RU135705U1 - PIPE REMOVAL - Google Patents

Abstract

A pipe extraction tube including a hollow cylindrical body mounted on its outer surface with axial movement along the die, provided with teeth on the outside, a die holder with a centralizer and a tip mounted on the end of the housing, characterized in that the teeth of the die are made isosceles tetrahedral pyramids that ensure the engagement of the die with the pipe without moving both in the vertical and horizontal planes with the possibility of radial rotation, while the vertices isosceles tetrahedral pyramids are cut off at a distance equal to 2/3 of the height of the side face of the pyramid.

Description

The utility model relates to the oil and gas industry, and in particular to devices for catching and extracting pipes during the repair of production wells, in particular to pipes for extracting pipes from deep or horizontal wells.

A device for increasing the reliability of operation and repair of wells is known, comprising a hollow cylindrical body mounted on its outer surface with the possibility of axial displacement of the die, provided with teeth on the outside, a die holder with a centralizer in the form of leaf springs and a tip in the form of a cylinder with a beveled bottom edge mounted on the end of the housing [RU 2146755 C1, IPC 7 ЕВВ 29/00].

The disadvantage of this device is the lack of reliability in catching and removing dangling pipes due to the possibility of their separation during radial rotation, especially when removing pipes equipped with a packer, in which the pipe rotation mechanism is used.

A device for repairing production wells is known, comprising a hollow cylindrical body mounted on its outer surface with the possibility of axial displacement along the die, provided with teeth on the outside, a die holder with a centralizer in the form of leaf springs and a tip in the form of a cylinder with a beveled bottom edge mounted on the end of the housing [RU 30824 U1, IPC 7 ЕВВ 29/00, publ. 07/10/2003].

The disadvantage of this device is the lack of reliability in catching and removing dangling pipes due to the possibility of their separation during radial rotation, especially when removing pipes equipped with a packer, in which the pipe rotation mechanism is used.

The challenge in creating the pipe is to increase the reliability of the capture and extraction of broken pipes during the repair of production wells.

Achievable technical result consists in the reliability of the engagement of the dies on the pipe without tearing it when moving both in the vertical and horizontal planes, as well as with radial rotation in the ease of release of the dies during their emergency disconnection from the catch pipes.

The task and technical result are achieved by the fact that in a known tube for removing pipes containing a hollow cylindrical body mounted on its outer surface with the possibility of axial movement along it of the die, on the outside provided with teeth, a die holder with a centralizer and a tip mounted on the end of the housing , new in contrast to the prototype, is that the teeth of the die are made in the form of isosceles tetrahedral pyramids, ensuring the engagement of the die without moving it as in vertical Flax and horizontal planes, with the radial rotation, the tetrahedral vertices of equilateral pyramids are cut at a distance equal to 2/3 of the height of the side faces of the pyramid.

In FIG. 1 shows a General view of the inventive tube, FIG. 2 - option plate with teeth made in the form of truncated pyramids (top view); in FIG. 3 is a longitudinal section of a die with teeth made in the form of truncated pyramids; in FIG. 4 is a cross section of a die with teeth made in the form of truncated pyramids.

The tube includes a housing 1, which is a cylindrical body with a Central or Central radial hole. In the lower part of the housing 1 on the lateral surfaces there are three inclined planes with longitudinal protrusions, on which the dies 2 are mounted together with the die holder 3 and centralizers 4, made, for example, in the form of leaf springs. In the upper part of the housing 1, a thread is made for attaching the pipe to the drill pipe string. To the lower part of the housing 1 is attached a tip 5, made, for example, in the form of a cylinder with a beveled bottom edge, which acts as a guide when introducing the tube into the catch pipe. From self-unscrewing, tip 5 is fixed with screw 6.

The die 2 has teeth 7 on the outside for gripping the caught pipes, and on the inside there are bevelled surfaces and grooves with a section profile corresponding to the protrusions of the inclined planes of the housing 1, so that the die 2 can move along the housing 1 without lateral displacement.

The teeth 7 of the plate are made in the form of intersecting parallel vertical 8 and parallel horizontal 9 guides (notches), forming isosceles of tetrahedral pyramids 10 at the intersection points, ensuring the engagement of the plate 2 without moving both in the vertical and horizontal planes with the possibility of radial movement. Moreover, the vertices of the isosceles tetrahedral pyramids are cut off at a distance equal to 2/3 of the height of the side face of the pyramid, excluding the possible cutting of the caught pipe with the tip of the peak (top) of the pyramid.

The tube works as follows.

On the drill pipe string, the tube is lowered into the well, carefully inserted into the catch pipe and the descent continues to the point of capture.

The centralizer 4 slides along the wall of the production casing (vertical, inclined or horizontal) of the well and centers the tube relative to the axis of the well, and the tip 5 serving as a guide does not allow the tube to abut against the end of the catch pipe. When the tube enters the trap pipe, the centralizer 4 centers the tube relative to the axis of the trap pipe. By rotating to the right, the dies 2 together with the dies holder 3 are released from the upper fixing position created by engaging the protrusions on the rear side of the dies 2 with the protrusions on inclined planes on the housing 1. Under the action of their own weight, the dies 2 along the inclined planes of the housing 1 are lowered. As a result, they protrude beyond the dimensions of the housing 1 and are jammed between the housing 1 and the internal surface (wall) of the caught pipes. Subsequent pulling of the drill pipe string leads to further insertion of the teeth of 7 dies 2 into the body of the catch pipe.

Due to the configuration of the teeth 7 of the plate 2, made in the form of parallel vertical 8 and parallel horizontal 9 guides (notches) intersecting each other, which form isosceles of a tetrahedral pyramid 10 at the intersection points, the plate 2 is securely caught and engaged with the body of the catch pipe without moving the teeth 7 in both vertical and horizontal planes, and their separation even with radial rotation.

Captured catch pipes are removed to the surface.

To disconnect the pipe from the catch pipes during emergency disconnection, the drill pipes are pulled upward. In this case, the die holder 3 moves upward, pulls the dies 2 behind it, releasing them from the wedged position with the housing 1. By subsequent rotation of the tube to the right (clockwise), the teeth 7 of the die 2 are detached from the catch pipe and the dies 2 are sunk in the windows of the die holder 3 and free the gear from catching with the pipes.

The proposed tube ensures reliable engagement of the dies on the pipe without tearing it off when moving both in the vertical and horizontal planes, as well as during radial rotation, providing easy release of the dies during their emergency disconnection from the catch pipes.

The proposed tube is most appropriate for fishing and retrieving dangling pipes from deep inclined and horizontal production wells equipped with a packer.

The tube has a simple design, is convenient for installation and maintenance, can significantly improve the reliability of operation and repair of wells by eliminating emergency disconnection from the pipes and the fall of the latter on the bottom of the well, reduces the cost of extracting dangling pipes from the well.

Claims (1)

A pipe extraction tube including a hollow cylindrical body mounted on its outer surface with axial displacement along the die, provided with teeth on the outer side, a die holder with a centralizer and a tip mounted on the end of the body, characterized in that the teeth of the die are made isosceles tetrahedral pyramids that ensure the engagement of the die with the pipe without moving both in the vertical and horizontal planes with the possibility of radial rotation, while the vertices isosceles tetrahedral pyramids are cut off at a distance equal to 2/3 of the height of the side face of the pyramid.

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