RU2132925C1 - Device for unscrewing pipes in well - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: device is used in repair of oil and gas wells. It has body, hollow shaft, reversing mechanism concentrically located inside body and connected with hollow shaft. Reversing mechanism is made in the form of driving gear, driven gear, and intermediate gear. Braking unit comprises stepped bush installed concentrically with respect to hollow shaft and adapted for free rotation relative to hollow shaft. Extendible socket anchors and socket piston holder are interconnected. Stepped bush at side of upper end has concentrically made bore with blind bottom. Located in bore is movably sliding socket piston holder, and located between socket piston holder and taper bush are extendible socket anchors adapted for free sliding along guide members of taper bush. Seated in internal bores of socket piston holder and extendible socket anchor is return spring. Made at side of lower end of stepped bush are coaxial and uniformly spread over circumference are internal holes or bores. Located in bored holes are intermediate gears with hubs which are adapted for free separate rotation in coaxial holes. Made in intermediate bored holes are radially located openings for ensuring contact between intermediate gears and driving gear and driven gear. Installed in lower part of device for possible interaction with lower part of driven gear is movable adapter for connection of catching tool. Application of aforesaid embodiment of device allows for improving reliability of fixing unit together with simplification of overall design. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to the repair of oil and gas wells, and in particular to devices for turning pipes remaining in the well as a result of an accident.

 A device for turning pipes in a well is known, taken as a prototype, consisting of a hollow shaft with a central flushing channel installed in the housing, a reversing mechanism and a braking unit. The reversing mechanism is made in the form of a planetary mechanism with a leading, driven gears and intermediate gears mounted on a support. The support is mounted on the hollow shaft with the possibility of rotation and is connected with intermediate gears. A conical sleeve is rigidly mounted on the upper end of the support, on which longitudinal grooves are made to move jamming dies installed in the inclined windows (grooves) of the housing. The pinion gear is integral with the hollow shaft.

 In the upper part of the housing there is a radially movable stop made in the form of a lamp from an elastically deformable plate to ensure the immobility of the housing during rotation of the hollow shaft. At the bottom of the device there is an adapter for attaching a fishing tool [1].

 A disadvantage of the known device, taken by us as a prototype, is the unreliability of its work and the complexity of the design.

 The objective of the invention is to increase the reliability of the locking unit while simplifying the design of the device.

 The problem is solved in that in the device for turning pipes in the well, including the housing, a hollow shaft concentrically placed inside the housing, a reversing mechanism associated with the hollow shaft and made in the form of a driving, driven and intermediate gears, the braking unit and jamming interacting with it dies, the braking unit is made in the form of both a device body, a reversing mechanism and a braking unit of a step sleeve mounted concentrically to the hollow shaft with the possibility of free rotation relative to the latter, the piston-slip holder and the tapered sleeve with guide grooves, while the jamming dies are made in the form of sliding slip anchors, loosely interconnected, the stepped sleeve from the upper end has a concentric bore with a blank bottom, in which the movable sliding piston-slip holder, cone sleeve mounted rigidly at the end of the stepped sleeve on the hub, between the piston-slip holder and conical sleeve there are sliding slip anchors with the possibility of their own one slide along the guide grooves of the conical sleeve, and in the internal bores made in the piston-slip holder and sliding slip anchors, a return spring is placed between the ends of the piston-slip holder and the conical sleeve, from the lower end side in the stepped sleeve internal coaxially uniformly arranged circumferentially arranged bore holes, in which intermediate gears with hubs are placed with the possibility of free rotation separately in coaxial holes, and in their intermediate holes astochkah windows formed radially for contact with the driving and driven gears, and in the lower part of the device is set to cooperate with the lower part of the driven gear for the movable sub accession fishing tool.

 For better use of the device, it is advisable between the upper and lower thrust planes of the shoulder of the hollow shaft and the internal bore of the stepped sleeve, to establish bearings in the places of interaction. At the bottom of the device there is a sub for attaching a fishing tool. The sub is made with a square or hexagonal hole for interaction with the counter surface of the lower part of the driven gear. The sub is pressed by springs to the inner shoulder of the driven gear.

Salient features of the claimed invention in comparison with the prototype are:
- the braking unit is made in the form of both a device body, a reversing mechanism and a braking unit of a step sleeve mounted concentrically to the hollow shaft with the possibility of free rotation relative to the last piston-slip holder and conical sleeve with guide grooves, while the jamming dies are made in the form of sliding slip anchors loosely interconnected;
- the stepped sleeve from the upper end has a concentric boring with a dead bottom, in which a sliding-sliding piston-slider holder is placed, the conical sleeve is mounted rigidly at the end of the stepped sleeve on the hub;
- between the piston-slip holder and the cone sleeve there are sliding slip-anchors with the possibility of free sliding along the guide grooves of the conical sleeve, and in the internal bores made in the piston-slip holder and sliding slip anchors, a return spring is placed between the ends of the piston-slip holder and the conical sleeve ;
- from the lower end in the stepped sleeve are made coaxial inner bore holes evenly spaced around the circumference, in which the intermediate gears with hubs are located with the possibility of free rotation separately in the coaxial holes, and in their intermediate bore holes there are made radially arranged windows for the contact of the intermediate gears with pinion and pinion gears;
- in the lower part of the device is installed with the possibility of interaction with the lower part of the driven gear movable sub for attaching a fishing tool.

 The above significant distinguishing features were unknown to us from the patent and scientific and technical information and meet the criterion of "Novelty", i.e. salient hallmarks are New.

 Given that the above salient features are not obvious to the average person skilled in the art, we believe that the invention meets the criterion of "Inventive step".

 As for the "Industrial applicability", the invention meets this criterion, since it has been completed with working drawings, a prototype has been made and preparations are underway for testing in field conditions.

 The invention is explained below, where in FIG. 1 shows a device in section; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1.

 The device consists of a hollow shaft 1 mounted in a stepped sleeve 2, which is simultaneously the body of the device, a reversing mechanism and a braking unit (see Fig. 1) The reversing mechanism is made in the form of a two-stage gearbox (see Fig. 3) with a drive 3, driven 4 gears and installed in coaxial bores 5, 6 and 7, respectively, of the lower part of the stepped sleeve 2 of the intermediate gears 8. The braking unit is made in the form of a stepped sleeve 2 mounted concentrically to the hollow shaft 1 with the possibility of free rotation relative to ice, and the piston-slip holder 9 with sliding slip-anchors 10, freely connected among themselves, as well as the conical sleeve 11 with the guide grooves 12 (see Fig. 2), the sliding slip-anchors 10 placed therein, Step sleeve 2 from the side the upper end has a concentric bore 13 with a blind bottom 14, in which a sliding-sliding piston-slip holder 9 is placed. Between the piston-slip holder 9 and the conical sleeve 11, slip anchors 10 are freely movable along the guide groove 12 of the conical sleeve 11. In vn between the ends of the piston-slip holder 9 and the conical sleeve 11 on the hub 15 of the stepped sleeve 2, a return spring 16. The taper sleeve 11 is mounted rigidly on the hub 15 at the end of the stepped sleeve 2. From the side the lower end in the stepped sleeve 2 is made uniformly spaced around the circumference of the internal bore holes 5, 6 and 7, respectively, in which the intermediate gears 8 with the hubs 17 are located with the possibility of free rotation in coaxial holes Rep individually, and also in their intermediate holes, bores 6 radially formed window 18 (see FIG. FIG. 3) for contact with the leading 3 and driven 4 gears. The stepped sleeve 2 is simultaneously the body of the device. The lower end of the shaft is equipped with a throttle washer-coupling 19. The hollow shaft 1 has radial holes 20, and the stepped sleeve 2 has an inner annular groove 21 and a radial hole 22 for supplying the working fluid. The hollow shaft 1 is made with an outer shoulder 23 with the upper 24 and lower 25 thrust planes, and the stepped sleeve 2 is made with an inner bore 26 with the upper 27 and lower 28 thrust planes to accommodate the shoulder 23 of the hollow shaft 1 with the possibility of rotation relative to the latter. Between the upper 24 and lower 25 thrust planes of the shoulder 23 of the hollow shaft 1 and the inner bore 26 of the stepped sleeve 2, bearings 29 and 30 are installed at the points of interaction. An adapter 31 is installed at the bottom of the device for attaching a fishing tool. The sub 31 is made with a square or hexagonal hole 32 for interacting with the counter surface of the lower part of the driven gear 4. The sub 31 is pressed by the springs 33 and 34 to the inner shoulder 35 of the driven gear 4.

 The device operates as follows.

 A fishing tool (left tap or bell) is attached to the lower end of the device, and the device is lowered into the well on the right drill pipes until the fishing tool comes into contact with the upper end of the item to be caught. Then the landing is given to the device, the sub 31, compressing the springs 33 and 34, moves up. After covering the stuck column in the well, flushing fluid is pumped (pumped) through the emergency pipe string, which creates excess pressure due to the pressure drop in the throttle washer-coupling 19. This pressure through the holes 20 of the annular groove 21 and the radial hole 22 enters the piston cavity (concentric bore 13 of the stepped sleeve 2) of the device body. The piston-slip holder 9 with sliding slip-anchors 10, i.e. sliding slip anchors 10, moving along the guide grooves 12 of the conical sleeve 11, rigidly fix the device in the casing. In this case, the stepped sleeve 2 (device housing) remains stationary. Then the pipe string (hollow shaft 1) give the right rotation. In this case, simultaneously with the leading 3 gears, rigidly connected with the hollow shaft, the intermediate 8 rotate to the left, the driven 4 to the left, and with it the sub 31 - the same to the left. This embodiment of the design of the braking (fixing) unit allows you to reliably reverse (change) the right rotation of the drill pipe string to the left rotation of the fishing tool and turn the emergency pipes up.

 As a result, the fishing tool is connected to the stuck pipe string, and the spring-loaded sub stroke in the lower part of the driven gear 4 ensures tool seating and compensation of axial movement by the length of the thread during the unscrewing of the upper stuck pipe.

 After a complete flap of the pipe, the fluid supply through the column is stopped, which leads to the return of the sliding slip-anchors 10 with the piston-slip holders 9 to their original (transport) position using the return spring 16. The device is released. Then, the device is removed from the well with the column unscrewed.

Sources of information
1. Copyright certificate SU 1816841, publ. 1993 year

Claims (1)

 A device for turning pipes in a well, including a housing, a hollow shaft, a reversing mechanism concentrically placed inside the housing, connected to the hollow shaft and made in the form of a driving, driven and intermediate gears, a braking unit and jamming rams interacting with it, characterized in that the braking unit made in the form of both a device body, a reversing mechanism and a braking unit for a stepped sleeve mounted concentrically to the hollow shaft with the possibility of free rotation relative to of the last piston-slip holder and conical sleeve with guide grooves, while the jamming dies are made in the form of slip anchors loosely connected to each other, the stepped sleeve from the upper end has a concentric bore with a blind bottom, in which a movable sliding piston is placed a slip holder, a conical sleeve is mounted rigidly at the end of the stepped sleeve on the hub, between the piston-slip holder and the conical sleeve there are sliding slip anchors with the possibility of free sliding in the direction the grooves of the conical sleeve, and in the internal bores made in the piston-slip holder and sliding slip anchors, a return spring is placed between the ends of the piston-slip holder and the conical sleeve, from the lower end side in the step sleeve there are made internal bore holes coaxially uniformly arranged around the circumference in which the intermediate gears with hubs are placed with the possibility of free rotation separately in coaxial holes, moreover, in their intermediate boring holes are made radially arranged windows for contact with the drive and driven gears.

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