RU2430234C1 - Spring centraliser with its holder on casing - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: spring centraliser consists of solid case with centralising ribs. Also, the centraliser additionally includes holders made with external thread and pipes with flared ends and internal thread interacting with external thread of the said holders.

EFFECT: raised reliability and efficiency of spring centraliser implementation.

17 cl, 5 dwg

Description

The invention relates to the oil and gas industry, and in particular to the field of construction of oil and gas wells, and can be used to center the sleeve and sleeveless casing of oil and gas wells of any type.

Known spring centralizer containing a housing with end parts in the form of rings and centering ribs connected by spot welding (see RF patent for utility model No. 20923, class E21B 17/10, publ. 10.12.2001).

The low reliability of the mounting of the centering ribs and the high complexity of manufacturing limits its use.

Known elastic centralizer containing a one-piece housing with centering ribs continuously connected to the end parts in the form of rings, each of which has one or more welded joints, and in the projection on a horizontal plane, these ribs are tangent to the rings (see GB patent No. 2201176 , CL E21B 17/10, publ. 02/19/1988, Figs. 9, 10, 11, 20).

The centralizer has a simple design, it is applicable mainly on sleeve casing pipes, but it has low reliability and efficiency of centering the casing, especially in curved sections of the well due to the asymmetry of the design.

The closest in purpose, design and used elements is an elastic centralizer containing a one-piece housing with centering ribs continuously connected to the end parts in the form of rings, each of which has several (from 4 to six) welded linear joints with a seam length equal to the height of the ring moreover, in the projection onto the horizontal plane, the axes of these ribs are located along the radii of the rings (see international application WO 2009152223, class E21B 17/10, publ. December 17, 2009 - prototype).

The well-known centralizer is complex in design, applicable mainly to the sleeve casing. The high complexity of manufacturing leads to an increase in cost, which limits the use of the centralizer. The centralizer does not ensure the safety of the application due to the fact that there are a large number of strained welds.

Known centralizer retainer on the casing, made in the form of a rod having an external thread for interacting with the thread of the hole in the annular part of the centralizer body and a flat end face for abutment in the casing (see patent WO 2008/134333, class E21B 17/10, publ. . November 6, 2008, Fig. 9).

The insufficient reliability of the centralizer fastening limits the use of known clamps.

A known centralizer retainer on the casing, made in the form of a stud with a wrench head, an external thread for interacting with the thread of the hole in the centralizer body and the working end having a recess formed by walls in the form of a pointed socket for abutment in the casing (see RF patent No. 21599839, class E21B 17/10, publ. 11/27/2000).

Clogging of a small recess at the end of the latch during operation of the centralizer leads to the formation of a flat end and a decrease in the degree of pointedness of the socket, which reduces the reliability of mounting the centralizer on the casing.

Closest to the proposed one is a centralizer latch on the casing, including a core made hollow with a funnel-shaped recess, an external thread and a cutting edge along the diameter of the recess at its end to abut the casing, said end face having an external bevel at an angle of 45 degrees to the axis of the rod (see patent for utility model of the Russian Federation No. 91737, class E21B 17/10, publ. 02.27.2010 - prototype).

The execution of the end with an external bevel at an angle of 45 degrees to the axis of the rod does not ensure the reliability of the fixation of the centralizer on the casing due to insufficient cutting properties of the edge.

The present invention is the creation of a new design of the centralizer and its clamp on the casing, devoid of the above disadvantages.

The technical result of the invention of the clamp of the spring centralizer is the reliability of the centralizer on the casing (due to the conditions for maintaining a sharp cutting edge), reducing its material consumption and cost, ease of installation.

The technical result is achieved by the fact that in the spring centralizer, containing a one-piece housing with centering ribs continuously connected to the end parts in the form of upper and lower rings, spring clamps on the casing are made, made with an external thread, and tubes with flared ends and an internal thread made with the possibility of interaction with the external thread of the specified clamps, at least the lower ring is made with holes for installing tubes with flared ends.

In the centralizer, the upper and lower rings are advantageously made with at least one welded joint with a length equal to the height of the ring.

The centering ribs are preferably made in the form of elastic arcuate planks.

In the centralizer, the holes in the at least lower ring are preferably tapered under the flared ends of the tubes.

In the centralizer, the tube with flared ends, it is advisable to perform in the form of a hollow rivet.

In the centralizer, the thickness of the upper and lower rings must satisfy the condition Hk = (0.7 ... 1.4) Sp, where Sp is the thickness of the centering ribs.

In the centralizer, the ratio of its height to width is preferably not less than 2: 1.

In the centralizer, the latch on the casing is expediently made in the form of a rod with a cutting edge made with a diameter of 7 to 9 millimeters at its end to abut the casing.

In the centralizer clamp, the end face for abutment in the casing is preferably made with a funnel-shaped recess, the larger diameter of which is made by the cutting edge.

In the centralizer retainer, this end is preferably made with an external bevel at an angle of 25-35 degrees to the axis of the rod and a bevel at an angle of 45-65 degrees to form a funnel-shaped recess.

In the centralizer, it is advisable to carry out the latch with a recess on the other end under the tool for screwing it into a tube with flared ends.

In the centralizer, the retainer is preferably made with the possibility of going beyond the inner surface of the lower ring to a distance of 0.2-3 mm with an emphasis on the casing.

In the centralizer, the latch is preferably hollow.

The technical result is achieved in that in the spring centralizer retainer on the casing pipe, including at least a core made hollow with a funnel-shaped recess, an external thread and a cutting edge along the diameter of the recess on its end face for abutment in the casing pipe, said end face has an external bevel under angle from 25-35 degrees to the axis of the rod.

In the retainer, said end face is preferably beveled at an angle of 45-65 degrees to form a funnel-shaped recess.

In the retainer, the cutting edge is preferably made with a diameter of from 7 to 9 millimeters.

In the retainer, the rod is expediently performed with a recess on the other end under the tool for screwing it into a tube with flared ends.

When conducting patent research, no solutions were found that are identical to the claimed, and therefore, the proposed solution meets the criterion of "novelty." The invention does not follow explicitly from the known solutions, therefore, the proposed invention meets the criterion of "inventive step".

Figure 1 shows a spring centralizer for sleeveless casing (in the context).

Figure 2 depicts an enlarged fragment A of the centralizer in figure 1 (with tubes having a thread).

Figure 3 shows the latch of the spring centralizer on the casing (in section).

Figure 4 shows the latch of the spring centralizer on the casing (left view).

Figure 5 shows the connection of the clamp with the thread of the tube in the centralizer of figure 1.

The spring centralizer (figure 1) is made with fixation on the casing using clamps (figure 3).

The spring centralizer (Fig. 1) for sleeveless casing strings includes a one-piece body made of one stamped blank with end parts in the form of the lower and upper rings 1, 2 and centering ribs 3 made in the form of elastic arcuate strips of a given profile and section, the number of which can be from 4 to 16. The centering ribs 3 are continuously connected to the lower and upper rings 1, 2, i.e. made as a whole. Figure 1 shows a centralizer with six centering ribs 3. At least the lower ring 1 has through holes 4 for installing special hollow rivets - tubes 5 (figure 2) with flared ends and internal thread 6. These holes 4 are partially made with a taper at an angle (α) of 10-45 degrees under the flared ends of the tube 5.

The centralizer is equipped with clamps 7 (for mounting it on the casing) in the form of a hollow core having an external thread 8 for interacting with the internal thread 6 of the tubes 5 with flared ends and a cutting edge 9 at the end to abut the casing. In the latch 7, the end face for stopping in the casing is made with a funnel-shaped recess 10, the larger diameter of which is made by a cutting edge 9 with a diameter of 7 to 9 millimeters, which ensures reliable fastening of the centralizer to the casing. To form a cutting edge 9, said end face has an external bevel at an angle (β) from 25-35 degrees to the axis of the shaft 6 and a bevel at an angle (φ) of 45-65 degrees to form a funnel-shaped (conical) recess 10. The latch 7 is made with a hole 11 , in particular of a rectangular shape, on its other end under the tool (in particular, a key) for screwing it into the tube 5 and has a length that allows its end with the cutting edge 9 to extend beyond the inner surface of the lower ring 1 to a distance (L) from 0.2 to 3 mm for stop in the casing. The latches 7 are made of material, including steel, whose hardness is greater than the hardness of the casing material. Three to six clamps are installed on the casing centralizers, depending on their diameter 7. The hollow of the retainer 7 contributes to its “self-cleaning” and reduces the possibility of clogging of the funnel-shaped recess 10 at the end of the retainer 7 during operation of the centralizer, which ensures high sharpness of the cutting edge of the end .

Moreover, in spring centralizers for sleeveless casing strings, the lower and upper rings 1, 2 are made with one welding joint, for example, with a vertically positioned linear weld seam 12 made by any known method, including butt welding. For reliability of the centralizer case, the thickness of these rings 1, 2 of the centralizer must satisfy the condition Нк = (0.7 ... 1.4) Sp, where Sp is the thickness of the centering ribs. The ratio of the height of the centralizer to its width is at least 2: 1. Spring centralizers are designed for high-quality centering of the casing (from casing pipes with diameters from 73 to 508 mm) during cementing and are made of high-quality sheet steel. The centering of the casing is ensured by the specified spring properties of the centering ribs 3 in the form of arched centralizer bars.

Spring centralizers (figure 1) with mounting on the casing using the clamps 7 work as follows. A spring centralizer is mounted on the casing in a predetermined location. Fasten the lower ring (shell) 1 spring centralizer. Insert a key, for example a tetrahedral key, into the corresponding square hole 11 of the retainer 7 and make several turns, screwing them into the holes of the tubes 5 until the sharp cutting edge 9 cuts into the casing material. The key is rearranged to the hole 11 of the next retainer 7. In this way, all the retainers 7 are uniformly screwed up. The retainer 7 is hollow with a sharper cutting edge than in the prototype, which makes it possible to reliably fix the centralizer on the casing without coupling. The upper ring (shell) 2 is not fixed. Spring centralizers are lowered together with the pipe string into the well section where cementing is required. The design of the centralizer with an elongated streamlined shape and a secret connection of all elements of its one-piece casing allows descent without landing, i.e. ensure high traffic, since the centralizer during descent moves, as if sliding in the well.

The use of centralizers makes it possible to obtain a uniform gap between the casing pipe and the walls of the well, which eliminates the possibility of cross-flow flows (complete isolation with cement stone, without gaps), and therefore, significantly extends the life of the well. It is possible to use the proposed centralizers in wells with a borehole curvature intensity of more than 5 degrees per 10 meters. In addition, the small width and profile of the centering ribs provide the most complete replacement of the drilling fluid with cement in the annulus along its entire length.

Spring welded centralizers are made of high-quality sheet steel by laser cutting of a sheet with subsequent stepwise processing of the resulting workpiece on bending machines. Automatic laser cutting of the sheet allows you to get an excellent workpiece that does not need additional machining. Stage-by-stage processing of blanks on bending machines ensures high strength and accuracy of the product. Final welding and heat treatment of the product allows to achieve equal strength of the entire structure.

The proposed spring centralizer has a low cost, simple safe design, as well as high efficiency in any type of well, including with a curved profile, since high-quality alignment eliminates the possibility of the pipes adhering to the walls of the wellbore. The centralizer installation time on the casing is not more than 1 minute. The centralizer and its retainer on the casing pipe have an optimal metal consumption, ensure the creation of a uniform cement ring around the casing pipe.

Claims (17)

1. A spring centralizer, comprising a one-piece housing with centering ribs continuously connected to the end parts in the form of upper and lower rings, characterized in that the clamps of the spring centralizer on the casing are made, made with an external thread, and tubes with flared ends and an internal thread, made with the possibility of interaction with the external thread of the specified clamps, at least the lower ring is made with holes for installing tubes with flared ends. 2. The centralizer according to claim 1, characterized in that the upper and lower rings have at least one welded joint with a length equal to the height of the corresponding ring. 3. The centralizer according to claim 1, characterized in that the centering ribs are made in the form of elastic arcuate planks. 4. The centralizer according to claim 1, characterized in that the holes in at least the lower ring are made with a taper for the flared ends of the tubes. 5. The centralizer according to claim 1, characterized in that the tube with flared ends is a hollow rivet. 6. The centralizer according to claim 1, characterized in that the thickness of the upper and lower rings must satisfy the condition Hk = (0.7 ... 1.4) Sp, where Sp is the thickness of the centering ribs. 7. The centralizer according to claim 1, characterized in that the ratio of its height to width is not less than 2: 1. 8. The centralizer according to claim 1, characterized in that its latch on the casing is made in the form of a rod with a cutting edge made with a diameter of 7 to 9 mm at its end for abutment in the casing. 9. The centralizer of claim 8, characterized in that in the retainer the end face for stopping in the casing is made with a funnel-shaped recess, the larger diameter of which is made by the cutting edge. 10. The centralizer of claim 8, characterized in that said end face has an external bevel at an angle of 25-35 ° to the axis of the rod and a bevel at an angle of 45-65 ° to form a funnel-shaped recess. 11. The centralizer of claim 8, characterized in that the latch is made with a recess on the other end under the tool for screwing it into a tube with flared ends. 12. The centralizer of claim 8, characterized in that the latch is configured to extend beyond the inner surface of the lower ring to a distance of 0.2-3 mm with an emphasis in the casing. 13. The centralizer of claim 8, characterized in that the latch is made hollow. 14. The clamp of the spring centralizer on the casing pipe, including at least a rod made hollow with a funnel-shaped recess, an external thread and a cutting edge along the diameter of the recess on its end face for abutment in the casing, characterized in that said end face has an external bevel at an angle from 25-35 ° to the axis of the rod. 15. The retainer according to 14, characterized in that said end has a bevel at an angle of 45-65 ° to form a funnel-shaped recess. 16. The retainer according to 14, characterized in that the cutting edge is made with a diameter of from 7 to 9 mm 17. The retainer according to 14, characterized in that the rod is made with a recess on the other end under the tool for screwing it into a tube with flared ends.

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