RU162641U1 - SPRING CENTER - Google Patents

Abstract

1. Spring centralizer, including upper and lower rings, the diameter of which is less than the diameter of the casing collars, interconnected by spring bars distributed evenly around the circumference, the upper and lower rings, and spring bars are made of a seamless seamless pipe without removing welded and mechanical joints metal in the gaps between the spring bars, and their outer curved surface is formed by upsetting the centralizer and squeezing the spring bars outward, and at the points where the spring bars go upper and lower rings, to reduce stress concentration radii formed, characterized in that the bending spring strap starts from the center of the radius of reducing the concentration of the transition voltage of the springs in the upper and lower koltsa.2. The spring centralizer according to claim 1, characterized in that threaded holes are made on the upper or lower rings for fixing screws of the centralizer on the casing. 3. The spring centralizer according to claim 1, characterized in that as the diameter of the centralizer rings increases, the number of fastening screws increases.

Description

The utility model relates to the oil and gas industry, in particular for casing fastening of oil and gas wells, and is intended to center the columns in the well. The use of centralizers provides a uniform gap between the casing and the walls of the well, which improves the quality of cementing the string.

Known spring centralizer with automatic fixation on the casing according to the patent of the Russian Federation for invention No. 2499123. Spring centralizer with automatic fixation on the casing, consists of centering strips and two all-cut shells. The ends of the one-piece shells are connected by a weld, while in the lower shell there are special inclined pockets (from two to six - depending on the size of the centralizer). In inclined pockets there are two red-hot rollers connected by a torsion spring fixed in the transport position by a check (lock). The centralizer is fixed by moving the rollers, using a spring, along the wedge groove (pocket), after removing the checks (retainer), according to the principle of operation of the overrunning clutch. The wedge groove is formed by the centralizer shell and the casing. One roller fixes the centralizer from moving down, and the second - up. The disadvantage of a spring centralizer with automatic fixation on the casing string is the design complexity and low reliability.

Known spring centralizer according to the patent of the Russian Federation for the invention No. 2430235. The invention relates to the oil and gas industry, in particular, to casing centering devices. The spring centralizer includes a housing with end parts in the form of rings and centering ribs made with holes for connecting fasteners. In this case, the fasteners are made in the form of tubes with a female thread and flared ends. The disadvantage of a spring centralizer is its low reliability.

Known spring centralizer according to the patent of the Russian Federation for utility model No. 91737. Spring centralizer, including two fasteners and spring bars connected to them, characterized in that the fasteners are solid shells, the ends of which are connected by a weld, while the lower has threaded holes with fixing screws installed in them, made with external and internal chamfers forming a sharp edge. The disadvantage of a spring centralizer is the use of welding to secure the shells.

Known centralizer spring non-separable according to the patent of the Russian Federation for utility model No. 102666. The spring centralizer is non-separable, contains rings connected by spring bars fixed on the outer surface of the rings by contact welding, with collars in contact with the ends of the spring bars, spring bars are made of trapezoidal shape with rounded edges and a central recess, while one of the rings is made with threaded holes for locking elements. The outer diameter of the centralizer rings does not exceed the outer diameter of the couplings used to connect the casing to the string. The locking elements are made in the form of fixing screws with an annular groove. The disadvantage of the centralizer spring non-separable, is the use of welding to fasten the strips on the outer surface of the rings, which reduces the mechanical characteristics of the centralizer and reliability.

Known spring centralizer according to the patent of the Russian Federation for utility model No. 98465. The spring centralizer includes a housing with end parts in the form of rings and centering ribs made with holes for connecting fasteners made in the form of tubes with flared ends, at least the lower ring and lower ends of the centering ribs are made with corresponding holes for accommodating these tubes moreover, the rings are connected to the centering ribs on the inner surface of the rings. Rings, centering ribs and fasteners are made with the possibility of a secret connection. The centering ribs are made in the form of elastic arcuate planks. The holes, at least in the lower ring and the corresponding ends of the centering ribs, are made with a taper for the flared ends of the tubes. The fastener is a rivet. The fastener is made with internal thread. The centralizer is equipped with centralizer clamps on the casing, in the form of a hollow core with an external thread, for interaction with the thread of the fastener and the cutting edge at the end, for emphasis in the casing. In the retainer, the end face for abutment in the casing is made with a conical recess, the larger diameter of which is made by the cutting edge. In the retainer, said end face has an external bevel, at an angle from 25-35 ° to the axis of the rod and a bevel at an angle of 45-65 °, to form a conical recess. The latch is made with a recess on the other end under the tool for screwing it into the fastener. The latch is made with the possibility of going beyond the inner surface of the lower ring of the centralizer at a distance of 0.2-3 mm with an emphasis in the casing. The thickness of the centralizer ring should satisfy the condition Hk = (0.7 1.4) Sp, where Sp is the thickness of the centering ribs. The ratio of height to width of the centralizer is not less than 2: 1. The disadvantage of a spring centralizer is its low reliability.

Known spring centralizer and its clamp on the casing according to the patent of the Russian Federation for utility model No. 988220. The spring centralizer contains a one-piece housing with centering ribs connected to the end parts in the form of upper and lower rings, characterized in that the spring centralizer clamps are inserted on the casing and the tubes with flared ends, at least the lower ring is made with holes for installing tubes with flared ends, said clamps and tubes are respectively made with external and internal threads, with the possibility of screwing the clamps all the way into the casing. The centering ribs are connected to the upper and lower rings continuously, said rings having at least one welded joint with a length equal to the height of the corresponding ring. The centering ribs are made in the form of elastic arcuate planks. The holes, at least in the lower ring, are tapered to the flared ends of the tubes. The tube with flared ends is a hollow rivet. 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. The ratio of its height to width, not less than 2: 1. The centralizer 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 emphasis in the casing. 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. In the retainer, said end face has an external bevel, at an angle from 25-35 ° to the axis of the rod and a bevel at an angle of 45-65 °, to form a funnel-shaped recess. The latch is made with a recess on the other end under the tool, for screwing it into a tube with flared ends. The latch is made with the possibility of going beyond the inner surface of the lower ring to a distance of 0.2-3 mm, with emphasis in the casing. The latch is hollow. The clamp of the spring centralizer on the casing pipe includes at least a rod with an external thread and a cutting edge along the diameter of the recess on its end face for abutment in the casing pipe, the rod is made hollow with a funnel-shaped recess. The specified end has an external bevel at an angle from 25-35 ° to the axis of the rod and a bevel at an angle of 45-65 ° to form a funnel-shaped recess. The cutting edge is made with a diameter of 7 to 9 mm. The rod is made with a recess on the other end under the tool for screwing it into a tube with flared ends. The disadvantage of a spring centralizer is the design complexity and low reliability.

Known spring centralizer for wells according to the patent of the Russian Federation for the invention No. 2456428. The invention relates to the construction and operation of oil and gas wells, in particular to the technological arrangement of wells for various purposes at various stages. The inventive spring centralizer for a well includes an upper shell, a lower shell with radial threaded holes, spring straps located between the upper and lower shells and connected to the latter, external thread screws for the threaded holes of the lower shell to fix the latter to the pipe body on which set the spring centralizer. At the same time, the lower shell has external landings in the form of annular collars around each threaded hole with a diameter and height, which make it possible to fasten the lower shell with the necessary force to the body of the pipe with screws. These screws are made with the additional function of introducing hydraulic disturbances into the well fluid mode in the area of the spring bars. The disadvantage of a spring centralizer for a well is its low reliability

Known centralizer spring non-separable according to the patent of the Russian Federation for utility model No. 20923 (prototype). The spring centralizer is non-separable, contains rings connected by spring arcuate planks fixed to the outer surface of the rings, the rings contain collars in contact with the ends of the spring planks, and the connection of the planks with the rings is made by spot welding. The outer diameter of the rings of the centralizer does not exceed the outer diameter of the couplings used to connect the casing pipes to the string, for the centering of which the centralizer is intended. The thickness of the centralizer ring must satisfy the condition Sk = (0.8 ... 1.2) Sn, where Sn is the thickness of the spring bars, and Sk is the thickness of the centralizer ring. The disadvantage of the centralizer spring non-separable is the low reliability of fastening the spring bars to the rings.

The task of creating a utility model is to increase the reliability of the spring centralizer.

The solution to these problems was achieved due to the fact that the spring centralizer includes upper and lower rings, the diameter of which is less than the diameter of the casing collars, interconnected by spring bars distributed evenly around the circumference, characterized in that the upper and lower rings, as well as the spring bars, made of a seamless seamless pipe without welded and mechanical joints, removing metal in the spaces between the spring bars, and their outer curved surface is formed by upsetting the centralizer and squeezed out spring planks outward. The transitions of the spring bars to the upper and lower rings are made at right angles. In places of transition of the spring bars to the upper and lower rings, radii are made to reduce stress concentration. The bending of the spring bar starts from the center of the radius, which reduces the concentration of the stress of the transition of the spring bars to the upper and lower rings. Threaded holes are made on the upper or lower rings for the screws that secure the centralizer to the pipe. With an increase in the diameter of the centralizer rings, the number of fastening screws increases. With increasing diameter of the centralizer rings, the number of spring bars increases. As a material for a seamless pipe, spring-spring steel is used.

The proposed technical solution has novelty and industrial applicability, i.e. 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 in the manufacture of a spring centralizer, non-deficient materials and known technologies are used.

The essence of the utility model is illustrated in FIG. 1 ... 4, where:

in FIG. 1 shows a longitudinal section of a spring centralizer, in which the transitions of the spring bars to the upper and lower rings are made at right angles;

in FIG. 2 shows a longitudinal section of a spring centralizer, in which the transitions of the spring bars to the upper and lower rings are made with a radius;

in FIG. Figure 3 shows a side view of a spring centralizer with threaded holes on the lower ring for fixing the centralizer with screws on the pipe;

in FIG. 4 shows a centralizer upsetting circuit for forming a curved surface of the spring bars.

The spring centralizer contains the upper 1 and lower 2 rings, the diameter of which D _{1 is} less than the diameter of the casing sleeves 3, interconnected by spring bars 4 arranged evenly around the circumference, characterized in that the upper 1 and lower 2 rings, as well as the spring bars 4, made of a seamless seamless pipe, without welded and mechanical joints, by removing metal in the spaces 5 between the spring bars 4, and their outer curved surface 6 is formed by upsetting the centralizer and squeezing the spring bars 4 out. The transitions of the spring bars 4 to the upper 1 and lower 2 rings can be made at right angles 7. At the points of transition of the spring bars 4 to the upper 1 and lower 2 rings, radii 8 are made to reduce stress concentration. The bending of the spring bar 4 starts from the center radius 8, which reduces the concentration of the transition voltage of the spring bars 4 in the upper 1 and lower 2 rings. On the upper 1 or lower 2 rings, threaded holes 9 are made, for the screws 10 for fixing the centralizer on the casing 3. When the diameter of the rings 1 and 2 of the centralizer increases, the number of screws 10 increases. When the diameter of the rings 1 and 2 of the centralizer increases, the number of spring bars increases 4. Spring steel is used as the material for the seamless pipe.

Spring centralizer works as follows. Centralizers are installed from the side of the nipple thread on the casing pipes 3. In this case, the total weight of the casing pipes 3 must be less than the total radial centering force created by spring centralizers located uniformly throughout the string. The centralizer can be mounted on the casing 3 using the mounting screws 10 installed in the threaded holes 9, made on the upper 1 or lower 2 rings. Mounting on both sides is unacceptable, since the length of the centralizer changes when the load transferred by the casing pipes through rings 1 and 2 to the spring bars 4. The casing, during descent, undergoes narrowing and expansion in the well, the spring bar 4 is compressed and restores its shape, significant stresses arise at the place of transition of rings 1 and 2 of the centralizer into spring bars 4. Performing spring bars 4, rings 1 and 2 from a seamless seamless pipe without welded and mechanical joints, removing metal in the spaces 5 between between the spring bars 4, as well as the radii 8, in the places where the spring bars 4 go into the upper 1 and lower 2 rings, it allows to increase the number of compression cycles of the spring bars 4 and to increase the reliability of the spring centralizer.

Application of the utility model allowed:

1. To ensure centering of the pipe string in the well.

2. To increase the reliability and efficiency of the use of a spring centralizer.

3. Increase the radial centering force created by the centralizer.

4. To reduce the axial force that occurs when the centralizer is lowered into the well.

5. Improve the quality of casing cementing.

Claims (3)

1. Spring centralizer, including upper and lower rings, the diameter of which is less than the diameter of the casing collars, interconnected by spring bars distributed evenly around the circumference, the upper and lower rings, and spring bars are made of a seamless seamless pipe without removing welded and mechanical joints metal in the gaps between the spring bars, and their outer curved surface is formed by upsetting the centralizer and squeezing the spring bars outward, and at the points where the spring bars go upper and lower rings, to reduce stress concentration radii formed, characterized in that the bending spring strap starts with a radius center, reducing the concentration of the transition voltage of the springs in the upper and lower rings. 2. The spring centralizer according to claim 1, characterized in that threaded holes are made on the upper or lower rings for the screws that secure the centralizer to the casing. 3. The spring centralizer according to claim 1, characterized in that as the diameter of the centralizer rings increases, the number of fastening screws increases.

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