RU2563845C2 - Sealing method of cavity of pipes and annular space of well; pgu-2 anti-syphonage sealing device; pk-1 washing coil - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions relates to a sealing procedure and technology of cavity of pipes and annular space of the well during performance of lowering-and-lifting operations at gas, oil and water inflows. The invention proposes a sealing method of cavity of pipes and annular space of the well during performance of lowering-and-lifting operations at gas, oil and water inflows with the controlled state of the well, which is characterised by the fact that it involves installation of a preventer with pipe rams, installation to a side outlet of a swivel of a high pressure hose; after that, during lowering or lifting of pipes, at occurrence of the first signs of gas, oil and water inflows, the pipe is put on spider wedges so that a connection coupling of the pipe can be located between the upper sealing assembly, at static position of an anti-syphonage device, and hydraulic tongs; pipe rams the lower sealing assembly are closed below the coupling on the pipe body located in the well; middle and upper sealing assemblies are elevated manually, or by means of an auxiliary winch, or by means of pneumatic or hydraulic or mechanical cylinders, or an articulated-lever drive, or an articulated-lever drive with a "rack-gear" gear unit, which are installed between lower and middle sealing assemblies. Blind rams of the middle sealing assembly are closed above the connection coupling of the pipe located in the well; with that, discharging of the pipe cavity takes place inside the chamber between lower and middle sealing assemblies and then through an outlet branch pipe via a high pressure hose to collecting tanks. Control of pressure inside the chamber is performed due to a pressure gauge installed on it, and annular space above the preventer is sealed by the washing coil, and discharging of the annular space occurs through a pipe gate valve further via a discharge line to the collecting tanks; with that, control of pressure in annular space is performed due to a pressure gauge installed in the washing coil. A swivel with a branch pipe, on the end of which a coupling with a threaded nipple connection is installed, is installed into the cavity between upper and middle sealing assemblies to blind rams of the middle sealing assembly; with that, outside diameter of the swivel branch pipe corresponds to outside diameter of pipes located in the well and to bore size of pipe rams of the upper sealing assembly. Pipe rams of the upper sealing assembly are closed by being installed on the body of the branch pipe of the swivel; blind rams of the middle sealing assembly are spread; at this time, discharging of the pipe cavity takes place inside the chamber between the lower and the upper sealing assemblies and through the swivel; the upper and the middle sealing assemblies together with the swivel are lowered till installation of the nipple part of the threaded connection of the swivel branch pipe into the connection coupling of the pipe; at least five or six turns are screwed on after one is sure that engagement is correct. Screwing is performed with a booster or a hydraulic wrench; besides, discharging of the pipe cavity occurs through the swivel via a high pressure hose to collecting tanks. After that, pipe rams of the upper and the lower sealing assemblies are spread; the middle and the upper sealing assemblies are lowered to initial position; an elevator is fastened to the connection coupling of the swivel or the pipe; a pipe string is removed from spider wedges, and the pipe is lifted out of the well; the pipe string is put on the spider wedges; the hydraulic wrench is set up; a catch is installed behind the connection coupling of the pipe; the elevated pipe is backed off two or three turns; after one is sure that the coupling is not backed off together with the pipe, pipe rams of the lower sealing assembly are installed below the coupling on the body of the pipe located in the well. Then, the middle and the upper sealing assemblies are elevated, and pipe rams of the upper sealing assembly are installed above the coupling on the body of the elevated pipe. The elevated pipe is backed off; along with the above, rotation of the upper sealing assembly is performed irrespective of the middle one; the hydraulic wrench is removed; after that, a pipe for detachment is elevated together with the upper and the middle sealing assemblies due to the pipe rams tightly pressed to the body of the elevated pipe and a high value of axial working stroke of the chamber; at this time, discharging of the pipe cavity takes place inside the chamber between the lower and the upper sealing assemblies and through the swivel. After that, blind rams of the middle sealing assembly are closed above the connection coupling of the pipe located in the well, thus cutting off the upper sealing assembly and the elevated pipe; at this time, discharging of the pipe cavity takes place inside the chamber between the lower and the middle sealing assemblies. Pipe rams of the upper sealing assembly are spread, and the elevated pipe is lowered. The swivel is backed off and installed with its branch pipe into a cavity between the upper and the middle sealing assemblies to blind rams of the middle sealing assembly. Pipe rams of the upper sealing assembly are closed thus being installed on the body of the swivel branch pipe; blind rams of the middle sealing assembly are spread; at this time, discharging of the pipe cavity takes place inside the chamber between the lower and the upper sealing assemblies and through the swivel. The upper and the middle sealing assemblies together with the swivel are lowered till installation of the nipple part of the threaded connection of the branch pipe of the swivel to the connection coupling of the pipe located in the well, and they are screwed up manually by means of at least five or six turns after one is sure that engagement is correct. Screwing-up is performed with the booster or the hydraulic wrench; at this time, discharging of the pipe cavity through the swivel takes place; after that, pipe rams of the upper and the lower sealing assemblies are spread; upper and lower sealing assemblies are lowered to initial position; a pipe string is removed from the spider wedges and the next pipe is lifted out of the well. When sealing of the well is required, a ball valve is screwed on the pipe, a coupling for preventer rams is lowered, the preventer is closed thus installing pipe rams on the body of the remote branch pipe of the ball valve, the ball valve is closed, then, casing valves are closed, after that, excess pressure is measured.

EFFECT: reliable protection of environment against a well; preservation of collecting properties of the bed and reduction of time and material costs for performance of well repair.

5 cl, 9 dwg

Description

The group of inventions relates to a technique and technology for sealing a pipe cavity and annular space of a well during tripping, during oil and gas manifestations - “emissions” (short-term, intensive displacement of a portion of a damping solution by the energy of an expanding gas from a well) with a controlled state of the well.

The invention relates to the oil industry and is intended to prevent spills and emissions of the well fluid of its collection, drain from the working area during descent - ascent during make-up and unscrewing of the tubing string and BT.

A device is known for preventing spraying of wellbore fluid (and.with. No. 1355691, IPC ЕВВ 33/08, 1986).

The device comprises a housing consisting of two pivotally connected parts, upper and lower sealing assemblies containing annular gaskets consisting of two parts corresponding to parts of the housing and an outlet pipe for draining the liquid.

A device is known for preventing spraying of KGU well fluid (universal mud chamber) comprising a housing consisting of two articulated parts with upper and lower removable sealing assemblies and removable gaskets corresponding to housing parts containing a set of replaceable gaskets, the sealing assemblies are provided with gasket fixation elements, made in the form of protrusions on the inner surface of the housing with pins with heads and segments with curly holes, parts of which are sized and Position the leg and head, respectively the pins, while in interchangeable strips are provided with holes corresponding to the legs of the pins. (PM RU No. 30827 01/14/2003.) Source of information "Rospatent-Registers"

The disadvantages of these devices are the inability to seal the pipe cavity during their assembly - disassembly (make-up and unscrewing) during the hoisting operations during the development of the well through the tubing or borehole cavity without spills and emissions of the well fluid with controlled gas and oil occurrence.

The closest to the destination is the utility model, the anti-siphon device "PU-1", but it is applicable only during the lifting of the column, in the presence of fluid in the pipe cavity. (ПМ RU №132480 03/29/2013.)

A well-known complex of technological sealing equipment KGOM for sealing the annulus during the flushing of the well with the simultaneous advancement of the tubing along the sealing sleeve consisting of: a housing made in the form of a coil with a tapered hole for installing inserts, two flange connections in the upper of which are located side screw stops (sliders) for fixing the inserts in the base and inserts in the form of a metal ring with a sealing collar installed on it. Inf. On the site of SibTechOil.

Known flushing coil containing the base, made in the form of a coil with flanges, one of which is designed to connect with wellhead equipment, a sealing sleeve made of elastic material with grooves made on its inner surface, an expansion sleeve located in the coil on the inner flange and adjustable hydraulic connection hydraulic drive, the spacer sleeve has a flange, the other coil flange is designed to communicate with the spacer sleeve flange using threaded rods and nuts, for external rotation In addition, an odd number of grooves is made, the number of grooves on the inner surface of the sealing sleeve is even, and a fitting is installed in the coil wall for adjustable hydraulic connection of the hydraulic actuator with the middle groove of the sealing sleeve. (RF patent No. 2264527)

The disadvantages of these devices are the rapid wear and deformation of the sealing sleeve when the suspension of the tubing or drill pipe and in the absence of centering of the mast with the wellhead. The impossibility of horizontal rotation around its axis and the magnitude of the stroke of the insert (metal ring) in the radial direction.

The aim of the invention is:

- the creation of a method and devices for sealing the annular space of the borehole and pipe cavity during their assembly-disassembly (screwing and unscrewing) during the round-trip operations on developing wells with controlled gas and oil occurrence, in particular:

- environmental protection against well fluid;

- reduction in the volume of injected fluid into the producing well-reservoir;

- preservation of reservoir properties of the reservoir;

- expansion of the arsenal of technical means;

- improvement of the design;

- reduction of time for the duration of well repair;

- reduction of material costs for repairs;

- improvement of working conditions and labor protection:

SUMMARY OF THE INVENTION

During development, maintenance and overhaul of wells, there are a number of problems associated with developing wells, in particular:

- spout of injection wells to maintain reservoir pressure (RPM) during repair;

- periodic emissions of gas caps of oil wells, in particular wells with several simultaneously opened and exploited productive formations having different parameters of the gas factor, reservoir pressure, etc.

- spilling of the wellbore fluid and gas cap emissions during the flushing of the well during pipe extension, especially when developing wells after hydraulic fracturing;

- repeated jamming of developing wells during the repair, with recalculations for heavier solutions;

- the negative impact of heavy solutions and their compositions on the reservoir properties of the reservoir;

- tubing or tubing lift with a siphon after working with devices for cleaning the bottom-hole zone of the formation (UOPZP) and cleaning the bottom of the wells (UOZS), or developing the well, or after drilling, or when lifting the ESP unit with a non-collapsed drain valve;

- displacement of the well fluid during the descent of the pipe string;

- large volumes of injected fluid into the producing well production reservoir;

- continuous repair;

- significant economic losses when using additional kill fluids;

- additional costs for attracting equipment;

- environmental pollution by well fluid:

The estimated killing fluids according to the characteristics and parameters of the formation in some cases do not fulfill their functions, especially in wells after hydraulic fracturing and at the same time several open and exploited productive formations, which is proved by practice when one of the layers gives up and the other absorbs. Due to fluid displacement during repair of injection wells and periodic discharges of gas caps (short-term intensive displacements from a well of a portion of a killing solution, expanding gas energy) in oil wells, they resort to re-killing a well or flushing gas caps with heavier killing solutions. Even with slight excess pressures of up to 5 atmospheres, and lower that occur periodically when the gas cap is removed, it is necessary to stop the production process and resort to re-killing and / or flushing the well at times 3-4 or more times during the repair work on this well with recalculations to heavier solutions.

Existing devices at the moment do not solve the above problems.

In the proposed method with an anti-siphon sealing device “PGU-2”, a washing coil “PK-1” and a washing swivel, the problem of sealing the pipe cavity and the annular space of the well during the round-trip operations during GNPP - “outbursts” without spills of the well fluid is solved with controlled well condition.

The creation of the PGU-2 anti-siphon device ensured the sealing of the pipe cavity during assembly - disassembly of the tubing string or BT. The solution with a telescopic camera made it possible to tightly screw and unscrew the tubing string or BT string during GNVP into the tubes. The interconnected parts (cylindrical rings) are made of metal construction, and the sealing elements are made of elastic material.

The design with three sealing units capable of rotating horizontally around its axis independently from each other with dies, located on the top and bottom, and, on average, blank dies, ensured chamber tightness when screwing and unscrewing the pipe string; and / or fabric rubber with a metal core and / or body.

The creation of a flushing coil provided during hoisting operations reliable protection of the annulus from spills and outbursts of well fluid. The creation of a cavity between two flanges, in which a ring with a sealing element mounted on it and an elastic gland is placed, ensured reliable tightness when the pipe string passes through the gland due to the possibility of horizontal rotation of the ring around its axis and a working stroke in the radial direction of at least 40 mm, accordingly, with a total stroke from one border to another, not less than 80 mm. This decision eliminated the premature wear of the elastic gland and its deformation, which occurs due to the constant fluctuations of the tubing string or BT and in deviated wells in the absence of centering of the mast with the wellhead. In these cases, the ring with the gland moves with the pipe in the direction of its movement. All parameters are made with the expectation that even in the absence of centering of the mast with the wellhead, a safe passage of the pipe string with connecting couplings through the ring with the stuffing box is ensured. Also, this system is relevant in wellhead fittings for hydraulic fracturing in the hydraulic fracturing unit in the through-flow flushing coil and in those equipment where the stuffing box system for sealing the annulus is used. Since in most cases, during the operation to disrupt the packer after hydraulic fracturing, the sealing gland deforms, resulting in the ejection of well fluid through the annulus and the risk of an open fountain. The body of the flushing coil and the ring are made of metal construction, and the sealing element and stuffing box are made of elastic material.

The main advantage of the proposed method is the novelty of the assembly – disassembly, screwing and unscrewing of threaded joints during tripping and siphoning and developing a well, both through the tubing or tubing cavity and through the annulus.

The device will make it possible to carry out tripping of tubing and BT in wells with GNVP - “ejection” (short-term, intensive displacement of a portion of a silencing solution by the energy of an expanding gas) from a well into a pipe and into an annulus, which will save the silencing solution and will allow for a shutdown without additional silencing, i.e. the work is simultaneously depressed in relation to some formations and equilibrium for others during well repair with the simultaneous operation of several formations.

The purpose of the invention is achieved by the following solutions:

A method of sealing a pipe cavity and annular space of a well during tripping during gas and oil manifestations with a controlled condition of the well includes installing a preventer with pipe dies, the bore diameter of which corresponds to the outer diameter of the pipes located in the well, mounting a base with three on the upper flange of the washing coil preventer flanges in which annular grooves for sealing rings and radial holes for studs are made, the lower flange is designed chen for connecting with the wellhead equipment, and the middle and upper are interconnected, one of them containing a horizontal radial bore forming, together with the other, the cavity in which the ring is placed, a collar is made on the ring with an elastic gland installed on it and a groove with ring sealing element, the ring has the ability to rotate horizontally around its axis and the magnitude of the stroke in the radial direction, on the side wall of the base there is a threaded hole for installation new to it are the manometers, mounting the slider on a removable flange of the washing coil that holds the pipe string, installing on the crescent of the slider an anti-siphon sealing device comprising a telescopic camera having a large axial working stroke, consisting of several interconnected parts that contain spring-loaded locking elements placed in grooves with the possibility of reciprocating action, having on one side a slope angle to be able to return to its original position when moving and downward chambers, or retaining collars, or stops, or fingers, and at least two annular grooves, one of which interacts with spring-loaded retaining elements, and the other has a sealing ring, three sealing assemblies forming a cavity for axial movement together with the camera, the lower and middle ones are connected with the camera, and the upper one with the middle, due to the connecting rings placed on the sealing nodes and has the ability to rotate horizontally around its axis regardless of the middle sealing node due to the feet balloons installed in at least one radial cavity which are formed jointly by two semicircular channels located opposite each other, one of which is made on the outer part of the connecting ring of one sealing assembly, and the second on the inside of the connecting ring of another sealing assembly, the connecting rings have at least one radial hole with a threaded connection for installation through it in the radial cavity of the locking balls and plugs, annular rings are made in the connecting rings clamps with annular sealing elements located in them, pipe and, on average, blind dies are connected in the lower and upper sealing assemblies associated with leading screw, or articulated, pneumatic, or hydraulic reciprocating drives, which form a cavity together with the covers for ram drives, for lifting the middle and upper sealing units, the device contains pneumatic, or hydraulic, or mechanical cylinders, or articulated lever actuators, or articulated linkage drives with a rack-and-pinion gear mechanism mounted between the lower and middle sealing units, containing in their design a telescopic rack necessary for the reciprocating actions of the telescopic camera, the camera contains a threaded hole with a pressure gauge installed in it to control the pressure inside the camera and a hole with a drain pipe for draining the liquid, to which a ball valve with a high pressure hose is fixed, the second end of which is displayed on the collection tanks, mon even the discharge line from the annular valve to the collection tanks, installation of a high pressure hose swivel to the lateral branch of the swivel, the second end of which is led to the collection tanks with a pressure gauge installed to control the pressure in the pipe cavity, after which, when lowering or raising pipes, when of the first signs of gas and oil manifests, the pipe string is placed on the spider wedges so that the pipe coupling is between the upper sealing unit, with the anti-siphon device in a static position and hydraulically with a key, the pipe dies of the lower sealing assembly are closed below the coupling on the pipe body located in the borehole, the middle sealing with the upper sealing assemblies are lifted manually, or using an auxiliary winch, or using pneumatic, or hydraulic, or mechanical cylinders, or an articulated lever drive or articulated lever drive with gear rack-and-pinion mechanism installed between the lower and middle sealing nodes, containing in its design a telescopic rack necessary for making by a telescopic reciprocating chamber, the blind plates of the middle sealing assembly over the pipe connecting sleeve located in the well are closed, and the pipe cavity is discharged at this time inside the chamber between the lower and middle sealing assemblies further through the outlet pipe through the high pressure hose to the collection tanks while the pressure inside the chamber is controlled by a pressure gauge installed on it, and the annulus above the preventer is sealed by the flushing the coil and the annulus are discharged through the annular valve further along the discharge line to the collection tanks, while the pressure in the annulus is controlled by a pressure gauge installed in the washing coil, a swivel with a pipe is installed, at the end of which there is a coupling with a threaded connection in the cavity between the upper and middle sealing nodes to the deaf dies of the middle sealing node, and the outer diameter of the swivel nozzle corresponds to the outer diameter for pipes located in the borehole and the bore diameter of the tube dies of the upper sealing unit, the tube dies of the upper sealing unit are closed mounted on the body of the swivel nozzle, deaf dies of the middle sealing unit are bred, and the pipe cavity is discharged inside the chamber between the lower and upper sealing units and through the swivel, the upper and middle sealing units together with the swivel are lowered to install the nipple part of the threaded connection of the swivel nozzle in the the pipe extension sleeve is manually screwed up for at least five to six revolutions, making sure that the turn-in hook is correct, carried out with an amplifier or hydraulic wrench, and at that time the pipe cavity is discharged through the swivel through the high-pressure hose to the collection vessels, after which the pipe dies are bred of the upper and lower sealing nodes, the middle and upper sealing nodes are lowered to the initial position, the elevator is hooked to the swivel or pipe coupling, released from the wedges of the spider well, pipe and lift the pipe from the well, put the pipe string on the spider wedges, start the hydraulic wrench, set the delay for the pipe connection sleeve, turn the pipe up by two or three turns, making sure that the pipe does not turn off and install the pipe dies of the lower sealing unit below the couplings on the body of the pipe located in the well, then lift the middle with the upper sealing units and install pipe dies of the upper sealing unit above the coupling on the body of the raised pipe, unscrewing raised pipe, together with the pipe, the upper sealing unit rotates regardless of the middle one, a hydraulic wrench is removed, after which the pipe for undocking is raised together with the upper and middle sealing units due to the tightly pressed pipe dies to the body of the raised pipe and the large axial working stroke of the chamber moreover, the discharge of the pipe cavity at this time occurs inside the chamber between the lower and upper sealing nodes and through the swivel, after which the blind dies of the middle seal are closed unit above the pipe coupling located in the well thereby cutting off the upper sealing unit and the raised pipe, while the discharge of the pipe cavity at this time occurs inside the chamber between the lower and middle sealing units, the tube dies of the upper sealing unit are bred and the raised pipe is lowered, the swivel is turned and is installed by a pipe in the cavity between the upper and middle sealing units to the blind dies of the middle sealing unit, the pipe dies of the upper sealing unit of the assembly are closed by being installed on the body of the swivel nozzle, blind plates of the middle sealing assembly are bred, and at this time the tube cavity is discharged inside the chamber between the lower and upper sealing assemblies and through the swivel, the upper and middle sealing assemblies together with the swivel are lowered until the nipple part of the threaded joint is installed the swivel nozzle in the pipe connecting sleeve located in the well is manually wrapped for at least five to six revolutions, making sure that the inversion is correct, They are mounted with an amplifier or hydraulic wrench, and at that time the pipe cavity is discharged through the swivel, after which the tube dies of the upper and lower sealing units are opened, the upper and middle sealing units are lowered to their original position, the pipe string is released from the spider wedges and the next pipe is lifted from wells, if it is necessary to seal the wells, a ball valve is screwed onto the pipe, lower the coupling under the preventer dies, close the preventer by installing pipe dies on the remote atrubka ball valve, the ball valve is closed, then the valve annulus, and then put on the metering overpressure.

The anti-siphon sealing device for sealing the pipe cavity during tripping operations includes a telescopic camera having a large axial working stroke, consisting of several interconnected parts that contain spring-loaded locking elements placed in grooves with the possibility of reciprocating action, having an angle on one side slope for the ability to return to its original position when the camera moves down the lock collars, or stops, or fingers and at least two face grooves, one of which interacts with spring-loaded retaining elements, and the other has a sealing ring, three sealing units that form a cavity for axial movement together with the camera, the lower and middle are connected to the camera, and the upper and the middle, due to the connecting rings placed on sealing nodes and has the ability to rotate horizontally around its axis regardless of the average sealing node due to the locking balls installed in at least one radial cavity which jointly form two semicircular channels located opposite each other, one of which is made on the outer part of the connecting ring of one sealing assembly, and the second on the inside of the connecting ring of the other sealing assembly, the connecting rings having at least one radial hole with a threaded connection for installation through it into the radial cavity of the locking balls and plugs, annular grooves are made in the connecting rings with annular sealing elements placed in them, in the lower and upper m sealing nodes installed tubular, and on average blind dies associated with leading screw, or articulated, or pneumatic, or hydraulic actuators of reciprocating action, forming together with the covers a cavity for drive dies, for lifting the middle and upper sealing nodes device contains pneumatic, or hydraulic, or mechanical cylinders, or articulated lever actuators, or articulated lever actuators with a rack-and-pinion gear mechanism, mounted between the lower and middle sealing assemblies comprising in their structure the telescopic rail necessary to make the telescopic camera reciprocating action chamber comprises a threaded bore mounted therein with a pressure gauge for monitoring the pressure within the chamber and the vent pipe opening to the overflow.

The upper sealing assembly is removable and the device can be used without the upper sealing assembly.

When using the articulated lever drive, adjustable locking mechanisms are installed on the sealing units to fix the levers and hold down the pressing force exerted on the dies.

The flushing coil for sealing the annulus during tripping and flushing the wells includes a base with three flanges, in which annular grooves for the sealing rings and radial holes for the studs are made, the lower flange is designed to connect to the wellhead equipment, and the middle and upper are connected with each other, one of them contains a horizontal radial bore forming, together with the other, the cavity in which the ring is placed, a collar is made on the ring with an elastic gland mounted on it and a groove with an annular sealing element placed in it, the ring has the ability to rotate horizontally around its axis and the magnitude of the stroke in the radial direction, a threaded hole is made on the side wall of the base for mounting a manometer in it.

The technological solution is to create a method for sealing the pipe cavity and the annulus of the well, during tripping during gas and oil manifestations - “outbursts” (short-term, intensive displacement of a portion of the kill solution from the well with expansion gas energy) with a controlled state of the well.

The technical solution is the creation of devices that provide a tight assembly - disassembly, screwing and unscrewing of tubing and BT during tripping operations on developing wells.

The method and devices are illustrated by drawings, which depict:

The figure 1 is a diagram of the installation and strapping of sealing equipment during the hoisting operations.

In figure 2 - anti-siphon sealing device "PGU-2" In figure 3 - flushing coil "PK-1"

In figure 4 - the average sealing site of the anti-siphon sealing device "PGU-2"

In figure 5 - the lower sealing unit of the anti-siphon sealing device "PGU-2"

In figure 6 - the upper sealing unit of the anti-siphon sealing device "PGU-2"

Figure 7 is a diagram of the assembly of the sealing nodes

In figure 8 - the principle of operation of the spring-loaded locking element and the installation of the o-ring

Figure 9 is a diagram of a ball - bearing connection of the connecting rings of the upper and middle sealing unit

Device operation

A method of sealing a pipe cavity and annular space of a well during tripping during gas and oil manifestations with a controlled state of the well includes installing a preventer 1 with pipe dies 9, the bore diameter of which corresponds to the outer diameter of the pipes 10 located in the well, mounting a flushing coil of the preventer 1 3 comprising a base with three flanges 50, 51, 52, in which annular grooves 11 are made for the sealing rings 12 and radial holes 13 for the studs 14, lower the th flange 52 is designed to connect with the wellhead equipment, and the middle 50 and the upper 51 are interconnected, one of them containing a horizontal radial bore forming, together with the other cavity 15 in which the ring 16 is placed, a collar 17 is made on the ring 16 with an elastic gland 18 and a groove 19 with an annular sealing element 20 located therein, the ring 16 has the possibility of horizontal rotation around its axis and the magnitude of the working stroke in the radial direction, on the side wall of the base 3 you a threaded hole 21 was filled for mounting a pressure gauge 22 into it, mounting a spider 2 on a removable flange 51 of the washing coil 3 that holds the pipe string 10, installing an anti-siphon sealing device 4 on the crescent of the spider 2 including a telescopic camera 23 having a large axial working stroke, consisting of several interconnected parts that contain spring-loaded locking elements 24, placed in the grooves 25 with the possibility of reciprocating action, having on one side a slope for the possibility of returning to the initial position when the camera moves down, or retaining collars, or stops, or fingers and at least two annular grooves 26, 53, one of which 26 interacts with the spring-loaded retaining elements 24, and in the other 53 there is a sealing ring 54 , three sealing nodes 27, 28, 29 forming together with the chamber 23 a cavity for axial movement, the lower 29 and the middle 28 are connected with the camera 23, and the upper 27 with the middle 28, due to the connecting rings placed on the sealing nodes 27, 28 and has the ability horizontal bp Jointing around its axis regardless of the middle 28 of the sealing unit due to the locking balls 35 installed in at least one radial cavity 31 which together form two semicircular channels 32 located opposite each other, one of which is made on the outer part of the connecting ring 33 of one sealing node 27, and the second from the inner side of the connecting ring 33 of another sealing unit 28 and, the connecting rings have at least one radial hole 34 with a threaded connection for installation through him in the radial cavity 31 of the locking balls 35 and plugs 36, in the connecting rings 33 are made annular grooves 37 with annular sealing elements 38 placed in them, in the lower 29 and upper 27 sealing nodes are installed pipe 6, and on average blind dies 8 associated with leading screw 7, or articulated, or pneumatic, or hydraulic reciprocating drives forming together with the covers 39 a cavity for the drives of the dies, for lifting the middle 28 and upper 27 of the sealing nodes of the device contains pneumatic, or hydraulic, or mechanical cylinders, or articulated-lever actuators, or articulated-lever actuators with a rack-and-pinion gear mechanism installed between the lower 29 and middle 28 sealing units containing the telescopic rail in its design necessary for the reciprocating telescopic camera action, the chamber 23 contains a threaded hole with a pressure gauge 22 installed therein for monitoring pressure inside the chamber and an opening with a branch pipe 41 for draining liquid to which a ball valve 42 with a high pressure hose 43 is fixed, the second end of which is connected to the collecting tanks, installing the discharge line 44 from the annular valve 45 to the collecting tanks, mounting to the side branch 46 of the swivel 5 of the high pressure hose 43, the second end which is displayed on collecting tanks with a pressure gauge 22 installed to control the pressure in the cavity of the pipes 10, after which, during the descent or lifting of the pipes, when the first signs of gas and oil manifestations appear, the pipe string 10 is placed on the wedges of the spider 2 so that the pipe coupling 49 of the pipe 10 was located between the upper sealing unit 27, with the anti-siphon device 4 being in a static position and a hydraulic wrench, the pipe dies 6 of the lower sealing unit 29 are closed below the coupling 49 on the pipe body 10 located in the well, the middle 28 with the upper 27 sealing units are lifted manually or with the help of an auxiliary winch, or with the help of pneumatic or hydraulic or mechanical cylinders, or a pivot-lever drive, or a pivot-lever drive with a gear mechanism gear-yoke, installed between the lower 29 and middle 28 sealing units, containing the telescopic rack necessary for the reciprocating action of the telescopic camera 23, the blind plates 8 of the middle sealing unit 28 are closed above the connecting sleeve 49 of the pipe 10 located in the well, moreover, the discharge of the cavity of the pipes 10 at this time occurs inside the chamber 23 between the lower 29 and the middle 28 of the sealing nodes further through the outlet pipe 41 through a high pressure hose 43 to the tanks - collectors, while the pressure inside the chamber 23 is controlled by the pressure gauge 22 installed on it, and the annulus above the preventer 1 is sealed by the flushing coil 3 and the annulus is discharged through the annular valve 45, then along the discharge line 44 to the reservoirs, and the pressure in the annulus is controlled by a pressure gauge 22 installed in the flushing coil 3, a swivel 5 with a pipe 47 is installed, at the end of which a coupling with a threaded nipple is installed connecting 48 into the cavity between the upper 27 and middle 28 sealing units to the blind dies 8 of the middle sealing unit 29, the outer diameter of the swivel nozzle 47 corresponding to the outer diameter of the pipes 10 located in the well and the bore diameter of the pipe dies 6 of the upper sealing unit 27, pipe dies 6 the upper sealing unit 27 are closed, mounted on the body of the nozzle 47 of the swivel 5, the blind dies 8 of the middle sealing unit 28 are bred, and the discharge of the pipe cavity 10 at this time occurs inside the chamber 23 between the lower 29 and upper 27 sealing nodes and through the swivel 5, the upper 27 and middle 28 sealing nodes together with the swivel 5 is lowered until the nipple part of the threaded connection 48 of the nozzle 47 of the swivel 5 is inserted into the connecting sleeve 49 of the pipe 10, manually screw at least five - six revolutions, making sure the inversion hook is correct, is carried out with an amplifier or hydraulic wrench, and the discharge of the pipe cavity 10 at this time occurs through the swivel 5 through the high pressure hose 43 to the collection containers, after which they drive the pipe dies 6 of the upper 27 and lower 29 sealing nodes, the middle 28 with the upper 27 sealing nodes are lowered into the initial position, the elevator is hooked to the swivel coupling 38 or the pipe coupling 49, the pipe string 10 is released from the spider wedges 2 and the pipe 10 is lifted from 10 wells, plant a string of pipes 10 on the wedges of the spider 2, start a hydraulic wrench, set a delay for the connecting sleeve 49 of the pipe 10, turn the raised pipe 10 two or three turns, making sure that the coupling 49 does not turn off together with the pipe 10 they remove the pipe dies 6 of the lower sealing unit 29 below the sleeve 49 on the body of the pipe 10 located in the well, then lift the middle 28 with the upper 27 sealing units and install the pipe dies 6 of the upper sealing unit 27 above the sleeve 49 on the body of the raised pipe 10, the raised pipe 10 is turned away , together with the pipe 10, the upper sealing unit 27 rotates regardless of the middle 28, a hydraulic wrench is output, after which the pipe 10 for undocking is lifted together with the upper 27 and the middle 28 of the sealing unit due to the tightly pressed tube dies 6 to the body of the raised pipe 10 and the large value of the axial working stroke of the chamber, the discharge of the pipe cavity 10 at this time occurs inside the chamber 23 between the lower 29 and upper 27 sealing units and through the swivel 5, after which the deaf are closed dies 8 of the middle sealing unit 28 above the connecting sleeve 49 of the pipe 10 located in the well thereby cutting off the upper sealing unit 27 and the raised pipe 10, and the discharge of the pipe cavity 10 at this time occurs inside the chamber 23 between the lower 29 medium 28 sealing nodes, pipe dies 6 of the upper sealing unit 27 are opened and the raised pipe 10 is lowered, the swivel 5 is turned away and the pipe 47 is inserted into the cavity between the upper 27 and middle 28 sealing nodes to the blind dies 8 of the middle sealing unit 28, pipe dies 6 of the upper sealing node 27 are closed mounted on the body of the nozzle 47 of the swivel 5, the blind dies 8 of the middle sealing node 28 are bred, and the discharge of the cavity of the pipes 10 at this time occurs inside the chamber 23 between the presser 29 and upper 27 sealing nodes and through the swivel 5, the upper 27 and middle 28 sealing nodes together with the swivel 5 are lowered to install the nipple part of the threaded connection 48 of the pipe 47 of the swivel 5 into the connecting sleeve 49 of the pipe 10 located in the well, manually wrap at least five - six revolutions, making sure that the engagement is correct, the inversion is carried out with an amplifier or hydraulic wrench, and the discharge of the pipe cavity 10 at this time occurs through the swivel 5, after which the pipe dies 6 of the upper 27 and lower about 29 sealing nodes, the upper 27 and middle 28 sealing nodes are lowered to their original position, the pipe string 10 is released from the spider wedges 2 and the next pipe 10 is lifted from the well, if necessary, the well is sealed, a ball valve is screwed onto the pipe 10, the coupling 49 is lowered under the dies 9 the preventer 1, close the preventer 1 by installing tube dies 9 on the body of the remote nozzle of the ball valve, close the ball valve, then the annular valve 45, and then put on gauge the excess pressure.

Claims (5)

1. A method of sealing a pipe cavity and annular space of a well during tripping during gas and oil manifestations with a controlled state of the well, characterized in that it includes the installation of a preventer with pipe dies, the bore diameter of which corresponds to the outer diameter of the pipes located in the well, mounting to the upper flange of the washing coil preventer, including a base with three flanges, in which annular grooves are made for the sealing rings and radial holes for ilka, the lower flange is designed to connect with the wellhead equipment, and the middle and upper are interconnected, one of which contains a horizontal radial bore, forming together with the other cavity in which the ring is placed, a collar is made on the ring with an elastic gland installed on it and a groove with an annular sealing element located in it, the ring has the ability to rotate horizontally around its axis and the magnitude of the stroke in the radial direction, on the side wall of the base about a threaded hole for installing a manometer in it, mounting a spider on a removable flange of the washing coil that holds the pipe string, installing an anti-siphon sealing device on the crescent of the spider, including a telescopic camera having a large axial working stroke, consisting of several interconnected parts that contain spring-loaded locking elements placed in slots with the possibility of reciprocating action, having on one side a slope angle for the possibility of return in the initial position when the camera moves down, or retaining collars, or stops, or fingers and at least two annular grooves, one of which interacts with spring-loaded retaining elements, and the other has an o-ring, three sealing assemblies, forming together with camera cavity for axial movement, the lower and middle are connected to the camera, and the upper - with the middle, due to the connecting rings placed on the sealing nodes, and has the ability to rotate horizontally around its axis regardless of the average the sealing unit due to the locking balls installed in at least one radial cavity, which are formed together by two semicircular channels located opposite each other, one of which is made on the outer part of the connecting ring of one sealing unit, and the second on the inside of the connecting ring of the other a sealing assembly, the connecting rings having at least one radial hole with a threaded connection for installation through it in the radial cavity of the locking balls and plugs in The annular grooves are made with annular grooves with annular sealing elements located in them, pipe lower and upper blind assemblies are installed in the lower and upper sealing nodes, and, on average, blind dies are connected with leading screw, or articulated, or pneumatic, or hydraulic reciprocating drives, together with the covers, forming a cavity for the drives of dies, for lifting the middle and upper sealing units, the device contains pneumatic, or hydraulic, or mechanical cylinders, or a ball The lever-type actuators, or articulated-lever actuators with a rack-and-pinion gear mechanism, mounted between the lower and middle sealing units, containing in their design a telescopic rack necessary for the reciprocating action of the telescopic camera, the camera contains a threaded hole with it installed pressure gauge for monitoring the pressure inside the chamber and an opening with a drain pipe for draining the fluid, to which a ball valve with a high pressure hose is fixed, the second end of the cat It is connected to the collection tanks, installing the discharge line from the annular valve to the collecting tanks, mounting the high pressure hose swivel to the lateral branch, the second end of which is connected to the collecting tanks with a pressure gauge installed to control the pressure in the pipe cavity, after which the time of the descent or lifting of the pipes, when the first signs of gas and oil manifestations appear, the pipe string is placed on the spider wedges so that the pipe coupling is between the upper sealing unit in a static position of the siphon device, and the hydraulic dies of the lower sealing assembly are closed with a hydraulic wrench below the coupling on the pipe body located in the well, the middle with the upper sealing assemblies are lifted manually, or using an auxiliary winch, or using pneumatic, or hydraulic, or mechanical cylinders, or hinged - a lever drive, or a pivot-lever drive with a gear rack-and-pinion gear, installed between the lower and middle sealing units containing a telescope in their design The lath required for the reciprocating telescopic camera to close, blind plates of the middle sealing assembly over the pipe coupling located in the borehole are closed, moreover, the pipe cavity is discharged inside the chamber between the lower and middle sealing assemblies, and then through the branch pipe through a high-pressure hose to the collection tanks, while the pressure inside the chamber is controlled by the pressure gauge installed on it, and the annulus The washing coil seals the preventer and the annulus is discharged through the annular valve further along the discharge line to the collection tanks, while the pressure in the annulus is controlled by a pressure gauge installed in the washing coil, a swivel is installed with a nozzle at the end of which a coupling with a threaded nipple connection into the cavity between the upper and middle sealing units to the blind dies of the middle sealing unit, the outer diameter of the pipe as the swivel corresponds to the outer diameter of the pipes located in the well and the bore diameter of the pipe dies of the upper sealing unit, the pipe dies of the upper sealing unit are closed, mounted on the body of the swivel nozzle, blind plates of the middle sealing unit are bred, and the cavity of the pipes is discharged at this time inside the chamber between the lower and upper sealing nodes and through the swivel, the upper and middle sealing nodes together with the swivel are lowered to the installation of the nipple part of the threads After connecting the swivel nozzle to the pipe coupling, manually screw at least five to six turns, making sure that the turn is correct, carry out with an amplifier or hydraulic wrench, and at this time the pipe cavity is discharged through the swivel through the high pressure hose to the collection tanks, after that, the pipe dies of the upper and lower sealing units are bred, the middle and upper sealing units are lowered to the initial position, the elevator is hooked to the swivel coupling or pipes, release the pipe string from the spider wedges and lift the pipe out of the well, put the pipe string on the spider wedges, turn on the hydraulic wrench, set the delay for the pipe connection sleeve, unscrew the raised pipe by two or three turns, making sure that the pipe does not turn off together with the pipe install pipe dies of the lower sealing unit below the sleeve on the body of the pipe located in the well, then lift the middle with the upper sealing units and install pipe dies of the upper sealing unit above the coupling on the body of the raised pipe, the raised pipe is turned off, together with the pipe, the upper sealing assembly rotates regardless of the middle one, a hydraulic wrench is removed, after that the pipe for undocking is raised together with the upper and middle sealing assemblies due to the tightly pressed pipe dies to the body of the raised pipe and a large value of the axial working stroke of the chamber, and the discharge of the pipe cavity at this time occurs inside the chamber between the lower and upper sealing nodes and through the swivel, after that the blind plugs of the middle sealing assembly over the pipe connecting sleeve located in the well are closed, thereby cutting off the upper sealing assembly and the raised pipe, the discharge of the pipe cavity at this time taking place inside the chamber between the lower and middle sealing assemblies, the pipe rams of the upper sealing assembly are bred and raised the pipe is lowered, the swivel is turned away and installed by a pipe in the cavity between the upper and middle sealing nodes to the deaf dies of the middle sealing Evil, tube dies of the upper sealing unit are closed, installed on the body of the swivel nozzle, blind dies of the middle sealing unit are bred, and the pipe cavity is discharged at this time inside the chamber between the lower and upper sealing units and through the swivel, upper and middle sealing units together with the swivel are lowered before the installation of the nipple part of the threaded joint of the swivel nozzle in the pipe connection sleeve located in the well, manually turn at least five to six turns in, having convinced of the correctness of the engagement, the inversion is carried out with an amplifier or hydraulic wrench, and at that time the pipe cavity is discharged through the swivel, then the pipe dies of the upper and lower sealing units are bred, the upper and middle sealing units are lowered to their original position, released from the wedges spider pipe string and raise the next pipe from the well, if necessary, seal the well, a ball valve is screwed onto the pipe, lower the coupling under the preventer dies, close the preventer, mouth avlivaya pipe rams on the body remote pipe ball valve, the ball valve is closed, then the valve annulus, and then put on the metering overpressure. 2. An anti-siphon sealing device for sealing a pipe cavity during hoisting operations, characterized in that it includes a telescopic camera having a large axial working stroke, consisting of several interconnected parts that contain spring-loaded locking elements placed in grooves with the possibility of reciprocating action having, on the one hand, a slope angle for the possibility of returning to the initial position when the camera moves down, or retaining collars, or stops, and and fingers and at least two annular grooves, one of which interacts with spring-loaded retaining elements, and the other has a sealing ring, three sealing assemblies that form a cavity for axial movement together with the camera, the lower and middle are connected to the camera, and the upper is connected average, due to the binder rings placed on the sealing nodes, and has the ability to rotate horizontally around its axis regardless of the average sealing node due to the locking balls installed at least in about radial cavity, which is formed jointly by two semicircular channels located opposite each other, one of which is made on the outer part of the connecting ring of one sealing unit, and the second on the inside of the connecting ring of the other sealing unit, and the connecting rings have at least one radial a hole with a threaded connection for installation through it into the radial cavity of the locking balls and plugs, annular grooves are made in the connecting rings with the annular seals located in them In the lower and upper sealing units, pipe elements are installed, and on the average, blind dies are connected with leading screw or articulated lever or pneumatic or hydraulic reciprocating actuators, which together with the covers form a cavity for die drives for lifting the middle and the upper sealing units, the device contains pneumatic, or hydraulic, or mechanical cylinders, or articulated lever drives, or articulated lever actuators with a rack gear mechanism - the mantle mounted between the lower and middle sealing nodes, containing in its design the telescopic rail necessary for the reciprocating action of the telescopic camera, the chamber contains a threaded hole with a pressure gauge installed in it for monitoring pressure inside the chamber and an opening with a drain pipe for draining the liquid . 3. Anti-siphon sealing device for sealing the pipe cavity during tripping operations according to claim 2, characterized in that the upper sealing unit is removable and the device can be used without the upper sealing unit. 4. Anti-siphon sealing device for sealing the pipe cavity during hoisting operations according to claim 2, characterized in that when using the articulated lever drive on the sealing nodes, adjustable locking mechanisms are installed to fix the levers and hold down the pressing force exerted on the dies. 5. A flushing coil for sealing the annulus during tripping and flushing wells, characterized in that it includes a base with three flanges in which annular grooves are made for the sealing rings and radial holes for the studs, the lower flange is designed to connect with wellhead equipment wells, and the middle and upper are interconnected, and one of them contains a horizontal radial bore, forming, together with the other, the cavity in which the ring is placed, on a collar is made with an elastic gland installed on it and a groove with an annular sealing element located in it, the ring has the possibility of horizontal rotation around its axis and the magnitude of the working stroke in the radial direction, a threaded hole is made on the side wall of the base for mounting a manometer in it.

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