CN114759866B - Solar energy storage device capable of accurately compensating heated dislocation - Google Patents

Abstract

The invention discloses a solar energy storage device capable of accurately compensating heated dislocation, and belongs to the technical field of solar energy utilization. The energy storage device comprises a first solar cell panel, wherein the first solar cell panel is arranged in a cell mounting box, the cell mounting box is rotationally connected with a supporting rod through a rotating sleeve, an adjusting ring is arranged on the supporting rod, a photosensitive assembly is arranged in the cell mounting box and connected with the first solar cell panel, the supporting rod is arranged in a protective box body, a second solar cell panel is arranged on the protective box body and is arranged on a protective cover, the protective cover is rotationally connected with the protective box body, a cleaning frame is arranged on the inner wall of the protective box body and is connected with a cleaning hydraulic rod, and the cleaning frame is rotationally connected with the inner wall of the protective box body and has the function of automatically compensating for the heated dislocation of solar energy.

Description

Solar energy storage device capable of accurately compensating heated dislocation

Technical Field

The invention relates to the technical field of solar energy utilization, in particular to a solar energy storage device capable of accurately compensating heated dislocation.

Background

With increasing importance of people on the environment, solar power generation technology is gradually popularized, people have increasingly recognized solar energy as clean energy, so that the solar power generation technology is more mature, various solar devices such as solar power generation equipment, solar water heater equipment and solar evaporation equipment are developed, and the solar power generation equipment is a field frequently involved in a plurality of markets at present, but due to weather, limited power generation efficiency of the equipment and the like, the solar power generation equipment is not fully developed.

Traditional solar power generation facility only installs solar cell panel and carries out solar energy and receive on the fixed bolster, in-process that carries out the receipt, the change of solar angle is not considered for generating power is in the change state always, generating power is unstable will significantly reduce solar cell panel's life, in the use simultaneously, because weather change's reason, often can lead to solar cell panel surface to appear a large amount of dust and pile up, manual cleaning is troublesome laborsaving, and unsuitable large tracts of land clearance, and weather change is unusual, manual cleaning time can't confirm, consequently, very urgent need optimize solar power generation equipment, and then solve above problem.

Disclosure of Invention

The invention provides a solar energy storage device capable of accurately compensating heated dislocation, which can effectively solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

this energy memory includes first solar cell panel, first solar cell panel sets up in the battery mounting box, battery mounting box passes through swivel mount and bracing piece swivelling joint, be provided with the adjusting ring on the bracing piece, be provided with photosensitive assembly in the battery mounting box, photosensitive assembly is connected with first solar cell panel, photosensitive assembly is connected with the adjusting ring, the bracing piece sets up in the protection box, be provided with second solar cell panel on the protection box, second solar cell panel sets up on the protection cover, protection cover and protection box swivelling joint, be provided with the clearance frame on the protection box inner wall, the clearance frame is connected with clearance hydraulic pressure pole, clearance frame and protection box inner wall swivelling joint need carry out solar energy collection time, open the protection box, rise the bracing piece, the bracing piece drives the battery mounting box and rises, first solar cell panel will carry out solar energy's collection afterwards, second solar cell panel will also carry out solar energy's collection simultaneously, photosensitive assembly will adjust the gesture of collecting solar cell panel to first solar cell panel according to external sunshine, first solar cell panel will collect the battery and change into electric current, all solar cell panels's hydraulic pressure solar cell panels will be removed to the clearance frame after the solar cell panel, the dust is removed to the solar cell panel, the clearance frame is moved to the solar cell panel, the dust is removed to the solar cell panel, the clearance frame is removed to the solar cell panel.

The photosensitive assembly comprises a sensing air bag, a plurality of expansion cavities are arranged in the sensing air bag, the sensing air bag is arranged in a light-transmitting cover, the light-transmitting cover is arranged in a battery mounting box, the sensing air bag is an annular air bag, a lifting hydraulic rod is arranged in the sensing air bag, the lifting hydraulic rod is rotationally connected with a first solar cell panel, two ends of the first solar cell panel are respectively and slidably connected with the battery mounting box, a movable disc is arranged above the sensing air bag, the lower end of the movable disc abuts against the upper end of the sensing air bag, the movable disc is fixedly connected with the battery mounting box, the movable disc is connected with an adjusting circuit board through a wire, the adjusting circuit board is connected with the lifting hydraulic rod through the wire, the light-transmitting cover is capable of transmitting light, the surface of the sensing air bag is coated with light-absorbing materials, the sensing air bag is subjected to heat of illumination so as to expand, the movable disc is jacked in the expanding process, the movable disc is provided with a current-changing assembly in the movable disc, the lifting hydraulic length is controlled through current change, and accordingly the stretching posture of the first solar cell panel is controlled to receive more solar illumination, the angle of direct sunlight is maintained, the sunlight receiving area of the sunlight is increased, and the power generation effect is enhanced.

The movable disc comprises a rotary ring, a plurality of resisting fan blades are arranged on the rotary ring, each resisting fan blade is respectively abutted against each expansion cavity on the sensing air bag, a sliding groove is arranged on the rotary ring, one side of each resisting fan blade is embedded into the sliding groove and is in sliding connection with the sliding groove, the resisting fan blades can move upwards in the direction of the rotary ring under the action of the sensing air bag, so that current on an adjusting circuit board is gradually reduced, and the current change can control the gesture of a lifting hydraulic rod and a rotary motor.

An energizing ring is arranged in the sliding groove, the energizing ring is in sliding contact with a variable resistor, the energizing ring is connected with a resisting fan blade, the variable resistor is connected with a first solar cell panel through a wire, the energizing ring is connected with an adjusting circuit board through a wire, one end of the resisting fan blade, which is far away from the energizing ring, is in sliding connection with a sliding auxiliary groove on the rotating ring, an elastic switch is arranged in the sliding auxiliary groove, the resisting fan blade is against the elastic switch, a spring is arranged between the sliding auxiliary groove and the resisting fan blade, two ends of the spring are against the resisting fan blade and the sliding auxiliary groove, the elastic switch is connected with the adjusting ring through a wire, a deflation valve of a sensing air bag is arranged in the sliding auxiliary groove, the top end of the sliding auxiliary groove is provided with a deflation needle, the position of the deflation needle corresponds to the position of the deflation valve, after the sensing air bag is inflated, the resisting fan blade slides upwards, the energizing ring is driven to move, the current on the regulating circuit board is gradually reduced, the regulating circuit board can regulate the lifting hydraulic rod according to the change of the current, the lifting hydraulic rod can be shortened, the first solar cell panel is closed to the inside of the cell mounting box, the contact angle and the contact area between the gesture change of the first solar cell panel and sunlight are changed, the possibility of shielding is reduced, meanwhile, in the moving process, the resisting fan blade also resists against the elastic switch, the elastic switch is in a closed state, the rotating motor rotates, the direction of the cell mounting box is regulated, the degree of sunlight receiving is increased, the electricity generation loss caused by dislocation can be reduced, the effect of accurate compensation is achieved, and the processing result of the resisting fan blade of each section transmitted to the regulating circuit board is also different, for example, the rotating motor rotating angle corresponding to the resisting fan blade on one side close to the central axis of the first solar cell panel is larger than the rotating motor rotating angle brought by the resisting fan blade far away from the central axis of the first solar cell panel, and the expansion degree of the lifting hydraulic rod corresponding to the resisting fan blade on two ends of the first solar cell panel is larger than the expansion degree of the rotating lifting hydraulic rod brought by the resisting fan blade far away from two ends of the first solar cell panel.

The bracing piece includes first connecting rod and second connecting rod, second connecting rod and first connecting rod sliding connection, first connecting rod sets up on the baffle in the protection box, be provided with a plurality of fixed mouthful on second connecting rod and the first connecting rod, be provided with fixing bolt in the fixed mouthful, the adjusting ring sets up the one end that first connecting rod was kept away from at the second connecting rod, adjust the distance between first connecting rod and the second connecting rod according to specific needs, after the regulation is accomplished, insert fixing bolt through the fixed mouthful on first connecting rod and the second connecting rod, fixing bolt will fix first connecting rod and second connecting rod, avoid appearing the condition emergence that drops.

The adjusting ring includes the go-between, go-between and rotary sleeve fixed connection, rotary sleeve one end is kept away from to the go-between is connected with the rotating electrical machines output, the rotating electrical machines sets up on the motor cabinet, the rotating electrical machines passes through the wire and is connected with elastic switch, the motor cabinet passes through rotation axis swivelling joint with the second connecting rod, the motor cabinet lower extreme is provided with the tooth, be provided with the oscillating motor in the second connecting rod, the tooth meshing on oscillating motor output and the motor cabinet, the oscillating motor input passes through the wire with the regulating circuit board and is connected, the rotating electrical machines can drive the battery mounting box and rotate, this rotating electrical machines is controlled by elastic switch simultaneously, when the electric current that the regulating circuit board received is the predicted electric current, the regulating circuit board will not be for the rotating electrical machines power supply, be provided with time recorder on the regulating circuit board simultaneously, the size of predicted electric current will be controlled to control the rotation state of oscillating motor through time recorder, the oscillating motor is servo motor, can reach accurate control.

The cleaning frame is provided with a double-shaft motor, one end of the double-shaft motor, which is far away from the cleaning frame, is provided with a cleaning roller, the upper end face and the lower end face of the cleaning roller are respectively in sliding contact with the first solar panel and the second solar panel, one end of the double-shaft motor, which is far away from the cleaning roller, is provided with cleaning blades, the double-shaft motor is fixedly connected in the cleaning frame through a bracket, after the first solar panel and the second solar panel are retracted into a protective box, the cleaning hydraulic rod can drive the cleaning frame to move, so that the cleaning roller can clean between the first solar panel and the second solar panel, and simultaneously, the cleaning roller rotates to drive the cleaning blades to rotate in the cleaning process, the cleaning blades rotate positively, air flow is transmitted in the cleaning roller, the cleaning roller sprays air flow outwards, the first solar panel and the second solar panel are blown off, the cleaning roller reversely rotates in the retraction process, the residual dust which is not cleaned is enabled to enter the cleaning roller, the cleaning hydraulic rod is stretched, and the cleaning roller is retracted.

The protection box is internally provided with a storage battery, the storage battery is connected with the transformer through a wire, a baffle plate is arranged above the storage battery, the baffle plate is fixedly connected with the protection box, the baffle plate is provided with a transformer and an adjusting circuit board, the transformer is arranged in the protection box and is connected with a first solar cell panel, a second solar cell panel and the adjusting circuit board through wires, the baffle plate is used for avoiding rainwater or sediment accumulation and fixation problems occurring in rainy days and sand and dust weather, damage to the storage battery is reduced, when the first solar cell panel and the second solar cell panel transmit current to the transformer, the transformer integrates the transmitted current, and can stabilize charging voltage for the storage battery, and meanwhile, the adjusting circuit board can also be used for providing effective power output.

Compared with the prior art, the invention has the beneficial effects that: 1. according to the invention, the automatic induction type device is adopted, the direction of light is automatically tracked, and the posture of the solar panel is adjusted, so that the solar panel can adjust the solar receiving area, the solar panel can maintain a stable power generation state at any time, and the service life of the solar panel is greatly prolonged.

2. The invention adopts a structure of automatically adjusting the rotation angle, so that the rotation angle of the solar panel can be automatically adjusted according to the time lapse, and the posture of the solar panel with multiple degrees of freedom is adjusted by matching with the photosensitive assembly, thereby realizing the accurate compensation effect on the generated current.

3. The invention adopts the automatic cleaning component, the cleaning component can automatically clean the surface of the double-layer solar cell panel, and the solar cell panel is only required to be retracted into the protective box body, so that the high-automation effect can be achieved while the manpower and material resources are greatly reduced, and the generated energy of the solar cell panel is increased.

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 three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the protective case of the present invention;

FIG. 3 is a schematic view of the structure of the support bar of the present invention;

FIG. 4 is a schematic view showing the internal structure of the panel mounting case of the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 in partial enlarged form A in accordance with the present invention;

FIG. 6 is a schematic view of the structure of FIG. 4 partially enlarged B in accordance with the present invention;

FIG. 7 is a schematic cross-sectional view of a sensing bladder of the present invention;

FIG. 8 is a schematic top view of the mobile plate of the present invention;

FIG. 9 is a schematic view of the structure of the cleaning frame of the present invention;

reference numerals in the drawings: 1. a first solar panel; 2. a battery mounting case; 3. a rotating sleeve; 4. a support rod; 401. a first link; 402. a second link; 403. a fixing bolt; 404. a swing motor; 5. an adjusting ring; 501. a connecting ring; 502. a rotating electric machine; 503. a motor base; 6. a photosensitive assembly; 601. sensing an air bag; 602. expanding the cavity; 603. a light-transmitting cover; 604. a lifting hydraulic rod; 605. a moving tray; 606. a rotating ring; 607. resisting the fan blade; 608. a sliding groove; 609. an energizing ring; 610. a resistance to change with time; 611. a sliding sub-groove; 612. an elastic switch; 613. an air release needle; 7. a protective box body; 8. a second solar panel; 9. a protective cover; 10. a cleaning frame; 1001. a biaxial motor; 1002. a cleaning roller; 1003. cleaning fan blades; 11. cleaning a hydraulic rod; 12. a storage battery; 13. a baffle plate; 14. a transformer; 15. and adjusting the circuit board.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, the present invention provides the following technical solutions:

this energy memory includes first solar cell panel 1, first solar cell panel 1 sets up in battery mounting box 2, battery mounting box 2 is through rotating sleeve 3 and bracing piece 4 swivelling joint, be provided with adjusting ring 5 on the bracing piece 4, be provided with photosensitive assembly 6 in the battery mounting box 2, photosensitive assembly 6 is connected with first solar cell panel 1, photosensitive assembly 6 is connected with adjusting ring 5, bracing piece 4 sets up in protection box 7, be provided with second solar cell panel 8 on the protection box 7, second solar cell panel 8 sets up on protection cover 9, protection cover 9 and protection box 7 swivelling joint, be provided with cleaning frame 10 on the protection box 7 inner wall, cleaning frame 10 is connected with cleaning hydraulic stem 11, cleaning frame 10 and protection box 7 inner wall swivelling joint need carry out solar energy collection time, open the protection box, rise the bracing piece, the bracing piece drives the battery mounting box and rise, first solar cell panel will carry out the collection of solar energy afterwards, second solar cell panel will carry out the collection of solar energy simultaneously, photosensitive assembly will carry out the solar energy to carry out the solar panel's the solar panel according to the intensity, the solar panel's of solar panel's the gesture can be adjusted to the first solar cell panel, the solar panel is carried out the solar panel's the dust, the dust can be removed to the solar panel, the solar panel is cleaned up to the first solar panel, the dust is removed to the solar panel, the external dust can be cleaned up, and the solar panel is recovered to the solar panel, the dust can be cleaned up, the solar panel is moved to the solar panel, the dust, and the dust can be recovered to the solar panel, the external panel, and the solar panel is moved to the battery panel.

The photosensitive assembly 6 comprises a sensing air bag 601, a plurality of expansion cavities 602 are arranged in the sensing air bag 601, the sensing air bag 601 is arranged in a light-transmitting cover 603, the light-transmitting cover 603 is arranged in a battery mounting box 2, the sensing air bag 601 is an annular air bag, lifting hydraulic rods 604 are arranged on the inner ring of the sensing air bag 601, the lifting hydraulic rods 604 are rotatably connected with the first solar cell panel 1, two ends of the first solar cell panel 1 are respectively and slidably connected with the battery mounting box 2, a movable disc 605 is arranged above the sensing air bag 601, the lower end of the movable disc 605 abuts against the upper end of the sensing air bag 601, the movable disc 605 is fixedly connected with the battery mounting box 2, the movable disc 605 is connected with an adjusting circuit board 15 through a wire, the adjusting circuit board 15 is connected with the lifting hydraulic rods 604 through the wire, the light-transmitting cover is capable of transmitting light, the light-absorbing material is coated on the surface of the sensing air bag, the sensing air bag is subjected to heat of illumination and then expanded, the movable disc is lifted in the expansion process, the movable disc is provided with a current change component, the length of the lifting hydraulic rods is controlled through current change, accordingly, the stretching states of the first solar cell panel is controlled to receive more solar energy, the sunlight illumination is maintained, the direct sunlight receiving angle is increased, the sunlight receiving effect is enhanced, and the sunlight generating effect is enhanced.

The moving plate 605 comprises a rotating ring 606, a plurality of resisting fan blades 607 are arranged on the rotating ring 606, each resisting fan blade 607 is respectively abutted against each expansion cavity 602 on the sensing air bag 601, a sliding groove 608 is arranged on the rotating ring 606, one side of each resisting fan blade 607 is embedded into the sliding groove 608 and is in sliding connection with the sliding groove 608, the resisting fan blades move upwards in the direction of the rotating ring under the action of the sensing air bag, so that current on an adjusting circuit board is gradually reduced, and the current change can control the gesture of a lifting hydraulic rod and a rotating motor.

An energizing ring 609 is arranged in the sliding groove 608, the energizing ring 609 is in sliding contact with the variable resistor 610, the energizing ring 609 is connected with the resisting fan blade 607, the variable resistor 610 is connected with the first solar panel 1 through a wire, the energizing ring 609 is connected with the adjusting circuit board 15 through a wire, one end of the resisting fan blade 607 far away from the energizing ring 609 is in sliding connection with the sliding auxiliary groove 611 on the rotating ring 606, an elastic switch 612 is arranged in the sliding auxiliary groove 611, the resisting fan blade 607 is propped against the elastic switch 612, a spring is arranged between the sliding auxiliary groove 611 and the resisting fan blade 607, two ends of the spring are propped against the resisting fan blade 607 and the sliding auxiliary groove 611, the elastic switch 612 is connected with the adjusting ring 5 through a wire, a deflation valve of the sensing air bag 601 is arranged in the sliding auxiliary groove 611, the top end of the sliding auxiliary groove 611 is provided with a deflation needle 613, the position of the deflation needle 613 corresponds to the position of the deflation valve, the resisting fan blade slides upwards to drive the energizing ring to move, so that the current reaching the adjusting circuit board is gradually reduced, the adjusting circuit board can adjust the lifting hydraulic rod according to the change of the current, the lifting hydraulic rod can be shortened, the first solar cell panel is close to the inside of the cell mounting box, the contact angle and the contact area of the first solar cell panel with sunlight are changed, the possibility of being blocked is reduced, meanwhile, the resisting fan blade also resists the elastic switch in the moving process, the elastic switch is in the closing state, the rotating motor rotates, the orientation of the cell mounting box is adjusted, the degree of sunlight receiving is increased, the electricity generation loss caused by dislocation can be reduced, the effect of accurate compensation is achieved, the processing result of the resisting fan blade of each section transmitted to the adjusting circuit board is different, for example, the rotating motor rotating angle corresponding to the resisting fan blade on one side close to the central axis of the first solar cell panel is larger than the rotating motor rotating angle brought by the resisting fan blade far away from the central axis of the first solar cell panel, and the expansion degree of the lifting hydraulic rod corresponding to the resisting fan blade on two ends of the first solar cell panel is larger than the expansion degree of the rotating lifting hydraulic rod brought by the resisting fan blade far away from two ends of the first solar cell panel.

The bracing piece 4 includes first connecting rod 401 and second connecting rod 402, second connecting rod 402 and first connecting rod 401 sliding connection, first connecting rod 401 sets up on baffle 13 in the protective housing 7, be provided with a plurality of fixed mouthful on second connecting rod 402 and the first connecting rod 401, be provided with fixing bolt 403 in the fixed mouthful, adjusting ring 5 sets up the one end that first connecting rod 401 was kept away from at second connecting rod 402, adjust the distance between first connecting rod and the second connecting rod according to specific needs, after the regulation is accomplished, insert fixing bolt through the fixed mouthful on first connecting rod and the second connecting rod, fixing bolt will fix first connecting rod and second connecting rod, avoid appearing the condition emergence that drops.

The adjusting ring 5 includes go-between 501, go-between 501 and rotary sleeve 3 fixed connection, go-between 501 keeps away from rotary sleeve 3 one end and rotary electrical machine 502 output is connected, rotary electrical machine 502 sets up on motor cabinet 503, rotary electrical machine 502 passes through the wire and is connected with elasticity switch 612, motor cabinet 503 passes through rotation axis swivelling joint with second connecting rod 402, motor cabinet 503 lower extreme is provided with the tooth, be provided with swing motor 404 in the second connecting rod 402, swing motor 404 output and the tooth on motor cabinet 503 mesh, swing motor 404 input and adjusting circuit board 15 pass through the wire and are connected, the rotary electrical machine can drive the battery mounting box and rotate, this rotary electrical machine is controlled by elasticity switch simultaneously, when the electric current that adjusting circuit board received is expected electric current, adjusting circuit board will not be for the rotary electrical machine power supply, be provided with time recorder simultaneously on the adjusting circuit board, time recorder will control the size of expected electric current, and control swing motor's rotation state through time recorder, swing motor is servo motor, can reach accurate control.

The cleaning frame 10 is provided with a double-shaft motor 1001, one end of the double-shaft motor 1001, which is far away from the cleaning frame 10, is provided with a cleaning roller 1002, the upper end face and the lower end face of the cleaning roller 1002 are respectively in sliding contact with the first solar panel 1 and the second solar panel 8, one end of the double-shaft motor 1001, which is far away from the cleaning roller 1002, is provided with cleaning blades 1003, the double-shaft motor 1001 is fixedly connected in the cleaning frame 10 through a bracket, after the first solar panel and the second solar panel are retracted into a protective box, a cleaning hydraulic rod drives the cleaning frame to move, the cleaning roller is enabled to be cleaned between the first solar panel and the second solar panel, meanwhile, the double-shaft motor rotates to drive the cleaning blades to rotate in the cleaning process, air flow is transmitted to the cleaning roller, the cleaning roller is enabled to jet air flow outwards, the cleaning roller blows dust on the first solar panel and the second solar panel, in the retraction process, the double-shaft motor reversely rotates, so that residual dust which is not cleaned enters into the cleaning roller, and the retraction hydraulic rod is retracted by the extension of the air-jet hydraulic rod, and the cleaning roller is in the retraction state.

The protection box 7 is internally provided with a storage battery 12, the storage battery 12 is connected with a power transformer 14 through a wire, a baffle plate 13 is arranged above the storage battery 12, the baffle plate 13 is fixedly connected with the protection box 7, the baffle plate 13 is provided with the power transformer 14 and an adjusting circuit board 15, the power transformer 14 is arranged in the protection box 7, the power transformer 14 is respectively connected with the first solar cell panel 1, the second solar cell panel 8 and the adjusting circuit board 15 through wires, the baffle plate is used for avoiding rainwater or sediment accumulation and fixation problems occurring in rainy days and sand and dust weather, damage to the storage battery is reduced, and when the first solar cell panel and the second solar cell panel transmit current to the power transformer, the power transformer can integrate the transmitted current and become stable charging voltage for the storage battery, and meanwhile, effective power output can be provided for the adjusting circuit board.

The working principle of the invention is as follows: when needing to collect solar energy, open the protection box 7, rise bracing piece 4, bracing piece 4 drives battery mounting box 2 and rises, first solar cell panel 1 will collect solar energy afterwards, second solar cell panel 8 also will collect solar energy, photosensitive assembly 6 will adjust the gesture of first solar cell panel 1 according to the intensity of external sunshine, when collecting, the heat that perception gasbag 601 received the illumination then takes place to expand, the in-process of inflation will jack up movable dish 605, be provided with the subassembly that the electric current changes in the movable dish 605, the length of lift hydraulic stem 604 is controlled through the electric current changes, thereby control solar cell panel and sunshine irradiation's angle, still can make rotating electrical machines 502 rotate simultaneously, be used for following up the best irradiation direction, first solar cell panel 1 will be the solar energy that gathers is in the electric current flow transformer 14, under the effect of transformer 14, in the battery 12, store, after collecting, all solar cell panels will retrieve in the protection box 7, clearance hydraulic stem 11 moves the solar cell panel 1, the solar cell panel is carried out to the first frame 10, the solar cell panel is carried out to the clearance between the first solar cell panel, the inner wall of second solar cell panel is removed to the clearance, the dust is cleared up to the inner wall of the protection box 7, the clearance mode is accomplished.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a solar energy storage device of accurate compensation dislocation of being heated which characterized in that: the energy storage device comprises a first solar cell panel (1), wherein the first solar cell panel (1) is arranged in a cell mounting box (2), the cell mounting box (2) is rotationally connected with a supporting rod (4) through a rotating sleeve (3), an adjusting ring (5) is arranged on the supporting rod (4), a photosensitive component (6) is arranged in the cell mounting box (2), the photosensitive component (6) is connected with the first solar cell panel (1), the photosensitive component (6) is connected with the adjusting ring (5), the supporting rod (4) is arranged in a protective box body (7), a second solar cell panel (8) is arranged on the protective box body (7), the protective cover (9) is rotationally connected with the protective box body (7), a cleaning frame (10) is arranged on the inner wall of the protective box body (7), and the cleaning frame (10) is connected with a cleaning hydraulic rod (11), and the cleaning frame (10) is rotationally connected with the inner wall of the protective box body (7).

The photosensitive assembly (6) comprises a sensing air bag (601), a plurality of expansion cavities (602) are arranged in the sensing air bag (601), the sensing air bag (601) is arranged in a light-transmitting cover (603), the light-transmitting cover (603) is arranged in a battery mounting box (2), the sensing air bag (601) is an annular air bag, a lifting hydraulic rod (604) is arranged on the inner ring of the sensing air bag (601), the lifting hydraulic rod (604) is rotatably connected with a first solar cell panel (1), two ends of the first solar cell panel (1) are respectively connected with the battery mounting box (2) in a sliding mode, a movable disc (605) is arranged above the sensing air bag (601), the lower end of the movable disc (605) abuts against the upper end of the sensing air bag (601), the movable disc (605) is fixedly connected with the battery mounting box (2), the movable disc (605) is connected with an adjusting circuit board (15) through a wire, and the adjusting circuit board (15) is connected with the lifting hydraulic rod (604) through a wire;

the moving disc (605) comprises a rotating ring (606), a plurality of resisting blades (607) are arranged on the rotating ring (606), each resisting blade (607) respectively abuts against each expansion cavity (602) on the sensing air bag (601), a sliding groove (608) is arranged on the rotating ring (606), and one side of each resisting blade (607) is embedded into the sliding groove (608) and is in sliding connection with the sliding groove (608);

be provided with circular telegram ring (609) in sliding tray (608), circular telegram ring (609) and along with variable resistor (610) sliding contact, circular telegram ring (609) are connected with keeping out flabellum (607), along with variable resistor (610) are connected through the wire with first solar cell panel (1), circular telegram ring (609) are connected through the wire with adjusting circuit board (15), keep out the sliding auxiliary groove (611) sliding connection on circular telegram ring (606) one end and rotating ring (606) are kept out flabellum (607), be provided with elasticity switch (612) in sliding auxiliary groove (611), keep out flabellum (607) and keep out and be provided with the spring between flabellum (607), spring both ends are kept out flabellum (607) and sliding auxiliary groove (611) respectively, elasticity switch (612) are connected through the wire with adjusting ring (5), the valve setting of perception gasbag (601) is in sliding auxiliary groove (611), sliding auxiliary groove (611) are provided with elasticity switch (612), keep out and the relief needle (613) is located corresponding to the relief needle (613).

2. A solar energy storage device for precisely compensating for thermal misalignment as claimed in claim 1 wherein: the supporting rod (4) comprises a first connecting rod (401) and a second connecting rod (402), the second connecting rod (402) is in sliding connection with the first connecting rod (401), the first connecting rod (401) is arranged on a baffle plate (13) in the protective box body (7), a plurality of fixing ports are formed in the second connecting rod (402) and the first connecting rod (401), fixing bolts (403) are arranged in the fixing ports, and the adjusting ring (5) is arranged at one end, far away from the first connecting rod (401), of the second connecting rod (402).

3. A solar energy storage device for precisely compensating for thermal misalignment as claimed in claim 2 wherein: adjusting ring (5) are including go-between (501), go-between (501) and swivel sleeve (3) fixed connection, go-between (501) keep away from swivel sleeve (3) one end and be connected with swivel motor (502) output, swivel motor (502) set up on motor cabinet (503), and swivel motor (502) are connected with elasticity switch (612) through the wire, motor cabinet (503) are connected through rotation axis swivelling joint with second connecting rod (402), motor cabinet (503) lower extreme is provided with tooth, be provided with swing motor (404) in second connecting rod (402), tooth meshing on swing motor (404) output and motor cabinet (503), swing motor (404) input and adjusting circuit board (15) are connected through the wire.

4. A solar energy storage device for precisely compensating for thermal misalignment as claimed in claim 1 wherein: the cleaning rack (10) is provided with a double-shaft motor (1001), one end of the double-shaft motor (1001) away from the cleaning rack (10) is provided with a cleaning roller (1002), the upper end face and the lower end face of the cleaning roller (1002) are respectively in sliding contact with the first solar cell panel (1) and the second solar cell panel (8), one end of the double-shaft motor (1001) away from the cleaning roller (1002) is provided with a cleaning fan blade (1003), and the double-shaft motor (1001) is fixedly connected in the cleaning rack (10) through a support.

5. A solar energy storage device for precisely compensating for thermal misalignment as claimed in claim 1 wherein: be provided with battery (12) in protective housing (7), battery (12) are connected with transformer (14) through the wire, and battery (12) top is provided with baffle (13), baffle (13) and protective housing (7) fixed connection, be provided with transformer (14) and regulating circuit board (15) on baffle (13), transformer (14) set up in protective housing (7), transformer (14) are connected with first solar cell panel (1), second solar cell panel (8), regulating circuit board (15) respectively through the wire.

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