RU75873U1 - DEEP DEPT PUMP DRIVE - Google Patents

Abstract

The utility model relates to the field of the oil industry, in particular for lifting liquids from wells with rod pumps.

The technical task is to facilitate the design of ground equipment installed on the well, increase its stability, reduce the likelihood of repairs and improve the maintainability of the drive as a whole.

The power hydraulic cylinder is connected by a hydraulic line to a pumping station made remote, in which the drive control system is located, the frame length being proportional to the length of the power cylinder rod.

2 pf, 1 ill.

Description

The utility model relates to the field of the oil industry, in particular for lifting liquids from wells with rod pumps.

A well-known drive sucker rod pump, which contains installed on the basis of a single frame with the housing of the engine, gearbox. A mechanism is placed in the housing that converts rotational motion into reciprocating motion and includes a drive and upper sprockets covered by a closed chain connected to a carriage connected to a counterweight. The latter is made in a U-shape in cross section and installed in the guides of the housing with the placement of the chain in its open cavity and connected through a flexible link with the node suspension rods. The vertical axis of symmetry of the converting mechanism, the counterweight and the flexible link are located in the immediate vicinity of one vertical plane. The upper sprocket is mounted in the housing with the possibility of rotation and limited movement along the axis of the transforming mechanism to regulate the chain tension. In the lower part of the housing is a container for lubricating oil. The gearbox is additionally equipped with a switchable manual drive for rotating the drive sprocket. The upper sprocket is made with the possibility of limited axial movement and fixation. The counterweight is additionally equipped with removable latches made to suspend the counterweight relative to the housing at any desired location, and two buckets mounted on the bottom of the counterweight on the sides of the closed chain and made with holes from the bottom in the side wall directed to the closed chain. The drive improves the reliability and durability of the work, as well as simplify its maintenance (RF patent No. 2283969, IPC F04B 47/02, publ. September 20, 2006).

A well-known automated hydraulic drive of a sucker-rod pump, comprising a frame with a support structure and adjustable support elements, on which a hydraulic system is mounted with a power hydraulic cylinder located vertically in the upper part of the frame, to which the rod of the submersible pump, a control system, and a balancing system is attached (advertising brochure of the Association of Finpromco Factories , 2007, see the Appendix to the application) - prototype.

The disadvantage of this design is that the structure has a large weight, therefore, a support structure is installed on the frame, which in turn requires special soil conditions around the well, in addition, when the installation vibrates and large wind loads, the pump rod skews, which leads to equipment breakdowns and long repair.

The technical task of the claimed utility model is to facilitate the design of ground equipment installed on the well, increase its stability, reduce the likelihood of repairs and improve the maintainability of the drive as a whole.

The technical problem is achieved in that the drive contains a frame, in the upper part of which there is a power hydraulic cylinder located vertically with the possibility of attaching a rod pump rod, a hydraulic system with a pump station, a drive control system, and the power hydraulic cylinder is connected by a hydraulic line to a pump station made remote, in which is the drive control system, and the frame length is proportional to the length of the rod of the power hydraulic cylinder. The frame is mainly symmetrical about the vertical axis.

Comparison of the proposed solutions with the prototype shows that it differs in the following features:

- the power hydraulic cylinder is connected by a hydraulic conduit to the pumping station, made remote;

- the drive control system is located in the pumping station;

- the length of the frame is proportional to the length of the rod of the power hydraulic cylinder;

Therefore, the claimed utility model meets the criterion of "novelty."

The utility model can be manufactured on standard equipment using well-known technological processes, therefore it meets the criterion of "industrial applicability".

The figure schematically shows the drive of a deep-well pump.

The device comprises a frame 1, which is made symmetrical with respect to the longitudinal axis, mounted on the wellhead 2, a power cylinder 3 is vertically installed in the upper part of the frame, which is connected by a pressure 4 and drain 5 hydraulic pipe to a pump station 6. A rod of a deep-well pump 7 is attached to the rod of the power hydraulic cylinder The control system is installed in the pumping station 8. On the frame 1 there are sensors 9 of the control system.

The device operates as follows. When the pump station 6 is turned on, the control system 8 is turned on. The working fluid is pumped through the pressure pipe 4 to the rod cavity of the power cylinder 3. When the rod moves upward from the piston cavity, the working fluid is drained through the pipe 5 back to the pump station 6. The control system 8 using sensors 9 provides a reciprocating movement of the rod of the power hydraulic cylinder to which the rod 7 of the submersible pump is attached. A lightweight drive frame 1 is installed at the wellhead 2. In this case, the frame is symmetrical about the vertical axis, and the frame length is proportional to the long rod of the power hydraulic cylinder.

Therefore, this design arrangement allows you to:

- reduce the overall dimensions of the drive in height;

- reduce the weight of the drive;

- significantly reduce lateral vibrations of the rod of the deep pump, its curvature during operation, the likelihood of a liquid spill during curvature of the rod;

- increase maintainability;

- increase work safety;

- improve manufacturability during transportation of the drive, its installation and maintenance.

Claims (2)

1. The drive of a deep-well sucker-rod pump, comprising a frame, in the upper part of which there is a power hydraulic cylinder located vertically with the possibility of mounting the rod of the sucker-rod pump, a hydraulic system with a pump station, a drive control system, characterized in that the power hydraulic cylinder is connected by a hydraulic conduit to the pumping station, made remote, in which the drive control system is located, and the length of the frame is proportional to the length of the rod of the power hydraulic cylinder. 2. The drive according to claim 1, characterized in that the frame relative to the vertical axis is made symmetrical.