaped protrusion, connected to the piston through a T-slot and installed in a nut that is protected by a wiper and sealed with a sealant, a screw with a square shank is screwed into the pusher, a large extension is installed on the screw with a square shank An screw-mounted plug connects a large helm to a large extension cord, a small cover with a bolt-mounted plate, a needle valve installed in a large cover, is attached to a large cover using studs and nuts, and a pin with a hole; less than two protrusions with a hole on the top of each side with a rigging loop installed in the hole.

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