RU2770704C1 - Method for oil extraction using a bottom hole beam pumping unit and the design of the latter for the implementation of this method - Google Patents

Abstract

FIELD: oil industry.SUBSTANCE: group of inventions relates to a method for extracting oil using a beam pumping unit and to a beam pumping unit. According to the method for oil extraction using a beam pumping unit, the movable part of the beam pumping unit is moved in the well in the reciprocating mode and balanced simultaneously with a counterweight. The beam pumping unit is performed with a balancing beam mounted on the foundation, at one end of which a head is fixed, connected by means of a rope with a movable part of the beam pumping unit, and the other end of the balancing beam is connected with a counterweight. As a counterweight, the movable part of the beam pumping unit of the neighboring well is used, which is mounted on a beam pumping unit. The moving parts of both beam pumping units in the working process are moved in antiphase relative to each other. The counterweight is performed in the form of a movable part of the beam pumping unit of a neighboring well, which is connected with the end of a balancing beam through the head with the help of a rope through the head, in its middle part resting through a swivel joint on a support in the form of the outer part of the bottom of the cup mounted on the head of the pile, which serves as the foundation for the installation of the beam pumping unit. The drive of the rocking machine is mounted on a cantilever support fixed on the side surface of the cup.EFFECT: simplifying the design of the beam unit, reducing its material consumption during manufacture, reducing operating costs and increasing productivity.2 cl, 5 dwg

Description

The invention relates to the technology of mechanized oil production, as well as to the design of technical means that ensure the implementation of this technology.

To date, the most widely used as drive units for sucker rod pumps (SRP) are balancing pumping units (S-K). This type of drive has significant advantages such as high reliability, durability and energy efficiency.

A typical C-K design contains a balancer with a head connected to the gearbox by means of cranks through connecting rods with pins, and a polished rod rope suspension. The balancer is mounted on a base with a frame. The right side of the balancer with counterweights, traverse and connecting rods disconnected from the cranks is always heavier than the left side of the balancer with its head and rope suspension of the pump rod column. In this regard, the torque of the balancer is directed clockwise and compensates for the load from the left side of the balancer [SU 1333838]. Typical disadvantages of almost any S-K are

1. High metal consumption and relatively high cost of transportation.

2. The need to prepare a concrete base or pile field before installing the pumping unit;

3. High cost of replacing S-K or its components due to the large mass;

4. The presence of a large number of open moving mechanisms that reduce the safety of service.

It should be noted that the design of the S-K continues to improve, getting rid of some of the above disadvantages. In particular, this is achieved by making the SRP drive in the form of a movable counterweight placed on the balancer with the possibility of reciprocating movement along its entire length, while the counterweight is equipped with an autonomous electric drive. Examples of such S-K are the designs described in the patent for invention SU 1267045 and in the utility model patent CN 202117637, in the first of which the drive includes a cable system for moving the counterweight, and in the second, the drive is made in the form of an electric linear motor.

Along with balancing S-K, over the past 25 years, a new direction has been intensively developing, defined as unbalanced SRP drives, with a significant design variety. However, the technology of oil production using SRP and equipment for this in the form of pumping units are currently the most in demand. Thus, in the world practice in the production of liquid hydrocarbons, pumping units account for 90% of the fleet of available equipment for a similar purpose.

Thus, taking into account the above disadvantages of pumping units used in oil production, the objective of the invention is to simplify the design of such machines and, as a result, reduce the material consumption in their manufacture, as well as reduce various types of operating costs and increase productivity in terms of one C -TO.

This task is achieved due to the fact that in the method of oil production using a pumping unit, the movable part of the SRP of which is moved in the well in the reciprocating motion mode and is simultaneously balanced by a counterweight, the movable part of the SRP of the adjacent well, which is mounted on the machine, is used as the latter. - a rocking chair instead of a counterweight, while the moving parts of both SRPs in the working process are moved in antiphase relative to each other. Improvements in the design of the pumping unit also contribute to the fulfillment of the task. So, in a pumping unit, including a balancing beam, equipped with a drive and mounted on a foundation, at one end of which a head is fixed, connected by means of a rope to the movable part of the SHP, and the other end is connected to a counterweight, the latter is made in the form of a movable part of the SHP of an adjacent well, which, by means of a rope through the head, is connected to the end of the balancing beam, in its middle part resting through the rotary hinge on the support in the form of the outer part of the bottom of the cup, installed on the foundation, made in the form of a pile. The ends of the balancing beam are made telescopic, while the movable parts carry contact elements for connection with the movable parts of both SRPs. In this case, the drive is mounted on a cantilever support fixed on the side surface of the cup and includes an electric motor, on the shaft of which a disk is mounted, carrying a finger on its surface, placed in the slot of the carrier, in turn, fixed on the balancing beam so that the longitudinal axis of symmetry the carrier and the longitudinal axes of the rotary joint and the electric motor lie in a common vertical plane. In addition, adjusting washers are installed on the moving parts of the balancing beam with the possibility of reciprocating movement.

The technical result of the invention lies in the fact that in S-K, instead of the traditional counterweight, the movable part of the SRP from a nearby adjacent well is used as such. This means that instead of S-C for each of the wells, both of them will be served by one S-C of a much simpler design, with lower operating costs and greater productivity.

The drawings attached to the description show the following images:

- fig. 1 is a schematic representation of a general view of a pumping unit;

- fig. 2 - view of the drive S-K along arrow A;

- fig. 3 - section along carrier B-B;

- fig. 4 - view of the disk along arrow B;

- fig. 5 - group S-K, supplied with energy from a wind generator.

The pumping unit contains a balancing beam 1, which, by means of a hinge with a horizontal axis 2, is connected to the eye 3, which, in turn, is fixed on the outer part of the bottom of the cup 4. The latter is put on the head of the pile 5, which serves as the base (foundation) for the S-K installation assembled. The glass 4 is fixed on the pile 5 by a set of thrust bolts 6. The balancing beam 1 forms a telescopic connection with the moving parts 7 installed at the ends of the beam 1 with the possibility of longitudinal movement and fixing the optimal distance "b" between the axes of the SRP of both wells. Fixation on the beam 1 of the moving parts 7 is carried out by means of thrust bolts 8. The moving parts 7 carry heads 9 connected by ropes 10 with polished rods 11 placed in the oil reservoirs 12 of two adjacent wells. Communication polished rods 11 with a column of SRP rods in the drawings is not shown. Adjusting washers 13 are installed on the moving parts 7 with the possibility of movement, fixed with bolts 14. The glass 4 serves as a support for the console 15 (Fig. 2), which is the basis for the electric motor 16, combined with a mechanical transmission (not shown in the drawing). On the shaft 17 of the electric motor 16, a disk 18 is fixed, provided with a pin 19, which is placed in the slot 20 of the carrier 21. The pin 19 interacts with the walls of the slot 20 through a pair of angular contact bearings 22 (Fig. 3). On the disk 18 (Fig. 4) there is a set of through holes 23 designed to install the pin 19, which makes it possible to change the stroke "a" of the movable part of the SRP by moving the pin 19 from one hole 23 to another. In FIG. 5 is a schematic representation of a possible placement of several C-C, each of which serves a pair of wells. Given the low power consumption of S-K drives due to the possibility of optimizing the process of balancing the moving parts of the SRP, it becomes possible to autonomize their energy supply by constructing nearby wind turbines 24.

The group of proposed inventions is implemented as follows.

After the construction of two adjacent wells and the placement of the moving parts of the SRP in them, a concrete pile 5 is driven at an equal distance from each of them, which can be replaced by a pipe with a diameter of at least 0.5 meters. The S-K design makes it possible to carry out its production in the form of separate assembly units and parts that are easily transported and assembled at the installation site. Among such units and parts, we can mention an eye 3 and a cup 4 connected by means of flanges, a balancing beam 1 with an axle 2, moving parts 7 with heads 9 and shims 13, a console 15, an electric motor 16 with a disk 18, a carrier 21. Assembly C -K is carried out at the location of the wells, while it can be completely assembled on the ground and hoisted onto the pile 5 by putting on the cup 4 on the latter with its subsequent fixation with the help of stop bolts 6. beams 1, setting the length of the connecting ropes 10 approximately equal to the stroke "a", which is determined locally. The correspondence of the distance "b" between the heads 9 to the distance between the longitudinal axes of both wells is set by moving the moving parts 7, fixed in a predetermined position by bolts 8. Achieving optimal balance between the moving parts of both SPGs is carried out by moving the washers 13 along the moving parts 7 of the beam 1. Move "a" polished rods 11 can be adjusted by placing the pin 19 located in the groove 20 of the carrier 21. The furthest of the holes 23 on the disk 18 will give the maximum amount of travel "a".

The work of S-K is carried out by rotating the shaft 17 in any direction without stopping the electric motor 16. Moving the pin 19 in the groove 20 provides the swing (oscillatory) movement of the balancing beam 1, and, therefore, the reciprocating movement of the moving parts of the SRP and, as a result, cyclic supply of oil extracted from the bowels, which is sent through the 12 storage tanks through pipelines (not shown in the drawing) to the collection tanks.

Claims (2)

1. The method of oil production using a pumping unit, the movable part of the SRP of which is moved in the well in the reciprocating motion mode and balanced simultaneously with a counterweight, while the pumping unit is performed with a balancing beam mounted on a foundation, at one end of which a head is fixed, connected by means of a rope with the movable part of the SRP, and the other end of the balancing beam is connected to the counterweight, characterized in that the movable part of the SRP of the adjacent well is used as a counterweight, which is mounted on a pumping unit, while the movable parts of both SRPs are moved in antiphase during the working process relative to each other, and the counterweight is made in the form of a movable part of the SRP of an adjacent well, which is connected with the help of a rope through the head to the end of the balancing beam, in its middle part resting through a rotary hinge on a support in the form of the outer part of the bottom of the glass, installed on the pile head, which serves as foundation for the installation of the pumping machine ki, while the drive of the pumping unit is mounted on a cantilever support fixed on the side surface of the glass. 2. Pumping unit, including a balancing beam, equipped with a drive and mounted on a foundation, at one end of which a head is fixed, connected by means of a rope to the movable part of the SRP, and the other end is connected to a counterweight, characterized in that the counterweight is made in the form of a movable part of the SRP adjacent well, which is connected with the end of the balancing beam by means of a rope through the head, in its middle part resting through a rotary hinge on a support in the form of the outer part of the bottom of the glass, installed on the pile head, which serves as the foundation for the installation of a pumping unit, while the drive is mounted on cantilever support fixed on the side surface of the cup, and includes an electric motor, on the shaft of which a disk is mounted, carrying a finger on its surface, placed in the slot of the carrier, in turn, fixed on the balancing beam, which is in its horizontal position so that the longitudinal the axis of symmetry of the carrier and the longitudinal axes of the rotary joint and the electric motor spruces lie in a common vertical plane.

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