RU2565619C1 - Bidirectional oil well pump - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: bidirectional oil well pump includes a cylinder and plunger with suction and injection channels and stop valves run in at the pipe string, at that the upper suction valve is installed outside the cylinder and the plunger is connected to stem through a hollow rod with sealing. The lower suction valve of the cylinder is placed outside, the plunger from the top and bottom is equipped with the upper and lower pressure valves respectively. Through top openings the hollow rod is interconnected to the pipe string space and through the upper and lower pressure valve of the plunger it is connected to the respective cavities of the cylinder; cavities of the cylinder and pipe string space are disengaged by sealing of the hollow rod. Each valve is made as a case with inner circular channel interconnecting inlet radial ports with inner circular groove, stop valve made as an elastic cylindrical bushing with outside thickening covering circular groove so that its can be passed inwards and fixed at the case behind thickening with a lock from outside. From outside inlet ports of the suction valves are equipped with filters and above the cylinder the pipe string is equipped with a drain valve.

EFFECT: higher pumping capacity.

3 cl, 2 dwg

Description

The invention relates to the oil industry and can be used for the operation of high-yield oil wells.

A double-acting sucker-rod pump is known, comprising a cylinder having a lower suction valve and connected to a pipe string using an adapter equipped with upper suction and discharge valves, and a hollow plunger placed in the cylinder with the formation of the supra-plunger and sub-plunger cavities and the possibility of reciprocating movement, connected with a hollow rod and having a lower discharge valve. The upper discharge valve is made in the form of a sleeve located on a hollow stem with the possibility of axial movement upward under the action of excessive pressure and downward under its own weight (patent RU No. 2436996, IPC F04B 47/00, published on December 20, 2011, bull. No. 35 )

A disadvantage of the known pump is the inability to use it in high-yield wells. To ensure that fluid flows through the upper side suction valve with minimal losses, valves with a sufficient flow area must be used. At the same time, the real transverse dimensions of the double-acting pump turn out to be such that a sucker-rod pump with a nominal diameter of not more than 44 mm can be placed in a well with a production string with a nominal diameter of 146 mm. At the same time, a simpler design standard sucker rod pump with a diameter of 70 mm can be placed in such a well, the performance of which with the same stroke length and swing frequency will exceed the productivity of a more complex and expensive double-acting pump with a pump diameter of 44 mm.

The design of the pump does not allow to increase its pump performance by connecting to it an additional similar double-acting pump, since in the known pump, the liquid, when the plunger moves upward from the supra-plunger cavity, flows directly into the pipe string.

In addition, the locking elements of the valve assemblies used in the pump are made as a ball-saddle, they are ineffective when working in directional wells and are not functional in wells with horizontal sections, which narrows the scope of the pump.

A well-known double-acting sucker-rod pump containing a cylinder with a hollow plunger, lower suction and discharge valves, upper suction and discharge valves. The plunger is connected to the rod column by a polished hollow rod with a seal separating the cavity of the pipe string from the cavity of the pump cylinder (patent RU No. 2386018, IPC No. 21B 43/14, F04B 47/00, published on April 10, 2010, Bulletin No. 10).

The disadvantages of the known pump are the impossibility of using it in high-rate wells, since it also contains a lateral suction ball valve that increases the transverse dimensions of the pump and therefore does not allow the use of large diameter plunger couples, the pump design does not allow increasing the pump capacity by connecting an additional similar double-sided pump to it actions, and valve assemblies used in the pump are ineffective when working in directional wells ins and are not functional in wells with horizontal sections.

The technical objectives of the invention are to increase the performance of a double-acting pump due to the possibility of using a conventional sucker rod pump of the maximum possible diameter for a particular well in the pump, to further increase the pump's productivity due to the possibility of connecting several double-acting pumps in series with each other, as well as expanding the scope of the pump due to the possibility of using it in deviated and horizontal wells.

These technical problems are solved by a double-acting borehole sucker rod pump, which includes a cylinder and a plunger lowered on the pipe string with upper and lower suction and discharge valves with shut-off bodies, the upper suction valve installed outside the cylinder and the plunger connected to the rod string through a hollow rod with a seal.

What is new is that the lower cylinder suction valve is located outside, the plunger is equipped with upper and lower discharge valves, respectively, the hollow rod is communicated through the upper openings with the space of the pipe string, and through the upper and lower discharge valves of the plunger with the corresponding cylinder cavities, cavities the cylinder and the space of the pipe string are separated by a hollow stem seal, each valve is made in the form of a housing with an internal annular channel communicating inlet radial windows with an internal with a ring groove, a locking member in the form of an elastic cylindrical sleeve with an external thickening, overlapping the annular groove with the possibility of passing inward and fixed to the housing for thickening from the outside with a lock, while the inlet windows of the suction valves are equipped with filters from the outside, and the pipe string is equipped with a drain valve above the cylinder.

Also new is the fact that the bottom pump is equipped with one or several identical additional cylinders rigidly connected with plungers with upper and lower suction and discharge valves installed on them, and the plungers are interconnected by additional hollow rods with seals separating the cavity of the cylinders.

Also new is the fact that the hollow rod is connected to the rod string by a connection-disconnect device.

In FIG. 1 schematically shows a general view of a double-acting borehole sucker rod pump, FIG. 2 schematically shows the design of the valve.

A double-acting double-sucker-rod pump (Fig. 1) includes a cylinder 2 launched on a pipe string 1 with upper 3 and lower 4 suction valves located outside of cylinder 2, and a plunger 5 with upper 6 and lower 7 discharge valves.

The hollow rod 8 is communicated through the upper holes 9 with the space 10 of the pipe string 1, and through the upper 6 and lower 7 pressure valves of the plunger 5 with the corresponding cavities 11 and 12 of the cylinder 2. The cavity 11 of the cylinder 2 is separated from the space 10 of the pipe string 1 by a seal 13 of the hollow stock 8.

Each valve used in the pump is made in the form of a casing 14 (Fig. 2) with an annular channel 15 communicating inlet windows 16 with an inner annular groove 17. The shut-off element is made in the form of an elastic cylindrical sleeve 18 with an external thickening 19 that overlaps the annular groove 17 with the possibility of passing in and secured in the housing 14 for thickening 19 by a lock 20. The inlet windows 16 of the suction valves 3 (Fig. 1) and 4 are equipped with filters 21 from the outside. Above the cylinder 2, the pipe string 1 is equipped with a drain valve 22, which opens under the action of a given excess pressure in the space 10 of the pipe string 1.

The bottom pump is equipped with an additional cylinder 23 with upper 24 and lower 25 suction valves and an additional plunger 26 with upper 27 and lower 28 discharge valves. An additional plunger 26 is connected to the plunger 5 by means of an additional hollow rod 29 with a seal 30 separating the cavity 12 of the cylinder 2 from the cavity 31 of the additional cylinder 23. There can be several similar additional cylinders 23 and additional plungers 26, and their number depends on the flow rate of the well into which the well pump is lowered.

The hollow rod 8 may be connected to the rod string 32 by a connection-disconnecting device 33.

A double-well sucker rod pump operates as follows.

Prepared on the surface of the assembly (sections) 34 and 35 of the pump, consisting respectively of the main and additional cylinders 2, 23 and plungers 5, 26, when descending into the well (not shown in Fig.) Are connected in series: the hollow stem 29 is connected, for example , using an adapter 36 to the lower discharge valve 7 of the plunger 5, after which, for example, using an adapter 37, the casing elements of sections 34 and 35 are connected to each other. When assembled, the pump on the pipe string 1 is lowered into the well to a predetermined depth. Then, the rod string 32 is lowered into the pipe string 1 and, using a known clutch-release device 33 (for example, СР-1), is connected to the reciprocal part of this device installed before lowering it into the well at the upper end of the hollow rod 8 using, for example, an adapter 38, made with holes 9. Having completed the installation, the pump is put into operation.

During the course of the string of rods 32 and the hollow rods 8, 29 and plungers 5, 26 connected to it, liquid from the sub-plunger cavities 12, 39, with the lower suction valves 4, 25 closed, passes through the lower lower pressure valves 7, 28 into the plungers 5, 26 and hollow rods 8, 29, from where, through the openings 9 of the sub 38, into the space 10 of the pipe string 1. At this time, the increasing volumes of the supraplunger cavities 11, 31 of the cylinders 2, 23 are filled with well fluid through the open upper suction valves 3, 24.

When the plungers 5, 26 move upward, the liquid from the supraplunger cavities 11, 31 with the upper suction valves 3, 24 closed, through the open upper pressure valves 6, 27 enters the plungers 5, 26 and hollow rods 8, 29 and then through openings 9 into the space 10 pipe columns 1. At this time, the increasing volumes of the sub-plunger cavities 12, 39 of the cylinders 2, 23 are filled with the well fluid through the open lower suction valves 4, 25. Further cycles are repeated.

The location of the lower suction valve 4 outside the cylinder 2 allows you to place in this space of the cylinder an additional rod 29 connected from the bottom of the same pump and, if necessary, place another similar pump assembly below the assembly 34 (not shown in Fig. 1). To do this, disconnect plugs 40 and 41 and add a similar pump assembly.

The design of the valves used (known in US Pat. No. 2487271) allows them to be located outside the cylinders, which allows the connection of an additional assembly 34 of the pump.

In contrast to the well-known side ball suction valves, such a valve has significantly smaller overall dimensions, which makes it possible to use plunger pairs in the pump that are maximum possible for the internal diameter of a particular well.

The elastic cylindrical sleeve 18 (Fig. 2) in the absence of pressure drops under the action of elastic forces always overlaps the inner annular groove 17, and only under the influence of the differential pressure from the outside the elastic cylindrical sleeve 18 is deformed inwardly and the fluid through the windows 16, the annular cavity 15 and the inner annular groove 17 enters the cylinder or plunger. Under the action of a pressure drop from the inside, the elastic cylindrical sleeve 18 is tightly pressed against the inner annular groove 17. The manufacture of valves 3 (Fig. 1), 4, 6, 7, 24, 25, 27, and 28 used in the pump in the form of a housing 14 (Fig. .2) with an annular channel 15 communicating inlet windows 16 with an inner annular groove 17, in which the locking element is made in the form of an elastic cylindrical sleeve 18 with an external thickening 19 fixed in the housing 14 for the thickening 19 with a lock 20, allows them to be used regardless of orientation pump in space, they work capable in any position that allows you to use the pump in deviated wells and wells with horizontal sections.

The use of a filter 21 (Fig. 1) on all suction valves of the pump eliminates the ingress of possible mechanical impurities from the well into the internal cavities of the valves, which increases the reliability of their operation.

The device connection-disconnection 33 when installing equipment in the well allows you to attach the lower end of the string of rods 32 to the rod 8 and to ensure the operability of the pump. When removing the pump from the well, the connection-disconnecting device 33 allows you to disconnect the lower end of the rod string 33 from the pump and remove it to the surface, after which the pump is removed from the well on the pipe string 1.

Before removing the pump from the well, a predetermined overpressure is created in the pipe string 1, under the influence of which the membrane 42 of the drain valve 22 is destroyed, which allows the equipment to flow fluids from the pipe string 1 into the cavity of the well and to prevent spillage of the well fluid at the well site.

An example of a specific implementation.

The dimensions of a double-acting borehole sucker rod pump allow a pump with 57 mm diameter plunger pairs to be placed in a well with a production casing with a nominal diameter of 114 mm. Theoretical productivity with a wellhead stroke of 3.5 m and a swing frequency of 5 min ^{-1 of} such a pump, made with one upper section (assembly), is 109 m ³ / day, and with two sections - 198 m ³ / day.

In a well with a production casing with a nominal diameter of 146 mm, a pump with plunger pairs with a diameter of 70 mm can be placed. Theoretical performance under the same pumping conditions for such a single-section pump is 154 m ³ / day, and a two-section pump is 269 m ³ / day.

The proposed design of a borehole sucker rod pump allows to increase the productivity of fluid withdrawal from oil wells (including small diameters) when they are operated by borehole sucker rod pump units (USHN), to provide an opportunity to further increase the pump performance due to the serial connection of several double-acting pumps, and also use it in deviated wells and in wells with horizontal sections due to valves used in the pump with shut-off elements the elements made in the form of elastic cylindrical bushings, the performance of which does not depend on their orientation in space.

Claims (3)

1. A double-acting double-sucker-rod pump comprising a cylinder and a plunger lowered on the pipe string with upper and lower suction and discharge valves with shut-off bodies, the upper suction valve installed outside the cylinder and the plunger connected to the rod string through a hollow rod with a seal, characterized in that the lower suction valve of the cylinder is located outside, the plunger is equipped with upper and lower discharge valves, respectively, at the top and bottom, the hollow rod is communicated through the upper holes with the pipe string, and through the upper and lower discharge valves of the plunger with the corresponding cylinder cavities, the cylinder cavities and the space of the pipe string are separated by a hollow stem seal, each valve is made in the form of a housing with an internal annular channel communicating inlet radial windows with an internal annular groove shut an organ in the form of an elastic cylindrical sleeve with an external thickening overlapping an annular groove with the possibility of a pass inward and mounted on the housing for thickening from the outside In this case, the inlet windows of the suction valves are equipped with filters from the outside, and above the cylinder, the pipe string is equipped with a drain valve. 2. A double-acting double-acting sucker-rod pump according to claim 1, characterized in that the bottom of the pump is equipped with one or more rigidly connected identical additional cylinders with plungers and upper and lower suction and discharge valves mounted on them, and the plungers are interconnected by additional hollow rods with seals separating the cavity of the cylinder. 3. Double-acting double-acting sucker-rod pump according to claim 1 or 2, characterized in that the hollow rod is connected to the rod string by a connection-disconnection device.

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