CN210738528U - Beam type balance energy-saving oil pumping machine - Google Patents

Abstract

The utility model discloses a beam-balanced energy-saving pumping unit, including the base, the base top is rotated and is provided with the walking beam that is used for promoting or descends the sucker rod, and the walking beam is supported by the support and is installed on the base, is provided with on the support to be used for driving walking beam pivoted drive arrangement and is used for carrying out the energy storage or the energy storage drive arrangement who lets go on along with drive arrangement during operation, the utility model discloses thoroughly solved the energy waste source of power transmission system, greatly reduced the cost to adopt the driving system that hydraulic cylinder power and nitrogen gas energy storage power combine together, compare energy-conservation more than 70% with the conventional beam-pumping unit of the same model; and overall structure is simple, and operation degree of automation is high, and is easy and simple to handle, and the operation is reliable, stable, has safe environmental protection's characteristics.

Description

Beam type balance energy-saving oil pumping machine

Technical Field

The utility model relates to a beam-pumping unit, specific theory relates to a quality is light, simple structure, and is easy and simple to handle, and can guarantee equipment reliable operation, safety ring protects and automatic control's balanced energy-conserving beam-pumping unit of walking beam belongs to oil recovery mechanical equipment technical field.

Background

The beam-pumping unit, also called beam-pumping unit, beam-crank balance pumping unit, refers to the pumping unit which contains the beam, through the link mechanism switching-over, the crank pouring weight is balanced, the wide application is in the oil exploitation.

The weight of the upper and lower operation loads of the pumping rod is unequal when the traditional beam pumping unit oil well produces liquid, the weight of the upper and lower operation loads of the pumping rod is approximately twice when the pumping rod goes upwards and goes downwards, and the weight of the weight balancing block and the crank connecting rod mechanism of the prototype machine dynamically change along with the change of the operation angle of the pumping unit in the rotation around the center of the output shaft of the speed reducer, so that the problem of the work balance of the traditional pumping unit cannot be fundamentally solved.

And the complex mechanical structures of speed reducer, crank, connecting rod mount pad, crank, connecting rod, motor, conveyer belt, balancing weight, crossbeam etc. that exist among the traditional beam-pumping unit influence power transmission system's energy transmission efficiency to a certain extent.

In order to solve the technical problem, an oil pumping unit appears on the market, and the oil pumping unit is disclosed as follows: 200710016704.8, discloses a beam-type hydraulic energy-saving oil pumping machine, which comprises a conventional beam-type oil pumping machine as a base, a set of horse head is arranged at the tail of a beam, and a cylindrical hollow cement prefabricated tank-shaped balancing barrel is hoisted below the horse head; a quick connector is arranged on the cylinder and is communicated with the liner through a pipeline, so that liquid can be added into or extracted from the liner through a hose, and the aim of adjusting balance without stopping the machine is fulfilled; the original gearbox and the driving motor are removed, a set of hydraulic station is installed at the position of the original gearbox and the driving motor, a pair of hydraulic cylinders are additionally installed on the two sides of the support and the walking beam and are connected with the hydraulic station through pipelines, and the walking beam and the horse head are driven to move up and down to do work under the hydraulic action.

Although the pumping unit can realize the balance function of the pumping unit, the whole structure is complex, and the double hydraulic rods and the hydraulic station are adopted to drive the walking beam to rotate, so that the energy consumption is greatly improved, the energy-saving problem can not be realized completely, and the problems of unbalance in work, unobvious energy-saving effect and the like still exist.

SUMMERY OF THE UTILITY MODEL

The to-be-solved main technical problem of the utility model is to provide a quality is light, simple structure, and is easy and simple to handle, and can guarantee equipment reliable operation, safety ring protects and automatic control's balanced energy-conserving beam-pumping unit of walking beam.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides a balanced energy-conserving beam-pumping unit of beam-pumping unit, includes the base, and the base top is rotated and is provided with the walking beam that is used for promoting or descends the sucker rod, and the walking beam is supported by the support and is installed on the base, is provided with on the support to be used for driving walking beam pivoted drive arrangement and be used for carrying out the energy storage or the energy storage drive arrangement who releases along with the drive arrangement during operation.

The following is the utility model discloses to above-mentioned technical scheme's further optimization:

the driving device comprises a power oil cylinder, the fixed end of the power oil cylinder is rotatably installed on the support, and the telescopic end of the power oil cylinder is rotatably installed on the walking beam.

Further optimization: the energy storage driving device comprises a balance cylinder which is symmetrically arranged with the power cylinder, the fixed end of the balance cylinder is rotatably arranged on the support, and the telescopic end of the balance cylinder is rotatably arranged on the walking beam.

Further optimization: the balance cylinder is connected with an energy accumulator, and nitrogen is filled in the energy accumulator.

Further optimization: the telescopic end of the power oil cylinder retracts to drive the walking beam to move downwards, the walking beam drives the telescopic end of the balance cylinder to extend out to cause the cavity of the inner cavity of the balance cylinder to reduce the expansion of compressed gas and increase the gas pressure, high-pressure gas enters the energy accumulator, and the energy accumulator stores energy.

Further optimization: the telescopic end of the power oil cylinder extends out to drive the walking beam to move upwards, the walking beam drives the telescopic end of the balance cylinder to retract, so that the cavity of the inner cavity of the balance cylinder is enlarged, and the energy accumulator can be used for being matched with the power oil cylinder to synchronously drive the walking beam to drive the sucker rod to lift.

Further optimization: the distance from the joint of the power cylinder and the walking beam to the fulcrum of the walking beam is equal to the distance from the joint of the balance cylinder and the walking beam to the fulcrum of the walking beam.

Further optimization: the power oil cylinder is driven by a power system to move, the power system comprises a hydraulic station, a hydraulic pump is arranged in the hydraulic station, an output port of the hydraulic pump is connected to a port P of the electromagnetic directional valve through a flow guide pipe, and a port A and a port B of the electromagnetic directional valve are connected to a lower oil cavity and an upper oil cavity of the power oil cylinder through flow guide pipes.

Further optimization: one end fixed mounting of walking beam has the horse head, is provided with on the horse head and hangs the point, hangs and is connected with wire rope on the point, and the wire rope lower extreme passes through connector and sucker rod fixed connection.

Further optimization: and one end of the walking beam, which is far away from the horse head, is fixedly connected with a balance block.

The above technical scheme is adopted in the utility model, when using, at first start the motor among the motion control system, hydraulic pump output power to the hydraulic oil pressurization in the hydraulic pressure station and reach the P mouth of electromagnetic directional valve through the check valve, the right side electro-magnet of electromagnetic directional valve this moment is got electric, pressure oil reachs A mouth, the B mouth of electromagnetic directional valve simultaneously, then through the honeycomb duct guide advance power cylinder in, power cylinder differential stretch out fast this moment, accomplish the sucker rod and go upward the action.

At the moment, the energy accumulator is discharged, so that the balance cylinder and the power oil cylinder simultaneously act to drive the oil pumping to move upwards.

When the oil cylinder rises to a specified position, the electromagnetic directional valve is reversed, the right electromagnet is de-energized, the left electromagnet is energized, pressure oil enters the port B of the electromagnetic directional valve through the port P of the electromagnetic directional valve, then the pressure oil is guided into the upper oil cavity of the piston rod of the power oil cylinder through the flow guide pipe to enable the power oil cylinder to retract, and when the power oil cylinder retracts, oil in the lower oil cavity flows to the port T through the port A of the electromagnetic directional valve and then flows back to the hydraulic station through the oil return filter to finish the descending of the sucker rod.

The telescopic end of the balance cylinder extends out at the moment, and the energy accumulator stores energy at the same time, so that the up-and-down motion of the sucker rod is realized, and the oil pumping work is completed.

The utility model adopts the above technical scheme, the conception is ingenious, the structure is reasonable, the speed reducer, the crank, the connecting rod mounting seat, the crank, the connecting rod, the motor, the conveyer belt, the balancing weight, the crossbeam and other mechanisms of the prototype are completely removed, thereby saving the weight of the prototype which is close to one third, thoroughly solving the energy waste source of the power transmission system and greatly reducing the cost;

the power system combining the power of the hydraulic oil cylinder and the power of nitrogen energy storage is adopted, the total power of a power motor is 3-4KW, and compared with a conventional beam pumping unit of the same type, the energy is saved by more than 70%;

the balance cylinder and the energy accumulator can also automatically balance the walking beam, so that the pumping unit is started from the installation to the operation stop and then started, the assistance of external hoisting equipment is not needed, and the use is convenient;

the automatic control system has the advantages of being simple in overall structure, high in operation automation degree, simple and convenient to operate, reliable and stable in operation, safe and environment-friendly, capable of completely avoiding the problems of air leakage, water leakage, electricity leakage and oil leakage, and convenient to maintain in overall structure.

The present invention will be further explained with reference to the drawings and examples.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a power system in an embodiment of the present invention;

fig. 3 is a schematic overall dimension diagram of an embodiment of the present invention.

In the figure: 1-a base; 2, pumping rod; 3-a walking beam; 31-donkey head; 32-a steel wire rope; 33-a connector; 34-a balance weight; 4-a scaffold; 41-a support seat; 42-a stand; 43-a support platform; 5-oil well; 51-a Christmas tree; 52-a sealer; 6-a power cylinder; 7-a balance cylinder; 8-an accumulator; 9-a hydraulic station; 91-a hydraulic pump; 92-a solenoid directional valve; 93-a filter; 94-pressure gauge; 95-a thermometer; 96-liquid level meter.

Detailed Description

Example (b): as shown in fig. 1-2, a beam-balanced energy-saving pumping unit comprises a base 1, a walking beam 3 for lifting or lowering a pumping rod 2 is rotatably arranged above the base 1, the walking beam 3 is supported and mounted on the base 1 by a support 4, and the support 4 is provided with a driving device for driving the walking beam 3 to rotate and an energy storage driving device for storing or discharging energy when working along with the driving device.

The support 4 is fixedly provided with a support seat 41 for supporting the walking beam 3 to rotate, a base 42 is fixedly arranged below the support 4, and the support 4 is fixedly arranged on the base 1 through the base 42.

Design like this, can be through supporting seat 41 for installation and support walking beam 3 rotate, and then convenient realization promotes or descends sucker rod 2, through frame 42, can lead to the stability of being connected of strengthening support 4 and base 1, and then improve support 4's stability.

One end of the walking beam 3 close to the oil well 5 is fixedly provided with a horse head 31, and the horse head 31 is the prior art.

The position that is close to the middle part on the horse head 31 is provided with the suspension point, be connected with wire rope 32 on the suspension point, wire rope 32 lower extreme passes through connector 33 and sucker rod 2 fixed connection.

The lower end of the sucker rod 2 can drive the horse head 31 to move up and down along with the walking beam 3, and then the sucker rod can extend into or be lifted out of the oil well 5 on the ground, and further oil extraction is achieved.

One side that horse head 31 is close to wire rope 32 is the arcwall face, and the design like this can guarantee that walking beam 3 drives horse head 31 operation in-process sucker rod 2 can not deviate oil well 5 because of horse head running angle's change.

A Christmas tree 51 is fixedly arranged on a wellhead of the oil well 5, and a sealer 52 for improving the connection sealing performance of the Christmas tree 51 and the sucker rod 2 is arranged at the joint of the upper part of the Christmas tree 51 and the sucker rod 2.

And a supporting platform 43 for installing a driving device and an energy storage driving device is fixedly arranged on the bracket 4 below the supporting seat 41.

The driving device comprises a power oil cylinder 6, the fixed end of the power oil cylinder 6 is rotatably installed on the supporting platform 43, and the telescopic end of the power oil cylinder 6 is rotatably installed on one side, close to the horse head 31, of the walking beam 3.

When the power cylinder 6 outputs power to drive the telescopic end to extend out or retract, the walking beam 3 is driven to rotate along the supporting seat 41, and then the horse head 31 is driven to move to lift or lower the sucker rod 2.

The fixed end and the telescopic end of the power cylinder 6 are respectively connected with the supporting platform 43 and the walking beam 3 in a rotating mode through bearing supporting seats.

The energy storage driving device comprises a balance cylinder 7 which is symmetrically arranged with the power cylinder 6, the fixed end of the balance cylinder 7 is rotatably installed on the supporting platform 43, and the telescopic end of the balance cylinder 7 is rotatably installed on one side, far away from the horse head 31, of the walking beam 3.

The balance cylinder 7 is connected with an energy accumulator 8, nitrogen is filled in the energy accumulator 8, and the energy accumulator 8 is fixedly installed on a supporting platform 43 of the support 4.

When the telescopic end of the power oil cylinder 6 retracts to drive the walking beam 3 to drive the horse head 31 and the sucker rod 2 to descend, the walking beam 3 drives the telescopic end of the balance cylinder 7 to extend out to cause the cavity of the inner cavity of the balance cylinder 7 to reduce the expansion of compressed gas and increase the gas pressure, high-pressure gas enters the energy accumulator 8, and the energy accumulator 8 stores energy.

When the telescopic end of the power cylinder 6 stretches out to drive the walking beam 3 to drive the horse head 31 and the sucker rod 2 to lift, the walking beam 3 drives the telescopic end of the balance cylinder 7 to retract to cause the increase of a cavity in the balance cylinder 7, and the energy accumulator 8 can be used for being matched with the power cylinder 6 to drive the walking beam 3 to drive the sucker rod 2 to lift.

The design is like this, accessible balance cylinder 7 and energy storage ware 8 carry out the energy storage when descending to sucker rod 2, energy storage ware 8 is let out when power cylinder 6 drive walking beam 3 drives horse head 31 and sucker rod 2 and promotes, make balance cylinder 7 cooperate power cylinder 6 to drive walking beam 3 simultaneously and drive horse head 31 and sucker rod 2 and promote, realize the driving system who presses oil cylinder power and nitrogen gas energy storage power to combine together, and then can greatly reduced power cylinder 6 required oil pressure liquid, reduce total power motor power, make total power motor power at 3-4KW, compare with the conventional beam-pumping unit of the same model, energy-conservation is more than 70%.

One end of the walking beam 3, which is far away from the horse head 31, is fixedly connected with a balance block 34, and the balance block 34 is used for accurately balancing the walking beam 3.

The power cylinder 6 is used for providing hydraulic acting force by a power system, and the power cylinder 6 drives the walking beam 3 and the horse head 31 to move up and down to do work under the hydraulic action.

The power system comprises a hydraulic station 9, a hydraulic pump 91 is arranged in the hydraulic station 9, the hydraulic pump 91 is driven by a motor, an output port of the hydraulic pump 91 is connected with a port P of an electromagnetic directional valve 92 through a flow guide pipe, ports A and B of the electromagnetic directional valve 92 are connected to a lower oil cavity and an upper oil cavity of the power oil cylinder 6 through flow guide pipes, and a port T of the electromagnetic directional valve 92 is communicated with the hydraulic station 9 through a filter 93.

The electromagnetic directional valve 92 is a three-position four-way electromagnetic directional valve.

A one-way valve is arranged on a flow guide pipe between the P of the electromagnetic directional valve 92 and the hydraulic station 9.

When the pumping unit works, the motor drives the hydraulic pump 91 to output power to pressurize hydraulic oil in the hydraulic station 9 and reach the port P of the electromagnetic directional valve 92 through the one-way valve, at the moment, the right electromagnet of the electromagnetic directional valve 92 obtains electric pressure oil and simultaneously reaches the port A and the port B of the electromagnetic directional valve 92, the electric pressure oil is guided into the power oil cylinder 6 through the guide pipe, at the moment, the power oil cylinder 6 is in differential motion and rapidly stretches out, and the upward movement of the pumping rod 2 is completed.

At the moment, the energy accumulator 8 releases energy, so that the balance cylinder 7 and the power oil cylinder 6 act simultaneously to drive the oil pumping unit 2 to move upwards.

When the oil cylinder rises to a designated position, the electromagnetic directional valve 92 is reversed, the right electromagnet is de-energized, the left electromagnet is energized, pressure oil enters the port B of the electromagnetic directional valve 92 through the port P of the electromagnetic directional valve 92, then the pressure oil is guided into the upper oil cavity of the piston rod of the power oil cylinder 6 through the flow guide pipe to retract the power oil cylinder 6, when the power oil cylinder 6 retracts, the oil in the lower oil cavity flows to the port T through the port A of the electromagnetic directional valve 92, and then flows back to the hydraulic station 9 through the oil return filter 93, and the downward movement of the sucker rod 2 is completed.

The telescopic end of the balance cylinder 7 extends out at the moment, and the energy accumulator 8 stores energy at the same time, so that the up-and-down motion of the sucker rod 2 is realized, and the oil pumping work is completed.

Pressure gauges 94 are respectively connected to outlets of the port A and the port B of the electromagnetic directional valve 92 and are used for constantly monitoring oil pressure in the port A and the port B of the electromagnetic directional valve 92.

The hydraulic station 9 is further provided with a thermometer 95 for constantly monitoring the temperature of the hydraulic oil in the hydraulic station 9.

The hydraulic station 9 is further provided with a liquid level meter 96 for constantly monitoring the liquid level height of the hydraulic pressure in the hydraulic station 9.

As shown in fig. 1-3, for the conventional field working state of the prior art walking beam type pumping unit, the ratio of the upward load to the downward load is mostly as follows: 5:3.

In the embodiment, the beam-balanced energy-saving pumping unit is a conventional 10-type beam-balanced pumping unit, and the upward load is S1=5 t; the downlink load is S2=3 t; the stroke = 2.5-3.0 m.

The distance L1 from the suspension point of the horse head 31 to the pivot of the walking beam 3 (the connection part of the walking beam 3 and the supporting seat 41) is 3480mm, and the distance L2 from the gravity point of the balance weight 34 to the pivot of the walking beam 3 is 3250 mm;

the distance L3=1000mm from the fulcrum of the joint of the power cylinder 6 and the walking beam 3 to the fulcrum of the walking beam 3;

the distance L4=1000mm from the fulcrum of the connecting part of the balance cylinder 7 and the walking beam 3 to the fulcrum of the walking beam 3;

the weight P2 of the weight is 3 t.

The calculation according to the above parameters: (1) when the sucker rod 2 goes upward, the jacking force of the power oil cylinder 6 is as follows:

(L1xS1-L2xP2)/L3=(3480x5-3150x3)/1000=7.95t。

and the power oil cylinder 6 and the balance cylinder 7 are equally divided into 7.95t/2=3.975 t.

Therefore, when the sucker rod 2 goes upward, the jacking force of the power cylinder 6 is 3.975 t.

(2) When the sucker rod 2 goes down, the pulling force of the power cylinder 6 is as follows:

(L1-L2)*3/L3=(3480-3150)*3/1000=0.99t；

the maximum thrust of the power oil cylinder 6 is 10t, the maximum tension of the balance cylinder 7 is 15t, the stroke of the plunger is 500mm, and the system pressure is 12 MPa; has the function of randomly adjusting the stroke and the stroke frequency.

When the pumping unit is used, firstly, a motor in the motion control system is started, the hydraulic pump 91 outputs power to pressurize hydraulic oil in the hydraulic station 9 and reach a port P of the electromagnetic directional valve 92 through the one-way valve, at the moment, an electromagnet on the right side of the electromagnetic directional valve 92 is electrified, the pressure oil simultaneously reaches a port A and a port B of the electromagnetic directional valve 92 and is guided into the power oil cylinder 6 through the guide pipe, at the moment, the power oil cylinder 6 is differentially and rapidly extended, and the upward motion of the pumping rod 2 is completed.

At the moment, the energy accumulator 8 releases energy, so that the balance cylinder 7 and the power oil cylinder 6 act simultaneously to drive the oil pumping unit 2 to move upwards.

When the oil cylinder rises to a designated position, the electromagnetic directional valve 92 is reversed, the right electromagnet is de-energized, the left electromagnet is energized, pressure oil enters the port B of the electromagnetic directional valve 92 through the port P of the electromagnetic directional valve 92, then the pressure oil is guided into the upper oil cavity of the piston rod of the power oil cylinder 6 through the flow guide pipe to retract the power oil cylinder 6, when the power oil cylinder 6 retracts, the oil in the lower oil cavity flows to the port T through the port A of the electromagnetic directional valve 92, and then flows back to the hydraulic station 9 through the oil return filter 93, and the downward movement of the sucker rod 2 is completed.

The telescopic end of the balance cylinder 7 extends out at the moment, and the energy accumulator 8 stores energy at the same time, so that the up-and-down motion of the sucker rod 2 is realized, and the oil pumping work is completed.

For those skilled in the art, based on the teachings of the present invention, changes, modifications, substitutions and variations can be made to the embodiments without departing from the principles and spirit of the invention.

Claims (10)

1. The utility model provides a balanced energy-conserving beam-pumping unit of walking beam, includes base (1), and base (1) top is rotated and is provided with walking beam (3) that are used for promoting or descend sucker rod (2), its characterized in that: the walking beam (3) is supported and installed on the base (1) by the support (4), and the support (4) is provided with a driving device for driving the walking beam (3) to rotate and an energy storage driving device for storing or releasing energy when working along with the driving device.

2. The beam-balanced energy-saving pumping unit according to claim 1, characterized in that: the driving device comprises a power oil cylinder (6), the fixed end of the power oil cylinder (6) is rotatably installed on the support (4), and the telescopic end of the power oil cylinder (6) is rotatably installed on the walking beam (3).

3. The beam-balanced energy-saving pumping unit according to claim 2, characterized in that: the energy storage driving device comprises a balance cylinder (7) which is symmetrically arranged with the power cylinder (6), the fixed end of the balance cylinder (7) is rotatably installed on the support (4), and the telescopic end of the balance cylinder (7) is rotatably installed on the walking beam (3).

4. The beam-balanced energy-saving pumping unit according to claim 3, characterized in that: the balance cylinder (7) is connected with an energy accumulator (8), and nitrogen is filled in the energy accumulator (8).

5. The beam-balanced energy-saving pumping unit according to claim 4, characterized in that: the telescopic end of the power oil cylinder (6) retracts to drive the walking beam (3) to move downwards, the walking beam (3) drives the telescopic end of the balance cylinder (7) to stretch out to cause the cavity of the inner cavity of the balance cylinder (7) to reduce the expansion of compressed gas and increase the gas pressure, high-pressure gas enters the energy accumulator (8), and the energy accumulator (8) stores energy.

6. The beam-balanced energy-saving pumping unit according to claim 5, characterized in that: the telescopic end of the power oil cylinder (6) stretches out to drive the walking beam (3) to go upwards, the walking beam (3) drives the telescopic end of the balance cylinder (7) to retract to cause the increase of a cavity in the inner cavity of the balance cylinder (7), and the energy accumulator (8) can be discharged to be used for being matched with the power oil cylinder (6) to synchronously drive the walking beam (3) to drive the sucker rod (2) to lift.

7. The beam-balanced energy-saving pumping unit according to claim 6, characterized in that: the distance from the joint of the power cylinder (6) and the walking beam (3) to the fulcrum of the walking beam (3) is equal to the distance from the joint of the balance cylinder (7) and the walking beam (3) to the fulcrum of the walking beam (3).

8. The beam-balanced energy-saving pumping unit according to claim 7, characterized in that: the power oil cylinder (6) is driven to move by a power system, the power system comprises a hydraulic station (9), a hydraulic pump (91) is arranged in the hydraulic station (9), an output port of the hydraulic pump (91) is connected to a port P of the electromagnetic directional valve (92) through a flow guide pipe, and a port A and a port B of the electromagnetic directional valve (92) are connected to a lower oil cavity and an upper oil cavity of the power oil cylinder (6) through the flow guide pipe.

9. The beam-balanced energy-saving pumping unit according to claim 8, characterized in that: one end fixed mounting of walking beam (3) has horse head (31), is provided with the suspension point on horse head (31), is connected with wire rope (32) on the suspension point, and wire rope (32) lower extreme passes through connector (33) and sucker rod (2) fixed connection.

10. The beam-balanced energy-saving pumping unit according to claim 9, characterized in that: one end of the walking beam (3) far away from the horse head (31) is fixedly connected with a balance block (34).

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