CN117266796B

CN117266796B - Movable wind-force beam-pumping unit

Info

Publication number: CN117266796B
Application number: CN202311419847.9A
Authority: CN
Inventors: 杨彪; 田小明
Original assignee: Ocean Power Beijing Technology Co ltd
Current assignee: Ocean Power Beijing Technology Co ltd
Priority date: 2023-10-30
Filing date: 2023-10-30
Publication date: 2024-08-09
Anticipated expiration: 2043-10-30
Also published as: CN117266796A

Abstract

The invention discloses a movable wind power pumping unit, which comprises: the pumping unit comprises a pumping unit main body, a driving device and a driving device, wherein the pumping unit main body comprises a wind driving part and a self-driven curved disc part, the wind driving part is arranged on the self-driven curved disc part, the wind driving part is rotationally connected with the self-driven curved disc part, and a plurality of pumping units are arranged on the self-driven curved disc part; therefore, after the oil pumping unit main body is arranged at the working position of the oil well, the wind power driving part is driven to rotate under the action of wind power, and then the wind power driving part drives the self-driving curved disc part to rotate, so that the self-driving curved disc part drives a plurality of oil pumping parts arranged to perform up-and-down oil pumping actions to realize oil pumping actions. The movable wind-driven oil pumping unit with the structure can replace the traditional kowtow machine to realize oil pumping, greatly saves the consumption of electric power energy sources, saves electric charge, and compared with a wind-driven generator equipped for the kowtow machine, the movable wind-driven oil pumping unit has a simple structure and is convenient to transport and move.

Description

Movable wind-force beam-pumping unit

Technical Field

The invention relates to the technical field of oil pumping units, in particular to a movable wind power oil pumping unit.

Background

The pumping unit is a machine equipment for exploiting petroleum, commonly called as "kou machine", and the kou machine, i.e. the beam pumping unit, is a traditional pumping equipment widely used in oil fields, and is usually directly dragged by a common alternating current asynchronous motor, so that oil pipes at two ends can take oil in sequence, and oil in two oil wells can be taken at the same time, and the oil in the pit is sent to the ground.

For example, one of the main structural types of conventional pumping units is a beam pumping unit, and its structural components include horseheads, beams, links, cranks, balancing devices, bases, reducers, belt drives, motors, control cabinets, lubrication systems, and the like. During oil extraction, the motor drives the crank and the connecting rod through the speed reducer to drive the walking beam and the horsehead to reciprocate up and down, and the underground oil pump is driven to work.

The traditional pumping unit is complex in structure, and in oil extraction cost, the electricity charge of the pumping unit accounts for about 30%, the annual electricity consumption accounts for 20% -30% of the total electricity consumption of an oil field, and the electricity consumption of the pumping unit is the 2 nd position of the electricity consumption of the oil field and is inferior to water injection. The total efficiency of the pumping system of the beam pumping unit is only 12% -23% in average in the domestic general area, and the advanced area is not 30% so far, so that the urgent degree and difficulty of high energy consumption of the pumping system can be reduced. The problem of power saving and energy saving of the knocking head machine is always researched along with the knocking head machine. Therefore, there is a need for a movable wind-powered pumping unit that at least partially solves the problems of the prior art.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the invention is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a movable wind pumping unit, including: the oil pumping unit comprises an oil pumping unit body, wherein the oil pumping unit body comprises a wind power driving part and a self-driven curved disc part, the wind power driving part is arranged on the self-driven curved disc part, the wind power driving part is rotationally connected with the self-driven curved disc part, and a plurality of oil pumping parts are arranged on the self-driven curved disc part.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the self-driven curved disc part comprises an outer shell, a self-driven rotary drum and a self-driven piece, wherein the self-driven rotary drum is arranged in the outer shell, the wind-driven part and the self-driven piece are respectively arranged on the outer shell and are rotationally connected with the self-driven rotary drum, a circumferential Qu Die track is arranged on the self-driven rotary drum, a plurality of reciprocating driving mechanisms are arranged on the inner wall of the outer shell, the reciprocating driving mechanisms are rotationally connected with Zhou Xiangqu disc tracks, and the oil pumping part is connected with the reciprocating driving mechanisms.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the circumferential curved disc track comprises a plurality of curved disc convex tracks and a plurality of curved disc concave tracks, and the Qu Die convex tracks and the curved disc concave tracks are arranged on the outer wall of the self-driven rotary drum in a surrounding manner and are rotationally connected with the reciprocating driving mechanism.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the reciprocating driving mechanism comprises a vertical guide rail, a vertical sliding block, an upper wheel body and a lower wheel body, wherein the vertical guide rail is arranged on the inner wall of the outer shell, the vertical sliding block is in sliding connection with the vertical guide rail, the upper wheel body and the lower wheel body are arranged on the vertical sliding block and are positioned on the upper side and the lower side of the Zhou Xiangqu disc track, the upper wheel body and the lower wheel body are respectively in rotary connection with the Zhou Xiangqu disc track, and the vertical sliding block is connected with the oil pumping part.

According to the movable wind-driven oil pumping unit disclosed by the embodiment of the invention, the vertical guide rail is provided with the groove body, the vertical sliding block is provided with the convex clamping body, and the convex clamping body is arranged in the groove body in a sliding manner.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the upper end of the self-driven rotary drum is provided with the gear disc, and the gear disc is rotationally connected with the self-driven part.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the self-driving part is a motor, an internal gear is arranged on an output shaft of the motor, and the internal gear is rotationally connected with the gear disc.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the wind-driven part comprises a wind impeller, a wind box, a transverse transmission shaft, a vertical supporting cylinder and a vertical transmission shaft, wherein the vertical supporting cylinder is arranged on the outer shell, the vertical transmission shaft is arranged in the vertical supporting cylinder, the lower end of the vertical transmission shaft is connected with the self-driven cylinder, the wind box is movably arranged at the upper end of the vertical supporting cylinder, the transverse transmission shaft is arranged in the wind box in a penetrating way, the wind impeller is arranged at one end of the transverse transmission shaft, the other end of the transverse transmission shaft is provided with a wind guide blade, and the transverse transmission shaft is rotationally connected with the vertical transmission shaft through a steering mechanism.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the steering mechanism comprises a first bevel gear and a second bevel gear, the first bevel gear is arranged on the transverse transmission shaft, the second bevel gear is arranged at the upper end of the vertical transmission shaft, and the first bevel gear and the second bevel gear are rotationally connected.

According to the movable wind-driven oil pumping unit provided by the embodiment of the invention, the wind-driven impeller comprises an impeller seat and a plurality of wind-driven blade bodies, wherein the impeller seat is arranged at one end of the transverse transmission shaft, and the wind-driven blade bodies are uniformly distributed on the impeller seat.

Compared with the prior art, the invention at least comprises the following beneficial effects:

The invention provides a movable wind power pumping unit, which comprises: the pumping unit comprises a pumping unit main body, a driving device and a driving device, wherein the pumping unit main body comprises a wind driving part and a self-driven curved disc part, the wind driving part is arranged on the self-driven curved disc part, the wind driving part is rotationally connected with the self-driven curved disc part, and a plurality of pumping units are arranged on the self-driven curved disc part; therefore, after the oil pumping unit main body is arranged at the working position of the oil well, the wind power driving part is driven to rotate under the action of wind power, and then the wind power driving part drives the self-driving curved disc part to rotate, so that the self-driving curved disc part drives a plurality of oil pumping parts arranged to perform up-and-down oil pumping actions to realize oil pumping actions. The movable wind-driven oil pumping unit with the structure can replace the traditional kowtow machine to realize oil pumping, greatly saves the consumption of electric power energy sources, saves electric charge, and compared with a wind-driven generator equipped for the kowtow machine, the movable wind-driven oil pumping unit has a simple structure and is convenient to transport and move.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of a part of the structure of the present invention.

FIG. 3 is a schematic diagram of a self-driving disk portion according to the present invention.

FIG. 4 is a schematic diagram of the internal structure of the self-driving disk portion according to the present invention.

Fig. 5 is a schematic structural view of a self-driven drum according to the present invention.

Fig. 6 is a bottom view of the self-driving disk portion according to the present invention.

Fig. 7 is a schematic view of a part of the structure of the reciprocating drive mechanism in the present invention.

Fig. 8 is a schematic view of a part of the structure of the wind power driving part in the present invention.

Detailed Description

The present invention is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the invention by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 8, the present invention provides a movable wind pumping unit, comprising: the pumping unit main body 100 comprises a wind power driving part 1 and a self-driven curved disc part 2, wherein the wind power driving part 1 is arranged on the self-driven curved disc part 2, meanwhile, the wind power driving part 1 is rotationally connected with the self-driven curved disc part 2, and a plurality of pumping units 3 are arranged on the self-driven curved disc part 2; therefore, when the pumping unit main body 100 is installed at the working position of the oil well, the wind-driven driving part 1 is driven to rotate under the action of wind force, and then the wind-driven driving part 1 drives the self-driving curved disc part 2 to rotate, so that the self-driving curved disc part 2 drives the plurality of pumping units 3 installed to perform up-and-down pumping actions to realize pumping actions.

The movable wind-driven oil pumping unit with the structure can replace the traditional kowtow machine to realize oil pumping, greatly saves the consumption of electric power energy sources, saves electric charge, and compared with a wind-driven generator equipped for the kowtow machine, the movable wind-driven oil pumping unit has a simple structure and is convenient to transport and move.

Exemplary self-driven curved disc portion

Further, in some embodiments of the present invention, a specific structure of the self-driven disc portion 2 is provided, where the self-driven disc portion 2 includes an outer housing 21, a self-driven drum 22, and a self-driving piece 23, where the self-driven drum 22 is installed in the outer housing 21, and the wind power driving portion 1 is installed on the outer housing 21, further, a circumferential disc track 24 is installed on the self-driven drum 22, and a plurality of reciprocating driving mechanisms 25 are installed on an inner wall of the outer housing 21, where the reciprocating driving mechanisms 25 are rotationally connected with the Zhou Xiangqu disc track 24, so that the wind power driving portion 1 is driven by wind power, the wind power driving portion 1 drives the self-driven drum 22 to rotate, and then the self-driven drum 22 synchronously drives the circumferential disc track 24 to rotate, and the circumferential disc track 24 drives the reciprocating driving mechanism 25 to move up and down, and then the reciprocating driving mechanism 25 drives the oil pumping portion 3 to move up and down, so as to realize oil pumping.

Further, the number of the self-driving members 23 is at least two, so that the self-driving members 23 are uniformly distributed on the outer casing 21, the self-driving members 23 can uniformly drive the self-driving drum 22 to rotate, specifically, when the wind force is small and the wind force driving part 1 cannot be driven to rotate, the self-driving members 23 are powered on by an external power source, the self-driving members 23 are set as motors, so that the motors are started for standby, a gear disc 221 is installed at the upper end of the self-driving drum 22, and the gear disc 221 can be driven to rotate after rotating with the self-driving members 23, wherein an internal gear 231 is installed on an output shaft of the motors, and the internal gear 231 is rotationally connected with the gear disc 221. Therefore, when the wind force is small, the self-driving piece 23 drives the self-driving rotary drum 22 to rotate, so that the pumping unit main body 100 can also perform pumping action, consumption of electric power energy sources is greatly saved, and electric charge is saved.

Further, the above-mentioned Zhou Xiangqu disc track 24 includes a plurality of curved disc convex tracks 241 and a plurality of curved disc concave tracks 242, since the pumping stroke frequency of the conventional kowtow machine is 6 times, 7 times, 8 times, 9 times, etc. per minute, the number of the above-mentioned plurality of curved disc convex tracks 241 and the number of the plurality of curved disc concave tracks 242 may be designed according to actual needs, and the number of the curved disc convex tracks 241 and the number of the curved disc concave tracks 242 in the present embodiment is designed to be 1, wherein this encloses the curved disc convex tracks 241 and the curved disc concave tracks 242 on the outer wall of the self-driven drum 22, and the curved disc convex tracks 241 and the curved disc concave tracks 242 are smoothly and excessively connected and rotationally connected with the reciprocating driving mechanisms 25, further, the number of the reciprocating driving mechanisms 25 is designed to be 2, that is, the curved disc convex tracks 241 are matched with 1 reciprocating driving mechanism 25, preferably, the two reciprocating driving mechanisms 25 are respectively corresponding to the highest point of the curved disc convex tracks 241 and the lowest point of the curved disc concave tracks 242, so that the pumping unit 100 can continuously perform a large power consumption, and a large power consumption can be saved.

Exemplary reciprocating drive mechanism

Further, in some embodiments of the present invention, there is provided a specific structure of the reciprocating driving mechanism 25, where the reciprocating driving mechanism 25 includes a vertical guide rail 251, a vertical slider 252, an upper wheel 253 and a lower wheel 254, specifically, where the vertical guide rail 251 is mounted on an inner wall of the outer housing 21, and the vertical slider 252 is slidably connected to the vertical guide rail 251, and a groove 255 is formed on the vertical guide rail 251, and a cam body 256 is mounted on the vertical slider 252, so that the cam body 256 is slidably mounted in the groove 255, and thus it is possible to implement sliding of the vertical slider 252 along the vertical guide rail 251, and further, an upper wheel 253 and a lower wheel 254 are mounted on the vertical slider 252, and a circumferential curved disc track 24 is located between the upper wheel 253 and the lower wheel 254, that is, the upper wheel 253 and the lower wheel 254 are located on both sides of the Zhou Xiangqu disc track 24;

Therefore, when the self-driving drum 22 rotates, the circumferential curved disc track 24 is driven to synchronously rotate, and as the curved disc convex track 241 and the curved disc concave track 242 in the circumferential curved disc track 24 respectively have the highest point and the lowest point, the highest point and the lowest point pass through the space between the upper wheel body 253 and the lower wheel body 254 in the process from the highest point to the lowest point and from the lowest point to the highest point when the circumferential curved disc track 24 rotates, the vertical sliding block 252 is continuously driven to move up and down relative to the vertical guide rail 251, and the sent oil pumping part 3 is driven to move up and down so as to realize the oil pumping action.

It will be appreciated that the pumping section 3 includes a pumping rod 31 and a rope hanger 32, the rope hanger 32 being mounted on the bottom of the vertical slider 252, the pumping rod 31 being mounted on the bottom of the rope hanger 32.

Exemplary wind-driven portion

Further, in some embodiments of the present invention, there is provided a specific structure of the wind power driving part 1, where the wind power driving part 1 includes a wind power impeller 11, a wind power box 12, a transverse transmission shaft 13, a vertical support cylinder 14, and a vertical transmission shaft 15, specifically, where the vertical support cylinder 14 is mounted on an outer casing 21, the vertical transmission shaft 15 is mounted in the vertical support cylinder 14, and a lower end of the vertical transmission shaft 15 extends downward into the outer casing 21 to be connected with a self-driving drum 22;

The wind box 12 is movably arranged at the upper end of the vertical supporting cylinder 14, the first transverse transmission shaft 13 is arranged in the wind box 12 in a penetrating way, the wind impeller 11 is arranged at one end of the transverse transmission shaft 13, and the wind guide blades 16 are arranged at the other end of the transverse transmission shaft 13.

When wind blows, the wind receiving surface of the wind impeller 11 always faces the wind blowing direction through the design of the wind guide blades 16, so that the wind power drives the wind guide blades 16 to rotate, the wind guide blades 16 drive the transverse transmission shafts 13 to synchronously rotate, the transverse transmission shafts 13 drive the vertical transmission shafts 15 to rotate through the steering mechanism 17, the steering mechanism 17 converts the transverse rotation into the vertical rotation, and the self-driven rotary drum 22 is driven to rotate, so that the driving effect of the wind power driving part 1 is specifically realized, the condition that the traditional head knocking machine consumes electric power to work is replaced, and a large amount of electricity cost is saved.

Further, the steering mechanism 17 includes a first bevel gear 171 and a second bevel gear 172, specifically, the first bevel gear 171 is mounted on the transverse transmission shaft 13, the second bevel gear 172 is mounted on the upper end of the vertical transmission shaft 15, and the first bevel gear 171 and the second bevel gear 172 are rotationally connected, so when the transverse transmission shaft 13 drives the first bevel gear 171 to rotate, the first bevel gear 171 drives the second bevel gear 172 to rotate, thereby realizing the steering function and greatly improving the transmission efficiency.

Further, the wind turbine 11 includes a turbine housing 111 and a plurality of wind blades 112, specifically, the turbine housing 111 is mounted at one end of the transverse transmission shaft 13, and the wind blades 112 are uniformly distributed on the turbine housing 111 to push the wind blades 112 to rotate under the action of wind force, so that the wind blades 112 drive the turbine housing 111 and the transverse transmission shaft 13 to rotate, thereby realizing wind energy to mechanical energy and saving consumption of electric energy.

Further, the wind blade body 112 may be designed into a multi-segment structure, so that the wind blade body 112 can be disassembled and transported, and then spliced and installed after reaching the installation site; or the wind blade body 112 is designed to be of a folding structure, and can be conveniently transported after being folded, and can be unfolded after reaching an installation site.

Further, the wind blade 112 may be designed to automatically adjust the windward angle, so that the rotation efficiency of the wind driven wind blade 112 is greatly improved, and the specific principle is not repeated.

The above examples are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above examples, and any other changes, modifications, substitutions, combinations, and simplifications that do not depart from the spirit and principle of the present invention should be made in the scope of the present invention.

Claims

1. A movable wind-powered oil extractor, comprising:

Pumping unit main part (100), pumping unit main part (100) include wind-force drive portion (1), from driving bent dish portion (2), wind-force drive portion (1) set up on driving bent dish portion (2), wind-force drive portion (1) rotate with from driving bent dish portion (2) and be connected, from driving bent dish portion (2) including driving rotary drum (22), reciprocating drive mechanism (25), be provided with circumference Qu Die track (24) on driving rotary drum (22), circumference Qu Die track (24) include a plurality of bent dish protruding track (241), a plurality of bent dish concave track (242), qu Die protruding track (241), bent dish concave track (242) enclose to establish on the outer wall of driving rotary drum (22) to smooth excessive connection between bent dish protruding track (241), the bent dish concave track (242) to rotate with reciprocating drive mechanism (25) and be connected, reciprocating drive mechanism (25) are connected with pumping unit (3).

2. A movable wind-driven oil pumping unit according to claim 1, wherein the self-driven curved disc part (2) comprises an outer shell (21), a self-driven rotary drum (22) and a self-driven piece (23), the self-driven rotary drum (22) is arranged in the outer shell (21), the wind-driven part (1) and the self-driven piece (23) are respectively arranged on the outer shell (21) and are rotationally connected with the self-driven rotary drum (22), and a plurality of reciprocating driving mechanisms (25) are arranged on the inner wall of the outer shell (21).

3. The movable wind pumping unit according to claim 2, wherein the reciprocating driving mechanism (25) comprises a vertical guide rail (251), a vertical sliding block (252), an upper wheel body (253) and a lower wheel body (254), the vertical guide rail (251) is arranged on the inner wall of the outer shell (21), the vertical sliding block (252) is slidably connected on the vertical guide rail (251), the upper wheel body (253) and the lower wheel body (254) are arranged on the vertical sliding block (252) and are positioned on the upper side and the lower side of the Zhou Xiangqu disc track (24), the upper wheel body (253) and the lower wheel body (254) are respectively connected with the Zhou Xiangqu disc track (24) in a rotating mode, and the vertical sliding block (252) is connected with the oil pumping part (3).

4. A movable wind pumping unit according to claim 3, wherein the vertical guide rail (251) is provided with a groove body (255), the vertical sliding block (252) is provided with a convex clamping body (256), and the convex clamping body (256) is slidably arranged in the groove body (255).

5. A movable wind-driven oil pumping unit according to claim 2, characterized in that a gear disc (221) is arranged at the upper end of the self-driven rotary drum (22), and the gear disc (221) is rotatably connected with the self-driven member (23).

6. A movable wind-powered pumping unit as claimed in claim 5, wherein the self-driving member (23) is provided as a motor, an internal gear (231) is provided on an output shaft of the motor, and the internal gear (231) is rotatably connected with the gear disc (221).

7. The movable wind-driven oil pumping unit according to claim 2, wherein the wind-driven part (1) comprises a wind impeller (11), a wind box (12), a transverse transmission shaft (13), a vertical support cylinder (14) and a vertical transmission shaft (15), the vertical support cylinder (14) is arranged on an outer shell (21), the vertical transmission shaft (15) is arranged in the vertical support cylinder (14), the lower end of the vertical transmission shaft (15) is connected with a self-driven rotary cylinder (22), the wind box (12) is movably arranged at the upper end of the vertical support cylinder (14), the transverse transmission shaft (13) is arranged in the wind box (12) in a penetrating manner, the wind impeller (11) is arranged at one end of the transverse transmission shaft (13), the other end of the transverse transmission shaft (13) is provided with a wind guide blade (16), and the transverse transmission shaft (13) is rotationally connected with the vertical transmission shaft (15) through a steering mechanism (17).

8. The movable wind pumping unit according to claim 7, wherein the steering mechanism (17) comprises a first bevel gear (171) and a second bevel gear (172), the first bevel gear (171) is arranged on the transverse transmission shaft (13), the second bevel gear (172) is arranged at the upper end of the vertical transmission shaft (15), and the first bevel gear (171) and the second bevel gear (172) are rotatably connected.

9. A movable wind pumping unit according to claim 7, wherein the wind impeller (11) comprises an impeller seat (111) and a plurality of wind blade bodies (112), the impeller seat (111) is arranged at one end of a transverse transmission shaft (13), and the plurality of wind blade bodies (112) are uniformly distributed on the impeller seat (111).