RU191425U1 - ROTARY COLUMN CENTER - Google Patents

Abstract

The utility model relates to the oil industry, namely, support-centering elements of the drill string for working in wells with a complex spatial profile, including inclined and horizontal both in cased and open shafts. The objective of the utility model is to increase reliability and efficiency centralizer in wells with a complex spatial profile, including inclined and horizontal in both cased and open shafts, simplifying the metal consumption of the device and repair The technical result is achieved by the fact that the centralizer is a rotary columnar containing a hollow body, the upper and lower ends of which are screwed to the drill string, the sleeve is rotatable relative to the body along balls evenly spaced in the raceways, made coaxially on the outer surface of the body and on the inner surface of the sleeve, according to the invention, the housing is cylindrical in shape with a smooth surface, the sleeve is made with the outer surface of a spherical shape with centering ribs and, in the sleeve there are made radial holes above each raceway to ensure the introduction of balls, the holes are closed with plugs, between the sleeve and the housing in the upper and lower parts of their connection in the annular grooves on the housing are seals. A comparative analysis with the prototype of the inventive device shows that the claimed device characterized by the presence of new significant features and a new interconnection of elements: The claimed utility model is a centralized columnar rotator in comparison with the prototype has the following advantages: - The inventive device reduces the friction force on the casing wall during drilling, which reduces energy consumption for field development. The inventive device provides the possibility of operation in wells with a complex spatial profile, including inclined and horizontal both in cased and in open trunks. - The inventive device provides an opportunity - the use of previously operated "ordinary, smooth" sub. By finalizing the sub housing and completing with balls with a rotating sleeve. Thus, the consumer enterprise benefits from an affordable way to upgrade / expand the capabilities of existing equipment. The manufacturer receives benefits from the unification of manufactured equipment. Fig. 2.

Description

The utility model relates to the oil industry, namely to support-centering elements of the drill string for working in wells with a complex spatial profile, including inclined and horizontal both in cased and open shafts.

A device is known as a centralizer (RF patent No. 2055975 IPC ЕВВ 17/10 dated 02.09.1992), comprising a housing with connecting threads and mounted on it with the possibility of rotation of the cylinder, connected to the housing by balls located in the annular grooves of the housing and the recesses in the cylinder body. The cylinder is made eccentric and is equipped with external working elements made in the form of a ball, at least one of which is freely mounted in the cylinder body nest on the side of the greatest eccentricity, and the other are spring-loaded and installed on the side of lower eccentricity, while the working elements are spaced from the central axis enclosures at the same distance.

The disadvantages of the device:

- if it is necessary to replace one or more external balls, it is necessary to carry out laborious replacement operations, which reduces the maintainability of the device.

- the absence of sealing elements to protect the balls located between the body and the cylinder, can lead to sludge and as a result jamming of the rotation of the cylinder or leaching of grease in ball bearings, which reduces the reliability of the device

- the lack of a smooth transition on the outer surface of the rotating cylinder can cause jamming of the axial movement of the drill string with intensive curvature of the cased hole profile or in open areas of the well, which reduces the reliability and efficiency of the device.

- the absence of a smooth transition on the outer surface of the rotating cylinder contributes to the accumulation of sludge in the place of a sharp transition of the body and the rotating cylinder, and as a result, also leads to jamming of the axial movement of the drill string or an increase in axial force for movement of the drill string, which reduces the reliability and efficiency of the device.

The closest device to the claimed device in terms of features is a component of the drill string that reduces friction (patent WO / 2000/001239 IPC Е21В 17/00 of 01/13/2000), containing a tubular body having first and second ends for connection with adjacent parts of the drill columns, at least one emphasis made on the outer surface of the housing, the sleeve rotatably relative to the housing along the balls. One set of balls (at least one) is placed at the first end of the device and acts as a support for the sleeve in the radial and axial directions. Another set of balls (at least one) is placed at the second end of the device and acts as a support in the axial direction. Balls are included in the raceways made on the housing and sleeve. A raceway is used to guide and hold a set of balls. There is a closing hole, which is a keyway, made both in the housing and in the sleeve, for introducing balls into the raceways at the second end of the device. The housing and the sleeve of the device are made monolithic.

The disadvantages of the prototype:

- the presence of a protrusion on the housing increases the metal production.

- the absence of sealing elements to protect the balls can lead to sludge and, as a result, jamming of the sleeve rotation or leaching of grease in ball bearings, which reduces the reliability of the device

- the rectilinear (cylindrical) outer surface of the sleeve increases the contact area, this is especially manifested in horizontal or inclined sections in open boreholes, this leads to an increase in the friction force during movement of the drill string, which reduces the efficiency of the device.

- to refill ball bearings with grease or replace individual balls, it is necessary to completely disassemble the device, which reduces the maintainability of the device.

The objective of the utility model is to increase the reliability and efficiency of the centralizer in wells with a complex spatial profile, including inclined and horizontal, both in cased and open shafts, with a simplification of the metal production of the device and maintainability.

The technical result is achieved by the fact that the centralizer is a rotary column containing a hollow body, the upper and lower ends of which are fixed by a thread to the drill string, the sleeve is rotatable relative to the body along balls evenly spaced in the raceways, made coaxially on the outer surface of the body and on the inner surface of the sleeve , according to the invention, the housing is made of cylindrical shape with a smooth surface, the sleeve is made with the outer surface of a spherical shape with centering ribs, in ke radial holes formed on each raceway for the introduction of balls, holes closed with plugs between the sleeve and the housing at the top and bottom of their compounds in the annular grooves are arranged on the housing seal.

Comparative analysis with the prototype of the claimed device shows that the claimed device is characterized by the presence of new significant features:

Unlike the prototype:

The case is made of a cylindrical shape with a smooth surface, which reduces the metal consumption in the manufacture.

The presence of sealing elements protects the balls from external sludge, which increases the reliability of the device.

The spherical outer surface profile of the lid reduces the contact area with the casing walls, which increases the efficiency of the device.

The presence of plugs allows for convenient and timely assembly / disassembly of balls and grease, which increases the maintainability of the device.

The claimed device has novelty and industrial applicability, i.e. meets all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that non-deficient materials and well-known technologies are used in the manufacture.

In FIG. 1. Shown schematically - device, section

In FIG. 2. Shown schematically - device, section AA

A rotary columnar centralizer (Fig. 1) comprises a housing (1), a sleeve (2), balls (3), and plugs (4).

For wells with a complex spatial profile of the wellbore and / or in open boreholes, when the axial forces during the movement of the pipe string have a significant effect, an option is provided with the number of rows of balls (3) more than two.

A central flushing hole (5) is made in the housing (1), threaded connections (6) and (7) are made at the ends. The outer surface is smooth cylindrical without a protrusion. In the middle part of the housing (1), raceways (8) are made on the outer surface to accommodate the balls (3).

In the sleeve (2) in the middle part on the inner surface there are raceways (9) for accommodating the balls. The location and number of rows of raceways correspond to similar tracks made in the housing (1). A radial hole (10) is made over each raceway. The outer surface of the sleeve has a spherical shape (11) (Fig. 1) with centering ribs (12) (Fig. 2).

To protect the balls (3) from ingress of sludge (Fig. 1), sealing elements (14) are installed on the edges of the sleeve (2) in the housing (1) in the annular grooves (13).

The columnar rotating centralizer is assembled as follows.

Install the sealing elements (14) in the housing (1) in the annular grooves (13).

A sleeve (2) is mounted on the housing (1), combining the raceways (8) and (9). Through the holes (10) in the sleeve (2), balls (3) are introduced, evenly distributing them around the entire circumference of the raceways (8) and (9) (Fig. 2). The holes (10) in the sleeve (2) are closed by plugs (4), while ensuring the free rotation of the sleeve (2) relative to the housing (1).

The rotary columnar centralizer is disassembled in the reverse order as described above.

The centralized column rotary works as follows:

The centralizer is installed directly above the downhole equipment to be centered using connecting threads. If necessary, centralizers are installed at intervals along the entire length of the column. The number of centralizers in the string depends on the profile, curvature intensity, and well depth. The more centralizers are used in the interval of maximum curvature, the lower the friction of the drill pipe string during drilling. The centralizer is used both in cased and open hole wells. During tripping operations, the spherical surface of the sleeve reduces friction energy losses due to the small area of contact with the walls of the casing of the well, thereby reducing wear, which is especially important in deviated or horizontal sections of the well. During drilling, the centralizer body rotates together with the drill string, while the sleeve, being in contact with the walls of the well, remains stationary.

Comparative analysis with the prototype of the claimed device shows that the claimed device is distinguished by the presence of new significant features and a new relationship of elements:

The claimed utility model is a columnar rotating centralizer compared with the prototype has the following advantages:

- The inventive device reduces the friction force on the casing wall during drilling, which reduces energy consumption for field development.

- The inventive device provides the possibility of operation in wells with a complex spatial profile, including inclined and horizontal, both in cased and open shafts.

- The inventive device provides an opportunity - the use of previously operated "ordinary, smooth" sub. By finalizing the sub housing and completing with balls with a rotating sleeve. Thus, the consumer enterprise benefits from an affordable way to upgrade / expand the capabilities of existing equipment. The manufacturer receives benefits from the unification of manufactured equipment.

Claims (1)

A rotary columnar centralizer comprising a hollow body, the upper and lower ends of which are threaded to the drill string, the sleeve rotatably relative to the body along balls evenly spaced in the raceways, made coaxially on the outer surface of the body and on the inner surface of the sleeve, characterized in that the body is made of cylindrical shape with a smooth surface, the sleeve is made with the outer surface of a spherical shape with centering ribs, radial holes are made in the sleeve above each second raceway for the introduction of balls, holes closed with plugs between the sleeve and the housing at the top and bottom of their compounds in the annular grooves are arranged on the housing seal.

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