RU15908U1 - SCRAPER FOR CLEANING PUMP-COMPRESSOR PIPES FROM ASPHALT-RESIN-PARAFFINIAN DEPOSITS (OPTIONS) - Google Patents

Abstract

(19) Russian Federation

(54) SCRAPER FOR CLEANING PUMP-COMPRESSOR PIPES FROM ASPHALT-RESIN-PARAFFINIAN DEPOSITS (ASPO) GUARIETS (57) Purpose: to increase the efficiency of pipe cleaning (T) from ASPO, to increase the operational reliability of the scraper (C) by providing cleaning around the perimeter T when moving both down and up, a reliable removal of paraffin by the liquid, elimination of hooks and shocks, the formation of plugs in the well, tossing C and breaking of the scraper wire, while simplifying the design. Essence: C contains a housing (K) 1, which according to the first embodiment is made integral of at least two rods 8 and 9; according to the second embodiment, K1 is made integral of the bushings And mounted on the cable 12; according to the third embodiment, K1 is made in the form of a rod. On the outer surface K1 uniformly around the perimeter and with an offset along the axis K 1 are rigidly fixed cleaning elements (OE) 2, consisting of a plate 3 with double-edged edges 4, and a cutting element (RE) 5, made in the form of a convex plate in the form of a rhombus with cutting edges. RE5 is oriented with a convex surface towards the cleaned T6, and the direction of the large diagonal of the rhombus coincides with the direction of the K1 axis. Edges of RE5 have one-sided sharpening in the direction of the concave inner surface of RE5, The distance between OE2 is made exceeding the inner diameter of the pipe being cleaned. On K1, double-edged plates 17 are additionally installed. 3 n. and 3 zpp-fs. 5 ill.

abstract

Description

SCRAPER FOR CLEANING PUMP-COMPRESSOR PIPES FROM ASPHALBTO-RESIN-PARAFRISHED DEPOSITS

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The utility model relates to the oil and gas industry, in particular, to devices for cleaning the inner surface of tubing (tubing) from asphalt-resin-paraffin deposits (AFS) in wells equipped with electric centrifugal pumps and flowing, followed by the removal of AFS by the fluid flow from the well.

Currently known scrapers for cleaning tubing from paraffin in wells are divided into three types:

-flying;

- spiral, screw;

- lamellar.

The use of flying scrapers has great limitations. When using them, careful tubing rejection is required in order to prevent jamming, squashing of scrapers in the tubing. Attempts to use a flying scraper in wells with high flow rates by increasing the weight of the scraper led to its rapid failure. At low flow rates, the scraper stuck in the tubing in the zone of intense paraffin deposition.

The work of a significant variety of spiral-shaped scrapers is based on the rotational movement of the cutting elements fixed at a certain angle on the body.

IPC E 21 in 37/02

However, the extremely insufficient speed of rotation of the cutting elements, determined by the low inertial moment of the scraper during its movement, leads to poor quality pipe cleaning. In addition, in the intervals of intensive deposition of paraffin in the tubing, a complete stop of the scraper is possible; punching of such intervals by raising the scraper and sharply lowering it does not give an effect; flow channels clogged with paraffin; difficult to raise the scraper; the likelihood of a scraper tossing increases significantly, as a result of entanglement of the scraper wire and its possible breakage.

Plate scrapers of various modifications are widely used in the fields. The effectiveness of cutting paraffin from the inner surface of the tubing is determined in such scrapers by the shape of the cutting elements, their location, the angle of sharpening of the cutting edges.

A plate-type scraper is known, the cutting elements of which are made in the form of sliding knives (see AS USSR. No. 89132, class E21B 37/02, from 1950). When the scraper moves downward, the cutting elements are shifted to the axis of the scraper, thereby reducing to 30% and changing to the circumference of the AFS cut configuration. When lifting the scraper, the sliding knives are shifted to the tubing wall, forming the geometry of the cross section in the form of an ellipse, while the main process of cutting paraffin occurs. And since the cutting part of the scraper works on the principle of a bulldozer and the design of the scraper is not rigid, the removal of cut paraffin is extremely unstable and difficult, especially when the scraper rises above the speed of the liquid and the paraffin wax upward, for this reason it accumulates in the scraper cavity until it completely overlaps its section. With increasing pressure under the scraper, it is thrown up with the subsequent formation of a cork consisting of paraffin and an entangled scraper wire. For

elimination of the resulting plugs requires killing the well, which requires additional material and labor.

The closest in technical essence to the claimed plate-type scraper is a scraper, including a casing, a cleaning element and a weight connected to the casing fixed to a flexible traction body - a scraper wire. The cleaning elements consist of sliding cutting elements and cutting knives fixed rigidly on the weight, which are mounted successively relative to each other and offset in the diametrical plane, and the diameter of the knives decreases from the lower end of the weight (see USSR AS No. 1 102 899, cl E21B 37/02 / from 1982). When the scraper moves down, the paraffin is cut with knives, and when the scraper goes up, the paraffin is cut by sliding cutting elements.

A disadvantage of the known scraper is that when the scraper moves down, it can hang on solid deposits, since the design of the knives on the weight does not provide for a continuous (around the entire perimeter of the pipe being cleaned) cutting of the paraffin deposit, but only its loosening at first by the lower row of knives, and then by the upper row knives, while only the lower knives work at full load.

Such loosening of deposits does not preclude the jamming of the sliding cutting elements during the upward movement of the scraper. It is also possible that the scraper gets stuck due to the deviation of the lubricator of the fountain fittings. As a result - low operational reliability of the scraper and low efficiency of pipe cleaning from ASPO. Moreover, such a scraper has all the disadvantages of sliding cutting elements: a high probability of clogging of the cutting elements with paraffin.

the likelihood of paraffin plugs, scraper toppings leading to the breakage of the scraper wire. In addition, the known device has a complex structure.

The purpose of the proposed utility model is to increase the efficiency of pipe cleaning from ASPO, to increase the operational reliability of the scraper by ensuring cleaning along the entire perimeter of the pipe when the scraper moves both up and down, reliable removal of ASPO by the liquid, eliminating the formation of plugs in the well, tossing of the scraper and breaking of the scraper wires, elimination of hooks and impacts of the cleaning elements in the fountain fittings when the lubricator of the fountain fittings deviates from the vertical more than 30-1 °, while simultaneously hardening the structure.

This goal is achieved by the fact that in the known scraper, including the housing fixed to the scraper wire, the cleaning elements and a weight connected to the housing, the new one according to the first embodiment is that the housing is made up of at least two rods connected pivotally, the cleaning elements are installed uniformly along the perimeter of the casing and offset along the axis of the casing relative to each other and rigidly fixed to it.

According to the second variant, the housing is made of composite bushings mounted on the cable with the possibility of their radial movement together with the cable, the cleaning elements are installed uniformly around the perimeter of the housing and offset along the axis of the housing relative to each other and rigidly fixed to it.

According to the third embodiment, the casing is made in the form of a rod, on which the cleaning elements are rigidly fixed to the casing, uniformly around the perimeter of the casing and offset along the casing axis relative to each other.

The distance between the cleaning elements on the body is greater than the inner diameter of the pipe being cleaned, each cleaning element consists of a plate with double-edged edges oriented along the axis of the body, and a cutting element rigidly attached to the end of the plate and parallel to the axis of the body, the cutting element is made in the form of a convex plate having the shape of a rhombus, the sides of which are self-sharpening cutting edges, while the cutting element is oriented by a convex surface towards the pipe being cleaned, and the direction of the large diagonal of the rhombus coincides with the direction of the axis of the body, the sharpening of the cutting edges of the cutting element is made one-sided, in the direction of the concave inner surface of the cutting element.

To exclude hooks and impacts of the cleaning elements in the fountain fixtures, which have a wedge gate valve as a locking element, and the lubricator is installed with a deviation from the vertical of more than 30-1 °, on the case additionally opposite each cleaning element in the same plane with double-edged plates, as well as above and under extreme cleaning elements

double-edged plates, while the distance between these plates on the body is made larger than the inner diameter of the pipe being cleaned.

the location relative to each other on the body, the optimal shape and size of the blade cutting elements, the angle of sharpening of the cutting edges, the polished surface of the body and cutting elements.

Due to the fact that the body of the scraper is made up of at least two parts (rods), the scraper passes freely through the lubricator of the fountain armature in case the lubricator deviates from the vertical, thereby excluding hooks and impacts of the cutting elements and their deformation. The same technical problem is solved by the design of the scraper, in which the housing is made of composite bushings mounted on a cable with the possibility of their radial movement together with the cable.

Thanks to the proposed arrangement of the cutting elements on the body and their optimal amount, the AFS is cut off along the entire perimeter of the pipe being cleaned, because there is no gap around the perimeter between the cutting edges of the cutting elements, which ensures high quality cleaning. Moreover, the proposed distance between adjacent treatment elements is due to the fact that when the scraper moves in the well, the cut-off strip of the ARPD has time to become crushed when it enters the double-edged plate and thereby exclude clogging of the scraper cavity.

Due to the fact that the cleaning element is proposed to be made up of a plate with double-edged edges and a cutting element made in the form of a plate in the form of a rhombus, oriented along a large diagonal along the body, and also due to the optimal angle of sharpening of the cutting edges, a significant reduction in the effort to cut the AFS is achieved. successive planing of the tubing wall with each cutting element of paraffin deposits in the form

tapes around the perimeter with the subsequent hit of these deposits on a double-edged plate at the edges. As a result, there is an additional cutting of each such tape into two parts, both when the scraper moves down and up, which contributes to the further destruction of the ARPD into smaller fractions. Therefore, the removal of smaller fractions of ARPD with liquid to the surface becomes more stable.

Due to the small frontal cross-section of the scraper cleaning elements, as well as due to the polished surface of the housing and cutting inserts, the possibility of loading the cut-off paraffin deposits and their subsequent accumulation in the scraper cavity is excluded. As a result, the formation of traffic jams from paraffin deposits, tossing of the scraper, twisting of the scraper wire and its breakage are excluded.

The proposed shape, geometry and location of the cutting elements on the housing excludes their impacts and hooks in the coupling joints 1ZhT and fountain fittings.

Due to the fact that the scraper has a constant cross-section and the radius of the convex plate of the cutting element is made larger than the radius of the pipe being cleaned, high-quality cleaning of the pipe is ensured both when moving down and when lifting the scraper.

Due to the fact that additionally opposite each cleaning element in the same plane as double-edged plates, as well as above and below the extreme cleaning elements, metal double-edged plates are rigidly fixed, while the distance between these plates on the body is made larger than the inner diameter of the pipe being cleaned, hooks and impacts of treatment elements in fountain fittings having as

the locking element is a wedge gate valve, and the lubricator is installed with a deviation from the vertical.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows the inventive scraper according to the first embodiment; in FIG. 2 - the second version of the scraper, in FIG. 3 - the third version of the scraper, in FIG. 4 is a view A in FIG. 1; Fig. 5 is a cutting element.

The scraper comprises a housing 1, on the outer surface of which uniformly around the perimeter and with an offset along the axis of the housing 1 relative to each other, the cleaning elements 2 are rigidly fixed (for example by welding). Each cleaning element 2 consists of a plate 3 with double-edged edges 4 oriented along the axis of the housing 1, and the cutting element 5, rigidly attached to the end face of the plate 3 (for example, by argon arc welding) and located parallel to the axis of the housing 1. The cutting element 5 is made in the form of a convex plate with a radius greater than the radius of the cleaned pipe s 6 and having the shape of a rhombus whose sides are the cutting edge 7 (FIG. 5). The cutting element 5 is oriented with a convex surface towards the pipe to be cleaned 6, and the direction of the large diagonal of the rhombus coincides with the direction of the axis of the housing 1. The cutting edges 7 of the element 5 have one-sided sharpening in the direction of the concave inner surface of the cutting element 5. The distance between the cleaning elements 2 on the housing 1 is made exceeding the inner diameter of the pipe being cleaned 6.

At least six cleaning elements 2 are attached to the housing 1. The surfaces of the housing 1 and the cutting elements 5 are polished, and the cutting edges 7 of the cutting elements 5 are self-sharpening.

The body 1 of the scraper is made integral of at least two rods 8 and 9 connected by a hinge 10 (Fig. 1). The housing 1 is made integral of the bushings And mounted on the cable 12 with the possibility of their radial movement along with the cable (Fig. 2). The housing is made in the form of a solid rod (Fig. 3).

A weight 13 is fixed under the housing 1, having in the upper part the shape of a truncated cone 14; the weight of the weight is determined by the force required to cut the AFS 15 with a scraper while moving it down. In the tubing, the scraper is lowered on the scraper wire 16.

In the case when the shutoff element is made in the form of a wedge gate valve and the lubricator is installed with a deviation of more than 30-1 °, on the case 1 additionally opposite each cleaning element 2 in the same plane as double-edged plates 3, as well as above and below the extreme cleaning elements 2, metal double-edged plates 17 are rigidly fixed, while the distance between these plates on the body is greater than the inner diameter of the pipe being cleaned, and as a result, the total height between the upper edge of the specified plate 17 and the lower rhombus angle of the cutting element 5 is made to exceed the height of the niche to accommodate the wedge of the valve when it is fully open.

When a scraper encounters paraffin deposition (AFS 15), it scrapes it along the outer perimeter of the cutting elements 5 in the form of six equal strips, each of which, in turn, with sharp edges 4 of the plates 3 and plates 17 is cut along two further parts. The scraper due to the weight of the weight 13 goes down, and the paraffin cut off and broken into small fractions is carried upward by the fluid flow.

cut paraffin, with the performance of the ESP (well flow rate) the scraper in the lower position is given a shutter speed of 10-15 minutes and then a signal is sent to raise the scraper. Essentially, the scraper in this case will go through the cleaned pipes 6, and the scraper wire 16 will experience the load created only by the weight of the weight 13 of the scraper and the wire 16. In this situation, the possibility of tightening the scraper, the formation of plugs and tosses of the scraper is excluded.

Depending on the nature of the well’s work, the volume of paraffin deposits, their physical and chemical properties, the intensity of their fallout, water cut, compliance with the established operating regime of the well and the schedule for cleaning the tubing from paraffin, it is possible to hold the scraper in the lower position for a longer time (up to several hours) , which will increase the inter-treatment period. In this case, when the scraper is raised, it will plan out the deposited paraffin from the tubing walls, which, depending on the speeds of the fluid and the scraper, will be carried out by the fluid flow, ahead of the scraper, or if the speed of the fluid is less than the speed of the scraper upward, the cut AFS will fall through a scraper in the tubing and for this reason late to be removed from the well. Due to the rather small frontal cross-section (about 5 cm) and the design of the scraper, it is unlikely that it can be blocked with paraffin. In order to prevent the weight from being rubbed by 13 fractions of paraffin when lifting its scraper (weight), the upper part should be truncated by cone 14 to a length of 150-150 mm.

Upon completion of the scraper lift, the well (pump) should continue to work for about two hours so that the cut paraffin fractions are removed from the tubing 6 to the oil pipeline.

The design of the proposed scraper is simple and reliable. During its operation, the formation of plugs in the well, both during the descent of the scraper and during the ascent, tossing up the scraper and breaking of the scraper wire, are completely eliminated. Excluded engagement of the cutting elements in the fountain. Due to the use of the proposed device increases the inter-cleaning period for the removal of paraffin from the tubing. Head sector of patent licensing work of PermNIPIneft OJSC on March 15, 2000 T.A. Yushkina

Claims (6)

1. A scraper for cleaning tubing from asphalt-resin-paraffin deposits, comprising a housing fixed to the scraper wire, cleaning elements and a weight connected to the housing, characterized in that the housing is made of at least two rods connected articulated, the elements are installed uniformly around the perimeter of the casing and offset along the axis of the casing relative to each other and rigidly fixed to it, the distance between the cleaning elements on the casing is made exceeding the inner diameter of the cleaning pipe, each cleaning element consists of a plate with double-edged edges oriented along the axis of the housing, and a cutting element rigidly attached to the end of the plate and located parallel to the axis of the housing, the cutting element is made in the form of a convex plate having the shape of a rhombus, the sides of which are self-sharpening cutting edges, while the cutting element is oriented with a convex surface towards the pipe to be cleaned, and the direction of the large diagonal of the rhombus coincides with the direction of the axis of the body, sharpening the cutting edges ok the cutting element is made one-sided, in the direction of the concave inner surface of the cutting element.  2. The scraper according to claim 1, characterized in that on the case, in addition to each cleaning element, in the same plane with the double-edged plates, as well as above and below the extreme cleaning elements, metal double-edged plates are rigidly fixed, while the distance between these plates on the body is made greater than inner diameter of the pipe being cleaned.  3. A scraper for cleaning tubing from asphalt-resin-paraffin deposits, including a housing fixed to the scraper wire, cleaning elements and a weight connected to the housing, characterized in that the housing is made up of bushings mounted on a cable with the possibility of their radial movement together with the cable, the cleaning elements are installed uniformly around the perimeter of the housing and offset along the axis of the housing relative to each other and rigidly fixed to it, the distance between the cleaning elements on the housing is made exceeding the inner diameter of the pipe being cleaned, each cleaning element consists of a plate with double-edged edges oriented along the axis of the body, and a cutting element rigidly attached to the end of the plate and parallel to the axis of the body, the cutting element is made in the form of a convex plate having the shape of a rhombus, the sides of which are self-sharpening cutting edges, while the cutting element is oriented with a convex surface towards the pipe being cleaned, and the direction of the large diagonal of the rhombus coincides with the direction iem housing axis, sharpening the cutting edges of the cutting element is formed one-sided toward the concave inner face of the cutting element.  4. The scraper according to claim 3, characterized in that on the case additionally opposite each cleaning element in the same plane as the double-edged plates, as well as above and below the extreme cleaning elements, metal double-edged plates are rigidly fixed, while the distance between these plates on the body is made greater than inner diameter of the pipe being cleaned.  5. A scraper for cleaning tubing from asphalt-resin-paraffin deposits, including a casing fixed to the scraper wire, cleaning elements and a weight connected to the casing, characterized in that the casing is made in the form of a rod on which uniformly around the perimeter of the casing and by displacement along the axis of the housing relative to each other, the cleaning elements are rigidly fixed, the distance between the cleaning elements on the body is greater than the inner diameter of the pipe being cleaned, each cleaning element consists of a plate with with sharp edges oriented along the axis of the body and the cutting element rigidly attached to the end face of the plate and parallel to the axis of the body, the cutting element is made in the form of a convex plate having a diamond shape, the sides of which are self-sharpening cutting edges, while the cutting element is oriented by a convex surface in side of the pipe being cleaned, and the direction of the large diagonal of the rhombus coincides with the direction of the axis of the body, the sharpening of the cutting edges of the cutting element is made one-sided, in the direction concave inner surface of the cutting element. 6. The scraper according to claim 5, characterized in that on the housing additionally opposite each cleaning element in the same plane as the double-edged plates, as well as above and below the extreme cleaning elements, metal double-edged plates are rigidly fixed, while the distance between these plates on the body is made greater than inner diameter of the pipe being cleaned.