SU1239401A2 - Borehole sucker-rod pump - Google Patents

Description

The invention relates to the technique of oil production, in particular to well borehole pumps, can be used when pumping gas-liquid mixtures from inclined wells and is an improvement of the device according to the author. St. No. 1035282.

The purpose of the invention is to increase the efficiency when pumping gas-liquid mixtures from inclined wells.

. The drawing schematically shows a downhole sucker rod pump, a general view.

The proposed pump contains a working pair of plunger 1 - cylinder 2 with installed in them, respectively, discharge 3 and suction 4 valves. A filter 7 is connected to the intake 5 of the pump 6 and is connected to the intake of the pump. The filter 7 is made in the form of a finned cargo 8 (not shown), and its connection to the intake 5 of the pump 6 is made with a flexible hose 9. The ribs (not shown) are located on the body 10 of the cargo 8 and prevent the filter opening 11 from closing 7 casing 12 wells at the points of contact. Under the weight of finned weight 8, the filter 7 is always on the lower generatrix of the casing 12. A bellows 13 is placed in the internal cavity of the filter 7, one end 14 of which is open, and the second end 15 communicates with pump 5 intake 5. The open end 14 of bellows 13 is provided with a reverse valve 16 with 17 stroke limiter. A stop valve cell 18 (not labeled) of the check valve 16 is installed in the lower part of the body 10 of the filter 7, and the stop 17 of the valve is designed as a rod 19 placed in the bellows 13 and rigidly connected to the upper end of the body 10 of the filter 7.

Well pump works as follows.

After installing the pump 6 in an inclined well under the action of the weight of the load 8, the body 10 of the filter 7 lies on the lower forming casing 12 of the well. The bellows 13 under the action of its weight and elastic forces is pulled out and completely occupies the space in the housing 10. The open end 14 of the bellows 13, which is the seat of the locking element of the check valve 16, is pressed against the latter.

During the course of the plunger 1 of the pump 6 up there is a suction stroke, the liquid from

0

bellows 13 flows into the cylinder 2 of the pump. The pressure inside the bellows 13 decreases and the valve check valve 16 is pressed against the pressure opening 5 of the open end 15 of the bellows 13. As the plunger continues upward, the liquid continues to flow from the bellows 13 to the cylinder 2 of pump 6, and the bellows 13 continues to decrease. The volume of the body 10 of the filter 7 released by it is filled with a fluid that flows evenly through the holes 11 in the body 10. At the end of the bellows stroke 13 upward, the ball valve element of the check valve 16 reaches its stroke stop 17 - rod 19. The pressure drop continues to act on the bellows 13 and under its action the ball valve of the check valve 16 is pulled off the seat. After that, under the influence of gravity, it is lowered into the lower part of the housing 10 into the cell 18.

0 When the plunger 1 of pump 6 moves down the bellows 13 under the action of gravity and elasticity, it stretches and occupies the entire volume of the body 10 of the filter 7, i.e. it occupies the initial position. In this case, through its open end 14, the bellows 13 is filled

 liquid without gas, located in the housing 10.

The downhole sucker-rod pump will also work if the non-return valve 16c is removed from it by the restriction 17 of the stroke.

In this case, when the plunger 1 of the pump 6 moves upwards through the open end 14 of the bellows 13, the fluid flow is variable, which also causes its variable speed (it varies sinusoidally). It is known that the pressure loss on local resistances, which is the hole in the open end 14 of the bellows 13, is expressed by the formula

AR, | m -,

0 where 1l is the local resistance coefficient;

V is the fluid velocity; p is the density of the liquid. Thus, the greater the velocity of the fluid, the greater the pressure differential acting on the bellows 13, the more it decreases. This means that the liquid is drawn uniformly.

Claims (2)

1. WELL BAR YOUR PUMP by ed. St. No. 1035282, characterized in that, in order to increase its efficiency when pumping gas-liquid mixtures from deviated wells, the inner cavity of the filter is equipped with a bellows, one end of which is open and the other in communication with the pump. 2. The pump according to π. 1, characterized in that the open end of the bellows is equipped with a check valve with a stroke limiter, the cage of the locking element of which is installed in the lower part of the filter housing, and the stroke limiter is made in the form of a rod placed in the bellows and rigidly connected with the upper end of the filter housing. > ho