EA032268B1 - Beamless pumping unit for sucker-rod pumps - Google Patents

Abstract

The invention is related to equipment intended for driving a downhole pump in mechanized oil well operation. The prior art mechanical drive of a downhole sucker-rod pump closest to the invention in its technical essence and selected as a prototype of the proposed one, comprises a frame, a three-phase short-circuited asynchronous electric motor mounted on the frame and connected, by a vee belt transmission, to a multiple-reduction gear unit, the input shaft of which carries a two-block brake on one side and a driven pulley of the vee-belt transmission on the other side, and the output shaft is linked rigidly to cranks with rotary weights, and comprises also a cross-piece rigidly linked to the sucker rod suspension point. The mechanical drive includes two slide-crank mechanisms with planetary transmissions, with gears mounted rigidly on the body of the reduction unit coaxially with sliding bearings, and satellites mounted on the crank; the multiple-reduction gear unit consists of two driving and driven shafts and double-row pinion blocks arranged over the entire length of the driving and driven shafts. The objective of the invention is attained by provision of a mechanism converting rotary motion to reciprocate motion of the rod suspension point by means of two cranks, rotary weights mounted on the cranks, guide blocks disposed on front posts and embraced by continuous flexible ropes that at one end are connected to the cranks and at the other end to the rod suspension assembly, disposed symmetrically relative to the axis of a twin, triple-reduction gear unit having its driven shaft linked rigidly to the cranks, and its driving shaft fixed to the pulley of the two-block brake at one end, and at the other end, through the driven pulley of the vee-belt transmission, connected to the electric motor shaft; rotary weights are mounted on two sides of the cranks to balance the load during the sucker rod moving up and down, the mechanical drive being characterized in that it has a balancing system consisting of two guide blocks disposed symmetrically on the back posts, a counterweight and parallel ropes that are connected at one end to the sucker rod suspension assembly and at the other end to the counterweight that is made as an adjustable movable counterweight, wherein the front and back posts are connected hingedly to its frame and are linked by adjustable screw drawing bars.

Description

The invention relates to equipment designed to drive a submersible pump during the mechanized operation of oil wells. A well-known mechanical drive of a borehole sucker-rod pump is the closest in technical essence, which is the prototype of the proposed one, which contains a frame mounted on it a three-phase squirrel-cage asynchronous motor connected by means of a V-belt transmission with a multi-stage gearbox, on the input shaft of which there is a two-track brake on one side and on the other V-belt drive driven pulley, gearbox output shaft is rigidly connected to cranks with rotor weights, cross-beam, rigidly connected nnuyu with the point of suspension rods. The mechanical drive is made in the form of two crank-slide mechanisms with planetary gears, rigidly fixed to the gear housing, coaxially with sliding bearings, gears and satellites mounted on the crank, and the multi-stage gear consists of two drive and driven shafts and two-gear gear blocks, located along the entire length of the drive and driven shafts. The problem is solved in that the mechanism that converts rotational motion into reciprocating motion of the rod suspension point by means of two cranks, rotor weights mounted on them, guide blocks located on the front struts and covered by continuous flexible ropes that are articulated at one end with cranks, and another with a rod suspension unit, symmetrically located relative to the axis of a two-line three-stage gearbox, the driven shaft of which is rigidly connected to the cranks, and the drive shaft is one to nets is fixed to the double-drum brake pulley, and to the other through a driven V-belt pulley with an electric motor shaft, moreover, rotor weights are installed on the cranks on both sides, providing the possibility of balancing the load when lowering and lifting the rod, characterized in that it has a balancing system consisting of two symmetrically located on the rear racks of the guide blocks, counterweight and parallel ropes connected at one end to the rod suspension unit, and to the other with a counterweight, which is made in the idea of an adjustable movable counterweight, with the front and rear racks pivotally connected to its frame and connected by adjustable screw rods.

032268 B1

The invention relates to equipment designed to drive a submersible pump during the mechanized operation of oil wells.

A well-known mechanical drive of a borehole sucker-rod pump closest in technical essence, which is the prototype [1] of the proposed one, which contains a frame mounted on it a three-phase short-circuited asynchronous electric motor, coupled via V-belt transmission with a multi-stage gearbox, on the input shaft of which is equipped with a double-brake on one side, on the other hand, a driven pulley of a V-belt drive, the output shaft of the gearbox is rigidly connected to cranks with rotor weights, a cross-beam, rigidly connected connected to the rod suspension point, the mechanical drive is made in the form of two crank-slide mechanisms with planetary gears, rigidly fixed to the gear housing, coaxially with sliding bearings, gears and satellites mounted on the crank, and a multistage gear having a gear ratio 1: 125 consists of two drive and driven shafts and two-crown gear blocks located along the entire length of the drive and driven shafts.

The main disadvantages of the proposed design is that the balancing of the pumping machine is carried out only by crank balancing. It is known that the essence of balancing rocking machines is to ensure uniform loading of the gearbox and the drive motor during the suspension point of the rod up and down. In this design, during the course of the suspension point of the rod up, the gearbox and engine are loaded with a positive moment to lift the rod columns and the liquid column. And during the downward movement of the rod string, gearbox and engine are loaded with a negative moment. Changing the torque on the crank shaft of the gearbox, and, consequently, on the motor shaft occurs in a sinusoid, which is not permissible. This mode of operation requires a maximum increase in the mass of the cargo on the crank or an increase in the distance of the installation of goods on the cranks from the axis of their rotation. Therefore, with reciprocating motion, the inertial forces also increase, which are perceived by the bearings of the driven shaft of the gearbox. In addition, in the design, the sliders reciprocate along the axis of two cylindrical guide racks. This creates an additional energy consumption and leads to wear of the guide racks. On the other hand, with an increase in the stroke length of the rod suspension point, the overall dimensions (height) of the rocking machine increase sharply. In a known installation (rocking machine) a multi-stage gearbox is driven by a larger electric motor with a low speed. This significantly increases the energy consumption, as well as the overall dimensions of the installation, reduces its reliability and efficiency.

The objective of the invention is energy saving, ensuring the stability of the movement of the point of suspension of the rod, reducing the overall dimensions, increasing the level of reliability of the rocking machine.

The objective of the invention is solved by the fact that an unbalanced rocking machine of rod pump installations containing a frame, a three-phase short-circuited asynchronous electric motor mounted on it, a beam, rigidly connected to the rod suspension point, a mechanism that converts rotational motion into reciprocating movement of the rod suspension point by means of two cranks installed on them rotary loads, guide blocks located on the front racks and covered by continuous flexible ropes, which are one end pivotally connected to cranks, and to the other, to a rod suspension assembly symmetrically located relative to the axis of a two-line three-stage gearbox, the driven shaft of which is rigidly connected to the cranks, and the drive shaft is fixed at one end to the two-track brake pulley, and the other through the driven belt-drive pulley, with the shaft an electric motor, and on the cranks on both sides mounted rotary weights, providing the possibility of balancing the load when lowering and lifting the rod, characterized in that it has balancing a system consisting of two guide blocks symmetrically located on the rear racks, a counterweight and parallel ropes connected at one end to a rod suspension unit, and the other to a counterweight, which is made in the form of an adjustable movable counterweight, the front and rear racks pivotally connected to it frame and interconnected by adjustable screw rods.

The proposed design of the mechanical drive of borehole pumps, due to the implementation of the transforming mechanism in the form of a crank-block mechanism, has the best characteristic of the movement of the point of suspension of the rods. Moreover, the deviations of the laws of motion of the point of suspension of the rod from harmonic oscillations are much smaller, and, consequently, less inertial loads in the installation. The balancing of the rocking machine is performed combined, that is, by means of movable and rotary counterweights. Rotor counterweights are mounted on cranks, and the movable counterweight is connected by a flexible cable to the column beam traverse. The latter can significantly reduce the load on the cranks, and therefore on the shafts of the drive gearbox.

This shows that the above signs are significant and affect the achieved result of ensuring the required law of changing the path, speed and acceleration of the rod suspension point, energy saving, reducing overall dimensions, increasing the reliability level of the mechanical drive of borehole pumps.

In FIG. 1 shows a kinematic diagram of a mechanical drive of downhole pumps

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in FIG. 2 - front view;

in FIG. 3 is a rear view.

The mechanical drive contains two cranks 7, rigidly fixed on both sides to the output ends of the driven shaft of the multi-stage gear 4. The multi-stage gear, located on two shafts, has a gear ratio of 1: 125.

The total number of steps of the specified gearbox is one step higher than the total number of two-gear gear units, which are located along the entire length of the drive and driven shafts with the possibility of free rotation around the axes of the respective shafts, forming a double sliding bearing.

At one end of the drive shaft of the gearbox, a stepped driven pulley 6 of the V-belt drive 3 is installed, at the other output end of the drive shaft of the gearbox there is a two-track brake 5.

The mechanical drive contains a frame 1 made of rolled steel in the form of two longitudinal runners connected by transverse ties, two brackets for connecting the front struts 18, two brackets for connecting the rear struts 19, and two brackets for connecting the front rods 16 and two brackets for connecting rear rods 17. On the frame, together with the gearbox, a three-phase asynchronous electric motor 2 is installed.

As part of the conversion mechanism, there are also ropes 13, 14 and blocks 11, 12. At one end of the parallel ropes using a crosshead 9, a rod string 10 is suspended, ending in the well with a pump plunger, and cranks with a counterweight are fixed at the other end 8. On the other hand the traverse is connected to the parallel ropes 14 of the movable counterweight 15, giving a gain in strength. The rod, rigidly connected to the traverse, is connected to the piston of the pump. Front and rear racks are pivotally connected to the frame brackets. On the other hand, these racks are interconnected by front rods having sections with right and left threads each. In addition, the rear struts using the rear rods are pivotally connected to the frame brackets.

Front and rear rods provide a change in the angle of inclination of the front and rear struts. These racks can be made telescopic to adjust the height of the rack, depending on the progress of the point of suspension of the rod. The lower ends (base) of the front and rear struts are attached to the bracket on a hinged support with the possibility of deflecting to the right or left using the front rods to free up space around the wellhead during repair and to precisely control the trajectory of the rod suspension point in a vertical line. In addition, the connection of the uprights to the bracket on the hinged support makes it possible to fully unfold the front and rear uprights during transportation to the installation site of the rocking machine.

To reduce the loads on the elements of the converting mechanism, a flexible counterweight is additionally fixed to the crosshead using a flexible link.

The mechanical drive operates as follows.

After turning on the three-phase asynchronous electric motor, the stepped drive pulley of the V-belt drive receives rotational motion and drives the driven pulley mounted on the drive shaft of the multi-stage gearbox. Through a multi-stage gearbox, rotation is transmitted to the driven shaft of the gearbox with the required speed. At the same time, the cranks mounted on the output shaft of the gearbox rotate. The ropes pivotally connected to the cranks, making a complex movement and passing through the guide blocks, covered by a continuous flexible element, leads to the reciprocating movement of the traverse. Rigidly connected to the traverse, the latter in turn transmits reciprocating motion to the rod and, consequently, to the pump piston.

In this case, the change in the displacement, speed and acceleration of the point of suspension of the rod occurs more closely to the harmonic law than balancing rocking machines with a transforming mechanism in the form of a crank-slide mechanism.

A laboratory sample of the proposed new design solution for the mechanical drive of oil well pump wells was developed, manufactured and tested, including a cable-crank mechanism and a three-stage gearbox.

It is established that the proposed design of the mechanical drive of sucker rod pumps for oil wells has an original design and provides the following advantages over other types of oil production equipment:

1) consumes electricity about 1.5-1.7 times less than conventional balancing rocking horses.

2) increases the life of the gearbox due to the absence of negative torques on the output shaft;

3) does not require a solid and high foundation;

4) less sensitive to uneven settlement of the foundation;

5) there is no massive swinging balancer and a bulky rotary head at the balaisir rocking chair.

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6) increases the service life of the rod string, since there are practically no dynamic loads, vibration due to the work on the symmetric cycle;

7) has small dimensions;

8) has the ability to free up space around the wellhead during installation, repair and precise control of the trajectory of the point of suspension of the rod in a vertical line;

9) Has the ability to fully unfold the front and rear racks during transportation at the installation site of the rocking machine.

Literature:

1. Abdullaev A.I., Najafov A.M., Gasymov R.M. Eurasian Patent Organization. Eurasian Patent Office. Patent No. 012103, 2009.

Claims (1)

CLAIM An unbalanced pumping unit for pumping rods, comprising a frame, a three-phase squirrel-cage induction motor mounted on it, a crosshead rigidly connected to the rod suspension point, a mechanism that converts rotational movement into reciprocating movement of the rod suspension point by means of two cranks mounted on them with rotary weights guide blocks located on the front struts and covered by continuous flexible ropes, which are articulated at one end with cranks, and the other, with a rod suspension unit, symmetrically located relative to the axis of a two-flow three-stage gearbox, the driven shaft of which is rigidly connected to the cranks, and the drive shaft is fixed at one end to the two-track brake pulley, and the other through the driven V-belt pulley, with the motor shaft, and on cranks with rotor loads are installed on both sides, providing the possibility of balancing the load when lowering and lifting the bar, characterized in that it has a balancing system consisting of two guide blocks, counterweights and parallel ropes metrically located on the rear racks, connected at one end to a rod suspension unit and the other to a counterweight, which is made in the form of an adjustable movable counterweight, the front and rear racks pivotally connected to its frame and interconnected by adjustable screw rods.