RU170784U1 - Double Acting Well Pump - Google Patents

Abstract

The device relates to mechanical engineering and can be used in submersible pumping units used, for example, for oil production. The technical result obtained by using the proposed utility model is to increase the reliability and simplify the design of a double-acting well pump as a whole. The technical result is achieved by that the double-acting borehole pump contains a submersible motor 1 with hydroprotection 2, the drive of the working pump 3, which converts the rotational movement into reciprocating dumb, working pump, consisting of a working cylinder 4, a hollow plunger 7 connected to a stem 8, with a discharge valve 9 installed therein, a cavity above the hollow plunger through a suction valve 22 is connected to the annular annular space, a cavity under the hollow plunger is connected to the bypass line 15 formed by a shell 16, on the outside covering the working cylinder 4, the bypass line 15 is connected to the discharge line of the pump, moreover, the diameter of the hollow plunger 7 is larger than the diameter of the rod, the working cylinder 4 through a sleeve 12 is connected to a series-connected housing of the sealing assembly 5 and the base 14 of the drive of the working pump 3, the stem of the drive of the working pump is the rod 8 of the working pump and passes inside the housing of the sealing assembly 5, the housing of the sealing assembly 5 contains at least one hole 26, connecting the cylindrical surface of the rod 8 of the drive of the working pump with the annulus and located at a distance from the upper end of the working surface of the housing of the sealing assembly 5, providing the necessary first pressure drop between the discharge line of the pump and the annular annular space. Alternatively, the hollow plunger 27 may contain a contact seal, for example, a polymeric lip seal 28, a seal in the form of ground steel sealing rings 29, or a combination thereof. Uniform distribution of the load on the drive of the working pump during the working cycle and the fact that the rod of the working pump is the rod of the drive of the working pump increases reliability and simplifies the design of a double-acting borehole pump. 1 n.p.ph., 4 s.p.f., 2 ill.

Description

The utility model relates to the field of mechanical engineering, in particular to pumping units intended for lifting liquids from great depths, for example, oil from wells.

A well-known electro-hydraulic borehole pumping unit for oil production (see RF patent No. 2235907 RU, IPC F04B 47/08, 04/14/2003), comprising an oil pump driven by a submersible electric motor with a compensator, a working piston pump with a piston cylinder, a suction valve, located in the piston, and a discharge valve and a hydraulic motor for driving a working piston pump, the cavity of the hydraulic cylinder being connected through an oil distributor to the inlet and through a safety valve to the outlet of the oil pump, and the piston rod the rod through the tread is connected to the piston of the working piston pump, in addition, the unit is equipped with an oil tank with a compensator for its volume, in one of the sections of which there is an overflow valve, a flow regulator and a filter, and the hydraulic motor is equipped with a piston stroke limiter with a directional distributor, while the working piston the pump is equipped with an overflow line, an additional piston cylinder with an additional piston and an additional piston spring located in the latter, an additional piston it is rigidly connected by means of an intermediate rod to the piston of the working piston pump located below it, the cavities of the piston cylinders are separated by a spool of the pumped-off medium distributor, two rows of holes are made in the wall of the pumped-off distributor to communicate the pump working cavities with the bypass line formed by the shell from the outside, covering both piston cylinders, and the bypass line is equipped with a control valve located between the rows of openings edelitelya pumped medium, and the above additional piston cylinder connected to the discharge valve. The increase in productivity is achieved due to the fact that the working piston pump is made of a two-piston, while there is an alternate supply to the consumer of the medium pumped out of the well from two piston cylinders. Thus, during the reverse stroke of the piston, the consumer is supplied with the medium pumped out of the well from the additional piston cylinder, and during the reverse stroke of the additional piston, the consumer is pumped with the pumped medium from the “main” piston cylinder, which makes it possible to increase the unit productivity by 2 times.

However, this design does not seem to be reliable enough due to the presence of additional isolation valves in the bypass line, as well as the presence of a spool of the pumped-over medium distributor operating at high pressure drops of an abrasive-containing formation fluid.

The closest to the utility model in technical essence and the achieved result (prototype) is a double-acting borehole pump (see RF patent No. 153600 RU, IPC F04B 47/06, 06.06.2014), which includes a submersible motor with hydraulic protection, a working pump drive that converts rotational motion into reciprocating, a working pump consisting of two working cylinders connected in series with each other and two plungers, while the diameter of the upper cylinder with the plunger is larger than the diameter of the lower cylinder with the plunger ohm, the upper plunger of a larger diameter is hollow with a discharge valve installed in it, the lower plunger of a smaller diameter is made monolithic, the cavity above the hollow plunger of a larger diameter is connected to the annular annular space through the suction valve, the cavity under the upper hollow plunger of a larger diameter is connected to the bypass formed by shell, from the outer side covering the upper larger cylinder, the bypass line is connected to the discharge line of the pump, while the plunger is larger in diameter the series is connected to a monolithic plunger of a smaller diameter, a monolithic plunger of a smaller diameter is connected to the drive of the working pump through the rod of the drive of the working pump, the inner cavity of the cylinder of a smaller diameter under the monolithic plunger of a smaller diameter is hydraulically connected to the oil-filled cavity of the drive of the working pump, the inner cavity of the cylinder of a smaller diameter through the hole in the cylinder body of a smaller diameter is connected to the annular annular space, the hole in the cylinder body of smaller diameter during the working cycle, the inside is constantly blocked by the cylindrical surface of the monolithic plunger of smaller diameter, the cylindrical surface of the monolithic plunger of smaller diameter during the working cycle does not come out of contact with the inner surface of the lower cylinder of smaller diameter, which is below the hole in the lower cylinder case of smaller diameter and is a seal drive the working pump.

The aforementioned double-acting well pump also has increased productivity and a uniform load on the drive of the working pump during the duty cycle.

The disadvantage of this double-acting borehole pump is the presence of two rods in this design - the rod of the working pump and the rod of the drive of the working pump, which complicates the design of the double-acting borehole pump, reduces reliability and increases its dimensions.

The technical result obtained in the implementation of this utility model is expressed in increasing reliability and simplifying the design of a double-acting well pump.

The specified technical result is achieved in that a double-acting borehole pump containing a submersible motor with hydraulic protection, a working pump drive that converts rotational motion into reciprocating, a working pump consisting of a working cylinder, a hollow plunger connected to a rod with a discharge pump installed in it valve, the cavity above the hollow plunger through the suction valve is connected to the annular annular space, the cavity under the hollow plunger is connected to the bypass pipe, image the bath by means of a shell covering the working cylinder from the outside, the bypass line is connected to the discharge line of the pump, while the diameter of the hollow plunger is larger than the diameter of the rod, the working cylinder through the coupling is connected to the housing of the sealing assembly and the base of the drive of the working pump in series, the rod of the working pump drive is the working pump rod and passes inside the housing of the sealing unit, the housing of the sealing unit contains at least one hole connecting the cylindrical turn the availability of the rod of the drive of the working pump with annular space and located at a distance from the upper end of the working surface of the housing of the sealing assembly, providing the necessary pressure difference between the flow line of the pump and the annular annular space.

The specified technical result is also achieved by the fact that in the double-acting well pump, the rod can have a polished and hardened cylindrical surface.

The specified technical result is also achieved by the fact that the double-acting borehole pump the area of the annular space between the inner diameter of the working cylinder and the diameter of the rod can be equal to the cross-sectional area of the rod.

The specified technical result is also achieved by the fact that the double-acting well pump, the hollow plunger can be connected to the rod through a hinge assembly.

The specified technical result is also achieved by the fact that the double-acting well pump, the hollow plunger may contain an external contact seal, relative to the inner surface of the working cylinder, for example, a polymer lip seal or a seal in the form of lapped steel o-rings or a combination thereof.

The execution of the double-acting borehole pump in such a way that the working cylinder through the coupling is connected to the sealing unit body and the working pump drive base, the working pump drive rod is the working pump rod and passes inside the sealing unit body, and the sealing unit housing contains at least one hole connecting the cylindrical surface of the rod of the drive of the working pump with the annulus and located at a distance from the upper end of the working rhnosti seal assembly housing, providing necessary pressure difference between the pump line and flick annulus annulus, improves reliability and simplifies the design of the downhole pump dual action as a whole.

In FIG. 1 shows a longitudinal section of a double-acting borehole pump with a hollow plunger of the working pump.

In FIG. 2 is a longitudinal sectional view of a hollow plunger containing an external contact type seal.

The double-acting well pump (see Fig. 1) contains kinematically interconnected submersible motor 1 with hydraulic protection 2, the drive of the working pump 3 and the working pump consisting of a working cylinder 4 connected in series with the housing of the sealing (stuffing box) assembly 5, on the inside the surface of which has a seal 6 made in the form of cuffs, o-rings, stuffing box or a combination of them, a hollow plunger 7 connected to the rod 8 of the drive of the working pump 3, while the diameter of the plunger 7 is larger the diameter of the rod 8, a discharge valve 9 is installed at the bottom of the hollow plunger 7. The head 10 of the working cylinder 4 is connected to the housing of the working pump by means of a coupling 11. The lower end of the working cylinder 4 is connected to the housing of the sealing (stuffing box) assembly 5 by means of a coupling 12. Plunger 7 and the rod 8 is kinematically connected in series with each other, can also be connected by a hinge node 13. The rod 8 is the rod of the drive of the working pump 3 and has a smooth and hardened cylindrical surface. The housing of the sealing (stuffing box) assembly 5 is attached to the base 14 of the drive of the working pump 3. The double-acting well pump is equipped with a bypass line 15 formed by a shell 16 of the working pump 3, on the outside covering the working cylinder 4. The bypass line 15 is connected to the cavity under the plunger 7 by at least one hole 17 located in the sleeve 12. The bypass line 15 is connected to the cavity of the tubing string 18 through the channel 19 in the sleeve 11. The cavity of the working cylinder The core 4 above the hollow plunger 7 is in fluid communication with the annular annular space through at least one hole 20 made on the sleeve 11, an annular groove 21 on the head 10, through a suction valve 22 installed in the head 10 and holes 23 in the head 10. B at the top of the working pump there is a fishing head 24, connecting the working pump to the tubing string 18, through which the formation fluid pumped by the pump is supplied to the surface. In the fishing head 24 to eliminate additional leaks at the time of changing the direction of longitudinal movement of the rod 8 can be installed check valve 25.

To eliminate leaks from the inner annular volume of the working cylinder 4 along the rod 8 into the inner volume of the drive of the working pump 3, the internal cavity of the housing of the sealing (stuffing box) assembly 5 is connected to the annular annular space by means of at least one hole 26 in the housing. The hole 26 is located at such a distance from the upper end of the housing of the sealing (stuffing box) assembly 5 that it provides the necessary pressure difference between the flow line of the pump and the annular annular space, which is maintained by the seal of the stuffing box 5 without leaks.

In an embodiment of the installation (see FIG. 2), the hollow plunger 27 may comprise a contact seal, for example, a polymer lip seal 28, a seal in the form of ground ground sealing rings 29, or a combination thereof.

The oil-filled drive 3 of a double-acting borehole pump can be a hydraulic actuator, a ball screw transmission or another transmission that converts rotational motion into reciprocating. Also, a linear electric motor can be used as a drive.

The double-well pump operates as follows.

When the pump unit is lowered into the well under the influence of hydrostatic pressure in the annular space of the well, the suction valve 22 and pressure valve 9 open, liquid from the annular space enters the cavity above the hollow plunger 7 of the cylinder 4 of the working pump, respectively, through the hole 20, the annular groove 21 on the head 10, the suction valve 22, and then through the open discharge valve 9, the holes 17, the bypass line 15 and the channel 19 in the sleeve 11, the fluid fills the tubing string 18 to the fluid level in the annulus of the well. When the submersible motor 1 is turned on, its torque is transmitted through a kinematically connected hydraulic protection 2 to the drive of the working pump 3, which converts the rotational movement of the electric motor 1 into the reciprocating motion of the rod 8 of the drive of the working pump 3. When the hollow plunger 7 and rod 8, which can also be interconnected by a hinge assembly 13, from the bottom up, the suction valve 22 is closed, and the discharge valve 9 and the check valve 25 are open. The reservoir fluid is displaced by the rod 8 from the cavity of the working cylinder 4 through the holes 17 in the sleeve 12, the bypass line 15, channel 19, the open check valve 25 into the cavity of the tubing string 18 to the surface. The hole 26 in the housing of the sealing (stuffing box) assembly is used to discharge into the well cavity leakage of formation fluid that may occur during operation and wear of the seal due to the pressure differential between the formation fluid column in the tubing string 18 and the annulus of the well. In this case, part of the seal 6 in the housing of the expansion (stuffing box) unit below the hole 26 will serve as a rod seal 8 working without pressure difference.

When moving the interconnected hollow plunger 7 and the rod 8, which can also be connected together by the hinge assembly 13 from the top point down, the discharge valve 9 closes, the suction valve 22 is open, the formation fluid from the cavity of the working cylinder 4 under the hollow plunger 7, through the hole 17 in the sleeve 12, the bypass line 15, the channel 19 in the sleeve 11, the check valve 25 and the tubing string 18 are displaced to the surface, at the same time the cavity of the working cylinder 4 is filled over the hollow plunger 7 of the reservoir fluid Stu annulus of the annular space through the opening 20, the annular groove 21 and the suction valve 22.

The total total supply of a double-acting borehole pump during the working cycle of the hollow plunger 7 and the rod 8 up and down will be determined by the volume of reservoir fluid filling the cavity of the working cylinder 4 above the plunger 7, however, due to the fact that the fluid supply is distributed as per stroke of the plunger 7 and rod 8 upward, and on the stroke of the plunger 7 and rod 8 downward, the axial force on the rod 8, which is the rod of the drive of the working pump 3 and on the other nodes of the drive of the working pump 3, will be determined during the upward movement by the differential pressure in the pump but-compressor pipes and in the annular annular space to the cross-sectional area of the rod 8, and when going downward by producing a pressure differential in the tubing 18 and in the annular annular space to the difference in the outer cross-sectional areas of the hollow plunger 7 and the rod cross-section 8 (with existing working clearances between the outer surface of the hollow plunger 7 and the inner surface of the working cylinder 4, you can take the difference in the cross-sectional areas of the hollow plunger 7 and the rod 8 equal to the area of the annular space between the inner surface Strongly working cylinder 4 and the cylindrical surface of the rod 8).

If the cross-sectional area of the rod 8 is equal to the annular space between the inner surface of the working cylinder 4 and the cylindrical surface of the rod 8, the axial force on the rod 8, which is the drive rod of the working pump 3, is distributed evenly throughout the entire working cycle.

The uniform distribution of the load on the drive of the working pump during the working cycle and the fact that the rod 8 of the working pump is the rod of the drive of the working pump 3, increases reliability and simplifies the design of the double-acting borehole pump as a whole.

Claims (5)

1. A double-acting borehole pump containing a submersible motor with hydraulic protection, a working pump drive that converts rotational motion into reciprocating, a working pump consisting of a working cylinder, a hollow plunger connected to a rod with a discharge valve installed in it, a cavity above the hollow the plunger is connected through the suction valve to the annular annular space, the cavity under the hollow plunger is connected to the bypass line formed by the shell, from the outside a melting working cylinder, the bypass line is connected to the discharge line of the pump, characterized in that the diameter of the hollow plunger is larger than the diameter of the rod, the working cylinder through the coupling is connected to the housing of the sealing assembly and the base of the working pump drive, the working pump drive rod is the working pump rod and passes inside the housing of the sealing unit, the housing of the sealing unit contains at least one hole connecting the cylindrical surface of the rod of the drive of the working pump with annular space and located at a distance from the upper end of the working surface of the housing of the sealing unit, providing the necessary pressure difference between the flow line of the pump and the annular annular space. 2. The double-acting well pump according to claim 1, characterized in that the rod has a polished and hardened cylindrical surface. 3. The double-acting well pump according to claim 1, characterized in that the area of the annular space between the inner diameter of the working cylinder and the diameter of the rod is equal to the cross-sectional area of the rod. 4. The double-acting well pump according to claim 1, characterized in that the hollow plunger is connected to the rod by a hinge assembly. 5. The double-acting well pump according to claim 1, characterized in that the hollow plunger contains an external contact-type seal, for example a polymer lip seal or a seal in the form of ground grinding o-rings, or a combination thereof, relative to the inner surface of the working cylinder.

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