RU153415U1 - FILTER OF INSERT BARBED DEPTH PUMP - Google Patents

Abstract

A plug-in sucker-rod suction pump filter containing a perforated pipe with an annular groove on the upper inner surface, plugged at the bottom with a plug, and inside the perforated pipe there is a cylindrical nozzle resting on the end face of the annular groove of the perforated pipe and connected by an internal thread to the plug, while on the bottom of the cylindrical the nozzles are made conical grooves with their tops up, and the upper part of the cylindrical nozzle is made in the form of a pipe with offset relative to the other each other with transverse through-cuts, characterized in that on the perforated pipe from the outer surface opposite the holes there are ring grooves having a cross-sectional shape of an isosceles trapezoid with a large base at the bottom of the annular groove and a small base equal to the diameter of the hole, and on the pipe of the cylindrical nozzle with the outer surface opposite the transverse through-cuts are made annular grooves having a cross-sectional shape of an isosceles trapezoid with a large base at the bottom of the annular groove and a small base vaniem equal to the transverse width of the through slot.

Description

The utility model relates to techniques for producing a product from wells, namely, downhole filters for filtering a product extracted from oil, water and gas wells.

A well-known well filter, including a perforated pipe with a sleeve, a metal mesh covering the outer surface of the perforated pipe and a wire winding, while the perforated pipe on its outer surface is made with ribs whose height is determined by calculation, while the ribs are arranged in a spiral in steps of a grid width (RF patent 2097533, MKI E21B 43/08 publ. 11/27/1997). The disadvantages of this downhole filter are the complexity of manufacturing and installing the ribs on the outer surface of the perforated pipe with a certain step, as well as the complexity of the assembly due to the winding of the wire winding on a metal mesh.

The closest technical solution to the proposed one is a plug-in sucker rod pump filter containing perforated pipes with an annular groove on the upper inner surface and a plug plugged from below, with a cylindrical nozzle placed inside the perforated pipe resting on the end of the annular groove of the perforated pipe and connected by an internal thread to the plug while the conical grooves are made upside down on the lower part of the cylindrical nozzle, and the upper part is cylindrical second nozzle is formed as a tube with offset relative to each other transverse through-slit (patent RF101494, IPC E21B 43/38, publ. 20.01.2011 g). The disadvantage of this technical solution is the low degree of purification of the reservoir fluid from mechanical impurities.

The technical task of the utility model is to improve the quality of treatment of formation fluid from mechanical impurities.

The stated technical problem is solved by a filter of an inserted sucker rod pump containing a perforated pipe with an annular groove on the upper inner surface and a plug plugged from below, with a cylindrical nozzle placed inside the perforated pipe resting on the end of the annular groove of the perforated pipe and connected by an internal thread to the plug on the lower part of the cylindrical nozzle, conical grooves are made with their tops up, and the upper part of the cylindrical nozzle is made and in the form of a pipe with transverse through-cuts offset relative to each other. New is that on the perforated pipe from the outer surface opposite the holes there are made circular grooves having an equilateral trapezoid in cross section with a large base at the bottom of the annular groove and a small base equal to the diameter of the hole, and on the pipe of a cylindrical nozzle with the outer surface opposite the transverse through Slots are made of annular grooves having a cross-sectional shape of an isosceles trapezoid with a large base at the bottom of the annular groove and a small base equal to the width of the transverse through oh slots.

In FIG. 1 schematically shows the proposed filter in longitudinal section. In FIG. 2 is a view A of FIG. 1. In FIG. 3 is a view B of FIG. 2.

The plug-in deep sucker rod pump filter contains a perforated pipe 1 with an annular groove 2 on the upper inner surface. From below, this pipe 1 is plugged with plug 3, and inside this pipe there is a cylindrical nozzle 4 supported by a shoulder 5 on the end 6 of the annular groove 2. A cylindrical nozzle 4 is connected to the plug 3 by an internal thread. The threaded protrusion 7 of the plug is wrapped in this thread. On the lower part of the cylindrical nozzle 4, conical grooves 8 are made with their tops up. The upper part of this nozzle 4 is made in the form of a pipe 9 with transverse through-cuts displaced relative to each other 10. On the perforated pipe 1 from the outer surface opposite the holes 11, annular grooves 12 are made. They are in the cross section in the form of an isosceles trapezoid with a large base 13 at the bottom of the annular groove 12 and a small base 14, equal to the diameter of the hole 11. On the pipe 9 of the cylindrical nozzle 4 from the outer surface opposite the transverse through-slots 10, annular grooves 15 are made. They have a cross-sectional shape equilateral trapezoid with a large base 16 at the bottom of the annular groove 15 and a small base 17 equal to the width h of the transverse through-cut 10.

The filter plug-in deep sucker rod pump (hereinafter - the filter) operates as follows. The filter is lowered into the well in the layout with any type of pumping equipment and installed at its reception. The formation fluid, driven by the action of the pump, through the annular grooves 14 enters the holes 11 of the perforated pipe 1. Large solid inclusions (mechanical impurities) are held by the annular grooves 14, and smaller solid inclusions with the formation fluid enter the interior of this pipe through holes 11. Further, partially cleaned, the flow of formation fluid rises up the annular space formed by the inner surface of the perforated pipe 1 and the outer surface of the cylindrical th nozzle 9. delayed protrusions tapered bores When moving up the particles of solids 8 and settle down. Then, partially cleaned formation fluid through the annular grooves 15 and the transverse through-cuts 10 enters the interior of the pipe 9, further purifying itself from particles of mechanical impurities. Then from the pipe 5, the formation fluid enters the pump intake.

In the proposed filter, the reservoir fluid is cleaned of particles of mechanical impurities sequentially: first, passing through the annular grooves 14 and holes 11 of the perforated pipe, then the protrusions of the conical grooves and then passing through the annular grooves 15 and the transverse through-cuts 10. In the prototype, the reservoir fluid is cleaned of particles of mechanical impurities only in the holes of the perforated pipe, the protrusions of the conical grooves and transverse through-cuts 10. Therefore, the proposed filter improves the quality of cleaning the reservoir liquids from mechanical impurities, which in turn allows you to increase the overhaul period of the plug-in sucker rod pump.

Source of information used: RF patent 2097533, MKI E21B 43/08 publ. November 27, 1997; RF patent 101494, IPC ЕВВ 43/38, publ. 01/20/2011

Claims (1)

A plug-in sucker-rod suction pump filter containing a perforated pipe with an annular groove on the upper inner surface, plugged at the bottom with a plug, and inside the perforated pipe there is a cylindrical nozzle resting on the end face of the annular groove of the perforated pipe and connected by an internal thread to the plug, while on the bottom of the cylindrical nozzles are made conical grooves with their tops up, and the upper part of the cylindrical nozzle is made in the form of a pipe with displaced relative to the other each other with transverse through-cuts, characterized in that on the perforated pipe from the outer surface opposite the holes there are ring grooves having a cross-sectional shape of an isosceles trapezoid with a large base at the bottom of the annular groove and a small base equal to the diameter of the hole, and on the pipe of the cylindrical nozzle with the outer surface opposite the transverse through-cuts are made annular grooves having a cross-sectional shape of an isosceles trapezoid with a large base at the bottom of the annular groove and a small base vaniem equal to the width of the transverse through-slots.

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