RU2527275C1 - Rope-type sucker rod - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: rope-type sucker rod transferring reciprocating motion and longitudinal force from the tophead to the actuator of the oil well pump consists of the rod body and head with connecting thread. At that a locked-coil rope with Z-, X- and O-wires is used as the rod body, while an attachment ensuring equal load to all rope wires is used as the rod head. Besides, the rope-type sucker rod is designed to transfer reciprocating motion from the tophead to the actuator of the oil well pump, at that attachments are equipped with a knot preventing rope turning in the attachment.

EFFECT: improvement of operational efficiency for rope-type sucker rods during operation of oil directional wells and oil wells with offshoots as well as during production of high-viscous oil.

5 cl, 7 dwg

Description

The invention relates to sucker rods used in installations for extracting fluid from wells by sucker rod pumps and sucker rod pumps, and can be used for oil production from oil directional wells, wells with sidetracks, as well as in the production of highly viscous oils.

The authors adopted a sucker rod that transmits reciprocating motion and longitudinal force from the ground suction pump to the working body of the sucker rod pump, consisting of an all-metal rod body and a rod head with a connecting thread (GOST 13877-96 sucker rods and rod couplings. conditions).

The disadvantages of this pump rod are:

- low operational reliability of the rods, due to the fact that the rod string at the site of intensive set of curvature moves inside the production string, which will lead to mashing of the production string and premature wear and breakage of the rods themselves;

- frequent breakage of the rods due to high stresses arising in the drive due to the reciprocating movement of the rod string.

At the same time, the closure of a rope pump rod for connecting the end of a rope with a plunger of a rod pump is known from the prior art, consisting of a housing, two conical bushings, a clamping nut, wedge inserts and steel wedges used to seal the end of the rope (Ivanovsky V.N., Puzanov O .V., Kashtanov BC, Degovtsov AV “Well pumping units with wire rods. Improving the technique and technology of oil production in NGDU“ Pokachevneft ". M.:“ Oil and gas ", 1993, S.80- 107).

The disadvantages of this seal ropeway pump rods are:

- low reliability of the capture of the rope, due to the possible exit of steel wedges from the sealed end of the rope during cyclic loads;

- the difficulty of lifting the rope rod when jamming the plunger of the rod pump;

- low operational reliability of the rods of the pump installation, due to the inability to transmit rotational motion to the plunger of the rod pump or to the rotor of the screw rod pump;

- frequent breakage of the rods due to the rotation of the rope in the grip.

The closest device taken by the authors as a prototype is a rope pump rod that transmits reciprocating motion and longitudinal force from the ground suction pump to the working member of the borehole rod pump, consisting of a rope attached on one side to a polished rod, and on the other to capture the rope of the plug-in pump (Ivanovsky VN Issues of operating low-yield wells by the mechanized method // Engineering Practice, No. 7, 2010, P.4-15).

The disadvantages of this pump rod are:

- low operational reliability of the rods, due to the design of the rope, leading to premature wear and breakage of the rods;

- low reliability of the capture of the rope, due to the uneven loading of all wires of the rope;

- frequent breakage of the rods due to the rotation of the rope in the grip.

The technical result of the invention is to increase the efficiency of wire rods in the operation of oil directional wells and oil wells with sidetracks, as well as in the production of highly viscous oils.

The technical result is achieved by the fact that the rope pump rod, transmitting reciprocating motion and longitudinal force from the surface drive to the working body of the borehole pump rod, consists of a rod body and a rod head with a thread. Moreover, according to the invention, a closed structure rope with Z, X and O-shaped wires is used as the rod body, and a termination is used as the rod head, which ensures uniform loading of all rope wires. In addition, there is a thread at the end of the rod terminations that provides connection to a pump, a polished rod or rod string.

In addition, the rope pump rod can be made with the possibility of transmitting rotational motion from the surface drive to the working body of the borehole pump, while the terminations are additionally equipped with a unit that prevents the rotation of the rope in the termination.

In addition, the closure of the rope pump rod may include a housing, first and second tapered bushings, wedge liners, a clamping nut screwed into the upper part of the housing, while steel wedges are inserted at the end of the rope located in the closure, while wedge liners are located between the first and the second tapered bushings, and in the lower part of the housing there is an additional sleeve with an internal thread, while a lock nut is screwed into the additional sleeve, made with the possibility of preventing the exit of steel wedges and end of the rope, in addition, lower end of the rope wedge inserts is formed from the shroud to prevent unwinding and fluff rope wires.

In addition, grooves can be made in the housing at the location of the second conical sleeve, and on the second conical sleeve, external slots that mesh with the grooves in the body and take in torque, while the conical surface of the sleeve has recessed grooves that prevent the rope from turning in conical sleeve.

In addition, the closure of the rope pump rod may include a housing, first and second tapered bushings, wedge liners, while steel wedges are inserted at the end of the rope located in the closure, and a thrust ring covering the rope and fixed in the housing is installed in the upper part of the housing with shear screws, while the wedge inserts are located between the first and second conical bushings, and in the lower part of the housing there is an additional sleeve with an internal thread, in addition, a locking g is screwed into the additional sleeve u p, adapted to prevent the exit end of the steel wedge rope and rope end lower wedge inserts is formed from the shroud to prevent unwinding and fluff rope wires.

In Fig.1 shows a General view of the rope pump rod, Fig.2 is a section aa of the rod body, Fig.3 is a rope pump rod for transmitting rotational movement, Fig.4 shows a first embodiment of the closure of the rope pump rod, Fig .5 is a second embodiment of the closure of the rope pump rod, in Fig.6 and Fig.7 is an embodiment of the closure of the rope rod, preventing the rotation of the rope.

The rope pump rod consists of a rope 1 of a closed design with Z-shaped 4, X-shaped 5 and O-shaped wires, as well as terminations 2, providing uniform loading of all the wires of the rope. At the end of the terminations there is a thread 3, which provides connection with a pump, a polished rod or with a conventional rod string.

When using a rope to transmit rotational motion from a surface drive to the working body of a borehole pump, the seals 2 are equipped with a unit 6 that prevents the rope from turning in the seals.

The length of the rope 1 can be different, the rope pump rod can only be installed in the place of an intensive set of well curvature (at the point of transition to the lateral wellbore), and it can connect a polished rod to the piston of the rod pump or in the case of using rod rods to transmit rotational motion - with the screw of the sucker rod pump.

The fit of the rope to the casing at the bend of the well occurs over a larger surface than would be the case with conventional rods. The large surface of the interaction of the rope with the tubing string, respectively, provides more uniform wear of both the rope and the pipe string.

When operating directional wells and wells with sidetracks, a rope pump rod significantly reduces the likelihood of rod breaks, while ensuring an increase in the efficiency of well operation.

Z, X and O-shaped wires provide higher strength of the closed rope structure compared to conventional rope manufacture. Termination made at the ends of the rope ensures uniform loading of all wires of the rope. And the seal, equipped with a node that prevents the rotation of the rope in the seal, allows you to transfer rotational motion from the ground drive to the working body of the borehole pump.

In the first embodiment (Fig. 4), the closure of the rope pump rod consists of a housing 13, in the upper part of which a clamping nut 17 is installed. Inside the housing 13, a first conical sleeve 8 is installed with wedge inserts 9 serving to hold the rope 1. Below the first conical sleeve 8, a second conical sleeve 15 is installed, inside of which, with the help of steel wedges 12, the end of the rope 1 is sealed. The bandage 10 serves to prevent premature unwinding and fluffing of the wire of the rope 1. A sleeve 14 s internal thread, into which the lock nut 11 is screwed. The sleeve 14 also serves to connect the seal with the plunger of the rod pump.

The sealing of the rope pump rod according to the second embodiment (Fig. 5) differs from the sealing according to the first embodiment in that in the upper part of the housing 13, instead of the clamping nut 17, a thrust ring 18 is mounted, fixed in the housing with shear screws 19.

The closure of the rope pump rod according to the third embodiment (FIGS. 6 and 7) differs from the closure according to the first embodiment in that the grooves 20 are made to prevent the second conical sleeve 15 from turning in the housing 13. The second conical sleeve 15 itself, in which the end of the rope 1 has external slots 21, which engage with the grooves 20 in the housing 13 and receive torque. To prevent the rotation of the rope in the conical sleeve, the conical surface of the sleeve has recessed grooves 22 into which its wires enter when the end of the rope is swollen.

The termination of the cable pump rod operates as follows. A clamping nut 17, a first conical sleeve 8 and a second conical sleeve 15 are put on the cut end of the rope 1 with a bandage 10. The end of the rope 1 is sealed in the second conical sleeve 15 with steel wedges 12, which are clogged into the ends between the wires in the end of the rope. Wedge inserts 9 are inserted into the conical sleeve 8. The end of the rope fixed in the first and second conical bushings 8 and 15 is inserted into the housing 13, while the clamping nut 17 is screwed into the upper part of the housing 13. A sleeve 14 is screwed into the lower part of the housing 13, into which the screw is screwed lock nut 11. When loading the rope 1, the second conical sleeve 15 presses on the wedge inserts 9, which, moving in the first conical sleeve 8, compress the body of the rope. Thus hold it. The first conical sleeve 8 is held in the housing 13 by the clamping nut 17. The lock nut 11 prevents the steel wedges 12 from creeping out of the end of the rope 1 fluffy in the second conical sleeve 15.

The second embodiment of embedment of the rope pump rod differs from the first variant of embedment of the rope pump rod in that in the upper part of the housing 13, instead of the clamping nut 17, a retaining ring 18 is mounted, fixed in the housing 13 by shear screws 19. This design allows you to free the end of the rope when the rod plunger is jammed. pump during hoisting operations.

The third embodiment of embedment of the rope pump rod differs from the first variant of embedment of the rope pump rod in that there are grooves 20 in the lower part of the casing 13, and the second conical sleeve 15 has slots 21 engaged with the grooves 20, which excludes the possibility of rotation of the second conical sleeve 15 in the housing 13. To prevent rotation of the rope in the second conical sleeve 15, its conical surface has recessed grooves 22, into which separate wires enter when the end of the rope is blown up with steel wedges 12.

It should be understood that after the specialist has considered the above description with an example of the implementation of the cable pump rod and the options for terminating the cable rod, as well as the accompanying drawings, other changes, modifications and embodiments of the claimed invention will become apparent to him. Thus, all such changes, modifications and implementations, as well as other areas of application that do not conflict with the essence of the present invention, should be considered protected by the present invention in the scope of the attached claims.

Claims (5)

1. Rope pump rod transmitting reciprocating motion and longitudinal force from the surface drive to the working member of the borehole rod pump, consisting of a rod body and a rod head with a thread, characterized in that a closed structure rope with Z, X is used as the rod body and O-shaped wires, and as the head of the rod, a termination is used that ensures uniform loading of all the wires of the rope, while at the end of the terminations of the rod there is a thread that provides connection to the pump, th e rod or rod string. 2. The rope pump rod according to claim 1, characterized in that it is made with the possibility of transmitting rotational motion from the surface drive to the working body of the borehole pump, while the seals are additionally equipped with a node that prevents the rotation of the rope in the seals. 3. Rope pump rod according to claims 1 and 2, characterized in that the termination of the rope pump rod includes a housing, first and second conical bushings, wedge liners, a clamping nut screwed into the upper part of the housing, while at the end of the rope located in the seal steel wedges are inserted, while wedge inserts are located between the first and second conical bushings, and an additional sleeve with internal thread is located in the lower part of the housing, while a lock nut made with the possibility of screwing into the additional sleeve Preventing release of steel wedges end of the rope, in addition, lower end of the rope wedge inserts is formed from the shroud to prevent unwinding and fluff rope wires. 4. The rope pump rod according to claim 3, characterized in that the grooves are made in the housing at the location of the second conical sleeve, and the outer slots are made on the second conical sleeve, engaging with the grooves in the housing and receiving torque, while the conical surface bushings has recessed grooves that prevent the rotation of the rope in the conical sleeve. 5. The rope pump rod according to claims 1 and 2, characterized in that the termination of the rope pump rod includes a housing, first and second conical bushings, wedge inserts, while steel wedges are inserted at the end of the rope located in the seal, while in the upper part of the casing is equipped with a thrust ring covering the rope and secured in the casing with shear screws, while the wedge inserts are located between the first and second conical bushings, and in the lower part of the casing there is an additional bushing with internal thread olnitelnuyu sleeve is screwed a lock nut, adapted to prevent the exit end of the steel wedge rope and rope end lower wedge inserts is formed from the shroud to prevent unwinding and fluff rope wires.

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