SU1650956A1 - Well sucker-rod pump - Google Patents

Abstract

Invention m. used in the operation of absorbing wells with penetrations. The purpose of the invention is to increase the operational reliability and eco-friendly borehole sump pump by ensuring the separation of the borehole cavity. In the cylinder 1 there is a hollow plunger 2 with a discharge valve 3 A nozzle (P) 4 is connected with the lower part of the cylinder 1 and provided with restrictive projections 5 in its upper part. In P 4, piston 6 is interlocked with protrusions 5. Piston 6 is provided with a hollow rod 9 at its lower end which is discharged into the bore 8 and is hollow and spring-loaded relative to the lower end of P 4. Suction valve 7 is located in piston 6 from the upper end of the rod 9, at the lower end of which a hydraulically expanding disconnector 11 is placed. The string 12 of the uncoupler 11 is adapted to communicate with the cavity of the rod 9 1 sludge.

Description

The invention relates to a technique for oil production, in particular, to well pumps, and can be used in the oil and gas industry in the operation of absorbing wells with sand deposits.

The purpose of the invention is to increase the operational reliability and environmental friendliness in absorbing sand-control wells by ensuring the separation of the cavity of the well.

The drawing schematically shows the proposed well sucker rod pump.

The downhole sucker-rod pump contains a cylinder 1 mounted in cylinder 1 a hollow plunger 2 with a discharge valve 3 connected to a cylinder 1 in its lower part a branch pipe 4, provided with restricting projections 5 in its upper part, and a piston 6 installed in a branch pipe 4, mounted with the possibility of interaction with restrictive protrusions 5, as well as the suction valve 7, the piston 6 placed in the pipe 4, is equipped with its lower end of the hollow rod 9 which goes into the bore 8, is hollow and spring-loaded through the spring 10 relative to ishnego end nozzle 4. The suction valve 7 is executed in the hollow piston 6 by the upper end of the hollow shaft 9 at the lower end of which is exiting the borehole 8, razmea ene hydraulically expandable cavity disconnector 11 12 11 uncoupler configured to communicate with

the cavity of the rod 9 through the holes 13 in the wall of the hollow rod.

The cylinder 1 of the pump is connected to the column of pumping pipes 14, and the hollow plunger is connected to the 2nd column of pump rods 15. A well 8 communicates with a sand-defining formation 16 which has absorbing open zones (not shown), The pump operates as follows, During the process of launching another well pump into the well 8 of the well, the diameter of the splitter 11 is smaller than the diameter of the casing (not shown) of the well, and the suction 3 and injection 7 valves freely pass the liquid, therefore no pistoning occurs. The disconnector 11 is installed above the filter (not shown in the drawing) of the well at a distance of several meters, but not less than the length of the disconnector. The commissioning of a downhole sucker-rod pump leads to a lowering of the level in the well 8 to a dynamic level and the influx of fluid from the formation 16 into the well with a constant flow rate. In the drained zones of formation 16, along with the produced fluid, sand particles are carried along to the well. When the hollow plunger 2 moves upward, the suction valve 3 is closed for some time by squeezing the liquid in the cylinder 1 between the lower end of the hollow plunger 2 and the upper end of the spring-loaded piston 6, and after the piston 6 stops in the limbs 5, the suction valve 3 opens and the cylinder 1 is filled through the cavity of the piston 6 and the holes 13 in the wall of the hollow rod 9. During the subsequent course of the hollow plunger 2 down the suction valve 3 is closed, the weight of the liquid column in the column of pump tubes 14 is transmitted to the spring-loaded piston 6, which The valve is displaced downwardly with the hollow rod 9 and the hydraulically expanding disconnector 11. The pressure under the disconnector 11 increases sharply, the disconnector expands due to the transfer of pressure through the cavity of the rod 9 and the orifice 13, in its wall into the internal cavity 12 of the disconnector 11 and the latter moves like a piston, Intensive displacement of the wellbore 8 from the cavity of the reservoir 16, the volume of the borehole fluid over the stroke of the piston 6, is worn out (the most picky) of the well 6. Sand grains in the near-wellbore region of the aforementioned reservoir zones acquire high velocity and discarded deep into the formation. Such a pulse increase in pressure repeated many times during pump operation results in a seal

sand accumulations in fractured zones of the reservoir and their blockage, as a result of which the pressure on the contour of the oil reservoir is redistributed in favor of the unsaturated areas of the reservoir and its oil recovery increases.

In cases of abundant sand occurrence, when sand partially nevertheless enters the well 8 and accumulates in its cavity in the 0 interval of the well filter, reducing the flow of fluid into the well, the sand plug is used without ground flushing units, cyclically pushing into the absorbing layer. 16 well fluid. To do this, the pump and the sucker rod of the pump rods 15 are removed from the well 8 and the tubing string with the uncoupler 11 is driven back and forth with the help of a tractor-lift (not shown). By increasing the column of pumping pipes, the plug is flushed over the entire height. Then the pump is lowered to the previous level in the well 8 and its operation is resumed.

Compression of the spring 10 and the friction of the disconnector 11 against the wall of the casing string of the well 8 during operation smooths the loading-unloading characteristic of pump 0 pump columns 14 and rods 15 from periodically transferring the weight of the liquid column from one column to another, which reduces the accident rate of the columns.

Claims (1)

Claim 5 Investigation of a borehole sucker-rod pump comprising a cylinder, a hollow plunger mounted in a cylinder with a discharge valve, connected to a cylinder in its lower part, a branch pipe, provided with restrictive lugs in its upper part and a piston installed in the branch pipe, installed with the possibility of interacting with restrictive protrusions, as well as a suction valve, characterized in that 5, in order to increase operational reliability and environmentally friendly ™ in absorbing sand producing wells by providing The borehole cavity, placed in the nozzle, is equipped with a hollow rod with its lower end, which goes into its wellbore, is hollow and spring-loaded relative to the lower end of the nozzle, and the suction valve is located in the hollow piston from the upper 5 end of the hollow rod, at the lower end of which a hydraulically expanding disconnector is disposed, the latter cavity being adapted to communicate with the stem cavity. . 75 2 .5 -6 -9 -Ч -10