CN108252672B

CN108252672B - Coiled tubing incision rehabilitation and repair device

Info

Publication number: CN108252672B
Application number: CN201810200060.6A
Authority: CN
Inventors: 丁睿哲
Original assignee: Individual
Current assignee: Taian Wisdom Valley Industrial Park Operation Management Co ltd; Taian Zhongquan Information Technology Co ltd
Priority date: 2018-03-12
Filing date: 2018-03-12
Publication date: 2020-06-12
Anticipated expiration: 2038-03-12
Also published as: CN111021978A; CN108252672A; CN111021978B

Abstract

The invention relates to a coiled tubing cut restoration and repair device. The technical scheme is as follows: the upper portion of transition adapter sleeve is passed through connecting bolt and is connected the last cap that presses, and the key sleeve is laid to the below of last cap that presses, and the key sleeve is equipped with interior keyway, and through the cooperation of the outer key of interior keyway and restoration mouthful overcoat, the lower part of restoreing mouthful overcoat is equipped with T type groove, the bottom of restoreing mouthful centre form is cone structure, and is equipped with a plurality of gas injection holes, through the check valve intercommunication of gas injection hole and restoration mouth inner mould cavity, beneficial effect is: through the cooperation of the full-sealing flashboard, the transition connecting sleeve, the key sleeve, the repairing port outer sleeve, the repairing port inner mold and the upper pressing cap, toxic gas is effectively controlled, a large amount of leakage is avoided, self-spraying or overflowing is also avoided, in addition, the reaming repairing of the linear notch is realized, the liquid outlet amount or the gas outlet amount is greatly improved, the problem in the current use of the continuous oil pipe is solved, and the application of the continuous oil pipe is further promoted.

Description

Coiled tubing incision rehabilitation and repair device

Technical Field

The invention relates to a wellhead repairing device in the petroleum industry, in particular to a coiled tubing cut recovery repairing device.

Background

With the continuous development of the coiled tubing technology, the development and the application of the coiled tubing oil extraction or coal bed gas technology are promoted, the existing coiled tubing has good flexibility, one coiled tubing is several kilometers long and can replace a conventional tubing to carry out a lot of operations, coiled tubing operation equipment has the characteristics of operation under pressure and continuous lifting, the equipment volume is small, the operation period is fast, and the cost is low, so that the coiled tubing operation equipment is particularly suitable for the extraction of a self-injection well. The existing coiled tubing four-ram blowout preventer comprises a full-seal ram, a shearing ram, a slip ram and a half-seal ram, wherein the half-seal ram is used for sealing an annular space between a sleeve and the coiled tubing after the operation is finished and before the shearing is finished, so that a blowout person is prevented from being injured by the blowout, the full seal is not yet operated, and only one dynamic seal is arranged above the four rams, so that the blowout is easy to occur; the slip flashboard is fixedly suspended when needing to be sheared after the operation is finished, and then the continuous oil pipe is fastened through slips for suspension; the shearing flashboard is required to be left in a well after the operation is finished, when oil and gas exploitation is carried out, the coiled tubing needs to be sheared through the shearing flashboard, the full-sealing flashboard is required to be fully sealed after the operation is finished or when the well is stopped, the oil well is sealed by pressing the two sides of the full-sealing flashboard, gas leakage and liquid leakage are avoided, when the re-operation or production is required, the full-sealing flashboard is opened to continue the operation, but the existing shearing flashboard generally adopts a shearing scissors and a hydraulic structure to shear the coiled tubing, the cut sheared by the shearing scissors is of a straight-line structure, and the top of the shearing flashboard does not have a good processing method due to the fact that the shearing.

Chinese patent document No. 206290235U, entitled coiled tubing four-ram blowout preventer, discloses a full-seal ram, a shear ram, a suspension ram and a half-seal ram which are sequentially arranged in an inner cavity of a shell from top to bottom, wherein four groups of hydraulic cylinders are symmetrically arranged on two sides of the shell, and pistons are arranged in the hydraulic cylinders; the inner end of the piston is respectively movably connected with the rear ends of the full-sealing flashboards, the shearing flashboards, the suspension flashboards and the semi-sealing flashboards which respectively correspond to the inner end of the piston through a hanging table, and the outer end of the piston is connected with a hand wheel mandrel; the inner end of the hydraulic cylinder is fixed with a guide rod, and the inner end of the guide rod is inserted into square grooves below the full-sealing flashboards, the shearing flashboards, the hanging flashboards and the half-sealing flashboards which respectively correspond to the guide rod. The utility model provides a problem that exists in the shear gate board, the coil pipe's that cuts exactly is flat, through improving the cutter, adopts the rhombus design to make the shearing shape be approximate circular. Although the utility model discloses above-mentioned utility model has improved the cutter, still do not thoroughly solve notched problem, still exert an influence to coiled tubing's play liquid volume, partially offset coiled tubing's the big and stable advantage of play liquid volume.

Therefore, aiming at the existing straight-line-shaped cut four-gate blowout preventer which is widely applied in an oil field, the liquid outlet amount or gas outlet amount of a coiled tubing is seriously influenced by the straight-line-shaped cut, because some toxic gases such as hydrogen sulfide, carbon monoxide and the like exist in the underground coiled tubing, the energy of the stratum is uncertain, the energy of the stratum of some oil and gas wells is high, the four-gate blowout preventer is simply opened to repair the cut, poisoning easy to operate is caused, and safety accidents such as blowout and overflow of a high-pressure well are easily caused, so that a special repair tool can be used for completing the repair work of the cut of the coiled tubing at present, and therefore, a special repair device needs to be designed to safely repair the straight-line-shaped cut.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a coiled tubing cut restoration and repair device, which repairs a straight cut into a circular cut by special equipment, so that the liquid outlet amount or gas outlet amount of the cut is recovered to be normal, the regulation of tail gas emission of a petroleum wellhead is solved, and personal injury and environmental pollution are avoided.

The invention provides a coiled tubing cut restoration and repair device, which adopts the technical scheme that: comprises a repairing port outer sleeve (7), a repairing port inner mold (8), a supporting spring (9), a key sleeve (10), a transition connecting sleeve (11), a connecting bolt (12), an upper pressing cap (13), a check valve sealing steel ball (14) and a check valve air inlet ball seat (15), wherein the transition connecting sleeve (11) is connected with an upper joint (19) of the four-ram blowout preventer through an internal thread, the upper part of the transition connecting sleeve (11) is connected with the upper pressing cap (13) through the connecting bolt (12), the key sleeve (10) is arranged below the upper pressing cap (13), the outer wall of the key sleeve (10) is movably connected with the inner wall of the upper joint (19) of the four-ram blowout preventer through a first sealing ring (16), the key sleeve (10) is provided with an internal key groove (10.1) and is matched with an external key (7.1) of the repairing port outer sleeve (7) through the internal key groove, and the inner cavity of the repairing port outer sleeve (, the device is connected with a repairing port inner die (8) through a positive thread (7.2), wherein the lower part of a repairing port outer sleeve (7) is provided with two groups of symmetrical T-shaped grooves (7.3), the bottom of the repairing port inner die (8) is of a cone structure (8.2) and is provided with a plurality of gas injection holes (20), the gas injection holes (20) are communicated with a one-way valve of an inner cavity of the repairing port inner die (8), and the one-way valve comprises a supporting spring (9), a check valve sealing steel ball (14) and a check valve gas inlet ball seat (15); when the top of the repair port inner mold (8) is reversely rotated, the repair port outer sleeve (7) descends and drives the key sleeve (10) to rotate until the bottom of the repair port outer sleeve (7) descends to the upper stop point of a hanging flashboard (4) of the four-flashboard blowout preventer, the repair port inner mold (8) continues to rotate, two extrusion ends of the linear notch (a) are grabbed by a T-shaped groove of the repair port outer sleeve (7), and an upper pressure cap (13) is screwed by a connecting bolt (12) to tightly press and fix the key sleeve (10); then, the top of the inner die (8) of the repairing port is rotated forwards, the inner die (8) of the repairing port moves downwards, the outer sleeve (7) of the repairing port moves upwards simultaneously, and the linear notch a is extruded through the cone structure (8.2), so that the linear notch a is reamed into a circular notch.

Preferably, the repair port inner die (8) comprises a cylindrical body (8.1), a cone structure (8.2), a protruding circular truncated cone (8.3) and external threads (8.4), the lower part of the cylindrical body (8.1), the protruding circular truncated cone (8.3) and the cone structure (8.2) form a whole, the outer diameter of the protruding circular truncated cone (8.3) is larger than the outer diameter of the cylindrical body (8.1), and the external threads (8.4) are arranged on the outer wall of the protruding circular truncated cone (8.3) and are used for being matched and connected with the positive threads (7.2) of the inner cavity of the repair port outer sleeve (7); the cone structure (8.2) is provided with a plurality of gas injection holes (20).

Preferably, the repair opening outer sleeve (7) comprises an outer key (7.1), a positive thread (7.2), a T-shaped groove (7.3) and a cylindrical main body (7.4), wherein the outer wall of the cylindrical main body (7.4) is symmetrically provided with two groups of outer keys (7.1) for being matched with an inner key groove (10.1) of the key sleeve (10), the bottom of the cylindrical main body (7.4) is symmetrically provided with two groups of T-shaped grooves (7.3), and the inner cavity of the cylindrical main body (7.4) is provided with the positive thread (7.2).

Preferably, foretell key sleeve (10) include interior keyway (10.1), down key sleeve (10.2), go up key sleeve (10.3), first seal groove (10.4), second seal groove (10.5) and repair mouthful interior mould mounting hole (10.6), down key sleeve (10.2), go up key sleeve (10.3) and constitute wholly, and the external diameter of going up key sleeve (10.3) is greater than the external diameter of key sleeve (10.2) down, and the top of going up key sleeve (10.3) is equipped with restores mouthful interior mould mounting hole (10.6), be equipped with second seal groove (10.5) on the pore wall of restoring mouthful interior mould mounting hole (10.6), be equipped with first seal groove (10.4) on the outer wall of going up key sleeve (10.3), be equipped with interior keyway (10.1) on the inner wall of lower key sleeve (10.2) and last key sleeve (10.3), through interior keyway (10.1) and the outer key (7.1) cooperation of restoring mouthful overcoat (7).

Preferably, the top of the transition connecting sleeve (11) is provided with a screw hole and is movably connected with the upper pressure cap (13) through a connecting bolt (12), and when the transition connecting sleeve (11) is connected with the upper joint (19) of the four-ram blowout preventer through internal threads, the connecting bolt (12) connects the upper pressure cap (13) to the top of the transition connecting sleeve (11), wherein the transition connecting sleeve is screwed in for only one third of the length of the connecting bolt; when the two extrusion ends of the linear notch (a) are grasped by the T-shaped groove of the repair opening outer sleeve (7), the upper pressing cap (13) is screwed through the connecting bolt (12), and the key sleeve (10) is fixed.

Preferably, one end of the supporting spring (9) is connected with the bottom of the repair port inner die (8), and the other end of the supporting spring is connected with a check valve air inlet ball seat (15) through a check valve sealing steel ball (14), so that nitrogen can be injected into the underground in a one-way mode.

Preferably, the bottom of the repair opening outer sleeve (7) can be provided with an L-shaped groove.

Preferably, a bearing is arranged between the repair opening outer sleeve (7) and the repair opening inner sleeve (8).

The invention has the beneficial effects that: through the matching of the full-sealing gate plate, the transition connecting sleeve, the key sleeve, the repairing port outer sleeve, the repairing port inner mold and the upper pressing cap, when the top of the repairing port inner mold is reversely rotated, the repairing port outer sleeve descends and drives the key sleeve to rotate until the bottom of the repairing port outer sleeve descends to the upper stop point of the hanging gate plate of the four-gate-plate blowout preventer, the repairing port inner mold continues to rotate, two extrusion ends of the linear notch are caught through the T-shaped groove of the repairing port outer sleeve, and the upper pressing cap is screwed through the connecting bolt to tightly press and fix the key sleeve; then, the top of the inner die of the repair port is rotated forward, the inner die of the repair port moves downwards, the outer sleeve of the repair port moves upwards simultaneously, and the linear notch a is extruded through the cone structure to ream the linear notch a into a circular notch;

after reaming is finished, connecting a nitrogen injection device to the top of the inner die of the repair port to inject nitrogen, pressing the nitrogen into the inner cavity of the coiled tubing for a period of time, pressing toxic gas into the underground for a certain distance, then removing the nitrogen injection device, then rapidly rotating the transition connecting sleeve to lift out the whole cut recovery repair device from the four-gate blowout preventer, and then closing the full-seal gate to finish the whole cut repair work;

the whole process effectively controls the toxic gas, avoids a large amount of leakage of the toxic gas, avoids self-spraying or overflowing of high-energy strata, avoids safety accidents, realizes reaming and repairing of the straight notch, greatly improves the liquid output or gas output, solves the problems in the current use of the coiled tubing, and further promotes the application of the coiled tubing.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic illustration of the installation of the present invention;

FIG. 3 is a rear elevational view of the present invention in installation;

FIG. 4 is a schematic structural diagram of an inner mold of a repair port;

FIG. 5 is a partial cross-sectional view of the repair port cover;

FIG. 6 is a side view of the repair port cover;

FIG. 7 is a cross-sectional view of the key mat;

FIG. 8 is a side view of the key mat;

FIG. 9 is a schematic view of the connection between the transition connecting sleeve and the upper pressing cap;

in the upper diagram: the continuous oil pipe comprises a continuous oil pipe 1, a four-ram blowout preventer body 2, a semi-closed ram 3, a hanging ram 4, a shearing ram 5, a full-closed ram 6, a repair port outer sleeve 7, a repair port inner mold 8, a supporting spring 9, a key sleeve 10, a transition connecting sleeve 11, a connecting bolt 12, an upper pressing cap 13, a check valve sealing steel ball 14, a check valve air inlet ball seat 15, a first sealing ring 16, a second sealing ring 17, a third sealing ring 18, an upper joint 19 of the four-ram blowout preventer, an air injection hole 20 and a linear cut a,

the novel internal die comprises an external key 7.1, a positive thread 7.2, a T-shaped groove 7.3, a cylindrical main body 7.4, a cylindrical body 8.1, a conical structure 8.2, a convex circular truncated cone 8.3, an external thread 8.4, an internal key groove 10.1, a lower key sleeve 10.2, an upper key sleeve 10.3, a first sealing groove 10.4, a second sealing groove 10.5 and a repair port internal die mounting hole 10.6.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Embodiment 1, referring to fig. 1 to 3, the present invention provides a coiled tubing cut restoration device, which has a technical scheme that: the four-ram-type blowout preventer comprises a repairing port outer sleeve 7, a repairing port inner mold 8, a supporting spring 9, a key sleeve 10, a transition connecting sleeve 11, a connecting bolt 12, an upper pressing cap 13, a check valve sealing steel ball 14 and a check valve air inlet ball seat 15, wherein the four-ram-type blowout preventer comprises a four-ram-type blowout preventer body 2, a half-sealing ram 3, a hanging ram 4, a shearing ram 5 and a full-sealing ram 6, a continuous oil pipe 1 is arranged in an oil well, and the end part of the oil well is a straight-line-shaped cut a sheared by the. The transition connecting sleeve 11 is connected with an upper joint 19 of the four-ram blowout preventer through internal threads, the upper part of the transition connecting sleeve 11 is connected with an upper pressure cap 13 through a connecting bolt 12, a key sleeve 10 is arranged below the upper pressure cap 13, the outer wall of the key sleeve 10 is movably connected with the inner wall of the upper joint 19 of the four-ram blowout preventer through a first sealing ring 16, the key sleeve 10 is provided with an inner key groove 10.1, is matched with an external key 7.1 of the repairing port outer sleeve 7 through an internal key slot, and the inner cavity of the repairing port outer sleeve 7 is provided with a positive thread 7.2 which is connected with the repairing port inner mold 8 through the positive thread 7.2, wherein, the lower part of the repair port outer sleeve 7 is provided with two groups of symmetrical T-shaped grooves 7.3, the bottom of the repair port inner mold 8 is a cone structure 8.2 and is provided with a plurality of gas injection holes 20, the gas injection hole 20 is communicated with a one-way valve in the inner cavity of the repair port inner mold 8, and the one-way valve comprises a supporting spring 9, a check valve sealing steel ball 14 and a check valve gas inlet ball seat 15; when the top of the repair port inner mold 8 is reversely rotated, the repair port outer sleeve 7 descends and drives the key sleeve 10 to rotate until the bottom of the repair port outer sleeve 7 descends to the upper stop point of the suspended gate 4 of the four-gate blowout preventer, the repair port inner mold 8 continues to rotate, two extrusion ends of the linear notch a are caught through the T-shaped groove of the repair port outer sleeve 7, and then the upper pressing cap 13 is screwed through the connecting bolt 12 to tightly press and fix the key sleeve 10; then, the top of the inner die 8 of the repair port is rotated forward, the inner die 8 of the repair port moves downward, the outer sleeve 7 of the repair port moves upward simultaneously, and the linear notch a is extruded through the cone structure 8.2, so that the linear notch a is reamed into a circular notch.

Referring to the attached figure 4, the repair port inner die 8 comprises a cylindrical body 8.1, a cone structure 8.2, a protruding circular truncated cone 8.3 and an external thread 8.4, wherein the lower part of the cylindrical body 8.1, the protruding circular truncated cone 8.3 and the cone structure 8.2 form a whole, the external diameter of the protruding circular truncated cone 8.3 is larger than that of the cylindrical body 8.1, and the external thread 8.4 is arranged on the outer wall of the protruding circular truncated cone 8.3 and is used for being matched and connected with a positive thread 7.2 of an inner cavity of the repair port outer sleeve 7; the cone structure 8.2 is provided with a plurality of gas injection holes 20.

Referring to fig. 5 and 6, the repair opening outer sleeve 7 of the invention comprises an external key 7.1, a positive thread 7.2, a T-shaped groove 7.3 and a cylindrical main body 7.4, wherein two groups of external keys 7.1 are symmetrically arranged on the outer wall of the cylindrical main body 7.4 and are used for being matched with an internal key groove 10.1 of a key sleeve 10, two groups of T-shaped grooves 7.3 are symmetrically arranged at the bottom of the cylindrical main body 7.4, and the positive thread 7.2 is arranged in the inner cavity of the cylindrical main body 7.4.

Referring to fig. 7 and 8, the key sleeve 10 of the present invention includes an inner key groove 10.1, a lower key sleeve 10.2, an upper key sleeve 10.3, a first sealing groove 10.4, a second sealing groove 10.5 and a repair port inner mold mounting hole 10.6, the lower key sleeve 10.2 and the upper key sleeve 10.3 form a whole, an outer diameter of the upper key sleeve 10.3 is larger than an outer diameter of the lower key sleeve 10.2, a repair port inner mold mounting hole 10.6 is disposed at a top of the upper key sleeve 10.3, a second sealing groove 10.5 is disposed on a hole wall of the repair port inner mold mounting hole 10.6, a first sealing groove 10.4 is disposed on an outer wall of the upper key sleeve 10.3, inner key grooves 10.1 are disposed on inner walls of the lower key sleeve 10.2 and the upper key sleeve 10.3, and are matched with an outer key 7.1 of the repair port outer sleeve 7 through the inner key grooves 10.1.

Referring to fig. 9, the top of the transition connecting sleeve 11 of the present invention is provided with a screw hole, which is movably connected with the upper pressure cap 13 through a connecting bolt 12, and when the transition connecting sleeve 11 is connected with the upper joint 19 of the four-ram blowout preventer through an internal thread, the connecting bolt 12 connects the upper pressure cap 13 to the top of the transition connecting sleeve 11, wherein the transition connecting sleeve is screwed in only one third of the length of the connecting bolt; when the two extrusion ends of the linear notch a are caught by the T-shaped groove of the repair opening outer sleeve 7, the upper pressing cap 13 is screwed through the connecting bolt 12, and the key sleeve 10 is fixed.

Or the connecting bolt 12 is lengthened, and the lengthened connecting bolt 12 can be screwed into one half of the connecting bolt, so that the upper pressure cap cannot be ejected out of the oil-gas well, and the safety is ensured.

In addition, one end of the supporting spring 9 is connected with the bottom of the repair port inner die 8, and the other end of the supporting spring is connected with the check valve air inlet ball seat 15 through the check valve sealing steel ball 14, so that nitrogen can be injected into the underground in a one-way mode.

The invention provides a using method of a coiled tubing cut restoration and repair device, which adopts the technical scheme that the using method comprises the following steps:

1. preparation work: after the coiled tubing operation is finished, the shearing gate plate shears the coiled tubing to form a straight-line-shaped cut, or an oil-gas well which is being produced, and before the shearing gate plate shears the coiled tubing to form a straight-line-shaped cut; before the repair work is started, the totally enclosed ram 6 is closed, and the coiled tubing which is finished by the operation on the upper part of the four-ram blowout preventer or the oil and gas transmission pipelines which are in production are completely removed;

2. the coiled tubing cut recovery and repair device is installed on a four-ram blowout preventer, and specifically comprises the following steps: connecting a transition connecting sleeve 11 to an upper connector 19 of a four-ram blowout preventer through internal threads, connecting the upper part of the transition connecting sleeve 11 to an upper pressing cap 13 through a connecting bolt 12, not screwing the upper pressing cap at the moment, placing a key sleeve 10 below the upper pressing cap 13, movably connecting the outer wall of the key sleeve 10 with the inner wall of the upper connector 19 of the four-ram blowout preventer through a first sealing ring 16, wherein the key sleeve 10 is provided with an inner key groove, and is matched with an outer key of a repairing port outer sleeve 7 through the inner key groove, and the inner cavity of the repairing port outer sleeve 7 is provided with a positive thread and is connected with a repairing port inner mold 8 through the positive thread, wherein the lower part of the repairing port outer sleeve 7 is provided with two groups of symmetrical T-shaped grooves, the bottom of the repairing port inner mold 8 is of a cone structure, and is provided with a plurality of gas injection;

3. the incision restoration and repair device is operated to repair the incision, and specifically comprises the following steps: reversing the top of the repair port inner mold 8 from the wellhead, descending the repair port outer sleeve 7, ascending the repair port inner mold 8 at the same time, driving the key sleeve 10 to rotate until the bottom of the repair port outer sleeve 7 descends to the upper stop point of the hanging gate plate 4 of the four-gate-plate blowout preventer, continuing to rotate and continuously adjusting the position, grasping two extrusion ends of the straight-line-shaped notch through the T-shaped groove of the repair port outer sleeve 7, fixing the upper pressing cap 13 through the connecting bolt at the moment, and pressing and fixing the key sleeve 10 to enable the key sleeve not to rotate any more; then, the top of the inner repairing port mold 8 is rotated forwards, the inner repairing port mold 8 moves downwards, the outer repairing port sleeve 7 moves upwards simultaneously, the reaming extrusion of the linear notch is completed through the cone structure 8.2, and the inner repairing port mold 8 and the outer repairing port sleeve 7 can be moved up and down for multiple times, so that the notch expansion is smoother;

4. nitrogen is injected and the incision is removed to recover and repair the device, which comprises the following steps: connecting a nitrogen injection device to the top of the repair port inner mold 8, starting to inject nitrogen, enabling the nitrogen to enter the inner cavity of the coiled tubing through a one-way valve and a gas injection hole, pressurizing to 0.5 MPa, stopping pressurizing, then removing the nitrogen injection device, rotating the transition connecting sleeve 11 to lift the whole cut recovery repair device out of the four-gate blowout preventer, then closing the full-seal gate, and completing the whole cut repair work.

It should be noted that: when the coiled tubing cut recovery and repair device is just installed, the upper part of the transition connecting sleeve 11 is connected with the upper pressing cap 13 through the connecting bolt 12 and is screwed into the connecting bolt for only one third of the length, so that the key sleeve 10 is ensured not to be pressed and can be rotated;

the outer wall of the inner mould 8 of the reverse repairing port is provided with a convex round table 8.3 for limiting operation; go up and press cap and transition adapter sleeve to adopt split type structure's advantage is, firstly reduced the equipment space of device, secondly the processing degree of difficulty is low, has reduced the processing expense, thirdly convenient operation, the rotatory motion in earlier stage of the key cover of being convenient for, after pressing the cap on impressing, fixed key cover avoids rotary motion.

Embodiment 2, the difference of the present invention from embodiment 1 is that the bottom of the repair opening outer sleeve 7 may be provided with an L-shaped groove, and the two extrusion ends of the linear notch may still be grasped and lifted up, and simultaneously the hole-expanding extrusion of the notch is performed through the conical structure.

Example 3, the difference of the invention from example 1 is: a bearing can be arranged between the repair opening outer sleeve 7 and the repair opening inner sleeve 8, so that the rotation is easier, and the operation is more labor-saving.

The above description is only a few of the preferred embodiments of the present invention, and any person skilled in the art may modify the above-described embodiments or modify them into equivalent ones. Therefore, any simple modifications or equivalent substitutions made in accordance with the technical solution of the present invention are within the scope of the claims of the present invention.

Claims

1. The utility model provides a coiled tubing incision rehabilitation prosthetic devices, characterized by: comprises a repairing port outer sleeve (7), a repairing port inner mold (8), a supporting spring (9), a key sleeve (10), a transition connecting sleeve (11), a connecting bolt (12), an upper pressing cap (13), a check valve sealing steel ball (14) and a check valve air inlet ball seat (15), wherein the transition connecting sleeve (11) is connected with an upper joint (19) of the four-ram blowout preventer through an internal thread, the upper part of the transition connecting sleeve (11) is connected with the upper pressing cap (13) through the connecting bolt (12), the key sleeve (10) is arranged below the upper pressing cap (13), the outer wall of the key sleeve (10) is movably connected with the inner wall of the upper joint (19) of the four-ram blowout preventer through a first sealing ring (16), the key sleeve (10) is provided with an internal key groove (10.1) and is matched with an external key (7.1) of the repairing port outer sleeve (7) through the internal key groove, and the inner cavity of the repairing port outer sleeve (, the device is connected with a repairing port inner die (8) through a positive thread (7.2), wherein the lower part of a repairing port outer sleeve (7) is provided with two groups of symmetrical T-shaped grooves (7.3), the bottom of the repairing port inner die (8) is of a cone structure (8.2) and is provided with a plurality of gas injection holes (20), the gas injection holes (20) are communicated with a one-way valve of an inner cavity of the repairing port inner die (8), and the one-way valve comprises a supporting spring (9), a check valve sealing steel ball (14) and a check valve gas inlet ball seat (15); when the top of the repair port inner mold (8) is reversely rotated, the repair port outer sleeve (7) descends and drives the key sleeve (10) to rotate until the bottom of the repair port outer sleeve (7) descends to the upper stop point of a hanging flashboard (4) of the four-flashboard blowout preventer, the repair port inner mold (8) continues to rotate, two extrusion ends of the linear notch (a) are grabbed by a T-shaped groove of the repair port outer sleeve (7), and an upper pressure cap (13) is screwed by a connecting bolt (12) to tightly press and fix the key sleeve (10); then, the top of the inner die (8) of the repairing port is rotated forwards, the inner die (8) of the repairing port moves downwards, the outer sleeve (7) of the repairing port moves upwards simultaneously, and the linear notch (a) is extruded through the cone structure (8.2), so that the linear notch (a) is reamed into a circular notch.

2. The coiled tubing cut recovery repair device of claim 1, wherein: the inner die (8) for the repair port comprises a cylindrical body (8.1), a cone structure (8.2), a protruding circular truncated cone (8.3) and external threads (8.4), the lower part of the cylindrical body (8.1), the protruding circular truncated cone (8.3) and the cone structure (8.2) form a whole, the outer diameter of the protruding circular truncated cone (8.3) is larger than that of the cylindrical body (8.1), and the external threads (8.4) are arranged on the outer wall of the protruding circular truncated cone (8.3) and are used for being matched and connected with the positive threads (7.2) of the inner cavity of the outer sleeve (7) for the repair port; the cone structure (8.2) is provided with a plurality of gas injection holes (20).

3. The coiled tubing cut recovery repair device of claim 1, wherein: repair mouthful overcoat (7) including external key (7.1), positive screw thread (7.2), T type groove (7.3) and cylinder main part (7.4), the outer wall symmetry of cylinder main part (7.4) is equipped with two sets of external keys (7.1) for with interior keyway (10.1) cooperation of key sleeve (10), the bottom symmetry of cylinder main part (7.4) is equipped with two sets of T type grooves (7.3), and the inner chamber of cylinder main part (7.4) is equipped with positive screw thread (7.2).

4. The coiled tubing cut recovery repair device of claim 1, wherein: the top of the transition connecting sleeve (11) is provided with a screw hole and is movably connected with an upper pressure cap (13) through a connecting bolt (12), when the transition connecting sleeve (11) is connected with an upper joint (19) of the four-ram blowout preventer through internal threads, the connecting bolt (12) connects the upper pressure cap (13) to the top of the transition connecting sleeve (11), and the transition connecting sleeve is screwed in only one third of the length of the connecting bolt; when the two extrusion ends of the linear notch (a) are grasped by the T-shaped groove of the repair opening outer sleeve (7), the upper pressing cap (13) is screwed through the connecting bolt (12), and the key sleeve (10) is fixed.