RU69632U1 - Borehole PUMP PUMP - Google Patents

Abstract

The utility model relates to the oil and gas industry, in particular, to technical means for lifting liquids from wells by sucker rod pumps.

The technical task of the utility model is to ensure the reliability of the downhole sucker rod pump while increasing the resource, productivity and quality of the work performed.

The downhole sucker rod pump comprises a cylinder with a suction valve and a plunger with a discharge valve located therein, representing a pipe with an internal thread at the ends and a cylindrical bore (sanding element) of the plunger. According to a utility model, the sanding element is made in the form of spring bushings mounted on threaded inserts and located at the ends of the plunger, the diameters of the spring bushings and plunger being made equal.

1 s.p. f-ly, 2 ill.

Description

The utility model relates to the oil and gas industry, in particular, to technical means for lifting liquids from wells (containing mechanical impurities and resin-paraffin deposits) by sucker rod pumps.

A well-known sucker-rod pump comprising a cylinder with a suction valve and a plunger located in the inner working surface of the cylinder with a pressure valve installed therein. The plunger is a pipe with annular grooves on the outer surface and with an internal metric thread at the ends. At the upper end of the plunger is a cylindrical bore (sandblast). The outer working surface of the plunger has a hard wear-resistant (chrome) coating. (Well sucker-rod pumps for oil production. Catalog TSINTIKHIMNEFTEMASH, Moscow, 1988, p.31.)

A disadvantage of the known design of a borehole sucker-rod pump is that the sanding element of the plunger wears out faster than the plunger itself, which leads to premature failure of the plunger. Another disadvantage is that the wear-resistant (chrome) coating applied to the sanding element of the plunger can peel off from the base metal due to its small thickness. And as a result of the formed abrasive in the liquid, the plunger is stuck in the cylinder and the plunger-cylinder pair is worn. In addition, jamming of the plunger in the cylinder occurs as a result of accumulated sludge in the gap of the working pair "plunger-cylinder", since this design of the plunger does not allow to carry out the accumulated sludge. All this leads to failure of the rod pump. The pump has a low service life.

The technical task of the utility model is to ensure the reliability of the downhole sucker rod pump while increasing the resource, productivity and quality of the work performed.

The technical result is achieved by the fact that in a borehole sucker rod pump consisting of a cylinder with a suction valve and a plunger placed therein with a discharge valve representing a pipe with an internal thread at the ends and a cylindrical bore (sand-removing element) of the plunger, according to a utility model, the sand-removing element is made in the form spring bushings placed on threaded inserts that are installed at the ends of the plunger, and the diameters of the spring bushings and plunger are made equal.

With this embodiment of the plunger, where the sanding element is removable, it becomes possible to replace it in case of failure, thereby increasing maintainability. At the same time, the working surface of the cylinder remains clean along the entire length and when replacing the pump stroke length with a large one, the plunger does not jam in the cylinder, thereby ensuring reliable operation of the cylinder-plunger pair and increasing the durability of the pump.

Figure 1 shows a downhole sucker rod pump, General view.

Figure 2 shows a plunger with a sanding element.

The downhole sucker rod pump consists of a cylinder 1 with a suction valve 2 and a plunger 3 with a pressure valve 4 located on the inner working surface of the cylinder 1. The plunger 3 is a pipe 5 with internal threads at the ends and annular grooves on the outer surface of the plunger 3. At the ends of the plunger 3 threaded inserts 6 are installed, with spring bushings placed on them 7. The spring bush 7 is made with a diameter equal to the diameter of the plunger 3.

The downhole sucker rod pump operates as follows.

The plunger 3 of the downhole sucker rod pump is connected by rods to the sucker rod pump drive. A downhole sucker rod pump is lowered into a well to extract fluid from a tubing string. When the rods move up, the spring sleeve 7, experiencing friction against the walls of the cylinder 1 and the pressure of the liquid column, is compressed in the longitudinal

direction, respectively, there is an increase in the size of the spring sleeve 7 in diameter. As a result, the spring sleeve 7 is pressed against the mirror surface of the cylinder 1 of the rod pump. Deposits (salt, sand, paraffin deposits) formed on the mirror surface of the cylinder 1 are cut off by the sharp edges of the spring sleeve 7 and accumulate in the spiral groove formed by the coils of the springs. When the plunger 3 reaches its upper position, the spring sleeve 7 goes into the extension cord, deposits accumulated in the spiral groove are carried out by the fluid flow. The lower spring sleeve 7 experiences tension, respectively, its diameter decreases and does not impede the movement of the plunger 3.

When the rods move down, the lower spring sleeve 7 is compressed in the longitudinal direction and expands in diameter, the upper spring sleeve 7 is reduced in diameter. The deposits formed on the mirror surface of the cylinder 1 are cut off by the sharp edges of the spring sleeve 7 when the plunger 3 exits the cylinder 1 into the rod pump extension and the deposits accumulated in the turns of the spring sleeve 7 are removed by the fluid flow.

Such use of a borehole sucker rod pump makes it possible to increase its reliability and durability by reducing wear and jamming of the plunger in the pump cylinder, to increase the service life and the overhaul period of the pump in sand-producing wells, as well as those containing resin-paraffin deposits.

Claims (1)

A well sucker rod pump comprising a cylinder with a suction valve and a plunger with a pressure valve disposed therein, representing a pipe with an internal thread at the ends and a cylindrical bore — a sand-removing element of the plunger, characterized in that the sand-removing element is made in the form of spring bushings placed on threaded inserts, which are installed at the ends of the plunger, and the diameters of the spring bushings and the plunger are made equal.