SU1707236A1 - Self-cleaning filter of sucker-rod pump - Google Patents

Abstract

The invention relates to a technique for producing oil and can be used in oil wells equipped with sucker rod pumps. The purpose of the invention is to increase the efficiency in operation by allowing the cleaning of both the outer and inner surfaces of the filter. The self-cleaning filter of the downhole sucker-rod pump 1 consists of a perforated shank 2, a cleaning device 3 centrally located on it, and a stopper lamp 5. The cleaning device 3 is made in the form of a helix 4 that grips the perforated shank 4. The cleaning device 3 is additionally equipped with a device tanned xcentric-centric perforated cup 6, rigidly connected with a retaining lantern 5, and the perforated shank 2 of the coil 2 spiral 4 is made in the form of a sealed elastic a grooved cylindrical element connected by an upper end with a perforated shank 2 above its perforation zone, and is mounted for mobility in the axial direction, while the lower end of the hermetic elastic corrugated cylindrical element is connected with the upper end of an additional fixed perforated cup 6. The stop located on The inner surface of the additional fixed perforated shank 2 serves to extract the self-cleaning filter from the well. 2 Il. Co c vj o x | You cj o

Description

The invention relates to a technique for producing oil and can be used in oil wells equipped with sucker rod pumps.

The purpose of the invention is to increase the efficiency of the filter.

The goal is achieved by the fact that the cleaning device is additionally equipped with a fixed, fixed concentric perforated back joint

perforated cup rigidly connected to the stop lamp, and the spiral engaging the perforated shank is made in the form of a sealed elastic corrugated cylindrical element connected to the upper end of the perforated shank above its perforation zone and installed in the axial direction with the lower end of the hermetic elastic the corrugated cylindrical element is connected to the upper end of the additional fixed perforated glass.

FIG. Figure 1 shows schematically a self-cleaning 5 filter of a downhole sucker-rod pump, with the plunger running upwards; Fig 2 is the same when the plunger moves down.

The self-cleaning filter of the downhole sucker-rod pump 1, located on the 10th column of pumping tubes (not shown), consists of a perforated shank 2 installed in the lower part of the casing (not marked) and associated with it. as well as a cleaning device 3 in the form of a perforated shank 2 of helix 4 and a stop lamp 5. The cleaning device 3 is additionally equipped with a fixed perforated cup 6, which is rigidly connected to a stop lamp 20

5. And the perforated shank 2 helix 4 is made in the form of a hermetic elastic corrugated cylindrical element 7, connected by its upper end with a perforated 25 shank 2 above its perforation zone, and is installed with the possibility of mobility in the axial direction, while the lower end of the sealed one elastic corrugated cylindrical element 7 cb - 30 is engaged with the upper end of the additional fixed perforated glass

6. The stop 8, located on the inner surface of the additional fixed perforated cup 6, and the stop 9. 35 located on the outer surface of the perforated shank 2, are used to remove the self-cleaning filter from the well (not indicated). A pump with a self-cleaning filter mounted in the lower part of the casing is lowered into the well on the tubing and compressor piping string and operates as follows.

When the plunger (not indicated) of the well pump rod pump 1 up (suction process), the tubing string, on which the pump with the described filter is suspended, is reduced by a certain amount. With this, the perforated shank 2 moves upward and carries the end of the sealed elastic corrugated cylindrical element 7 attached to it. Due to the fact that the other end of the sealed elastic corrugated cylindrical element 7 remains fixed (it is attached to an additional fixed perforated glass 6 which

associated with a stopper lamp 5 fixedly fixed in the well), this element is stretched and the annular space A of the cleaning device 3 is filled with filtered liquid. When the plunger of the downhole pump 1 moves down, the tubing string is extended. In this case, the perforated shank 2 moves down and carries the end of the sealed elastic corrugated cylindrical element 7 attached to it. As a result, the other end of this element remains stationary (described above), the compression of the sealed elastic corrugated element 7 occurs (reduction of the volume of the annular space A ). As a result, the fluid in this cavity is expelled from the self-cleaning filter to the outside, washing out the contaminants that fill the cavity of the filter cells (not indicated) of the additional stationary perforated cup 6, and the particles that have settled on its outer surface. Then the cycle is repeated.

The use of the filter of the proposed design increases the cleaning efficiency of the filter element and, as a consequence, increases the efficiency of the downhole equipment.

Claims (1)

Invention Formula A self-cleaning filter of a downhole sucker-rod pump located on a column of pumping pipes and consisting of a perforated shank installed in the lower part of the casing and associated with it, as well as a cleaning device in the form of a perforated gripping shank of the helix and a stop lamp, characterized in that increase in operating efficiency by providing the possibility of cleaning both the external and internal surfaces of the filter, the cleaning device is additionally equipped with an installed concentration perforated liner fixed perforated cup rigidly bound with the locking lantern. and the helix perforated shank spiral is made in the form of a hermetically elastic corrugated cylindrical element, connected by its upper end with a perforated shank, above its perforation zone, and is mounted for movement in the axial direction, while the lower the end of the hermetic elastic corrugated cylindrical element is connected with the upper end of the additional fixed perforated glass. 1 Fie.2