RU2679004C1 - Device for hydraulic testing the preventer in well - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the oil industry and is intended for hydraulic testing the preventer in the well. Device for hydraulic testing the preventer in the well includes a support pipe passing through a preventer housing and made with a conical external thread, where a coupling is wrapped. Device also includes two rubber cups with a washer between them and with the support and clamping plates, a plug with an internal thread, a rod installed in the support pipe, designed to compress the rubber cups. There is a cylindrical sampling on the upper end of a clamping plate. New is that the rod is made of a pipe having an external conical thread at the upper end, and an external cylindrical thread at the lower end. In this case, a two-stage bushing with an internal conical thread at the lower end is wrapped around the conical thread of the rod. Lower part of this sleeve with a small diameter is located with the possibility of rotation in the cylindrical sampling, made on the upper part of the coupling, wrapped in the support pipe. Support plate is located on top of the rubber cups and is press-fitted on the support pipe. Clamping plate is located below the rubber cups and is made with an internal thread, where the lower threaded part of the rod is wrapped. Upper end of the clamping plate is made flat. Support tube is made with the possibility of entry of the lower end in the cylindrical sampling of the clamping plate with increasing rubber cups in diameter. Plug is wrapped in a cylindrical thread of the rod. Through holes are made on the washer, support and clamping plates. Pins made with sharp conical protrusions at one end are press-fitted into the holes of support and clamping plates. Pin, made with a sharp conical protrusion at both ends, is press-fitted into the hole of the washer. At the same time, sharp conical protrusions of the pins are included in a layer of rubber cups.EFFECT: proposed device simplifies the design.1 cl, 4 dwg

Description

The invention relates to the oil industry and is intended for crimping a preventer at a well.

Known preventer (Patent RU 2264528, IPC ЕВВ 33/06, published on November 20, 2005), which contains a housing with an axial channel for passage of pipes with technological equipment into the well, pipe dies with a hydraulic piston mounted on the side covers, and dies with hydraulic piston mounted on the side covers, hydraulic cylinders connected in pairs by communication channels for supplying working fluid. Each channel of communication of the hydraulic cylinder with the discharge line of the working fluid is equipped with a shut-off valve. Part of the shut-off valve is located in the housing, and part in the side cover. When the housing with the side cover is closed, the bypass valve is in the "open" position, and when the side cover is removed to replace the dies, the bypass valve can block the hydraulic cylinder communication channel with the fluid injection line to ensure the hydraulic drive system is tight, in which the working fluid from the hydraulic cylinder cavity does not follow. The design of the known preventer does not provide for crimping it in the well.

Closest to the proposed is a device for crimping a preventer in a well, described in patent RU 2364701, IPC ЕВВ 33/03, publ. 08/20/2009, and including a support pipe passing through the housing of the preventer and made with a tapered external thread where the sleeve is wrapped, two rubber cuffs with a washer between them, and with a support and clamping plates, a plug with an internal thread, a rod installed in the support pipe designed to compress the rubber cuffs, and on the upper end of the clamping plate there is a cylindrical selection. The disadvantage of the prototype is that it has a complex structure. When pressure testing the preventer, the force to compress the rubber cuffs is transmitted by turning a bolt that is screwed onto a nut that is motionlessly screwed onto the sleeve of the support pipe. The bolt interacts on the rod, which moves down the plunger located in the sample clamping plate. In this case, the pusher passes through the longitudinal through groove of the support pipe. When moving down, the clamping plate presses on top of the rubber cuffs and increases them in diameter to isolate the bottom of the wellbore. The implementation of a longitudinal through groove on a long support pipe and a pusher of rectangular cross section, as well as the presence of a pusher, bolt and nut complicate the design of the prototype.

The objective of the proposed technical solution is to simplify the design. The stated technical problem is solved in that in the device for crimping the preventer, including the support pipe passing through the housing of the preventer, and made with a tapered external thread, where the sleeve is wrapped, two rubber cuffs with a washer between them, and with supporting and clamping plates, a cap with the internal thread installed in the support tube is a rod designed to compress the rubber cuffs, and there is a cylindrical selection on the upper end of the clamping plate, new is that the rod is made of a pipe having at the end there is an external conical thread, and at the bottom an external cylindrical thread, while a two-stage sleeve with an internal conical thread at the lower end is screwed onto the conical thread of the rod, the lower part of this sleeve with a small diameter being rotatable in a cylindrical sample made on the upper a part of the sleeve wrapped in the support pipe, the support plate located on top of the rubber cuffs and press fit onto the support pipe, and the clamping plate located on the bottom of the rubber cuffs and made with an internal thread, where the lower threaded part of the rod is wrapped, the upper end of the clamping plate made flat, and the support pipe configured to enter the lower end into the cylindrical selection of the clamping plate with increasing rubber cuffs in diameter, and the plug is wrapped in a cylindrical thread of the rod, through holes are made on the washer, support and clamping plate, and pins made with sharp conical protrusions at one end are pressed into the holes of the supporting and clamping plates, and A pin made with a sharp conical protrusion at both ends is pressed into the hole of the washer, while the sharp conical protrusions of the pins enter the layer of rubber cuffs.

The essence of the proposed technical solution is illustrated by figures. In FIG. 1 shows a sectional view of a device for crimping a preventer in a well; in FIG. 2 shows a view B of FIG. one; in FIG. 3 is a view A of FIG. one; in FIG. 4 is a view B of FIG. 1, explaining the principle of operation of the device. The device for crimping the preventer in the well includes a support pipe 1 passing through the body of the preventer 2 and made with a tapered external thread 3, where the sleeve 4 is screwed. The device also includes two rubber cuffs 5 with a washer 6 between them, and with a supporting 7 and a clamping 8 plates, a plug 9 with a female thread installed in the support pipe 1, the rod 10, designed to compress the rubber cuffs 5. At the upper end of the clamping plate 8 there is a cylindrical selection 11. The rod 10 is made of a pipe having an outer conic at the upper end th thread 12, and at the bottom - an outer cylindrical thread 13. When the stem pipe is reduced from its metal content. On the conical thread 12 of the rod is wrapped a two-stage sleeve 14 with an internal conical thread 15 at the lower end. The lower part 16 of this small diameter sleeve is rotatable in a cylindrical set 17 made on the upper part of the sleeve 4 wrapped in a support pipe 1. The support plate 7 is located on top of the rubber cuffs 5 and is pressed onto the support pipe 1. Pressing plate 8 located at the bottom of the rubber cuffs 5 and is made with an internal thread 18, where the lower threaded part of the rod 10 is wrapped. The upper end 19 of the clamping plate 8 is made flat so that this end fits snugly against the end of the lower rubber cuff 5. Support I pipe 1 is made with the possibility of entering the lower end into the cylindrical sample 11 of the clamping plate 8 with an increase in rubber cuffs in diameter. For this, the length of the support pipe 1 is chosen so that the lower end of this pipe 1 is in a plane passing along the lower end of the lower rubber sleeve 5. The plug 9 is wrapped in a cylindrical thread 13 of the rod 10. On the washer 6, the support plate 7 and the clamping plate 8 are made through holes 20. Pins 21 are inserted into the holes 20 of the support and clamping plates, made with sharp conical protrusions 22 at one end. A pin 23 is pressed into the hole 20 of the washer 6, made with a sharp conical protrusion 22 at both ends. When this sharp conical protrusions 22 of the pins 21 and 23 are included in the layer of rubber cuffs 5.

A device for crimping a preventer in a well works as follows. The device is lowered down through the body of the preventer 2 to the location of the rubber cuffs 5 under the nozzle 24 of the column head 25. The drive 26 move the die 27 of the preventer to each other. They tightly compress the support tube 1. Then, the stem 10 is turned clockwise by the sleeve 14. In this case, the clamping plate 8, connected by its thread 18 with the thread 13 of the rod 10, rises upward relative to the support pipe 1. When lifting upward, the clamping plate 8 does not rotate, since it is connected by the conical protrusions 22 of the pins 21 and 23 through the lower and upper rubber cuffs 5 with a fixed, planted press fit on the support tube 1, the support plate 7. When lifting the clamping plate 8, the lower end of the support pipe 1 is included in the cylindrical selection 11 of this plate 8, and the rubber cuffs 5 increase in diameter and seals the annular space between the wall of the casing pipe 28 and these cuffs 5. The drive 26 moves the preventer dies 27 away from each other and the cavity of the preventer body above the rubber cuffs 5 fill the process fluid. After this, the preventer dies 27 move towards each other. Through the pipe 24 of the column head 25, opening the valve 29, from the pump unit into the plane of the preventer 2 serves under pressure a process fluid for crimping. In this way, the tightness of the preventer in the well is determined.

In the proposed device, in comparison with the prototype, on parts of small dimensions - washer, support and clamping plate drilled holes where the pins are pressed. At the ends of the rod, a thread is cut into which the sleeve, the clamping plate and the plug are wrapped. However, in the proposed device are absent: a longitudinal through groove on a long support pipe, a bolt, a nut and a pusher of rectangular cross section (not a body of revolution). From the comparative analysis it follows that the proposed device simplifies the design.

List of information used

1. Patent RU 2264528, IPC ЕВВ 33/06, publ. 11/20/2005.

2. Patent RU 2364701, IPC ЕВВ 33/03, publ. 08/20/2009.

Claims (1)

A device for crimping a preventer at a well, including a support pipe passing through the preventer body and made with a tapered external thread, where the sleeve is wrapped, two rubber cuffs with a washer between them and with a support and clamping plates, a plug with an internal thread installed in the support pipe designed to compress the rubber cuffs, and at the upper end of the clamping plate there is a cylindrical selection, characterized in that the rod is made of a pipe having an external conical thread at the upper end, and the lower one is an external cylindrical thread, and a two-stage sleeve with an internal conical thread at the lower end is screwed onto the conical thread of the rod, the lower part of this sleeve with a small diameter being rotatable in a cylindrical selection made on the upper part of the sleeve wrapped in a support pipe, moreover, the support plate is located on top of the rubber cuffs and planted by pressing fit on the support pipe, and the clamping plate is located on the bottom of the rubber cuffs and is made with an internal thread, where chickpea is the lower threaded part of the rod, the upper end of the clamping plate made flat, and the support pipe configured to enter the lower end into the cylindrical selection of the clamping plate with increasing rubber cuffs in diameter, and the plug is wrapped in a cylindrical thread of the rod, moreover, on the washer, supporting and clamping through holes are made in the plate, and pins made with sharp conical protrusions at one end are pressed into the holes of the support and clamping plates, and a pin is pressed into the hole of the washer, enny acute conical projection at both ends, the sharp pins are conical protrusions in a layer of rubber cuffs.

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