RU2811164C1 - Gap filter - Google Patents

Abstract

FIELD: mining and oil-extracting industries.

SUBSTANCE: used to protect installations of submersible pumps when pumping well fluids with a high content of mechanical impurities. The device includes a pipe with upper and lower fixed stops attached to the ends. On the surface of the pipe there are guide grooves and a filter section with perforations in the form of holes and fixed stiffeners in the annular space between the pipe and the filter element. A filter element with an adjustable slot size and a movable stop, on which an elastic element is fixed in contact with the inner surface of the casing, are installed coaxially to the pipe. A composite upper fixed stop made of a sleeve and a union nut is coaxially located inside the movable stop. The return spring rests on the upper fixed stop and the movable stop cover, which has elements included in the guide grooves of the pipe. The upper movable stop and the lower fixed stop are made with conical surfaces facing towards each other, on which rests a filter element consisting of ring springs with vertical longitudinal rods attached to them, having supporting surfaces at the ends.

EFFECT: effective operation of the filter in downhole conditions, its uniform self-cleaning and restoration of the permeability of the filter element in downhole conditions without tripping operations.

1 cl, 5 dwg

Description

The invention relates to the mining and oil-extracting industries and can be used to protect installations of submersible pumps when pumping well fluids with a high content of mechanical impurities.

A well-known slotted self-cleaning filter [patent RU No. 2715774 C1, IPC E21B 43/08, publ. 10.23.2019], which contains a pipe with perforations in the form of holes and a filter element installed concentrically to the pipe, equipped with end rings at the ends. The filter element is made of longitudinal rods, fixed with the formation of gaps between them in the end rings, and transverse fastening strips that form a gap between the outer surface of the pipe and the filter element. The filter is equipped with a device for cleaning from mechanical impurities, made in the form of a movable ring placed on the filter element. An elastic element is fixed along the periphery of the movable ring, resting on the production string and having through holes, channels or cavities. On the inside of the movable ring there are support and cleaning agents. Filter cleaning is carried out due to the movement of the cleaning ring relative to the filter element as a result of a change in the length of the tubing string during their deformation that occurs when the pressure in the tubing changes, for example, when a valve at the wellhead is partially closed. The known device achieves an increase in the efficiency of the slot filter in the well due to the possibility of cleaning it in the well without expensive hoisting operations and, as a consequence, an increase in the time between failures of the well pumping unit.

The disadvantages of the known device include the inability to control the exact position and movement of the cleaning ring and, therefore, the inability to ensure uniform and guaranteed complete cleaning of the filter; the risk of misalignment of the cleaning ring, since it does not have centering elements that ensure the alignment of the ring and the filter element during operation, and, as a consequence, the risk of deformation of the filter element, violation of its integrity and filter failure.

The closest device for the same purpose to the claimed invention in terms of the combination of features is a slotted self-cleaning filter [patent RU No. 2709580 C1, IPC E21B 43/08, publ. 12/18/2019], containing a pipe having a filter section with perforations in the form of holes and grooves for moving a movable double-sided stop. A filter element made in the form of a spirally wound wire is installed concentrically around the pipe, with gaps formed between the turns. The size of the slots is adjusted by means of a spring, the force of which exceeds the elastic deformation of the filter element wire. Upper and lower fixed stops are mounted at the ends of the pipe, and stiffening ribs are installed on the outer surface of the filter section. The filter is additionally equipped with an elastic element with through holes, channels or cavities, which is mounted on a movable double-sided stop. The filter element is placed between the movable double-sided and the upper fixed stops with the end turns of wire rigidly attached to them. The spring is located between the double-sided and lower fixed stops. Filter cleaning is carried out by changing the size of the slots when the filter element is stretched due to the movement of a double-sided movable stop when the tubing string is deformed. The known device achieves increased ease of maintenance and operational efficiency of a slotted filter in a well by reducing the time for cleaning it and, as a consequence, increasing the time between failures of a well pumping unit. This device is accepted as a prototype.

The features of the prototype, which coincide with the features of the claimed device, are: the presence of a pipe with upper and lower fixed stops fixed at the ends; on the surface of the pipe there are guide grooves and a filter section with perforations in the form of holes and fixed stiffeners; A filter element with an adjustable slot size and a movable stop on which an elastic element is fixed in contact with the inner surface of the casing are installed coaxially to the pipe.

The disadvantages of the known device, adopted as a prototype, include the following. Uneven cleaning of the filter element, since it is made in the form of a spiral spring and, therefore, has low rigidity, which makes it impossible to simultaneously change the size of the slots by the same amount. The low rigidity of the filter element determines its deformation during operation, causes changes in the size of the cracks and deterioration in the efficiency of liquid purification.

The objectives to be solved by the present invention are: ensuring efficient operation of the filter in downhole conditions with the separation of particles of a given size from the flow of pumped liquid, ensuring uniform self-cleaning and restoring the permeability of the filter element in downhole conditions without performing expensive tripping operations.

The problem was solved due to the fact that in the known slot filter containing a pipe with upper and lower fixed stops fixed at the ends, guide grooves and a filter section with perforations in the form of holes and fixed stiffeners are made on the surface of the pipe, installed coaxially to the pipe a filter element with an adjustable slot size and a movable stop on which an elastic element is fixed, in contact with the inner surface of the casing, according to the invention, the upper fixed stop is made composite, consisting of a sleeve and a union nut, and is coaxially located inside the movable stop, the movable stop is equipped with a cover, having elements included in the guide grooves of the pipe, a return spring is located between the upper fixed stop and the cover of the movable stop, while the movable stop and the lower fixed stop are made with conical surfaces facing towards each other, the filter element is located concentrically to the lower fixed stop and the movable stop and consists of ring springs with vertical longitudinal rods attached to them, having supporting surfaces at the ends; transverse stiffeners are attached to the outer surface of the pipe, located in the annular space between the pipe and the filter element.

Features of the proposed technical solution that are distinctive from the prototype - the upper fixed stop is made of a composite, consisting of a sleeve and a union nut, and is coaxially located inside the movable stop; the movable stop is equipped with a cover having elements included in the guide grooves of the pipe; a return spring is located between the upper fixed stop and the cover of the movable stop; the movable stop and the lower fixed stop are made with conical surfaces facing each other; the filter element is located concentrically with the lower fixed stop and the movable stop and consists of ring springs with vertical longitudinal rods attached to them, having supporting surfaces at the ends; On the outer surface of the pipe, transverse stiffeners are fixed, located in the annular space between the pipe and the filter element.

Making the upper fixed stop a composite of a bushing and a union nut allows you to set the initial position of the movable stop, thereby ensuring adjustment of the size of the filter element slots.

The return spring ensures that the movable stop moves to the initial position after self-cleaning of the filter, as well as fixes it in a given position.

The cover with elements inserted into the guide grooves of the pipe ensures the transfer of force from the return spring to the movable stop, and also prevents its rotation relative to the pipe.

Due to the fact that the movable stop and the lower fixed stop have conical surfaces, and the vertical longitudinal rods of the filter element have oblique ends with which they rest on these surfaces, centering of the filter element and movement of the rods in the radial direction is ensured, and, accordingly, a uniform change in size cracks.

The ring springs of the filter element, on which its vertical longitudinal rods are fixed, ensure constant close contact of the supporting surfaces of the rods with the conical surfaces of the movable and lower fixed stops, as well as radial movement of the rods during the process of self-cleaning of the filter.

The essence of the proposed device is illustrated by the drawings shown in Fig. 1-5.

In fig. Figure 1 shows a drawing of the inventive device in the embodiment of a well filter when cleaning well fluid.

In fig. Figure 2 shows a drawing of the inventive device in the embodiment of a well filter when performing regeneration of the filter element.

In fig. Figure 3 shows a drawing of the inventive device in the embodiment of the inlet filter of a well pumping unit when cleaning well fluid.

In fig. Figure 4 shows a drawing of the inventive device in the embodiment of the inlet filter of a well pumping unit when performing regeneration of the filter element.

In fig. Figure 5 shows one of the possible types of annular spring.

The slot filter consists of a pipe 1 with guide grooves 2 and a filter section with perforations in the form of holes 3 (Fig. 1 and 2). In versions of the filter, a plug 4 or bearing units 5 (Figs. 3 and 4) can be mounted in pipe 1, through which shaft 6 passes. Also on pipe 1 are fixed the lower fixed stop 7 and the sleeve 8 of the upper fixed stop 9, for example, with using screws 10 and 11, respectively, as well as transverse stiffeners 12, secured, for example, by welding. The lower fixed stop 7 has a conical surface 13. The union nut 15 of the upper fixed stop 9 is screwed onto the sleeve 8 using a thread 14. Screwing and unscrewing the union nut 15 can be carried out, for example, through technological holes 16 with a crowbar or a special wrench. The return spring 17 rests on the union nut 15 with one end, which with its second end rests against the cover 18 of the movable stop 19. The cover 18 has 2 elements included in the guide grooves, made, for example, in the form of screws 20. In addition, the cover 18 is pulled to the movable stop 19, for example, using screws 21, with an elastic element 22 fixed between them, in contact with the inner surface of the casing pipe 23. The movable stop 19, like the lower fixed stop 7, has a conical surface 24. Concentric to the stops 7 and 19 there is a filter element 25 consisting of ring springs 26, to which vertical longitudinal rods 28 are attached at points 27 (Fig. 5) with the formation of gaps 29 between them, for example, by spot welding. The rods 28 have supporting surfaces 30 at their ends.

The slot filter works as follows. By means of a pipe 1 with guide grooves 2 having a filter section with perforations in the form of holes 3, the slot filter in the embodiments is suspended with one end of the pipe 1 on the tubing string, while a plug 4 is installed at the second end, or is mounted as an inlet filter with the ends connected pipe 1 to the connecting pipe of the submersible equipment and installation of bearing units 5 in it, into which a shaft 6 is installed, connected at its ends, for example, using couplings to the shafts of the submersible equipment (not shown in Fig. 1–5). On the pipe 1, the lower fixed stop 7 and the sleeve 8 of the upper fixed stop 9 are rigidly fixed, for example, with screws 10 and 11, as well as transverse stiffeners 12, for example, by welding, while the lower fixed stop 7 has a conical surface 13. On the sleeve 8 The upper fixed stop 9, using a thread 14, screws on a union nut 15, which has technological holes 16 for its screwing and screwing. By screwing and unscrewing the cap hook 15, through the return spring 17 resting on it, axial movement of the cover 18 and, accordingly, the movable stop 19 connected to it is carried out. The rotation of the movable stop 19 is prevented by the elements of the cover 18, for example, in the form of screws 20, included in the guide grooves 2. When the tubing string moves or is deformed as a result of changes in pressure inside them, the filter moves, however, due to the presence of an elastic element 22 attached through the cover 18 to the movable stop 19, for example, with screws 21, in contact with the surface of the casing pipe 23 , braking is ensured, and, consequently, movement of the movable stop 19 relative to the rest of the filter in the axial direction and deformation of the spring 17. Due to the fact that the lower fixed stop 7 and the movable stop 19 have conical surfaces 13 and 24, when they approach, coaxial deformation occurs located filter element 25, due to the tension of the ring springs 26 in the radial direction. Since longitudinal vertical rods 28 are fixed to the ring springs 26 at points 27, when it deforms, they move in the radial direction, and, accordingly, the size of the slots 29 increases. Throughout the entire movement interval, uniform movement of the rods 28 from each other is ensured, increasing the size of the slots 29, and centering the filter element 25 due to the fact that the rods 28 have supporting surfaces 30. After cleaning the filter element 25, thanks to the elastic energy of the springs 17 and 26, the movable stop 19 moves in the axial direction and the rods 28 in the radial direction, thereby the rods 28 return to their original position, the filter element is ready for use.

Claims (1)

A slot filter containing a pipe with upper and lower fixed stops fixed at the ends and guide grooves made on its outer surface and a filter section with perforations in the form of holes; a filter element with an adjustable slot size and a movable stop on which an elastic element is fixed are installed coaxially to the pipe, in contact with the inner surface of the casing, while transverse stiffeners are fixed on the outer surface of the pipe, located in the annular space between the pipe and the filter element, characterized in that the upper fixed stop is made composite, consisting of a sleeve and a union nut, and is coaxially located inside the movable stop, the movable stop is equipped with a cover having elements included in the guide grooves of the pipe, a return spring is located between the upper fixed stop and the cover of the movable stop, while the movable stop and the lower fixed stop are made with conical surfaces facing towards each other, the filter element is located concentrically with the lower fixed stop stop and movable stop and consists of ring springs with vertical longitudinal rods fixed to them, having supporting surfaces at the ends.