SU1416753A1 - Deep-well sucker-rod pump - Google Patents

Abstract

Invention m. used in the oil and gas industry and allows you to improve the operational reliability and durability of the pump. The working body is made in the form of a rolling diaphragm (PD) 4 having a floating sleeve with toroidal upper and lower ends 10 and 11 and through slots on the side surface 13. The discharge valve placed in the PD is installed with the possibility of communication of the cylinder cavities and PD and a cylindrical rod (CA) 14 is connected with the rod 8. The sleeve is installed coaxially with the CA with the possibility of interaction of the end 11 with the inner concave surface of the lower part of the PD. The diameter of the CA is made larger than the diameter of the valve body 15. This embodiment creates an accelerated movement of fluid flow in the pump between the sleeve and DC, sleeve and CA ,. as well as in the cavity of the housing 1, thereby improving the removal of mechanical impurities in the pumped-out liquid on the concave part of the PD and the valve. 2 Il. with "6 (LM Od 4J SP with tPae.l

Description

The invention relates to a technique for lifting liquids from large depths, in particular to dual boom pumps, and can be used in oil and gas and other industrial fields.

The purpose of the invention is to increase the operational reliability and durability.

FIG. 1 shows a schematic representation of a borehole sucker-rod pump with the lowest position of the rotary diaphragm; a general view; FIG. 2 is a section A-A in FIG. one.

The downhole sucker-rod pump comprises a housing connected to the housing 1, a cylinder 2, a suction valve 3 installed in the cylinder 2 and a working member in the form of a rolling diaphragm 4 located in its lower part having a concave surface 5, an injection valve 6 installed with the possibility of cavity communication the cylinder 2 and the rolling diaphragm 4 and connected with the stem 8 passing through the guides 7 of the housing 1, which is connected to the column of pump rods (not shown).

1416753. 2

(not shown) enters the cavity of the cylinder 2 of the pump. When this discharge valve 6 is closed by the pressure of the column

 fluids in pump tubes (not shown), and the well fluid that has arrived earlier from the cavity of cylinder 2 into the cavity of the rolling diaphragm 4 and the body I is pumped

10 by diaphragm 4 into the pump tubes and further into the discharge line of the well (not shown). In turn, it lies freely on the lower part, which has a concave surface 5 that rolls

15, the diaphragm 4, the floating sleeve 9 with toroidal ends, moves simultaneously with the turning diaphragm, and as it moves upward, the lower toroidal end 11 of the floating sleeve rolls around the inside concave surface 5 of the bottom part of the turning diaphragm. The presence of an additional cylindrical rod 14, having a larger

25 compared with the housing 15 of the discharge valve 6 diameter, and through slots 12 on the side surface 13 of the floating sleeve 9 creates an accelerated movement of fluid flow in the pump

The rolling diaphragm 4, additionally 30, between the floating sleeve and the rolling element, is provided with a floating sleeve 9 with a toroidal top 10 and bottom and ends and through slots 12 on the side surface 13. The discharge valve 6 is connected with the rod 8 by means of additional cylindrical rod 14. 11 cladding sleeve 9 is installed coaxially cylindrical. the rod 14 with the possibility of the lower toroidal end face 40 .11 of the floating vatu 9 with the inner concave surface of the lower part of the rolling diaphragm 4, and the diameter of the additional cylindrical rod 14 is larger than the diameter 45 of the housing 15 of the discharge valve 6. The body 15 of the discharge valve 6 has inclined holes 16 for the passage of fluid.

diaphragm, floating sleeve and additional cylindrical rod, as well as in the cavity of the housing 1, thereby improving the removal of the mechanical impurities.

As the pump rod string travels along with the pump rod 8 down, the suction valve 3 closes, and the discharge valve 6 opens and fluid from the cavity of the pump cylinder 2 through the inclined holes 16 in the pressure valve housing 15 begins to flow into the cavity of the rectifying diaphragm 4 and further to the pump casing 3.

In doing so, the discharge valve body exits from the openings 16.

between the floating sleeve and rolls

diaphragm, floating sleeve, and additional cylindrical rod, as well as in the body cavity, thereby improving the removal of the impurities;

As the pump rod string travels along with the pump rod 8 down, the suction valve 3 closes, and the discharge valve 6 opens and fluid from the cavity of the pump cylinder 2 through the inclined holes 16 in the pressure valve housing 15 begins to flow into the cavity of the rectifying diaphragm 4 and further to the pump casing 3.

In doing so, the discharge valve body exits from the openings 16.

The borehole sucker-rod pump, working 5o the liquid jet, hitting the plane of the arcuate portion of the floating sleeve 9, causes the latter to turn, which, together with rolling the diaphragm around the lower toroidal end 11 of the floating sleeve, prevents the deposition of impurities on the lower part of the concave 5 of the diaphragm and the discharge valve as well

em as follows.

During the course of the string of pump rods and with it the pump rod 8 upwards, the associated cylindrical rod 14, the discharge valve 6 and the diaphragm 4 moving upwards move upwards together with the rod. The suction valve 3 opens and the well from the well

the bone of the arcuate part of the floating sleeve 9 causes the latter to turn, which, together with the rolling of the diaphragm around the lower toroidal end 11 of the floating i sleeve, prevents the deposition of mechanical impurities on the lower part of the concave, the surface 5 of the diaphragm and the discharge valve, and

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Claims (1)

Claim A well sucker-rod pump containing a housing, a cylinder connected to the housing, mounted in the cylinder • a suction valve and a working body in the form of a rolling diaphragm with a discharge valve installed in its lower part having a concave surface, which is installed to communicate with the cylinder cavities and the rolling diaphragm and connected with a rod passing through the housing guides, which is connected to a string of pump rods, characterized in that, in order to increase operational reliability and durability, p the rolling diaphragm is additionally equipped with a floating sleeve with toroidal ends and through holes on the side surface, the discharge valve is connected to the rod by means of an additional cylindrical rod, and the floating sleeve is mounted coaxially to the cylindrical rod with the possibility of interaction of the lower toroidal end with the inner concave surface of the lower part of the rolling diaphragm, the diameter of the additional cylindrical rod is greater than the diameter of the discharge casing Lapa. -A figure 2