RU173167U1 - FILTER OF INSERT BARBED DEPTH PUMP - Google Patents

Abstract

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. The plug-in sucker-rod suction pump filter contains a perforated pipe with an annular groove on the upper inner surface and a plug plugged from below. Inside the perforated pipe there is a cylindrical nozzle supported by a shoulder 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. The upper part of the cylindrical nozzle is made in the form of a pipe with transverse through-cuts offset relative to each other. New is that the perforated pipe is made of perforated steel sheet bent in the shape of a hollow cylinder. In this case, the walls of this cylinder adjacent to each other are interconnected by electric welding. The perforations on the sheet are made in the form of a truncated cone, the small bases of which are located on the outer wall of the bent sheet. The proposed device improves performance.

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 filter including 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, while the ribs are arranged in a spiral with a step in width mesh (RF patent 2097533, IPC ЕВВ 43/08 publ. 27.11.1997). The disadvantages of this downhole filter are the complexity of manufacturing and assembly, due to the presence of ribs on the perforated pipe, wire winding and 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 E 21 B 43/08, publ. 20.01.2011). The disadvantage of this technical solution is the small service life. The holes on the perforated pipe have a cylindrical wall. Due to this shape of the walls of the holes during operation of the device, mechanical impurities get stuck in these holes and the filter fails in a short period of time.

The technical task of the utility model is to increase efficiency.

The stated technical problem is solved in that in the filter of the plug-in sucker-rod suction pump containing a perforated pipe with an annular groove on the upper inner surface and a plug plugged from below, a cylindrical nozzle is placed inside the perforated pipe, resting on the end of the annular groove of the perforated pipe and connected by an internal thread to a cork, while on the lower part of the cylindrical nozzle conical grooves are made with their tops up, and the upper part of the cylindrical nozzle made in the form of a pipe with transverse through-cuts offset relative to each other, it is new that the perforated pipe is made of a perforated steel sheet bent in the form of a hollow cylinder, while the adjacent walls of this cylinder are connected by electric welding, and the perforations on the sheet is made in the form of a truncated cone, the small bases of which are located on the outer wall of the bent sheet.

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

The plug-in deep sucker rod pump filter contains a perforated pipe 1 with an annular groove 2 on the upper inner surface. Bottom pipe 1 is plugged by plug 3, and inside this pipe 1 is a cylindrical nozzle 4, supported by a shoulder 5 on the end 6 of the annular groove 2. The cylindrical nozzle 4 is connected to the plug 3 by an internal thread. A threaded protrusion 7 of the plug 3 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 offset relative to each other 10. The perforated pipe 1 is made of perforated steel sheet 11 bent in the form of a hollow cylinder. At the same time, the walls 12 of the cylinder adjacent to each other are interconnected by electric welding so that the perforated pipe is rigid. The perforation holes 13 on the sheet 11 are made in the form of a truncated cone 14, the small bases 15 of which are located on the outer wall 16 of the bent sheet 11. The perforated pipe 1 from the sheet 11 provides perforations 13 in the form of a truncated cone 14, the small bases 15 of which are located on the outer wall 16 of the bent sheet 11.

The filter plug-in deep sucker rod pump operates as follows. When the formation fluid moves into the space between the perforated pipe 1 and the cylindrical nozzle 4, large solid inclusions of mechanical impurity are held on the outer wall of the perforated pipe. Small solid inclusions of the mechanical impurity with the formation fluid enter through the perforations 13 into the perforated pipe 1. Further, the partially cleaned stream of the reservoir fluid rises up the space between the perforated pipe 1 and the cylindrical nozzle 4. When moving upward, the solid inclusions of the mechanical impurities are delayed by the protrusions of the conical grooves 8 and settle down. Partially purified reservoir fluid through the transverse through-cuts 10 enters the inner space of the pipe 9, additionally being cleaned of mechanical impurities. Then, from the cavity of the pipe 9, the formation fluid enters the pump intake. In the proposed filter, solid inclusions of mechanical impurities of the formation fluid do not get stuck inside the perforations of the perforated pipe. This is facilitated by the fact that the perforation holes are made in the form of a truncated cone with a small base on the outer wall of the bent sheet from which the perforated pipe is made. Therefore, the proposed filter in working condition lasts longer than the prototype. In the prototype, the perforation holes have a cylindrical wall in which solid inclusions of the mechanical impurity of the formation fluid get stuck and the prototype fails. From a comparative analysis it follows that in the proposed device increases efficiency.

Sources of information used

1. RF patent 2097533, MKI E21B 43/08, publ. 11/27/1997.

2. RF patent 101494, IPC Е21В 43/08, 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 and a plug plugged from below, 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 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 others d of each other with transverse through-cuts, characterized in that the perforated pipe is made of perforated steel sheet bent in the shape of a hollow cylinder, while the adjacent walls of this cylinder are electrically welded, and the perforation holes on the sheet are made in the form of a truncated cone, small the bases of which are located on the outer wall of the bent sheet.

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