CN113872270A

CN113872270A - Energy storage control method of clean energy power generation system

Info

Publication number: CN113872270A
Application number: CN202111043320.1A
Authority: CN
Inventors: 赵伦慧
Original assignee: Anhui Tuotian Power Design Consulting Co ltd
Current assignee: Anhui Tuotian Power Design Consulting Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2021-12-31
Anticipated expiration: 2041-09-07
Also published as: CN113872270B

Abstract

The invention discloses an energy storage control method of a clean energy power generation system, which comprises data acquisition equipment, data transmission equipment, power generation and energy storage equipment and operation equipment, wherein the data acquisition equipment, the data transmission equipment, the power generation and energy storage equipment and the operation equipment form a basic layer, the output end of the basic layer is connected with the input end of a data layer, the data layer comprises energy storage data, charging data, operation data and external data, and the output end of the data layer is connected with the input end of an application layer. According to the invention, firstly, the energy storage control system is arranged, so that the working efficiency of the energy storage control of the clean energy power generation system is improved, and the utilization efficiency of resources is improved.

Description

Energy storage control method of clean energy power generation system

Technical Field

The invention relates to the technical field of clean energy power generation and energy storage, in particular to an energy storage control method of a clean energy power generation system.

Background

Clean energy, namely green energy, refers to energy which does not discharge pollutants and can be directly used for production and living, and includes nuclear energy and "renewable energy", and renewable energy refers to energy which can be regenerated by raw materials, such as hydroelectric power generation, wind power generation, solar energy, biological energy (biogas), geothermal energy (including ground source and water source) and sea tide energy, and renewable energy does not have the possibility of energy exhaustion, however, the energy storage control of the existing clean energy power generation system still has disadvantages: at first, the most control of current energy storage control system is single, can only simple energy conversion utilization, and the flexibility of control is relatively poor, and the availability factor that leads to the resource is lower, and secondly, at the in-process of clean energy storage conversion, not be equipped with transmission adjustment mechanism, need use a large amount of manual works during the operation, waste time and energy, and finally, the output of electricity generation energy storage is not equipped with contact control mechanism, is not convenient for be full of the back and cuts off the power supply adjustment certainly, and the easy lossy equipment of manual operation.

Disclosure of Invention

The invention aims to: the energy storage control method of the clean energy power generation system is provided for solving the problems that most of the existing energy storage control systems are single in control, can only be used for simply converting and utilizing energy, and are poor in control flexibility, so that the utilization efficiency of resources is low.

In order to achieve the purpose, the invention adopts the following technical scheme:

the energy storage control method of the clean energy power generation system comprises data acquisition equipment, data transmission equipment, power generation energy storage equipment and operation equipment, wherein the data acquisition equipment, the data transmission equipment, the power generation energy storage equipment and the operation equipment form a basic layer, the output end of the basic layer is connected with the input end of the data layer, the data layer comprises energy storage data, charging data, running data and external data, the output end of the data layer is connected with the input end of an application layer, the application layer comprises a power generation energy storage system, a charging system, a contact control system, a turntable adjusting system, a conveying system, a feeding system, a discharging system and a comprehensive management system, and the output end of the application layer is respectively connected with the input ends of an energy storage control device, an energy storage adjusting device and an equipment transmission device.

As a further description of the above technical solution:

the input end of the integrated management system is respectively and electrically connected with the data acquisition equipment, the power switch and the output end of the power generation and energy storage system, the output end of the comprehensive management system is respectively and electrically connected with the input ends of the feeding system, the turntable adjusting system, the contact control system and the charging system, the output end of the feeding system is respectively and electrically connected with the input ends of the push plate adjusting system and the shifting system, the output end of the push plate adjusting system is electrically connected with the input end of the comprehensive management system, the output end of the displacement system is electrically connected with the input end of the comprehensive management system, the output end of the turntable adjusting system is electrically connected with the input end of the comprehensive management system, the output end of the contact control system is electrically connected with the input end of the comprehensive management system, and the output end of the charging system is electrically connected with the input end of the comprehensive management system.

As a further description of the above technical solution:

the feeding system comprises a push plate adjusting system and a shifting system.

On the other hand, the energy storage control device of the clean energy power generation system comprises a base, a charging seat and two groups of charging ends arranged on the charging seat, wherein a transmission adjusting mechanism is arranged on the base and comprises a mounting seat, a second driving mechanism, a transmission shaft, a rotary disc, a first mounting frame, a second mounting frame, a conveyor belt, a first driving mechanism, an electric slide rail, a third mounting frame, a mounting plate, a lifting mechanism and a push plate, the mounting seat is arranged on one side of the base, the first mounting frame is arranged on the base, the second driving mechanism is arranged on the mounting seat, the rotary disc is connected with the second driving mechanism through transmission of the transmission shaft, one end of the transmission shaft is rotatably connected with the first mounting frame, two groups of second mounting frames are arranged on one side of the base, which is far away from the rotary disc, on the first mounting frame, the conveyor belt is arranged between the two groups of second mounting frames, be provided with first actuating mechanism on the second mounting bracket, first actuating mechanism transmission is connected with the conveyer belt, the both sides that lie in two sets of second mounting brackets on the base all are provided with electronic slide rail, sliding connection has the third mounting bracket on the electronic slide rail, be provided with the mounting panel between the third mounting bracket, be provided with elevating system on the mounting panel, the last push pedal that is provided with of elevating system.

As a further description of the above technical solution:

be provided with on the mount pad with carousel assorted regulating box, be provided with contact control mechanism on the regulating box, contact control mechanism includes spout, slider, charging seat, the end of charging, slide, magnetic path, control box, electro-magnet, coil and second notch, the second notch has been seted up to the both sides of regulating box, the spout has all been seted up to the both sides of regulating box, slidable mounting has the slider on the spout, be provided with the slide on the slider, be provided with the charging seat between the slide, the inside of regulating box is provided with the control box, be provided with the electro-magnet on the control box, the wire winding is connected with the coil on the electro-magnet, the rear end of charging seat is located the inside of regulating box and is provided with the magnetic path with electro-magnet position assorted.

As a further description of the above technical solution:

the turntable is provided with mounting ports distributed at an angle of 90 degrees.

As a further description of the above technical solution:

the mounting base is provided with an electric cylinder matched with the mounting opening, and the first mounting frame is provided with a first notch matched with the mounting opening.

As a further description of the above technical solution:

be provided with switch on the mount pad, switch's output respectively with the input electric connection of first actuating mechanism, second actuating mechanism, electronic slide rail, electric cylinder, control box and charging seat.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. the energy storage control system is arranged, the feeding system is started through the comprehensive management system, the push plate adjusting system starts the lifting mechanism to adjust, the shifting system drives the electric slide rail to move and adjust close to the rotary table after the lifting mechanism is adjusted, when a charging interface of the charging equipment is in contact with a charging end, the comprehensive management system starts the charging system to charge, the charging system is automatically powered off after charging is completed, the comprehensive management system starts the contact control system, the contact control system starts the control box to operate, when the charging end is completely separated, the comprehensive management system starts the rotary table adjusting system to rotate and adjust, the transposition of the mounting port is completed, the working efficiency of energy storage control of the clean energy power generation system is improved, and therefore the utilization efficiency of resources is improved.

2. In the invention, a transmission adjusting mechanism is arranged, a second driving mechanism is connected with a turntable through a transmission shaft in a transmission way, one end of the transmission shaft is rotatably connected with a first mounting rack, a conveyor belt is arranged between two groups of second mounting racks, the first driving mechanism is connected with the conveyor belt in a transmission way, a third mounting rack is connected on an electric sliding rail in a sliding way, a mounting plate is arranged between the third mounting racks, a lifting mechanism is arranged on the mounting plate, a push plate is arranged on the lifting mechanism, a user puts charging equipment on the conveyor belt according to a uniform orientation, a charging interface faces to a charging end, then the first driving mechanism is started to drive the conveyor belt to move, the charging equipment is conveyed to a position close to the mounting port, then the lifting mechanism is started to adjust the height of the push plate, after the adjustment is finished, the electric sliding rail drives the third mounting rack to move, so that the push plate pushes the charging equipment to enter the mounting port, the charging interface of the charging equipment is in complete contact with the charging end, the feeding and discharging transmission of the charging equipment is realized, time and labor are saved, and the working efficiency of operation is improved.

3. According to the invention, the contact control mechanism is arranged, the sliding block is slidably mounted on the sliding groove, the sliding plate is arranged on the sliding block, the charging seat is arranged between the sliding plates, the control box is arranged in the adjusting box, the electromagnet is arranged on the control box, the coil is wound on the electromagnet, the magnetic block matched with the electromagnet in position is arranged at the rear end of the charging seat in the adjusting box, after charging is completed, the control box starts the adsorption function of the electromagnet, so that the electromagnet attracts the magnetic block, the magnetic block drives the charging seat to move towards the direction of the electromagnet, the charging end is separated from the charging interface of the charging equipment, separation of the charging interface is realized, manual replacement is reduced, separation loss of the device is reduced, and the service life of the device is prolonged.

Drawings

FIG. 1 is a first perspective view of a first embodiment of the present invention;

FIG. 2 illustrates a schematic top view of a structure provided in accordance with an embodiment of the present invention;

FIG. 3 illustrates a front view structural diagram provided in accordance with an embodiment of the present invention;

FIG. 4 illustrates a side view schematic diagram provided in accordance with an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a second embodiment of the present invention;

FIG. 6 is a schematic diagram of a third perspective structure provided in accordance with an embodiment of the present invention;

FIG. 7 illustrates a schematic side-sectional view of a portion of a conditioning tank provided in accordance with an embodiment of the present invention;

FIG. 8 is a schematic diagram illustrating a top view of a conditioning box provided in accordance with an embodiment of the present invention;

FIG. 9 is a schematic diagram illustrating an energy storage control architecture provided in accordance with an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a feeding system provided in accordance with an embodiment of the present invention;

fig. 11 is a schematic diagram illustrating a workflow structure provided by an embodiment of the present invention.

Illustration of the drawings:

1. a base; 2. a mounting seat; 3. a first mounting bracket; 301. a first notch; 4. a second mounting bracket; 5. a first drive mechanism; 6. a conveyor belt; 7. a third mounting bracket; 8. mounting a plate; 9. a lifting mechanism; 10. pushing the plate; 11. a turntable; 1101. an installation port; 12. an adjusting box; 1201. a chute; 1202. a second notch; 13. a charging seat; 14. a charging terminal; 15. a power switch; 16. an electric slide rail; 17. a second drive mechanism; 1701. a drive shaft; 18. an electric cylinder; 19. a slide plate; 20. a magnetic block; 21. a control box; 22. an electromagnet; 23. a coil; 24. a slide block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-11, the present invention provides a technical solution: an energy storage control method of a clean energy power generation system comprises a data acquisition device, a data transmission device, a power generation energy storage device and an operation device, wherein the data acquisition device, the data transmission device, the power generation energy storage device and the operation device form a basic layer, the output end of the basic layer is connected with the input end of a data layer, the data layer comprises energy storage data, charging data, operation data and external data, the output end of the data layer is connected with the input end of an application layer, the application layer comprises a power generation energy storage system, a charging system, a contact control system, a turntable adjusting system, a conveying system, a feeding system, a discharging system and a comprehensive management system, the output end of the application layer is respectively connected with the input ends of an energy storage control device, an energy storage adjusting device and a device transmission device, the data acquisition device is set for transmitting external environment information to the comprehensive management system, the data transmission equipment is used for realizing information transmission between control systems, setting the power generation and energy storage equipment, is convenient for storing energy generated after clean energy is generated, is connected with the charging seat 13 and is convenient for energy storage control of the energy, and setting the operation equipment is used for improving the adjustment accuracy of the device and is convenient for normal operation of the control system, time and labor are saved, so that the adjustment efficiency of the energy storage control is improved, setting the power generation and energy storage system is used for storing and power conversion of the energy generated by the clean energy and is convenient for energy storage control of the energy, setting the charging system is used for converting and storing the energy generated by the clean energy generation and is convenient for replacement and utilization, setting the contact control system is used for conveniently controlling the use of the contact control mechanism, so that the charging equipment is replaced when the automatic power failure is realized, and manual operation is reduced, the setting of carousel governing system is in order to realize the rotatory battery charging outfit that changes, the charging outfit's of being convenient for material loading ejection of compact, labour saving and time saving, conveying system's setting is in order to realize battery charging outfit's transportation, the mechanized energy storage control that realizes of being convenient for, the setting of material loading system and unloading system is in order to facilitate battery charging outfit's change regulation, the work efficiency of operation is improved, the setting of comprehensive management system is in order to guarantee the normal operating of energy storage control, the efficiency of clean energy electricity generation energy storage control is improved.

Specifically, as shown in fig. 10 and 11, the input end of the integrated management system is electrically connected to the output ends of the data acquisition device, the power switch 15 and the power generation and energy storage system, the output end of the integrated management system is electrically connected to the input ends of the feeding system, the turntable adjustment system, the contact control system and the charging system, the output end of the feeding system is electrically connected to the input ends of the push plate adjustment system and the shift system, the output end of the push plate adjustment system is electrically connected to the input end of the integrated management system, the output end of the shift system is electrically connected to the input end of the integrated management system, the output end of the turntable adjustment system is electrically connected to the input end of the integrated management system, the output end of the contact control system is electrically connected to the input end of the integrated management system, the output end of the charging system is electrically connected to the input end of the integrated management system, and the feeding system includes the push plate adjustment system and the shift system, the push plate adjusting system is set to facilitate pushing the charging device into the mounting port 1101 from the conveyor belt 6, so that the charging device is in contact with the charging terminal 14 to realize charging of the charging device, and the shifting system is set to assist in realizing shifting of the push plate adjusting system.

In another aspect, referring to fig. 1-8, the present invention provides a technical solution: an energy storage control device of a clean energy power generation system comprises a base 1, a charging seat 13 and two groups of charging ends 14 arranged on the charging seat 13, wherein a transmission adjusting mechanism is arranged on the base 1 and comprises a mounting seat 2, a second driving mechanism 17, a transmission shaft 1701, a rotary disc 11, a first mounting frame 3, a second mounting frame 4, a conveyor belt 6, a first driving mechanism 5, an electric slide rail 16, a third mounting frame 7, a mounting plate 8, a lifting mechanism 9 and a push plate 10, the mounting seat 2 is arranged on one side of the base 1, the first mounting frame 3 is arranged on the base 1, the second driving mechanism 17 is arranged on the mounting seat 2, the rotary disc 11 is in transmission connection with the second driving mechanism 17 through the transmission shaft 1701, one end of the transmission shaft 1701 is rotationally connected with the first mounting frame 3, two groups of second mounting frames 4 are arranged on one side of the base 1, which is far away from the rotary disc 11, on the first mounting frame 3, a conveyor belt 6 is arranged between two groups of second mounting frames 4, a first driving mechanism 5 is arranged on the second mounting frames 4, the first driving mechanism 5 is in transmission connection with the conveyor belt 6, electric slide rails 16 are arranged on two sides of the two groups of second mounting frames 4 on the base 1, third mounting frames 7 are in sliding connection with the electric slide rails 16, a mounting plate 8 is arranged between the third mounting frames 7, a lifting mechanism 9 is arranged on the mounting plate 8, a push plate 10 is arranged on the lifting mechanism 9, and the setting of a transmission adjusting mechanism is to realize the transmission movement of the charging equipment, reduce the manual carrying, facilitate the charging and discharging of the charging equipment, save time and labor, improve the working efficiency of energy storage control, the setting of the mounting seat 2 is to facilitate the installation of the second driving mechanism 17 and the electric cylinder 18, the first driving mechanism 5 and the second driving mechanism 17 can be motors, and the setting of the first mounting frame 3 is convenient, in order to assist the turntable 11 to be rotatably mounted, the second mounting frame 4, the conveyor belt 6 and the first driving mechanism 5 are set to facilitate the conveying of the charging equipment and reduce manual carrying, the electric slide rail 16, the third mounting frame 7 and the mounting plate 8 are set to facilitate the charging of the charging equipment, and the lifting mechanism 9 and the push plate 10 are set to achieve the height adjustment of the push plate 10 and avoid the influence of the push plate 10 on the normal conveying of the charging equipment.

Specifically, as shown in fig. 7 and 8, an adjusting box 12 matched with the turntable 11 is arranged on the mounting base 2, a contact control mechanism is arranged on the adjusting box 12, the contact control mechanism includes a sliding slot 1201, a sliding block 24, a charging seat 13, a charging end 14, a sliding plate 19, magnetic blocks 20, a control box 21, an electromagnet 22, a coil 23 and a second notch 1202, the second notch 1202 is arranged on both sides of the adjusting box 12, the sliding slot 1201 is arranged on both sides of the adjusting box 12, the sliding block 24 is slidably mounted on the sliding slot 1201, the sliding plate 19 is arranged on the sliding block 24, the charging seat 13 is arranged between the sliding plates 19, the control box 21 is arranged inside the adjusting box 12, the electromagnet 22 is arranged on the control box 21, the coil 23 is wound on the electromagnet 22, the magnetic blocks 20 matched with the electromagnet 22 are arranged inside the adjusting box 12 at the rear end of the charging seat 13, the contact control mechanism is set to realize automatic power-off after the charging device is fully charged, therefore, the charging equipment can be conveniently adjusted and replaced after being fully charged, the sliding groove 1201, the sliding block 24, the sliding plate 19 and the second notch 1202 are set to facilitate the movement adjustment of the electromagnet 22 during working, the control box 21 is set to achieve the electrifying control of the electromagnet 22, so that the electromagnet 22 can attract the magnetic block 20 to move, the charging equipment is separated from the charging end 14, manual operation replacement is reduced, the loss of the device is reduced, and the service life of the whole device is prolonged.

Specifically, as shown in fig. 1 and 3, the mounting ports 1101 are arranged on the turntable 11 at an angle of 90 °, and the mounting ports 1101 are set to facilitate placement of the charging device.

Specifically, as shown in fig. 4, the mounting base 2 is provided with an electric cylinder 18 matched with the mounting port 1101, the first mounting frame 3 is provided with a first notch 301 matched with the mounting port 1101, the power switch 15 is set to facilitate starting of the device, the electric cylinder 18 is set to facilitate discharging of the turntable 11, and the first notch 301 is set to facilitate discharging of the charging device.

Specifically, as shown in fig. 3 and 5, a power switch 15 is disposed on the mounting base 2, and an output end of the power switch 15 is electrically connected to input ends of the first driving mechanism 5, the second driving mechanism 17, the electric slide rail 16, the electric cylinder 18, the control box 21, and the charging base 13, respectively.

The working principle is as follows: when the charging system is used, the feeding system is started through the comprehensive management system, the push plate adjusting system starts the lifting mechanism 9 to adjust, the lifting mechanism 9 drives the electric slide rail 16 to move and adjust to be close to the turntable 11 after adjustment is completed, when a charging interface of charging equipment is contacted with the charging end 14, the comprehensive management system starts the charging system to charge, the charging system is automatically powered off after charging is completed, then the comprehensive management system starts the contact control system, the contact control system starts the control box 21 to operate, when the charging end 14 is completely separated, the comprehensive management system starts the turntable adjusting system to rotate and adjust to complete transposition of the mounting port 1101, a user puts the charging equipment on the conveyor belt 6 according to a uniform orientation, the charging interface faces the charging end 14, then the first driving mechanism 5 is started to drive the conveyor belt 6 to move, and conveys the charging equipment to be close to the mounting port 1101, then, the lifting mechanism 9 is started to adjust the height of the push plate 10, after the adjustment is completed, the electric slide rail 16 drives the third mounting frame 7 to move, so that the push plate 10 pushes the charging equipment to enter the mounting port 1101, the charging port of the charging equipment is completely contacted with the charging end 14, after the charging is completed, the control box 21 starts the adsorption function of the electromagnet 22, so that the electromagnet 22 attracts the magnetic block 20, the magnetic block 20 drives the charging seat 13 to move towards the direction of the electromagnet 22, so that the charging end 14 is separated from the charging port of the charging equipment, then the second driving mechanism 17 is started to operate, the second driving mechanism 17 drives the rotary disc 11 to rotate for 90 degrees, so that the mounting port 1101 without the charging equipment is moved upwards, the charging is conveniently carried out for the next charging, after the charging equipment for the second time is completed, the first-time charging equipment is rotated and adjusted to be contacted with the base 1, then the electric cylinder 18 is started to eject the charging equipment, after the electric cylinder 18 is reset, the next rotary feeding can be carried out.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The energy storage control method of the clean energy power generation system comprises data acquisition equipment, data transmission equipment, power generation energy storage equipment and operation equipment and is characterized in that the data acquisition equipment, the data transmission equipment, the power generation energy storage equipment and the operation equipment form a basic layer, the output end of the basic layer is connected with the input end of the data layer, the data layer comprises energy storage data, charging data, operation data and external data, the output end of the data layer is connected with the input end of an application layer, the application layer comprises a power generation energy storage system, a charging system, a contact control system, a turntable adjusting system, a conveying system, a feeding system, a discharging system and a comprehensive management system, and the output end of the application layer is connected with the input ends of an energy storage control device, an energy storage adjusting device and an equipment transmission device respectively.

2. The energy storage control method of a clean energy power generation system according to claim 1, wherein the input terminal of the integrated management system is electrically connected to the data acquisition device, the power switch (15) and the output terminal of the power generation and energy storage system, the output terminal of the integrated management system is electrically connected to the input terminals of the feeding system, the turntable adjustment system, the contact control system and the charging system, the output terminal of the feeding system is electrically connected to the input terminals of the push plate adjustment system and the shift system, the output terminal of the push plate adjustment system is electrically connected to the input terminal of the integrated management system, the output terminal of the shift system is electrically connected to the input terminal of the integrated management system, the output terminal of the turntable adjustment system is electrically connected to the input terminal of the integrated management system, the output terminal of the contact control system is electrically connected to the input terminal of the integrated management system, and the output end of the charging system is electrically connected with the input end of the comprehensive management system.

3. The energy storage control method of a clean energy power generation system according to claim 2, wherein the feeding system comprises a push plate adjusting system and a shifting system.

4. An energy storage control device of a clean energy power generation system comprises a base (1), a charging seat (13) and two groups of charging ends (14) arranged on the charging seat (13), and is characterized in that a transmission adjusting mechanism is arranged on the base (1) and comprises a mounting seat (2), a second driving mechanism (17), a transmission shaft (1701), a rotary disc (11), a first mounting frame (3), a second mounting frame (4), a conveyor belt (6), a first driving mechanism (5), an electric slide rail (16), a third mounting frame (7), a mounting plate (8), a lifting mechanism (9) and a push plate (10), the mounting seat (2) is arranged on one side of the base (1), the first mounting frame (3) is arranged on the base (1), the second driving mechanism (17) is arranged on the mounting seat (2), and the rotary disc (11) is in transmission connection with the second driving mechanism (17) through the transmission shaft (1701), one end of the transmission shaft (1701) is rotatably connected with the first mounting rack (3), two groups of second mounting racks (4) are arranged on the base (1) and positioned on one side of the first mounting rack (3) far away from the turntable (11), a conveyor belt (6) is arranged between the two groups of second mounting frames (4), a first driving mechanism (5) is arranged on each second mounting frame (4), the first driving mechanism (5) is connected with a conveyor belt (6) in a transmission way, electric slide rails (16) are arranged on the two sides of the two groups of second mounting racks (4) on the base (1), the electric slide rail (16) is connected with a third mounting rack (7) in a sliding way, a mounting plate (8) is arranged between the third mounting racks (7), the mounting plate (8) is provided with a lifting mechanism (9), and the lifting mechanism (9) is provided with a push plate (10).

5. The energy storage control device of the clean energy power generation system according to claim 4, characterized in that the mounting base (2) is provided with an adjusting box (12) matched with the rotating disc (11), the adjusting box (12) is provided with a contact control mechanism, the contact control mechanism comprises a sliding slot (1201), a sliding block (24), a charging seat (13), a charging end (14), a sliding plate (19), a magnetic block (20), a control box (21), an electromagnet (22), a coil (23) and a second notch (1202), the two sides of the adjusting box (12) are provided with the second notch (1202), the two sides of the adjusting box (12) are both provided with the sliding slot (1201), the sliding block (24) is slidably mounted on the sliding slot (1201), the sliding plate (19) is arranged on the sliding block (24), and the charging seat (13) is arranged between the sliding plates (19), the inside of regulating box (12) is provided with control box (21), be provided with electro-magnet (22) on control box (21), wire-wound connection has coil (23) on electro-magnet (22), the rear end of charging seat (13) is located the inside of regulating box (12) and is provided with and electromagnet (22) position assorted magnetic path (20).

6. The energy storage control device of a clean energy power generation system according to claim 5, characterized in that the rotating disc (11) is provided with mounting openings (1101) distributed at an angle of 90 degrees.

7. The energy storage control device of the clean energy power generation system according to claim 6, characterized in that the mounting seat (2) is provided with an electric cylinder (18) matched with the mounting opening (1101), and the first mounting frame (3) is provided with a first notch (301) matched with the mounting opening (1101).

8. The energy storage control device of a clean energy power generation system according to claim 7, characterized in that a power switch (15) is arranged on the mounting base (2), and the output end of the power switch (15) is electrically connected with the input ends of the first driving mechanism (5), the second driving mechanism (17), the electric slide rail (16), the electric cylinder (18), the control box (21) and the charging base (13), respectively.