RU13067U1 - Borehole PUMP PUMP - Google Patents

Abstract

(19) Russian Federation (RU)

(54) Well pump

(57) Use: petroleum engineering, in particular, equipment for oil production.

The problem to be solved: improving the reliability of the sucker rod pump in viscous fluids with a high content of narafine, resins and in deviated wells.

Dryness of the invention: draining, there is a forced opening and closing of the discharge valve, articulated with the pump drive rods. The pump comprises a cylinder 1, in which a plunger 2 is placed with a discharge valve 3, articulated through an adapter 4 and an adapter 5, with rods 6 of the pump drive. In the upper part of the plunger 2, a centralizer 7 of the rod 4 is placed, and in its lower part a seat 8 and a centralizer 9 of the discharge valve 3.

Description

Borehole PUMP PUMP

A useful model of a downhole sucker rod pump relates to the field of petroleum engineering, in particular to pumping units for oil production.

Well-known sucker rod pumps for oil production, containing a cylinder, plunger, rod, rods, suction and discharge valves, in which both valves are made in the form of a ball and open and close by the fluid flow during the reciprocating movement of the pump plunger in the cylinder (Adonin A.N. Oil production by sucker rod pumps, - Nedra. 1979 from 7-8).

Rod pumps are divided into plug-in and non-ballast. In plug-in pumps, the cylinder, plunger, suction and discharge valves are lowered on the rod string, in the non-inserted cylinder, it is lowered on the tubing, and the plunger with suction and discharge valves are lowered on the rod string, and in both types the discharge and suction valves operate from liquid flow (Deep oil sucker rod pumps // Catalog .- Tsintihimneftemash.- M., 1973-p. 3, Well sucker-rod pumps for oil and gas production // Catalog .- Tsintihimneftemash.- M., 1980 - p. 13).

The disadvantage of these designs is the unreliability of the discharge valve in viscous fluids with a high content of paraffin and resins, when the valve becomes clogged with these products and passes through the pumped liquid from the oil reservoir during the reciprocating movement of the pump plunger. In addition, in deviated wells, ball valves do not provide tightness, as they sink onto the side surface of centralizers under their own weight, reducing the fill factor

pump.

A well-known sucker-rod pump (ed. St. No. 1756627, MKI F 04 B 47/02), in which the pump is equipped with an additional discharge valve installed in the bottom of the shock absorber’s moving bottom to increase productivity by increasing the filling factor during pumping of carbonated formation fluids and the main discharge valve is installed on the upper end of the plunger. However, in this well pump, both discharge valves also operate from fluid flow, and under viscous fluids, this design does not provide reliable valve operation.

The closest to technical dryness is the design of the pump, its contents, its cylinder with a suction valve, its valve, size, a plunger with a discharge valve in the cylinder, and the plunger is connected to the string of sucker rods through the rod and rod sub (well sucker rod pumps for production oil and gas // Catalog .- Tsintihimneftemash .- M.- 1980 -s 4-7).

This design also does not ensure the effective operation of the discharge valve in viscous liquids with a high content of paraffin and resins, since here, as in other designs, the valve works from the fluid flow.

The proposed solution provides increased reliability of the sucker rod pump in highly viscous oil, as well as inclined wells by forcing opening and closing the discharge valve. To do this, in a sucker rod pump containing a cylinder with a suction valve, a valve, a plunger with a discharge valve located in the cylinder, a rod, pump drive rods, stem and valve centralizers, the discharge valve is connected through the rod and the adapter to the pump drive rods and affects the stroke of the plunger .

2 FIG. 1 and 2 show a structural diagram of a sucker rod pump.

during the course of the nlunger down and during the course of the nlunger up.

The sucker rod pump has a cylinder 1, in which there is a plunger 2 with a discharge valve 3, articulated through the rod 4 and the adapter 5 with the sucker rods 6 of the pump drive; a centralizer 9 of the discharge valve 3. The suction valve of the rod pump is well known and is not shown in FIG.

The sucker rod pump operates as follows. The plunger 2 has a reciprocating movement in the cylinder 1 (solid arrows) from the action of the rods 6 of the pump drive. When the plunger 2 moves downward (Fig. 1), the discharge valve 3 opens with the stem 4 and the liquid overflows from under the plunger zone into the supraplunger (intermittent arrows).

When the rods 6 move upward (FIG. 2), the valve 3 sits in the seat 8 and carries the plunger 2, the liquid in the supra-plunger part rises to the surface while the liquid is sucked from the oil reservoir through the suction valve into the sub-plunger part. Further, the cycle is repeated many times.

Thus, due to the direct effect of the pump drive rods on the discharge valve, the opening and closing of the discharge valve occurs in any conditions, including viscous fluids and deviated wells.

3

Claims (1)

A downhole sucker rod pump comprising a cylinder with a suction valve, a plunger with a discharge valve located in the cylinder, a rod, a rod adapter, a pump drive rod, a rod centralizer and a valve, characterized in that the discharge valve is connected through the rod and the adapter to the pump drive rods.