SU1288349A1 - Well sucker-rod pump - Google Patents

Abstract

The invention relates to hydraulic engineering and can be used in the oil industry when pumping formation fluids from a well 1. The purpose of the invention is to increase reliability by reducing the impact loads on the discharge valve (K). In the cylinder 1 with the suction K 2 placed plunger 3 and a telescopic shock absorber (TA) 7. In (O

Description

the plunger 3 is installed injection K 4 with located in its nipple 5 shut-off element (WE) 6. TA 7 installed on the side of the lower end of the nipple 5 and is designed as a shank 8 with a stop 9 and movably mounted on the shank B of the cup 10 with a lid 11 and a hole 12 in its bottom part. The limiter 9 is located with the ability to interact with the cap 11 during the course of the plunger 3 up. The suction K 2 when the plunger 3 moves up opens and the formation fluid fills the cavity of the cylinder 1. When the plunger 3 moves down

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The invention relates to hydraulic engineering, in particular, to well pumping pumps, and can be used in oil production when pumping formation fluids from wells.

The purpose of the invention is to increase reliability by reducing the shock loads on the discharge valve.

The drawing shows a schematic well pump, a general view. .

The pump contains cylinder 1 with suction valve 2 installed in it, plunger 3 placed in cylinder 1, in which pressure valve 4 with stop valve 6 located in its nipple 5 is installed, and telescopic shock absorber 7. Telescopic shock absorber 7 is installed on the lower end side the nipple 5 and is made in the form of a shank 8 with a stopper 9 and a cup 10 movably mounted on the shank 8 with a cap 11 and a hole 12 in its bottom part. The limiter 9 of the shank 8 is located with the ability to interact with the cap 11 of the glass 10 during the course of the plunger 3 up.

Downhole pump pump works as follows.

As the plunger 3 moves upward, the suction valve 2 opens and the formation fluid fills the cavity of cylinder 1.

K 2 closes and opens ZE 6. The glass 10 under the action of the fluid moves up the shank 8 by the stroke allowed by the stopper 9. Thus, TA 7 hydraulically absorbs the mechanical energy of the impact on the pressure K 4 due to the resistance of the fluid as it moves from one cavity to another through channels of small section. Then, as the plunger 3 moves upwards, the ZE 6 closes and the fluid is forced out to the surface. The cup 10 returns to its original position, K 2 closes. 1 il.

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As the plunger 3 moves downward, the suction valve 2 closes and the shut-off element 6 of the discharge valve 4 opens, the latter being immersed in the liquid together with the plunger 3. The glass 10 under the action of the fluid in the cylinder 1 begins to move up the shank 8 by the amount of stroke allowed by its guard 9. Thus, the telescopic shock absorber 7 formed by the movable cup 10 with the lid 11 and the hole 12 in its bottom part installed on the shank 8 and placed on the nipple 5 by the shank 8 with the stop 9, hydraulically absorbs the mechanical energy of the impact of the discharge valve 4 due to the resistance of the fluid as it moves from one cavity to another through channels of small cross section (not marked).

During the subsequent stroke of the plunger 3, the shut-off element 6 of the discharge valve 4 closes up, and the fluid that has entered during the previous stroke of the plunger from the cylinder 1 into the tubing string (not shown) is displaced to the surface. The glass 10 under the action of its own weight returns to its original position, interacting with its claw 11 with the stopper 9 of the shank 8. At the same time, the suction valve 2 opens.

31288349

Claims (1)

The invention claims that, in order to increase reliability, telescopic shock absorber, installation of a borehole sucker-rod pump, contained on the side of the lower end of the nipple, a stinging cylinder installed in it and made in the form of a shank with a restricting valve, placed in 5 pitcher and movably mounted cylinder, a plunger in which the shank of the cup with hip is fitted and an injection valve with an opening in its bottom part was added, with a locking stop of the shank placed in its nipzel located by the element, and a telescopic shock absorber with the ability to interact with the roof A torus characterized in that the cup with the plunger running upwards.