SU1585552A1 - Drive of deep=well pumping unit - Google Patents

Abstract

The invention relates to equipment for the oil industry, in particular to equipment for the extraction of formation fluid from wells, and is intended to be driven by a sucker-rod pump. The purpose of the invention is to increase the reliability of the drive and increase its efficiency. DRIVER, COOLING HYDROMOTOR 9 ADJUSTABLE WORKING VOLUME, SHAFT 29 WHAT AGRAHD APP4 C ++ AGREaDess CMS AGREa CMS CMS AGREEMENT CENTER AGREEMENT COORD CENTER AGREEMENT CAPEX AGRICULTURAL DEVELOPMENT OPERATING SYSTEM 1 il.

Description

The invention relates to equipment for the oil industry, in particular to equipment for the extraction of formation fluid from wells, and is intended to drive a sucker-rod pump.

The purpose of the invention is to increase the reliability of the drive and increase its efficiency.

The drawing shows a schematic diagram of the drive.

The drive includes a hydraulic cylinder 1, the rod 2 of which is connected by a clutch 3 and column rods 4 to a plunger 5 of a well pump moving in cylinder 6, a switchgear 7, a power source 8, a variable displacement hydraulic motor 9, an electric motor 10, a flywheel 11. The reversal of the direction of movement of the rod 2 is carried out by means of a strip 12 with a cam 13 interacting with the distributor 14 of the reverse. The actuator also includes an overflow valve 15, check valves 16-20, adjustable inductors 21, 22, tank 23, current relay 24 and discharge valve 25. The rod 26 of cylinder 26 is connected by switchgear 7 to lines 27 and 28 for discharge and discharge . The shafts 29 of the motor 9, the power source 8 and the electric motor 10 are rigidly connected to each other. Power supply 8 is communicated by suction line 30 to tank 23,

Drive downhole installation works as follows.

When the rods 4 move upwards, the working fluid from the tank 23 is guided by the power source 8 through the power distribution device 7 to the rod end 26 of the cylinder 1. At the same time, the rod 2, the coupling 3, the rod string 4 and the plunger B of the borehole pump move upwards. During this period, the working fluid enters from the tank 23 to the hydraulic motor 9 and is discharged back to the tank 23 - it works without load in the pump mode.

When the rods 4 move downward, the working fluid is expelled from the cavity 26 by the weight of the column of rods 4 through the distributor 7 to the hydraulic motor 9 and is directed to the tank 23. The power supply 8 is idling. The resulting torque on the shaft 29, together with the torque developed by the electric motor 10, is spent on the unwinding of the flywheel 11.

When the rods 4 move upward, the energy stored by the flywheel 11, together with the energy of the electric motor 10, is expended to actuate the power source 8.

When the rod 2 of cylinder 1 reaches the extreme positions, the cam 13 interacts with the valve 14, which gives the command to switch the power switchgear 7, reversing the direction of movement 5 of the rod 2.

To regulate the switching time of the power switchgear 7, chokes 21 and 22 are provided, and in order to eliminate their mutual influence, check valves 19 and 20 are installed.

The check valves 17 and 18 provide the supply of working fluid under pressure to the distributor 14. The check valve 16 serves to prevent cavitation of the operating mode of the hydraulic motor 9, ensuring the supply of the working fluid to the hydraulic motor 9.

The design also provides a launch system that serves to reduce the 0 starting torque of the resistance. The system includes {Unloading valve 25 and current relay 24. At the time of start-up, the current of the electric motor 10 increases by 5-7 times, while the current relay 24 turns on the electromagnet, as a result of which the valve 25 directs the flow of working fluid from the power supply 8 to the tank 23. Thus, when starting, the power supply 8 idle, and all the power of the electric motor 10 is expended on 0 spinning the flywheel 11.

When the rod 2 of cylinder 1 moves up and down alternately, the string of rods 4 and, together with it, the plunger 5 of the borehole pump moves up and down, thus ensuring the flow of formation fluid to the surface.

The accumulation of the energy of the raised column of the rods 4 by the flywheel 11 provides an increase in the efficiency of the drive of the well pumping unit. In this case, the best energy performance of the drive on a particular well can be obtained by adjusting the hydraulic motor 9.

5 Reducing the energy consumption for pumping out formation fluid makes it possible to increase the productivity of the pumping unit by increasing the diameter of the submersible pump, the number of swings, etc. 0

Claims (1)

The invention drives a downhole pumping unit, comprising a cylinder, the rod cavity of which is communicated through a hydraulic suction distributor with a power source pumping line and a drain line, a tank connected to the drain line and the power source suction line, on the shaft of which a flywheel is mounted associated with an electric motor, about t l and h a515855526 so u and with that. In order to increase the power source, the drive's drive reliability motor and increase its efficiency, the power distribution unit is distributed in the power line; it is equipped with a variable prawl motor with tank, the barrel volume, the shaft of which is connected to the shaft