SU1642069A1 - Hydraulic drive of oil-well sucker-rod pump - Google Patents

Abstract

The invention relates to an oil production technique and allows increasing the efficiency in operation of a hydraulic drive of a downhole installation by performing a vacuum in the piston cavity of the balancing hydraulic cylinder to create a force that compensates for the weight of the rod string. Placed one above the other balancing and driving cylinders 1 and 2 are located with the formation of piston and rod cavities (P) 3 - 6 pistons 7 and 8 connected by a rod 9. The lower end of the rod 9 is connected to the plunger of the sucker rod pump 10. P 4 and 6 are hydraulically communicated through distributor 11 with power pump 12 and tank 13. P 5 communicate with pressure source 14. PZ is hydraulically communicated with the vacuum pump 15. Source 14 is the atmosphere. 1 il.

Description

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WITH

The invention relates to an oil production technique, in particular, to hydraulic drives of a downhole pumping unit, and can be used in the oil and gas industry in the operation of wells.

The purpose of the invention is to increase the efficiency in operation by performing a vacuum in the piston cavity of the balancing cylinder to create a force that compensates for the weight of the rod string.

The drawing schematically shows the proposed hydraulic drive.

The hydraulic drive of the downhole pumping unit contains balancing 1 and 2 hydraulic cylinders placed one above the other with hydraulic cylinders arranged in them to form

piston 3 and 4 and rod 5 and 6 cavities pistons 7 and 8, connected by a rod 9, the lower end of which is connected to the plunger of the rod pump (not shown) by means of a column of rods 10, and piston 4 The 2 cylinders are hydraulically communicated through the distributor 11 to the power pump 12 and the tank 13, and the rod 5 to the cavity of the balancing 1 hydraulic cylinder communicates with the source 14 of pressure.

The drive is additionally equipped with a vacuum pump 15, with which the piston 3 cavity of the balancing 1 hydraulic cylinder is hydraulically connected, and the atmosphere serves as the pressure source 14. In turn, the drive is from engine 16,

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The proposed hydraulic drive bore well pumping unit works as follows.

Regardless of the direction of movement of the rod 9 and the column connected to it, the stem 10 a vacuum pump 15 creates a vacuum in the piston 3 cavity of the balancing 1 hydraulic cylinder, as a result of which the pressure of the atmosphere as a source 14 of pressure acting in the rod 5 of the balancing 1 hydraulic cylinder creates a force up. The magnitude of this force is chosen so that it can compensate for the weight of the column of rods 10 and half the weight of the column of pumped liquid contained in the pipe string (not shown).

When the rod 9 moves upward, the working fluid from the tank 13 is taken up by the power pump 12 and through the distributor 11 is fed into the rod 6 cavity of the drive 2 hydraulic cylinders, while the working fluid from the piston 4 of the drive hydraulic cylinders is drained into the tank 12. When the piston 8 approaches the outermost the upper position is triggered by the reversing system (not shown) of the hydraulic actuator and the valve 11 is switched. As a result, the working fluid is directed from the tank through the pump 12 through the distributor 11 to the piston 4 cavity of the drive 2 hydraulic cylinders and the rod 9 together with the column rod 10 moves downwards. With

approaching the rod 9 to the lowest position again, the reversing system operates, switching the valve 11, and the cycle of operation of the hydraulic actuator is repeated.

Claims (1)

Invention Formula A hydraulic drive of a borehole pumping unit containing balancing and driving hydraulic cylinders placed one above another with hydraulic cylinders arranged in them with the formation of piston and rod cavities, pistons interconnected by a rod, the lower the end of which is connected to the plunger of the sucker-rod pump by means of a column of rods, the piston and rod stocks of the driving hydraulic cylinder are hydraulically communicated through the distributor with power pump and tank, and the rod cavity of the balancing cylinder is connected to a pressure source, characterized in that, in order to increase operational efficiency by performing a vacuum in the piston cavity of the balancing cylinder, to create an effort that compensates for the weight of the rod string, the drive is additionally equipped with a vacuum pump, which the piston cavity of the balancing cylinder is hydraulically connected, the atmosphere being the source of pressure.