RU2804524C1 - Device for cleaning internal surface of tubing - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: device contains an upper scraper connected to a traction element connector, and a lower scraper connected to a weight. The scrapers contain bodies connected to each other along the longitudinal axial line of the device with a rotation relative to one another; the scraper cutters are made radially convex in the direction of the wall of the pipe being cleaned. The body of each scraper is made in the form of a frame with sides symmetrical relative to the longitudinal centreline, each side of the frame contains a central vertical section, an upper and a lower sections inclined in relation to the longitudinal centreline. The upper and the lower sections of the opposite sides of the frame are connected to each other to form correspondingly narrowed upper and lower sections of the frame; cutters are rigidly attached to the opposite central vertical sections of the frame. Each cutter is made of a plate having a shape close to a quadrangle with two pairs of adjacent sides of the same length. One part of each cutter is limited to the first pair of adjacent sides with angle α between them, and the other part of the cutter is limited by the second pair of adjacent sides with angle β between them, each cutter is oriented along the longitudinal centreline of the device at angle α upwards and at angle β downwards The frames are rotated relative to each other at an angle of 90°, the projections of the enveloping cutters of both scrapers form a circle in plan. The outer edges of the inclined sections of the frame, facing up and down, are made with double-sided sharpening, the outer edges of the sides of the cutter plates are made with one-sided internal sharpening.

EFFECT: efficiency of the device, reliability, and service life are increased, the design is simplified, and maintainability is increased.

3 cl, 4 dwg

Description

The invention relates to the oil industry and can be used to remove deposits, preferably asphalt, resin and paraffin deposits, from the surface of tubing.

From the RF patent No. 184947 for a utility model, a knife scraper is known for cleaning tubing pipes from asphalt, resin, and paraffin deposits, containing a cylindrical rod with threads made at its ends for screwing on a weight and a fishing head; on both sides of the rod there are two longitudinal through mutually perpendicular grooves , in which guides made in the form of isosceles triangles are mirror-fixed, while their corners lying opposite the bases are directed towards the ends of the rod, and at the corners at the bases of the triangles parallel to the axis of the rod there are flats; the guide ribs are sharpened, and four knives are attached to the flats, made in the form of sheet plates with radius bends; the guides of the plates of the first and third knives are a right helical cylindrical line, and the second and fourth are a left helical cylindrical line, with each plate being attached at one end to one of the flats of the first guide, and at the other end to one of the flats of the second. The sharpening angle of the guide ribs can be 60°; the sharpening angle of knives from asphalt, resin and paraffin deposits is 30°.

From the RF patent No. 2569425 for the invention, a device for cleaning the inner surface of a pump-compressor pipe according to the first option is known, including an extended body, which is also a weighting agent, identical upper and lower scrapers, with each scraper containing radial knives and cutters connected to each other formation of the cutting angle and the tip, in addition, the scrapers are connected to the device body, and the upper scraper is connected with the free end to the attachment unit to the flexible traction body, while the longitudinal axial lines of the attachment unit for the scrapers and the body coincide, and each scraper contains a rod and identical radial knives from the first to the fourth, which are made in the form of an equilateral trapezoid, the sides of which are working and have double-sided sharpening, the radial knives are fixed in pairs, namely: the first, second and third, fourth, with large trapezoid bases at the ends of the rod on its side surface, parallel to its longitudinal center line and at an angle of 90° to the surface, with a turn opposite each other by 180° and symmetrically relative to the longitudinal axis of the rod, while the first pair of radial knives is rotated on the rod at 90° relative to the second pair, in addition, the scraper contains cutters from the first to the fourth, which are plates in the form of equal sections of tape with both edges sharpened inward, which are rigidly fixed at their ends to the smaller bases of the trapezoids of radial knives with the formation of equal cutting and tip angles, while the first cutter connects the smaller bases of the trapezoids of the first and fourth radial knives, the second cutter - the fourth and second, the third cutter - the second and third, the fourth cutter - the third and first radial knives, while the working surface of the cutter plates is equidistant from the cleaned surface of the tubing pipe, and the cutting angles range from 36 to 86°, in addition, the rod of the upper scraper is designed to be connected at one end to the body, and the other end to the attachment unit to the flexible traction element, and the rod of the lower scraper is designed to be connected at one end to the body, and the other end to the fairing, made in the shape of a cone.

Also from the RF patent No. 2569425 for the invention, a device for cleaning the inner surface of a pump-compressor pipe according to the second version is known, including an extended body, which is also a weighting agent, identical upper and lower scrapers, with each scraper containing radial knives and cutters connected to each other with the formation of a cutting angle and an edge, in addition, the scrapers are connected to the body of the device, and the upper scraper is connected with its free end to the attachment unit to the flexible traction body, while the longitudinal axial lines of the attachment unit, scrapers and the body coincide, characterized in that each scraper contains a rod, which is designed to rotate around its own axis, and identical radial knives from the first to the fourth, which are made in the form of an equilateral trapezoid, the sides of which are working and have double-sided sharpening, the radial knives are fixed in pairs, namely: the first, second and third , fourth, with large trapezoid bases at the ends of the rod on its side surface, parallel to its longitudinal center line and at an angle of 90° to the surface, with a 180° turn opposite each other and symmetrically relative to the vertical axis of the rod, with the first pair of radial knives deployed at rod at 90° with respect to the second pair, in addition, the scraper contains cutters from the first to the fourth, which are plates in the form of equal sections of tape with both edges sharpened inward, which are rigidly fixed at their ends on the smaller bases of the trapezoids of the radial knives to form equal cutting angles and points, while the first cutter connects the smaller bases of the trapezoids of the first and fourth radial knives, the second cutter of the fourth and second, the third cutter - of the second and third, the fourth cutter - of the third and first radial knives, while the working surface of the cutter plates is equidistant from the one being cleaned surface of the pump-compressor pipe, and the cutting angles range from 36 to 86°, in addition, the upper scraper rod is designed to be connected at one end to the body, and the other end to the connection unit to the flexible traction body, and the lower scraper rod is designed to connections at one end with the body, and at the other end with a fairing made in the shape of a cone.

From the RF patent No. 2498049 for the invention, a device for cleaning the inner surface of a pump-compressor pipe is known, containing at least two sliding scrapers, connected to each other along the longitudinal axial, connected by the upper scraper to the connection unit to the traction element, and the lower scraper to a weighting agent, with In this case, each scraper contains a body in the form of plates, which are connected to each other with a rotation relative to each other to form a common longitudinal axial, and on both planes of the plates they are fixedly fixed by a pair of hinges at a distance from each other, in addition, the body of the weighting agent is made extended, and on At the lower end of the weighting agent body, a calibration belt is rigidly fixed, the diameter of which exceeds the transverse size of the weighting agent body, while the scraper bodies, the weighting agent body and the attachment unit to the flexible traction body have a common longitudinal axis, while paired hinges are installed on both planes of each body plate on one and on the same side relative to the longitudinal axis of the body, at the same distance from it and at the same distance from each other, in addition, on paired hinges on each plane of the scraper body plate there is fixed a movable plate elongated along the longitudinal axis of the body, which is fixed on the hinges by means of grooves made at its upper and lower ends at equal angles to the longitudinal axis of the pig body, while at the ends of the movable plates facing the inner surface of the pipe being cleaned, cutters are rigidly fixed in the form of a flat frame in the shape of a parallelogram, convex in the direction of the wall of the pipe being cleaned and oriented one from diagonals parallel to the longitudinal axis of the body, the outer side edges of which are working and have double-sided sharpening, and in space the cutters of the upper scrapers overlap the lower ones, while the groove on the movable plate has a length that ensures the initial opening of the scrapers when moving down, exceeding the diameter of the calibration belt of the weighting agent, and when moving upward - ensuring the opening of the pig close to the inner diameter of the pipe being cleaned, in addition, the weighting agent body is made with a through hole along the longitudinal axis, while the calibration belt is made in the shape of a truncated cone with a hole in the center, completely coinciding with the hole in the weighting agent body , and the plate of the lower scraper body is hingedly connected with the free end to the upper end of the weighting agent, without closing the exit of the through hole made in the weighting agent body. The body of the weighting material can be made of a steel pipe with a cross-section of either a circle, an oval, or a polygon. The cutter frame can be oriented parallel to the longitudinal axis of the body with a larger diagonal. The connecting hinge element of the free end of the lower scraper housing plate may have an axial hole that completely coincides with the through axial hole in the weighting agent body, and is connected to the weighting agent body with a threaded connection.

The disadvantage of analogues is the complexity of their design, due to the complex shape of the scrapers, the presence of many structural elements in them, which, in turn, determines their low maintainability and ease of use. In addition, the disadvantage of the prototype (and other analogues) is their ineffectiveness when used in oil wells operating under gas lift conditions, in which oil from the formation is understood as gas energy, since with a sharp increase in the resistance of the working medium (gas-liquid mixture) the downward movement of the scraper is not provided with the necessary washability of cut particles.

The device according to patent No. 2498049 was chosen as a prototype.

The technical problem solved by the proposed invention is the elimination of the disadvantages of analogues.

The technical result achieved by the invention is to increase the efficiency of the device for cleaning the internal surface of the tubing, increase reliability and, accordingly, service life; simplifying the design of the device, increasing its maintainability; expansion of the arsenal of means for cleaning the inner surface of tubing.

The technical result is achieved due to the fact that in a device for cleaning the inner surface of a pump-compressor pipe containing scrapers, the upper scraper is connected to the attachment unit to the traction element, and the lower scraper is connected to a weighting agent, the scrapers contain housings connected to each other along the longitudinal the center line of the device is rotated one relative to the other, the pig cutters are made radially convex in the direction of the wall of the pipe being cleaned, the outer side edges of the cutters are working and are sharpened, according to the invention the body of each scraper is made in the form of a frame with sides symmetrical relative to the longitudinal center line, each side of the frame contains a central vertical section, upper and lower sections inclined to the longitudinal center line, while the corresponding upper and lower sections of the opposite sides of the frame are interconnected to form a correspondingly narrowed upper and lower sections of the frame, cutters are rigidly attached to the opposite central vertical sections of the frame, each cutter is made of a plate having a shape close to a quadrangle, having two pairs of adjacent sides of the same length, with one part of each cutter limited by the first pair of adjacent sides with an angle α between them, and the other part of the cutter is limited by the second pair of adjacent sides with an angle β between them, each cutter is oriented along the longitudinal center line of the device with an angle α up and an angle β down, the value of the angle α is selected from the range (80÷90)°, and the value angle β is selected from the range (30÷40)°, the frames are rotated relative to each other at an angle of 90°, the projections of the envelope cutters of both scrapers form a circle in plan, while the radially convex shape of the cutter plates is formed along an arc with a radius selected taking into account the radius the inner surface of the pump-compressor pipes so that the radially convex surface of the cutter plates is oriented along the inner surface of the pump-compressor pipes, the outer edges of the inclined sections of the frame, facing upward and downward, respectively, are made with double-sided sharpening, the outer edges of the sides of the cutter plates are made with one-sided internal sharpening, in which the outer surface of the cutter plates is made smooth.

The scraper frames can be connected to each other by welding.

The weighting agent can be made in the form of a barbell.

The claimed invention is illustrated by figures.

In fig. 1 shows a front view of the inventive device for cleaning the inner surface of the tubing.

In fig. Figure 2 shows the inventive device for cleaning the inner surface of the tubing in a rotated position.

In fig. 3 shows section A-A.

In fig. 4 shows a section B-B.

Positions on the figures:

1 - scraper;

1.1 - upper scraper;

1.2 - lower scraper;

2 - connection unit to the traction body;

3 - weighting agent (the figures show the connection unit of the lower scraper with the connection unit of the weighting agent);

4 - body (frame) of the scraper;

4.1 - central vertical sections of the sides of the frame;

4.2 - upper inclined sections of the sides of the frame;

4.3 - lower inclined sections of the sides of the frame;

5 - cutter;

5.1 - the first pair of sides of the cutter plate;

5.2 - the second pair of sides of the cutter plate.

The inventive device for cleaning the inner surface of a tubing pipe contains scrapers 1, while the upper scraper 1.1 is connected to the connection unit 2 to the traction element, and the lower scraper 1.2 is connected to the weighting agent 3; scrapers 1 contain housings 4, interconnected along the longitudinal center line of the device with a rotation relative to each other; the cutters 5 of the pigs are made radially convex in the direction of the wall of the pipe being cleaned (not shown in the figures); The outer side edges of the cutters 5 are working and sharpened. The body 4 of each scraper is made in the form of a frame with sides symmetrical relative to the longitudinal center line; each side of the frame contains a central vertical section 4.1, an upper 4.2 and a lower 4.3 sections inclined to the longitudinal center line; in this case, respectively, the upper 4.2 and lower 4.3 sections of the opposite sides of the frame 4 are connected to each other to form a correspondingly narrowed upper and lower sections of the frame 4; cutters 5 are rigidly attached to the opposite central vertical sections 4.1 of the frame; each cutter 5 is made of a plate having a shape close to a quadrangle, having two pairs 5.1 and 5.2 of adjacent sides of the same length; wherein one part of each cutter 5 is limited by the first pair of adjacent sides 5.1 with an angle α between them, and the other part of the cutter is limited by a second pair of adjacent sides 5.2 with an angle β between them; each cutter 5 is oriented along the longitudinal center line of the device with an angle α downwards and an angle β upwards; the value of angle α is selected from the range (80÷90)°, and the value of angle β is selected from the range (30÷40)°; frames 4 are rotated relative to each other at an angle of 90°; the projections of the envelope cutters 5 of both scrapers 1 form a circle in plan; in this case, the radially convex shape of the cutter plates 5 is formed along an arc with a radius selected taking into account the radius of the inner surface of the tubing pipes so that the radially convex surface of the cutter plates 5 is oriented along the inner surface of the tubing pipes; the outer edges of the inclined sections 4.2 and 4.3 of the frame, facing upward and downward, respectively, are made with double-sided sharpening; The outer edges of sides 5.1 and 5.2 of the cutter plates are made with one-sided internal sharpening, in which the outer surface of the cutter plates is made smooth. The scraper frames 4 can be connected to each other by welding. The weighting agent 3 can be made in the form of a rod.

The effective operation of known analogues in gas-lift oil wells was hampered by the presence of complex geometry of the cutters, which significantly complicate the upward movement of parts of sediments cut from the inner surface of the tubing. Parts of the deposits get stuck in the cutters, forming an obstacle to the movement of other parts of the deposits. In addition, since the radial cutters are made in analogues with double-sided sharpening, parts of the deposits fall into the space between the scraper and the inner surface of the tubing, stopping the progress of the analogue devices.

The inventive device is more effective for cleaning oil wells operating using the gas lift method compared to analogues due to the following.

To prevent parts of deposits from getting stuck in the cutters, the authors suggested:

- spread the cutters of the two scrapers along the height of the device along its longitudinal center line, freeing up space inside the scrapers;

- make cutters without cutouts from solid plates;

- exclude the presence of a shaft connecting the scrapers to each other;

- sharpening of radial cutters 5 (plates 5) should be done on one side - only on their inner side, while the side of the cutters 5 (plates 5) facing the inner surface of the tubing remains even and smooth;

- inclined sections 4.2 and 4.3 of the frame sides should be sharpened on both sides;

- rotate the upper and lower scrapers relative to each other by 90° in order to maximally cover the surface of the tubing being cleaned.

The edges of the inclined upper 4.2 and lower 4.3 sections of the sides of the frames 4, sharpened on both sides, are intended to cut through deposits that have clogged the well, to ensure the advancement of the device along the length of the well.

The edges of the inclined sections 5.1 and 5.2 of the sides of the plates 5, sharpened on one side, are intended for cutting off deposits from the inner surface of the tubing. Moreover, since the outer sides of the plates 5 are made smooth, without cutting edges, parts of the deposits removed from the surface of the tubing do not fall between the surface of the tubing and the plates 5.

Making the cutters in the form of plates 5 with a flat surface without cutouts eliminates the possibility of parts of removed deposits getting stuck in the cutters 5. On the contrary, the flat, head surface of the cutters 5 facilitates the sliding of parts of the removed deposits along them, serving as a guide for them.

The absence of a shaft connecting them between the scrapers also provides free space for the movement of remote parts of sediment, preventing them from getting stuck in the scrapers.

It was experimentally established that the value of the angle α must be selected from the range (80÷90)°, and the value of the angle β must be selected from the range (30÷40)°.

This value of the indicated angles, firstly, ensures the necessary speed of advancement of the device along the tubing without stopping it, and, secondly, ensures effective, complete removal of deposits from the inner surface of the tubing.

When the angle α is less than 30°, the device cuts deposits better (since the angle is sharper), but it is necessary to either increase the number of radial knives (cutters 5) to ensure overlap of the tubing diameter, or lengthen the scraper to close the cutting circle. Increasing the number of cutters 5 will lead to the same disadvantages that exist in analogues - possible jamming of parts of the removed deposits between the cutters 5, and will also lead to an increase in cutting resistance to the environment. Elongation of the scraper compared to the length of the scraper at the specified range of angle α is also undesirable, since the total length of the device is strictly limited by the lubricator in which the device is located during the inter-cycle period. The lubricator is attached to the top of the christmas tree, and a winch is attached to the top of the lubricator. Therefore, lengthening the cutters 5 will lead to the need to reduce the length of the weighting material, which, in turn, will lead to a decrease (weakening) of the cutting force when moving down.

At angle values of α greater than 40°, cutter 5 will cut deposits worse than at smaller angles. At angle values of α greater than 40°, the entire device may be locked.

The limitation of angle β to the range from 80 to 90° is due to the same reasons as the choice of angle α. The larger value of the angle β compared to the angle α is due to the fact that the value of the angle α is selected from the condition of moving the device down under the device’s own weight (taking into account the weight of the weighting material), and the choice of the values of the angle β is due to the fact that the edges of the cutter 5, forming the angle β, operate when the device moves upward forcibly through the traction element from the winch.

At values of angle β less than 80°, cutting off deposits will be more effective, but the perimeter of the tubing surface covered by cutters 5 will be reduced, so either additional cutters 5 will need to be installed, or the length of cutters 5 will need to be increased. The consequences of these measures are the same as for angle values α less 30°.

If the angle β is more than 90°, it will lead to a deterioration in the process of cutting deposits and to the device stopping when it is forced to move upward.

Since in the inventive device the space inside the scrapers 1 is as free as possible compared to analogues, the cutters 5 are made smooth, without cutouts or slits, it will be most effective in wells in which oil is extracted using a gas-lift method, which involves supplying cutting zone of a gas-liquid mixture, which increases the rate of removal of parts of sediment from wells. In the inventive device, the movement of parts of sediment removed from the well will not be hampered by the structural elements of the device; on the contrary, the smooth surface of the cutters 5 will facilitate movement along them.

The projections of the enveloping cutters 5 of both scrapers form a circle in plan, i.e. such a circle is formed by superimposing the projection of the envelope of the cutters 5 of the upper scraper onto the projection of the envelope of the cutters 5 of the lower scraper. This design of the cutters 5 allows for maximum coverage by the cutters 5 of the entire perimeter of the inner surface of the tubing that needs to be cleaned.

The device operates as follows.

The device installed at the wellhead moves downwards under its own weight (mainly under the weight of the weighting agent), the edges of sections 4.2 of the sides of the frame cut through the deposits in the middle of the tubing, thus ensuring the downward movement of the device. The edges of the sides 5.1 of the cutters ensure cutting of deposits from the walls of the tubing, while all parts of the cut deposits are directed inside the pigs and removed from the tubing by the flow of the gas-liquid mixture.

The device is forced upward by means of a winch driven by an electric motor with a power of 0.37 to 0.75 kW, while when moving upward, the edges of sections 4.1 of the sides of the frame “work”, cutting through deposits in the middle of the tubing, and the edges of the sides 5.2 of the cutters ensure cutting of deposits from tubing walls.

It should be borne in mind that when the device moves downwards, the most important from a functional point of view and the most loaded will be the lower inclined sections 4.3 of the frame of the lower scraper and the cutting edges of the sides 5.1 of the scraper cutters.

When the device moves upward, the most important from a functional point of view and the most loaded will be the upper inclined sections 4.2 of the scraper frame and the cutting edges of the sides 5.1 of the scraper cutters.

Since the arc radius of the plates 5 is selected based on the internal diameter of the tubing, the envelope of the cutters 5 of each scraper forms a circle (as close as possible in value to the internal diameter of the tubing), and the angle β is selected based on the maximum possible overlap of the perimeter of the tubing by each cutter 5, the most effective removal of deposits is ensured from the walls of the tubing, while effective, unhindered removal of the removed parts of the deposits by the flow of the gas-liquid mixture takes place.

The design of the inventive device ensures not only its efficient operation, but at the same time it is simple (since a minimum number of structural elements is used compared to analogues, the shape of structural elements, in particular, cutters 5, is also simpler compared to analogues) and more maintainable.

During the tests, the claimed device showed its effectiveness in cleaning the inner surface of the tubing from paraffin deposits (asphalt, resin, paraffin deposits).

Cleaning was carried out without the threat of kick-ups and the creation of emergency situations due to the unimpeded removal of parts of sediment from the tubing.

Clogging of the tubing with paraffin was eliminated and the current well flow rate was maintained at the operating gas lift gas flow rate of 21,000 m ³ /day.

The inventive device has shown its effectiveness in the presence of a stable fluid supply from the well of at least 15-20 m ³ /day.

The use of the proposed device makes it possible to reduce oil losses from dewaxing in the amount of 20 tons/month, as well as reduce costs associated with the delivery of fresh water, diesel fuel to the facility and the use of human resources.

The effectiveness of the inventive device is also due to the fact that the contact area of the cutters 5 with deposits in the inventive device is larger than that of known analogues; accordingly, the inventive device cuts and removes deposits more effectively compared to analogues.

The reliability of the proposed device is also higher than that of analogues due to the shape of the cutters 5 - in the form of a continuous curved plate, less susceptible to deformation and damage than cutters of more complex shapes (for example, with cutouts), like analogues. Accordingly, the service life of the proposed device is longer than that of analogues.

The inventive device expands the arsenal of means for cleaning the internal surface of tubing and can be used to achieve its intended purpose.

Thus, the claimed invention ensures the achievement of a technical result consisting in increasing the efficiency of the device for cleaning the internal surface of the tubing; increasing reliability and service life; simplifying the design of the device, increasing its maintainability; expanding the arsenal of means for cleaning the inner surface of tubing.

Claims (3)

1. A device for cleaning the inner surface of a pump-compressor pipe, containing scrapers, wherein the upper scraper is connected to the attachment unit to the traction element, and the lower scraper is connected to a weighting agent, the scrapers contain housings connected to each other along the longitudinal center line of the device with a rotation of one relative to another, the pig cutters are made radially convex in the direction of the wall of the pipe being cleaned, the outer side edges of the cutters are working and have sharpening, characterized in that the body of each scraper is made in the form of a frame with sides symmetrical relative to the longitudinal axial line, each side of the frame contains a central vertical section , upper and lower sections inclined to the longitudinal axial line, while, respectively, the upper and lower sections of the opposite sides of the frame are connected to each other to form a correspondingly narrowed upper and lower sections of the frame, cutters are rigidly attached to the opposite central vertical sections of the frame, each cutter is made of plate having a shape similar to a quadrilateral having two pairs of adjacent sides of equal length, with one part of each cutter limited by the first pair of adjacent sides with an angle α between them, and the other part of the cutter limited by a second pair of adjacent sides with an angle β between them, each the cutter is oriented along the longitudinal center line of the device with angle α upward and angle β downward, the value of angle α is selected from the range of 80–90°, and the value of angle β is selected from the range of 30–40°, the frames are rotated relative to each other at an angle of 90°, projections of the envelopes The cutters of both scrapers form a circle in plan, while the radially convex shape of the cutter plates is formed along an arc with a radius selected taking into account the radius of the inner surface of the tubing pipes so that the radially convex surface of the cutter plates is oriented along the inner surface of the tubing pipes , the outer edges of the inclined sections of the frame, facing upward and downward, respectively, are made with double-sided sharpening, the outer edges of the sides of the cutter plates are made with one-sided internal sharpening, in which the outer surface of the cutter plates is made smooth. 2. The device according to claim 1, characterized in that the frames of the scrapers are connected to each other by welding. 3. The device according to claim 1, characterized in that the weighting agent is made in the form of a rod.