RU2013155338A - COMPLEX OF TECHNOLOGICAL SEALING EQUIPMENT: ANTI-SIPHONE SEALING DEVICE "PGU-2", RINSING REEL "PC-1" - Google Patents

Abstract

1. The method of sealing the pipe cavity and the annular space of the 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 on the upper flange of the preventer a flushing coil, consisting of a base with three flanges, in which annular grooves for sealing rings and radial holes for files, 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 is made but 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

Claims (10)

1. The method of sealing the pipe cavity and the annular space of the 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 on the upper flange of the preventer a flushing coil, consisting of a base with three flanges, in which annular grooves for sealing rings and radial holes for files, 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 is made but 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 and in the initial position when the camera moves down, and / or retaining collars, and / or stops, and / or fingers and at least two annular grooves, one of which interacts with the spring-loaded retaining elements, and the other has a sealing ring, three sealing nodes, forming together with the camera a cavity for axial movement, the lower and middle nodes are connected to the camera, and the upper - with the middle due to the connecting rings placed on the sealing nodes, and the upper node is connected to the middle according to the principle of ball bearings connection and has the ability to rotate horizontally around its axis regardless of the middle sealing unit due to retaining balls installed in at least one radial cavity, which is formed jointly by two semicircular channels located opposite each other, one of which is made on the outside a binder ring of one sealing assembly, and a second from the inside of the binder ring of another sealing assembly, the binder rings having at least one radial opening with p a threaded connection to install stop balls and plugs through it in the radial cavity, annular grooves are made in the connecting rings with annular sealing elements placed in them, pipe junctions are installed in the lower and upper sealing nodes, and, on average, blind dies are connected with leading screw or articulated-lever, or pneumatic, or hydraulic actuators of reciprocating action, forming together with the covers a cavity for the drives of dies, for lifting the middle and upper sealing The 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 units, containing in their design a telescopic rail necessary for making a telescopic camera reciprocating action, the chamber contains a threaded hole with a pressure gauge installed in it for monitoring the pressure inside the chamber and an opening with a branch pipe For drainage of a fluid to which a ball valve with a high pressure hose is fixed, the second end of which is connected to the collection tanks, installation of the discharge line from the annular valve to the collection tanks, installation of the high pressure hose swivel, the second end of which is connected to the container, to the lateral outlet collectors with a manometer installed to monitor the pressure in the pipe cavity, after which, during 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 sleeve was located between the upper sealing unit, in the static position of the anti-siphon device and the hydraulic wrench, the pipe dies of the lower sealing unit are closed below the coupling on the pipe body located in the well, the middle sealing unit is raised with the upper one manually, or using an auxiliary winch, or using pneumatic, or hydraulic, or mechanical cylinders, or a pivot-lever drive, or a pivot-lever drive with a rack-and-pinion gear mechanism, gear Installed between the lower and middle sealing units, containing in their design the telescopic rail necessary for the reciprocating action of the telescopic camera, the blind plates of the middle sealing unit above the pipe connection sleeve located in the well are closed, and the pipe cavity is discharged inside the chamber at this time between the lower and middle sealing nodes, then through the branch pipe through the high pressure hose to the collection tanks, while monitoring the pressure The inside of the chamber occurs due to the pressure gauge installed on it, and the flushing coil seals the annulus above the preventer and the annulus is discharged through the annular valve, then along the discharge line to the collection tanks, while the pressure in the annulus is controlled by the manometer installed in the washing coil, a swivel is installed with a pipe, at the end of which a coupling with a nipple threaded connection is installed, in the cavity between the upper and middle hermetic with sealing knots, up to the blind dies of the middle sealing knot, the outer diameter of the swivel nozzle corresponds to the outer diameter of the pipes located in the well and the bore diameter of the pipe dies of the upper sealing knot, the pipe dies of the upper sealing knot are closed, mounted on the body of the swivel nozzle, and the blind dies of the middle sealing knot node, 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, upper The middle and middle sealing assemblies are lowered together with the swivel until the nipple part of the threaded joint of the swivel nozzle is installed in the pipe coupling, manually screw at least five to six turns, making sure the hook is correct, the turn is carried out with an amplifier or hydraulic wrench, and the pipe cavity is discharged into it time takes place through the swivel through the high pressure hose to the collection tanks, after which the pipe dies of the upper and lower sealing units are bred, the middle with the upper the sealing units in the initial position, hook the elevator onto the swivel or pipe connection sleeve, release the pipe string from the spider wedges and lift the pipe out of the well, put the pipe string on the spider wedges, start up a hydraulic wrench, set the delay for the pipe connection sleeve, unscrew the raised pipe by two -Three turns, making sure that the coupling does not turn off together with the pipe, install pipe dies of the lower sealing assembly below the coupling, on the pipe body located in the well, then lift it off 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 unit rotates regardless of the middle one, a hydraulic wrench is removed, after that the pipe for undocking is lifted along with the upper and middle sealing units due to 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 units and through the swivel, after which the blind plates of the middle sealing unit above the pipe connection sleeve located in the well are closed, thereby cutting off the upper sealing unit and the raised pipe, while the discharge of the pipe cavity at this time occurs inside the camera between the lower and middle sealing nodes, the pipe dies of the upper sealing node are bred, and the raised pipe is lowered, the swivel is turned away and installed by the 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 are closed, mounted on the body of the swivel nozzle, the blind plates of the middle sealing unit are opened, and the tube cavity is discharged at that time between the lower and upper sealing units and through the swivel, the upper and middle sealing units together with the swivel are lowered until the nipple part of the threaded joint of the swivel nozzle in p and the connecting sleeve of the pipe located in the well is manually wrapped for at least five to six turns, making sure the hook is correct, the inversion is carried out with an amplifier or hydraulic wrench, and the pipe cavity is discharged through the swivel at this time, after which the pipe dies of the upper and lower sealing nodes, the upper and middle sealing nodes are lowered to the initial position, release the pipe string from the spider wedges and lift the next pipe from the well, if necessary, seal the wells We screw a ball valve onto the pipe, lower the sleeve under the preventer dies, close the preventer by installing pipe dies on the body of the remote branch of the ball valve, close the ball valve, then the annular valves, and then measure the overpressure. 2. 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 according to claim 1, characterized in that when the pipe cavity communicates with the annular space, a plug can be used instead of the swivel, since the annular space of the well during hoisting operations remains open. 3. The method of sealing the pipe cavity and the annulus of the well during tripping during gas and oil manifests with a controlled state of the well according to claim 1, characterized in that the killing or flushing of the well can be done through an anti-siphon device together with a flushing coil without dismantling them. 4. 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 one side a slope angle for the possibility of returning to the initial position when the camera moves down, and / or retaining collars, and / or an emphasis , and / or fingers and at least two annular grooves, one of which interacts with spring-loaded locking elements, and the other has a sealing ring, three sealing units, which together with the camera form a cavity for axial movement, the lower and middle nodes are connected with the camera, and the upper - with the middle due to the connecting rings placed on the sealing nodes, and the upper node is connected to the middle by the principle of ball-bearing connection and has the ability to rotate horizontally around its axis without depending on the middle sealing unit due to the locking balls 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 unit, and the second on the inside the sides of the binder ring of another sealing assembly, the binder rings having at least one radial hole with a threaded connection for installation through it into the radial cavity of the locking grooves s and plugs, annular grooves are made in the connecting rings with annular sealing elements placed in them, pipe and in the middle and blind plugs are installed in the lower and upper sealing nodes, connected with leading screw, or articulated, or pneumatic, or hydraulic drives reciprocating action, forming together with the covers the cavity for the drives of the dies, for lifting the middle and upper sealing units, 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 and middle sealing units, containing in their design a telescopic rack necessary for the telescopic camera to perform reciprocating actions, the camera contains a threaded hole with a pressure gauge installed in it for monitoring the pressure inside the chamber and an opening with a branch pipe for draining the liquid. 5. An anti-siphon sealing device for sealing a pipe cavity during hoisting operations according to claim 4, characterized in that the middle and lower sealing units have the ability to be attached to the chamber as ball-bearing, and threaded and / or flange connection. 6. An anti-siphon sealing device for sealing a pipe cavity during hoisting operations according to claim 4, characterized in that the upper sealing unit is removable and the device can be used without an upper sealing unit. 7. An anti-siphon sealing device for sealing a pipe cavity during hoisting operations according to claims 4, 5, characterized in that removable rings with a bore diameter for a certain pipe size with elastic glands mounted on them can be placed in the lower and upper sealing nodes pipe body from well fluid. 8. Anti-siphon sealing device for sealing the pipe cavity during hoisting operations according to claims 4, 5, 6, 7, characterized in that when using the articulated lever actuator, adjustable locking mechanisms are installed on the sealing nodes to fix the levers and hold down the clamping force, rendered on the dice. 9. An anti-siphon sealing device for sealing a pipe cavity during hoisting operations according to claim 4, characterized in that an elastic corrugated camera can be used instead of a telescopic camera. 10. 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, and the middle and upper are interconnected, and one of them contains a horizontal radial bore, which forms, 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.