RU2712817C1 - Pulling chain of coil tubing unit supplying mechanism - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to operation and underground repair of oil and gas wells using long-length flush-joint pipes, and namely to mechanisms for supply of coil tubing units. Traction chain of coil tubing unit supplying mechanism has shoe with shaped surface for pipe and fasteners for pivot joint of shoes to each other. Each shoe is made of shaped shoe and strap with shaped surface for pipe, attached to each other. Said shoe is configured to mount and remove pads with shaped surface for pipes of different diameters. Split surface between the shoe and pad is stepped and comprises peripheral and central parts disposed relative to each other in parallel planes. Central part of the split surface on the shoe case is made in the form of an internal slot in the shoe case, and the central part of the pad detachment surface is made in the form of a protrusion interacting with the above slot in the shoe case.

EFFECT: reduced time during re-adjustment of coil tubing unit chain from one tube size to another.

4 cl, 7 dwg

Description

The invention relates to the field of operation and underground repair of oil and gas wells using long clutchless pipes, namely: to the supply mechanisms of coiled tubing installations. Using traction chains of the feed mechanism, the length and length of clutchless pipes are lowered and raised in order to carry out repair work in the wells.

Known traction chain for lowering and lifting continuous steel pipes and rods wound on a drum containing friction pads, axles, chain cheeks (AS USSR No. 785458, IPC: Е21В 19/00, publ. 07.12.80, bulletin N 45).

A disadvantage of the known device is that in the process of repeated bending, a long clutchless pipe (hereinafter - DBT) changes its profile and becomes ovality. This, in turn, reduces the coverage area of the friction pads DBT and, as a result, decreases the traction force created by the friction pads. An increase in the pressing force of the pads leads to damage to the crackers of the friction pads, which are usually made of hardened steel, which also has a low coefficient of friction.

Known traction chain for lowering and lifting continuous steel pipes, contains friction pads, and the friction pad is equipped with an insert cracker, consisting of four parts, two of which are steel and two are made of composite material, and the steel components of the cracker are located at the edges of the friction pad, and the other two are placed between them, while carbon composite is used as the composite material, and the surface area of the steel components of the cracker refers to the surface area of the components ying the composite material is 1: 1.5 (RF patent №2152505, IPC: E 21 B 19/084 from 24.12.1999 g).

The disadvantage of this traction chain for lowering and lifting continuous steel pipes is the presence of marks and dents on the outer surface of the DBT from contact with the friction pads at the entrance of the DBT to the feed mechanism of the coiled tubing installation, which reduces the life of the DBT.

Known traction chain of the feed mechanism of the coiled tubing installation, containing pads, axles, plates, bushings, washers, nuts and cotter pins, with each inner threaded surface having radial chamfers in the longitudinal plane of the pad along the edges of the inner threaded surface and radius chamfers on each a threaded coil in the transverse plane of the block, and the size of the radial chamfer on each threaded coil in the transverse plane of the block is equal to the height of the profile of the threaded coil (RF patent for utility model No. 112257, Applications : 2011130444/03 of 22.07.2011, IPC: 19/084 E 21 B, E 21 B 19/22 prototype).

The work of the specified traction chain feed mechanism coiled tubing installation is as follows.

During the operation and underground repair of oil and gas wells using DBT, two identical traction chains are mounted in the supply mechanism of the coiled tubing installation, with DBT placed between the chains. When the traction chains move up and down, the pads with an internal threaded surface come into contact with the DBT, respectively, raising or lowering it, while maintaining the profile and ovality of the DBT.

The main disadvantage is that the pads in the chain can only be used for pipes of a strictly defined diameter, which leads to significant downtime and losses during installation / removal of the chain with pads of a different standard size, for a different pipe diameter.

The objective of the invention is to remedy these drawbacks and create a traction chain for the feeding mechanism of the coiled tubing installation, the use of which will allow the use of DBT of any diameter without dismantling the circuit itself, which will significantly reduce the loss of working time caused by the changeover of the coiled tubing installation chain from one diameter to the other.

The solution to this problem is achieved by the fact that, in the proposed traction chain of the supply mechanism of the coiled tubing installation, containing pads with a profiled surface under the pipe and fasteners for pivotally connecting the pads to each other, according to the invention, each block is made up of a shaped shoe and a lining with a profiled surface under a pipe fastened together, and said shoe is made with the possibility of mounting and dismounting linings with a profiled surface for pipes of different diameters, the surface of the connector between the shoe and the cover is made stepped, containing peripheral and central parts located offset from each other in parallel planes, the central part of the surface of the connector on the shoe body is made in the form of an internal groove in the shoe body, and the central part of the surface of the patch connector made in the form of a protrusion interacting with said groove in the shoe body.

In an embodiment, one peripheral portion of the patch, preferably the end portion, is positioned at an angle to the surface of the connector.

In an embodiment, the profiled surface of the lining is made in the form of alternating profiled protrusions.

In an embodiment, the profiled surface of the lining is made in the form of alternating profiled protrusions, while the longitudinal section of each profiled protrusion is made in the form of an unequal trapezoid.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the circuit; FIG. 2 - block assembly, top view, in FIG. 3 - block assembly, left view, fasteners are shown, in FIG. 4 - block assembly, left view, a profiled surface for the pipe is shown, in FIG. 5 - block assembly, front view, in FIG. 6 shows a profiled shoe in a perspective view; FIG. 7 - shows a profiled shoe in a perspective view in the embodiment, with a through groove for connection with the pad.

The traction chain 1 of the feed mechanism of the coiled tubing installation contains pads 2 and fasteners 3 for articulating the pads to each other. Each block 2 is made up of a shaped shoe 4 (hereinafter referred to as the shoe) and a lining 5 with a profiled surface 6 under the pipe. The shoe 4 is made with the possibility of mounting and dismounting the linings 5 with a profiled surface 6 for pipes of different diameters. The surface of the connector between the shoe and the pad is made stepped, containing peripheral 7 and central 8 parts located offset from each other in parallel planes. The central part 8 of the connector surface on the shoe body 4 is made in the form of an internal groove in the shoe body, and the central part of the surface of the patch connector is made in the form of a protrusion 9 interacting with the groove in the shoe body. The shoe 4 and the pad 5 are interconnected using fasteners 10.

In an embodiment, one peripheral part 6 of the lining 5, preferably the end part, is located at an angle to the surface of the connector.

In an embodiment, the profiled surface of the lining 5 is made in the form of alternating profiled protrusions 11. This design allows to reduce the specific pressure of the lining on the pipe surface.

The protrusions can be made in the form of a multiple helix. This design allows you to increase the contact surface of the protrusions with the pipe with a constant effort to compress the surface of the profiled lining to the pipe.

In an embodiment, the profiled surface of the lining is made in the form of alternating profiled protrusions 11, while the longitudinal section of each profiled protrusion is made in the form of an unequal trapezoid. This design allows you to further strengthen the strength of the tooth when the pipe moves from the well, when the gravity of the part of the pipe lowered into the well will be directed in the direction opposite to the rise.

In an embodiment, the groove in the shoe body can be made through.

The operation of the claimed traction chain of the feed mechanism of the coiled tubing installation is as follows.

During the operation and underground repair of oil and gas wells using DBT, two identical traction circuits 1 are mounted in the supply mechanism of the coiled tubing installation (not shown) and between the circuits there are DBT, which is located on the drum of the coiled tubing installation. When the traction chains 1, pads 2 move with the internal profiled surface 6 of the lining 5, they come into contact with the DBT and lower or raise it from the well.

If necessary, change the diameter of the DBT, pads 5 with a profiled surface are removed from the shoe 4 and in their place, using fasteners 10, similar pads 5 are installed, having a corresponding profiled surface under the DBT of the required diameter and an equidistant mating surface for installation on the shoe 4. When installing the lining, the protrusion of the Central part 9 of the surface of the lining connector interacts with the mating groove 8 in the shoe body.

The illustrations and description of the features of the invention do not cover the entire spectrum of possible modifications and equivalent changes that are obvious to a person skilled in this field. It should be understood that the appended claims cover all possible modifications and changes that fall within the spirit of the present invention.

Using the proposed technical solution will allow you to create a traction chain for the supply mechanism of the coiled tubing installation, the use of which will allow the use of long clutchless pipes of any diameter without dismantling the circuit itself, which will significantly reduce the loss of working time caused by the changeover of the coiled tubing installation chain from one pipe diameter to another.

Claims (4)

1. The traction chain of the feed mechanism of the coiled tubing installation, containing pads with a profiled surface for the pipe and fasteners for pivotally connecting the pads to each other, characterized in that each block is made up of a shaped shoe and a lining with a profiled surface for the pipe fastened together, moreover said shoe is made with the possibility of mounting and dismounting linings with a profiled surface for pipes of different diameters, while the surface of the connector between the shoe and the plate flax is stepped, containing peripheral and central parts, displaced relative to each other in parallel planes, the central part of the surface of the connector on the shoe body is made in the form of an internal groove in the shoe body, and the central part of the surface of the lining connector is made in the form of a protrusion interacting with the aforementioned a groove in the shoe case. 2. The traction chain according to claim 1, characterized in that at least one peripheral part of the lining, preferably the end part, is located at an angle to the surface of the connector. 3. The traction chain according to claim 1, characterized in that the profiled surface of the lining is made in the form of alternating profiled protrusions. 4. The traction chain according to claim 1, characterized in that the profiled surface of the lining is made in the form of alternating profiled protrusions, while the longitudinal section of each profiled protrusion is made in the form of an unequal trapezoid.

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