SU1101583A1 - Borehole sucker-rod pumping unit - Google Patents

Abstract

1. Borehole shtangovaya pump installation according to ed. St. No. 931961, characterized in that, in order to increase efficiency in operation when pumping viscous liquids with low gas content, the compensator is provided with a spring-loaded valve and piston installed respectively in the upper and lower parts of the cavity of the compensator, and the lower part of the cavity of the compensator is equipped with a short ledge located above the bore For limiting the piston stroke downwards. 2. Installation according to claim 1, characterized in that the compensator is provided with a sealing element mounted above the annular shoulder. (L

Description

I.

sd

00 00 The invention relates to oil production technology, in particular, well pumping sucker-rod units, and can be used in the extraction of viscous structure-forming oils and oil emulsions. According to the main author. St. 931961 is known for a well sucker-rod pumping unit comprising a pump, a column of pumping pipes and rods, and compensators made in the form of nozzles, which form cylindrical chambers, the inner cavities of which have a lower part connected by holes to the inner cavity of the column of pumping pipes, and the nozzles are fixed and the holes are made directly in nozzles 1. A disadvantage of the well-known downhole pumping unit is its low efficiency in pumping out tight spheres with low gas content, As the volume of air filling the compensator chamber under normal atmospheric pressure decreases as the pressure increases in proportion to the pressure increase and as the pressure increases from 0.1 MPa to 10 MPa, the volume of air in the compensator chamber decreases by a factor of 100. The purpose of the invention is to increase the efficiency in operation when pumping viscous liquids with low gas content. This goal is achieved due to the fact that in the downhole pumping unit the compensator is provided with a spring-loaded valve and piston installed respectively in the upper and lower parts of the compensator cavity, and the lower part of the compensator cavity is provided with an annular ledge located above the orifice to limit the piston stroke downwards. In addition, the compensator is provided with a sealing element mounted above the annular shoulder. FIG. F schematically shows a well pumping unit, general view; in fig. 2 — node 1 in FIG. 1. The downhole pumping unit includes a pump 1, columns of pump tubes 2 and rods 3 and compensators 5 made in the form of nozzles 4, which form cylindrical chambers 6, the inner cavities of which (not shown) are connected to the lower part by holes 7 with the internal cavity 8 of the pump columns pipes 2. The nozzles 4 are fixed on the column of rods 3, and the holes 8 are made directly in the patch cabin. The compensator 5 is provided with a spring-loaded valve 9 and a piston 10, installed respectively with the upper 11 and lower 12 parts of the compensator cavity, and the lower part 12 of the compensator cavity is provided with an annular step 13 above the bore 7 to limit the piston 10 downward travel. The compensator 5 is provided with a sealing element 14 mounted above the annular step 13, the piston 10 resting with its end during downward movement to the sealing element 14 and the annular step 13. The downhole sucker rod pump works as follows. Before being lowered into the well, the compensators 5 through the spring-loaded valve 9 are filled with gas to the working pressure by means of a compressor (not shown), and the piston 10 reaches the sealing element 14 and holds the predetermined pressure. When the compensators 5 are lowered into the well, they are closed by means of a thread parts of the upper rod (not shown) to prevent gas leaks. At the moment of launching the installation, the plunger of the pump 1 firstly begins to wipe only the liquid column enclosed between the pump plunger and the first liquid section in the column of pump tubes 2, which, passing through the holes 7, fills the lower part 12 of the cavity of the compensator 5, moving the piston 10 and compressing the gas located in the upper part 11 of the compensator. After reaching a certain pressure of gas in the cavity of the compensator 5, the next section of the liquid column in the column of pumping pipes 2 and t, e. Starts. Thus, during the installation, the compensators 5 reduce the starting moments and the pressure pulsation of the liquid in the column of pumping pipes 2. in turn, it leads to a reduction in the number of fractures in emergency wells, whose products have high viscosity and, as a rule, contain almost no gas. Thus, the use of the invention will allow in conditions of reliable operation to: compensators to improve the overall performance of the installation.

ipuz. 2

Claims (2)

1. Borehole sucker rod installation for ed. St. No.'931961, characterized in that, in order to increase efficiency during pumping out viscous liquids with low gas content, the compensator is equipped with a spring-loaded valve and piston installed respectively in the upper and lower parts of the compensator cavity, and the lower part of the compensator cavity is equipped with an annular ledge located above the bore To limit the piston stroke down. 2. Installation according to π. 1, characterized in that the compensator is equipped with a sealing element mounted above the annular ledge. FIG. 1