RU101494U1 - FILTER OF INSERT BARBED DEPTH PUMP - Google Patents

Abstract

 A plug-in sucker-rod pump filter containing an external and an internal filtering element, the internal filtering element being a cylindrical nozzle made with transverse cuts in the form of transverse cuts directed towards each other, characterized in that the external filtering element, the outer diameter of which is smaller than the inner diameter of the pump compressor pipes of the elevator column, rigidly connected to the cylinder of the plug-in pump, sealed with a plug from below and made in the form of a perforated pipe, inside of which it is coaxially a cylindrical nozzle is placed, which is supported by a shoulder on the annular groove of the inner surface of the perforated pipe and connected by an internal thread to the plug, while on the lower part of the cylindrical nozzle located opposite the holes of the perforated pipe, conical grooves are made with their tops up, and the upper part of the cylindrical nozzle communicating with the pump , made in the form of a pipe with transverse through-cuts offset relative to each other, the length of which is equal to half the diameter of the pipe.

Description

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

Known downhole filter, consisting of a housing with perforations, a filter shell formed by turns of a winding wire on the longitudinal rods - stringers, a casing forming a chamber with the housing, hydraulically connected by perforations with an axial channel. The casing is made in the form of components installed under the turns of the filter shell. The constituent elements of the casing are made in the form of a half-cylinder of a triangular or trapezoidal shape and are installed with a gap relative to the turns of the winding wire (RF patent No. 2190758, IPC ЕВВ 43/08; ЕВВ 3/18 publ. 10.10.2002).

The disadvantage of this downhole filter is:

- the complexity of the design, due to the large number of components and parts technologically difficult to manufacture.

Known downhole filter, comprising, a perforated pipe with a sleeve, a metal mesh covering the outer surface of the perforated pipe and a wire winding. The perforated pipe on its outer surface is made with ribs, the height of which is determined by calculation. The ribs are arranged in a spiral in increments of the mesh width (RF patent No. 2097533, MKI ⁶ EVB 43/08 publ. 11/27/1997).

The disadvantages of this downhole filter are:

- the complexity of the manufacture and installation of 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;

- low degree of purification of formation fluid from mechanical impurities.

A well filter is known, including a perforated pipe with a sleeve, a metal mesh covering the outer surface of the perforated pipe, with an additional sleeve screwed onto the bottom of the perforated pipe, and an additional perforated pipe that is telescopically mounted relative to the perforated pipe with screws outside the metal mesh fixing coaxially the perforation holes of the perforated and additional perforated nozzles ( atent RF №57807, IPC E 21 B 43/08, publ. 27.10.2006 city).

The disadvantage of this downhole filter is the low degree of purification of the reservoir fluid from mechanical impurities.

Closest to the proposed utility model is a downhole pump filter, which contains two filter elements located one in the other with a gap relative to each other in the radial direction with slotted holes in their side walls. The outer filter element is made in the form of a glass with a cylindrical side wall, and the inner filter element is in the form of a cylindrical nozzle. The slotted holes in its side wall are made in the form of transverse slots with the possibility of perception of compressive and tensile forces in the axial direction, while the outer filter element is made with longitudinal slotted holes, and the transverse slots forming the slotted holes of the internal filtering element are made in the form of transverse cuts to a depth of at least 0.8 from its outer diameter, while adjacent cuts are directed towards each other (RF patent No. 43307, IPC ЕВВ 43/38, publ. 10.01.2005).

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 the filter of the plug-in sucker rod pump containing the external and internal filtering elements, the internal filtering element - a cylindrical nozzle - made with transverse cuts in the form of transverse cuts directed towards each other. The outer filter element, the outer diameter of which is smaller than the inner diameter of the tubing of the lift string, is rigidly connected to the cylinder of the plug-in pump, sealed with a plug below and made in the form of a perforated pipe, inside of which a cylindrical nozzle coaxially placed on the annular groove of the inner surface of the perforated pipe and connected by a female thread with a plug. On the lower part of the cylindrical nozzle located opposite the holes of the perforated pipe, conical grooves are made with their tops up, and the upper part of the cylindrical nozzle communicating with the pump intake is made in the form of a pipe with transverse through-cuts offset relative to each other, the length of which is half the diameter of the pipe.

Distinctive features of the proposed utility model:

- a cylindrical nozzle is coaxially placed inside the perforated pipe, the lower part of which, located opposite the holes of the perforated pipe, is made with conical grooves with its tops up.

- the upper part in communication with the pump intake is made in the form of a pipe on which transverse through-cuts are offset relative to each other, the length of which is equal to half the diameter of the pipe.

- a cylindrical nozzle in the lower part is connected by a threaded plug with a perforated pipe, and in the upper part it is supported by an end protrusion on the annular groove of the inner surface of the perforated pipe.

Distinctive features allow improving the quality of formation fluid cleaning and, as a result, increase the overhaul period of the plug-in sucker-rod suction pump.

The figure 1 shows the proposed filter in longitudinal section.

The figure 2 shows a longitudinal section of the outer filter element.

In figure 3, a longitudinal section of a cylindrical nozzle.

The sucker rod pump filter consists of a perforated pipe 1, a cylindrical nozzle 2, and a screw plug 3.

The lower part of the cylindrical nozzle is made with conical grooves 4 located vertices upward, and the upper part is made in the form of a pipe 5 on which transverse through-cuts 6 offset relative to each other are made, the length of which is half the diameter of the pipe.

The upper part of the pipe 5 of the cylindrical nozzle 2 is made with a shoulder 7, which rests on the annular groove 8 of the inner surface of the perforated pipe 1. At the lower end of the cylindrical nozzle 2, an internal thread 9 is made for connection with the external thread 10 of the screw plug 3.

The filter of the downhole pump operates as follows.

The filter is installed at the reception of the plug-in sucker rod pump and lowered into the well.

The reservoir fluid, driven by the action of the pump, through the holes of the perforated pipe enters the inner space of the pipe 1, where the flow of reservoir fluid rises up the annular space formed by the inner surface of the perforated pipe and the outer surface of the cylindrical nozzle. When moving upward, particles of mechanical impurities settle down and linger in conical grooves. Then, partially cleaned formation fluid through the slots 6 located on the pipe 5 enters the interior, where additional cleaning takes place. Then from the pipe 5, the formation fluid is received at the pump intake.

The proposed filter of the sucker rod pump allows for better cleaning of the reservoir fluid and, as a result, to increase the overhaul period of the plug-in sucker rod pump.

Claims (1)

A plug-in sucker-rod pump filter containing an external and an internal filtering element, the internal filtering element being a cylindrical nozzle made with transverse cuts in the form of transverse cuts directed towards each other, characterized in that the external filtering element, the outer diameter of which is smaller than the inner diameter of the pump compressor pipes of the elevator column, rigidly connected to the cylinder of the plug-in pump, sealed with a plug from below and made in the form of a perforated pipe, inside of which it is coaxially a cylindrical nozzle is placed, resting on the annular groove of the inner surface of the perforated pipe and connected by an internal thread to the plug, while on the lower part of the cylindrical nozzle located opposite the holes of the perforated pipe, conical grooves are made with their tops up, and the upper part of the cylindrical nozzle communicating with the pump , made in the form of a pipe with transverse through-cuts offset relative to each other, the length of which is equal to half the diameter of the pipe.