CN114682598B

CN114682598B - High-power solar dense grid assembly

Info

Publication number: CN114682598B
Application number: CN202210319144.8A
Authority: CN
Inventors: 刘亮; 范新丰; 蔡贤峰; 曹旺; 赵皓
Original assignee: Taiyi Photovoltaic Technology Changzhou Co ltd
Current assignee: Taiyi Photovoltaic Technology Changzhou Co ltd
Priority date: 2022-03-29
Filing date: 2022-03-29
Publication date: 2023-05-02
Anticipated expiration: 2042-03-29
Also published as: CN114682598A

Abstract

The invention discloses a high-power solar dense grid assembly, and belongs to the technical field of solar photovoltaic panels. Including the installation base, the pivot through taking lock nut rotates on the installation base is provided with solar cell panel seat, be provided with solar cell panel on the solar cell panel seat, still be provided with cleaning device on the solar cell panel seat, cleaning device is including setting up the drive assembly at solar cell panel seat opposite both ends, all be provided with the cleaning brush fixing clip on the drive assembly, the one end of keeping away from the pivot of taking lock nut on the solar cell panel seat is provided with cleaning brush and deposits the subassembly, the one end that is close to the pivot of taking lock nut on the solar cell panel seat is provided with cleaning brush collection device, one side of cleaning brush collection device is provided with cleaning brush head dust collection device. The invention has the advantages that the cleaning operation of the solar panel can be realized through the cleaning device, the use efficiency of the solar panel is improved, the cleaning brush is convenient to replace, and the like.

Description

High-power solar dense grid assembly

Technical Field

The invention relates to the technical field of solar photovoltaic panels, in particular to a high-power solar dense grid assembly.

Background

Solar energy is a clean energy, along with the gradual enhancement of people's environmental awareness, the development of solar energy also receives more and more attention, close bars solar panel has the illumination area big, output is high characteristics, receive the wide welcome in market, after the solar panel installation, need work in the open air environment of full exposure, after a period of time, the solar panel surface can appear depositing ash or have debris such as leaf to drop the circumstances of adhesion, can seriously influence solar panel's energy-absorbing effect like this, generally all adopt the manual work to wash solar panel, lead to consuming time, laborious, simultaneously based on clean cost's consideration, the solar panel is washd frequently.

Disclosure of Invention

Aiming at the technical defects, the invention aims to provide the high-power solar dense-grid assembly which can realize the cleaning operation of the solar panel through the cleaning device, improves the use efficiency of the solar panel and is convenient for replacing the cleaning brush.

In order to solve the technical problems, the invention adopts the following technical scheme: the invention provides a high-power solar dense grid assembly, which comprises a mounting base, wherein a solar panel seat is rotatably arranged on the mounting base through a rotating shaft with a locking nut, a solar panel is arranged on the solar panel seat, a cleaning device is further arranged on the solar panel seat, the cleaning device comprises driving assemblies arranged at two opposite ends of the solar panel seat, cleaning brush fixing cards are arranged on the driving assemblies, a cleaning brush storage assembly is arranged at one end, far away from the rotating shaft with the locking nut, of the solar panel seat, a cleaning brush collecting device is arranged at one end, close to the rotating shaft with the locking nut, of the solar panel seat, and a cleaning brush head dust collecting device is arranged at one side of the cleaning brush collecting device.

Preferably, the mounting base comprises a base plate, one end of the solar panel base is rotatably arranged on the top surface of one end of the base plate through a rotating shaft with a locking nut, a scissor lifting frame is arranged on the top surface of the other end of the base plate, the scissor lifting frame is hinged with the other end of the solar panel base, and the solar panel base (and the solar panel) can be conveniently adjusted through the scissor lifting frame to be inclined when in use or stored when not needed for a long time.

Preferably, the driving assembly comprises a driving motor arranged on a solar panel seat, a lead screw is arranged on an output shaft of the driving motor, a screw seat is connected to the lead screw in a threaded manner, the cleaning brush fixing clamp comprises a marble groove seat fixedly arranged on the side wall of the screw seat, a brush rod groove seat is fixedly arranged on the side wall of the marble groove seat, a hemispherical groove is formed in the inside of the marble groove seat, a semi-cylindrical groove is formed in the bottom of the brush rod groove seat, the hemispherical groove is communicated with the semi-cylindrical groove, the hemispherical groove is coaxial with the semi-cylindrical groove, a push plate is movably inserted into the marble groove seat, the top of the push plate is positioned outside the marble groove seat, the left end and the right end of the top of the push plate are connected with the marble groove seat through return springs, the bottom of the push plate is in an arc shape matched with the diameter of the hemispherical groove, and the bottom of the push plate movably penetrates through the marble groove seat, when the cleaning brush is required to clean the solar panel, the cylindrical rods and spheres at the two ends of the cleaning brush can be respectively clamped into the semi-cylindrical groove and the semi-cylindrical groove, and the semi-cylindrical groove by the driving motor, and then the driving motor is used for enabling the screw to linearly move so as to clean the solar panel; after cleaning, make the screw seat to the storage tank orientation remove through driving motor, when the push pedal is inconsistent with the ejector pin of taking the spring, the ejector pin of taking the spring promotes the push pedal for the push pedal releases the spheroid to the outside in the hemisphere inslot, and then the cleaning brush drops to the storage tank under the effect of gravity.

Preferably, the cleaning brush storage component comprises a storage groove arranged on the solar cell panel seat, the storage groove is positioned between two driving motors, a plurality of cleaning brushes are sequentially movably arranged in the storage groove from top to bottom, a plurality of compression springs are arranged on the bottom surface in the storage groove, the compression springs are in contact with the bottom of the cleaning brush at the lowest layer, a baffle plate with a spring is horizontally arranged on the top in the storage groove in a sliding manner, the bottom surface of the baffle plate with the spring is in contact with the top of the cleaning brush at the uppermost layer, the cleaning brush comprises a brush rod, the ends of the two ends of the brush rod are respectively provided with a cylindrical rod body matched with a semi-cylindrical body groove, one end of the cylindrical rod body, close to the brush rod, is movably arranged in the brush rod through a spring, one end, far away from the brush rod, of the cylindrical rod body is provided with a sphere matched with the semi-cylindrical body groove, the spherical body is movably clamped in the semi-cylindrical groove and the semi-cylindrical body groove respectively, a brush body is arranged on the bottom surface of the brush rod, and a brush body storage groove is arranged on the top of the brush rod, when the cleaning brush rod is required to clean the solar cell panel, the cylindrical rod body is in contact with the top of the cleaning brush body, and the cylindrical rod body can be moved into the semi-cylindrical body groove through the semi-cylindrical body groove respectively, and the cylindrical rod body and the brush body can move into the semi-cylindrical body groove through the driving wire, and the brush body to achieve a cleaning effect, and the cleaning effect can reach the female solar cell.

Preferably, the cleaning brush collecting device comprises a collecting groove arranged on a solar panel seat, the length direction of the collecting groove is parallel to the length direction of a storage groove, ejector rod seats are respectively arranged at two ends of the outer portion of the collecting groove, the positions of the ejector rod seats are respectively corresponding to the positions of the marble groove seats, ejector rods with springs are vertically arranged on the ejector rod seats, the positions of the ejector rods with the springs correspond to the positions of the tops of the pushing plates, a driving motor is convenient to drive the cleaning brush to clean the solar panel through a screw seat, when the cleaning brush moves to the position corresponding to the collecting groove, the ejector rods with the springs on the ejector rod seats move the pushing plates, so that the pushing plates push spheres out of the hemispherical grooves, and then the cleaning brush falls into the storage groove under the action of gravity.

Preferably, the middle position at the top of the marble groove seat is in a planar structure, the two ends of the top of the marble groove seat are in arc structures, the upper end of the push plate movably penetrates through the middle position at the top of the marble groove seat, when the two ends of the top of the brush rod are in contact with the ejector rod with the spring on the ejector rod seat, the ejector rod with the spring can retract, and when the ejector rod with the spring is in contact with the middle position at the top of the brush rod, the push plate can be pushed, so that the push plate pushes the ball out of the hemispherical groove.

Preferably, the dust collecting device of the cleaning brush head comprises a middle roller, the length direction of the middle roller is parallel to the length direction of the collecting tank, the middle roller is rotatably arranged on one side of the collecting tank, a plurality of grid brushes are uniformly distributed on the peripheral wall of the middle roller along the circumferential direction, when the cleaning brush needs to be repeatedly used, the screw seat can be made to linearly reciprocate through the driving motor, and dust and impurities adhered on the brush body can be scraped through the grid brushes.

Preferably, one end of the ejector rod with the spring is movably connected with the ejector rod seat, and the other end of the ejector rod with the spring is spherical, so that when the other end of the ejector rod with the spring contacts with the middle position of the top of the brush rod, the other end of the ejector rod with the spring can push the push plate, and the push plate can push the sphere out of the hemispherical groove easily.

The invention has the beneficial effects that:

1) The cleaning device is driven by the driving component, so that the effect of cleaning sundries such as dust accumulation on the surface of the solar panel or leaves can be achieved, the defect of manual cleaning is avoided, and the cleaning efficiency is improved;

2) The cleaning brush storage assembly is arranged to store a plurality of cleaning brushes at one time, so that the cleaning brush fixing card is driven by the driving assembly to automatically finish the operation of taking the cleaning brushes, and the operation efficiency is improved;

3) The cleaning brush collecting device is convenient for collecting the cleaning brush after cleaning and using, realizes automatic replacement of the cleaning brush, and is convenient for achieving a better cleaning effect on the surface of the solar panel;

4) Through the cooperation of pivot and scissors crane of taking lock nut, the angle of adjustable solar cell panel seat slope is convenient for improve the effect that solar cell panel used.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a high-power solar dense-gate assembly according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a spring-loaded baffle plate position of a high power solar dense grid assembly according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a compression spring position of a high power solar dense grid assembly according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a cleaning brush fixing card structure of a high-power solar dense-gate assembly according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the position of a return spring of a high power solar dense grid assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a high-power solar dense grid assembly according to an embodiment of the present invention, in which a plurality of cleaning brushes are stacked in sequence from top to bottom;

fig. 7 is a schematic view of a cleaning brush structure of a high-power solar dense-grid assembly according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a dust collecting device of a cleaning brush head of a high-power solar dense-grid assembly according to an embodiment of the present invention.

Reference numerals illustrate: 1. a mounting base; 11. a base plate; 12. a scissors lifting frame; 2. a rotating shaft with a lock nut; 3. a solar panel base; 4. a solar cell panel; 5. a cleaning device; 51. a drive assembly; 511. a driving motor; 512. a screw rod; 513. a nut seat; 514. a marble groove seat; 5141. a hemispherical groove; 515. a brush rod groove seat; 5151. a semi-cylindrical groove; 516. a push plate; 5161. a return spring; 52. cleaning and brushing a fixed card; 53. a cleaning brush storage assembly; 531. a storage tank; 5311. a baffle plate with a spring; 532. a cleaning brush; 5321. a brush bar; 5322. a cylindrical rod body; 5323. a sphere; 5324. a brush body; 5325. a brush body accommodating groove; 533. a compression spring; 54. a cleaning brush collection device; 541. a collection tank; 542. a push rod seat; 543. ejector rod with spring; 55. a cleaning brush head dust collecting device; 551. an intermediate roller; 552. a grid brush.

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.

As shown in fig. 1 to 8, the invention provides a high-power solar dense grid assembly, which comprises a mounting base 1, wherein a solar panel seat 3 is rotatably arranged on the mounting base 1 through a rotating shaft 2 with a locking nut, a solar panel 4 is arranged on the solar panel seat 3, a cleaning device 5 is also arranged on the solar panel seat 3, the cleaning device 5 comprises a driving assembly 51 arranged at two opposite ends of the solar panel seat 3, cleaning brush fixing cards 52 are arranged on the driving assembly 51, a cleaning brush storage assembly 53 is arranged at one end, far away from the rotating shaft 2 with the locking nut, of the solar panel seat 3, a cleaning brush collecting device 54 is arranged at one end, close to the rotating shaft 2 with the locking nut, of the solar panel seat 3, a cleaning brush head dust collecting device 55 is arranged at one side of the cleaning brush collecting device 54, the mounting base 1 comprises a base plate 11, one end of the solar panel seat 3 is rotatably arranged on the top surface of one end of the base plate 11 through the rotating shaft 2 with the locking nut, a scissor lifting frame 12 is arranged on the top surface of the other end of the base plate 11, and the scissor lifting frame 12 is arranged between the scissor lifting frame 12 and the solar panel 3 and the other end of the solar panel seat 3 is convenient to adjust the solar panel lifting angle when the solar panel is not needed for a long-term use or the solar panel is not stored in the solar panel lifting frame 4.

The driving assembly 51 comprises a driving motor 511 arranged on the solar panel seat 3, a lead screw 512 is arranged on an output shaft of the driving motor 511, a screw seat 513 is connected to the lead screw 512 in a threaded manner, the cleaning brush fixing clamp 52 comprises a marble groove seat 514 fixedly arranged on the side wall of the screw seat 513, a brush rod groove seat 515 is fixedly arranged on the side wall of the marble groove seat 514, a hemispherical groove 5141 is arranged in the marble groove seat 514, a semi-cylindrical groove 5151 is arranged at the bottom of the brush rod groove seat 515, the hemispherical groove 5141 is communicated with the semi-cylindrical groove 5151, the hemispherical groove 5141 is coaxial with the semi-cylindrical groove 5151, a push plate 516 is movably inserted into the marble groove seat 514, the top of the push plate 516 is positioned outside the marble groove seat 514, the left end and the right end of the top of the push plate 516 are connected with the marble groove seat 514 through return springs 5161, the bottom of the push plate 516 is in an arc shape matched with the diameter of the hemispherical groove 5141, and the bottom of the push plate 516 movably penetrates through the marble groove seat 514, when a cleaning brush 532 is required to clean the solar panel 4, the cleaning brush 5322 and the cleaning brush body 5322 and the semi-cylindrical groove 5123 can be respectively driven into the semi-cylindrical groove 5141 by the cleaning motor 5123, and the cleaning motor 5123 and the two ends of the cleaning motor 5141 can be respectively cleaned by the cleaning motor; after cleaning, the screw seat 513 is moved towards the storage groove 531 by the driving motor 511, and when the push plate 516 is abutted against the push rod 543 with the spring, the push rod 543 with the spring pushes the push plate 516, so that the push plate 516 pushes out the ball 5323 to the outside in the hemispherical groove 5141, and the cleaning brush 532 falls into the storage groove 531 under the action of gravity.

The cleaning brush storage component 53 comprises a storage groove 531 arranged on the solar cell panel seat 3, the storage groove 531 is arranged between two driving motors 511, a plurality of cleaning brushes 532 are sequentially movably arranged in the storage groove 531 from top to bottom, a plurality of compression springs 533 are arranged on the bottom surface in the storage groove 531, the compression springs 533 are in contact with the bottom of the cleaning brush 532 at the lowest layer, a baffle plate 5311 with springs is horizontally arranged on the top in the storage groove 531 in a sliding mode, the bottom surface of the baffle plate 5311 with springs is in contact with the top of the cleaning brush 532 at the uppermost layer, the cleaning brush 532 comprises a brush rod 5321, the end portions at two ends of the brush rod 5321 are respectively provided with a cylindrical rod 5322 matched with the semi-cylindrical groove 5151, one end of the cylindrical rod 5322, close to the brush rod 5321, is movably arranged in the brush rod 5321 through the springs, one end, far away from the cylindrical rod 5321, of the spherical body 5323 matched with the semi-spherical groove 5141, the spherical body 5323 and the cylindrical rod 5322 are movably clamped in the semi-cylindrical groove 5141 and the semi-cylindrical rod 5151 respectively, the bottom surface of the brush rod 5321 is provided with the top of the brush rod 5324, the brush rod 5324 is in the semi-cylindrical rod 5324, and the brush rod 5324 is required to be linearly arranged in the brush rod 5324, and the brush rod 5324 is required to be linearly contacted with the cylindrical rod 5324, and the brush rod 5324 can be driven by the brush rod 5324, and the top end can be linearly arranged in the cylindrical rod 5351, and the brush rod 5321.

The cleaning brush collecting device 54 comprises a collecting groove 541 arranged on the solar panel seat 3, wherein the length direction of the collecting groove 541 is parallel to the length direction of the storage groove 531, ejector rod seats 542 are respectively arranged at two ends of the outer part of the collecting groove 541, the ejector rod seats 542 are respectively corresponding to the positions of the marble groove seats 514, ejector rods 543 with springs are vertically arranged on the ejector rod seats 542, the positions of the ejector rods 543 with springs correspond to the positions of the tops of the push plates 516, the driving motor 511 is convenient to drive the cleaning brushes 532 to clean the solar panel 4 through the nut seats 513, when the cleaning brushes 532 move to the positions corresponding to the collecting groove 541, the ejector rods 543 with springs on the ejector rod seats 542 can move the push plates 516, the push plates 516 push spheres 5323 out of the hemispherical grooves 5141, the cleaning brushes 532 drop into the storage groove 531 under the action of gravity, the middle positions of the tops of the marble groove seats 514 are of planar structures, the two ends of the tops of the marble groove seats 514 are of arc structures, the upper ends of the push plates movably penetrate through the middle positions of the tops of the marble groove seats 514, and conveniently contact the positions of the springs 5321 on the tops of the ejector rods 5321 with the ejector rods 543 with the springs 543, and the bottoms of the springs 5323 can be contacted with the ejector rods 543, and the bottoms of the springs 5323 can be retracted to the bottoms of the ejector rods 516 when the ejector rods 5323 are contacted with the springs which can be contacted with the springs of the top ends of the ejector rods 543; one end of the ejector rod 543 with a spring is movably connected with the ejector rod seat 542, and the other end of the ejector rod 543 with the spring is spherical, so that when the other end of the ejector rod 543 with the spring is contacted with the middle position of the top of the brush rod 5321, the other end of the ejector rod 543 with the spring can push the push plate 516, and the push plate 516 can easily push the sphere 5323 out of the hemispherical groove 5141.

The cleaning brush head dust collecting device 55 comprises a middle roller 551, the length direction of the middle roller 551 is parallel to the length direction of the collecting tank 541, the middle roller 551 is rotatably arranged on one side of the collecting tank 541, a plurality of grid brushes 552 are uniformly distributed on the peripheral wall of the middle roller 551 along the circumferential direction, when the cleaning brush 532 needs to be repeatedly used, the nut seat 513 can be linearly and reciprocally moved through the driving motor 511, and dust and impurities adhered on the brush body 5324 can be scraped through the grid brushes 552.

The working principle of the invention is as follows: firstly, fixing a base plate 11 at a position to be used, lifting and adjusting a scissor lifting frame 12 by lifting, so that one end of a solar cell panel seat rotates by taking a rotating shaft 2 with a lock nut as a shaft, thereby rotating a solar cell panel 4 to an optimal position, and locking the rotating shaft 2 with the lock nut; when the surface of the solar cell panel 4 needs to be cleaned, a driving motor 511 is started (the on-off or forward-reverse rotation of the driving motor 51 can be controlled in a wired or wireless remote control mode, so that people can conveniently clean the solar cell panel 4 at a position far away from the solar cell panel 4, the elastic ball groove seat 514 and the brush rod groove seat 515 are driven to move towards the storage groove 531 by a screw seat 513, as the top in the storage groove 531 horizontally slides and is provided with a baffle 5311 with a spring, when the elastic ball groove seat 514 and the brush rod groove seat 515 are in contact with the baffle 5311 with the spring, the baffle 5311 with the spring can be horizontally pushed into the storage groove 531 (at the moment, the positions of the elastic ball groove seat 514 and the brush rod groove seat 515 are driven to vertically correspond to the position of the storage groove 531, and the spring on the baffle 5311 can be compressed at the same time), and a cleaning brush 532 positioned at the topmost layer in the storage groove 531 can be pushed upwards under the action of the compression spring 533, so that the cleaning brush 5322 on the top layer 5322 can be pushed to the corresponding side of the top of the storage groove 531, and the brush rod 5323 can be pushed to the corresponding position of the brush body 5323 to the storage groove 5311 through the corresponding to the cylindrical groove 5311, and the brush body 5324 can be pushed to the corresponding to the position of the brush groove 5311 through the baffle 5322, and the corresponding position of the brush rod 5322 can be pushed to the cylindrical groove 53 to be pushed by the baffle 53 to the corresponding position of the brush groove 53, and the top to the top of the baffle 5311;

when the ball groove seat 514, the brush rod groove seat 515 and the cleaning brush 532 move to correspond to the position of the collecting groove 541 up and down, when the push plate 516 is in contact with the ejector rod 543 with a spring, the ejector rod 543 with the spring pushes the top of the push plate 516, so that the push plate 516 moves downwards, and the ball 5323 can be pushed out of the hemispherical groove 5141, and then the used cleaning brush 532 falls into the storing groove 531 under the action of gravity to be collected uniformly; the screw seat 513 can be driven by the motor 511 to reciprocate on the screw rod 512 between the collecting groove 541 and the storing groove 531, so as to repeatedly clean the impurities such as dust or leaves on the surface of the solar panel 4; the brush body accommodating groove 5325 which is matched with the brush body 5324 is formed in the top of the brush rod 5321, so that after a plurality of cleaning brushes 532 are sequentially stored in the storage groove 531 from top to bottom, the brush body 5324 on the cleaning brush 532 positioned above can be inserted into the brush body accommodating groove 5325 on the cleaning brush 532 positioned below, and the brush body 5324 can be protected;

the middle roller 551 is rotationally embedded in the solar panel seat 3 at one side of the collecting groove 541, and two ends of the middle roller 551 can be in interference fit with the solar panel seat 3, so that when the brush 5324 passes through the grid brush 552, dust and impurities adhered to the brush 5324 are directly scraped off, and meanwhile, the middle roller 551 cannot rotate along with the rotation, so that the dust and impurities adhered to the brush 5324 are conveniently removed; a groove body capable of accommodating the middle roller 551 is further arranged on the top surface of the solar panel seat 3, and dust and impurities scraped by the grid brush 552 are convenient to fall into the groove body to be collected.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. The utility model provides a high-power solar energy dense grid subassembly, a serial communication port, including mounting base (1), the last pivot (2) through taking lock nut of mounting base (1) rotate and be provided with solar cell panel seat (3), be provided with solar cell panel (4) on solar cell panel seat (3), still be provided with cleaning device (5) on solar cell panel seat (3), cleaning device (5) are including setting up drive assembly (51) at solar cell panel seat (3) opposite both ends, all be provided with cleaning brush fixing clip (52) on drive assembly (51), the one end that keeps away from pivot (2) of taking lock nut on solar cell panel seat (3) is provided with cleaning brush storage module (53), the one end that is close to pivot (2) of taking lock nut on solar cell panel seat (3) is provided with cleaning brush collection device (54), one side of cleaning brush collection device (54) is provided with cleaning brush head dust collection device (55), drive assembly (51) are including setting up drive motor (511) on solar cell panel seat (3), be provided with on drive motor (511) output shaft, the screw (513) is provided with screw (512) on screw (513) are connected with screw thread (512) and are fixed on screw (513) screw (512), the brush rod groove seat (515) is fixedly arranged on the side wall of the marble groove seat (514), the hemispherical groove (5141) is arranged in the marble groove seat (514), the semi-cylindrical groove (5151) is arranged at the bottom of the brush rod groove seat (515), the hemispherical groove (5141) is communicated with the semi-cylindrical groove (5151), the hemispherical groove (5141) and the semi-cylindrical groove (5151) are coaxial, the push plate (516) is movably inserted in the marble groove seat (514), the top of the push plate (516) is positioned outside the marble groove seat (514), the left end and the right end of the top of the push plate (516) are connected with the marble groove seat (514) through return springs (5161), the bottom of the push plate (516) is arc-shaped with the diameter matched with the hemispherical groove (5141), the bottom of the push plate (516) movably penetrates the marble groove seat (514), the cleaning brush storage assembly (53) comprises storage grooves (531) arranged on the solar cell plate seat (3), the storage grooves (531) are positioned between two driving motors (511), the bottoms of the push plate (516) are respectively arranged at the bottom of the push plate (516) and are sequentially provided with a plurality of compression baffles (532) which are arranged in a plurality of horizontal compression baffles (533) and are sequentially arranged on the bottom surfaces (532), the bottom surface of baffle (5311) of taking spring is inconsistent with the top of cleaning brush (532) of the upper strata, cleaning brush (532) are including brush pole (5321), the tip at brush pole (5321) both ends all is provided with cylinder body (5322) with semi-cylindrical groove (5151) looks adaptation, the one end that cylinder body (5322) is close to brush pole (5321) is through the flexible setting of spring activity in brush pole (5321), the one end that brush pole (5321) was kept away from to cylinder body (5322) is provided with spheroid (5323) with semi-spherical groove (5141) looks adaptation, and spheroid (5323) and cylinder body (5322) activity card respectively establish in semi-spherical groove (5141) and semi-cylindrical groove (5151), be provided with brush body (5324) on the bottom surface of brush pole (5321), the top of brush pole (5321) is provided with brush body storage tank (5325) with brush body (5324) looks adaptation.

2. A high power solar dense grid assembly according to claim 1, characterized in that the mounting base (1) comprises a base plate (11), one end of the solar panel base (3) is rotatably arranged on the top surface of one end of the base plate (11) through a rotating shaft (2) with a locking nut, a scissors lifting frame (12) is arranged on the top surface of the other end of the base plate (11), and the scissors lifting frame (12) is hinged with the other end of the solar panel base (3).

3. A high power solar dense grid assembly according to claim 1, wherein the cleaning brush collecting device (54) comprises a collecting tank (541) arranged on the solar panel base (3), the length direction of the collecting tank (541) is parallel to the length direction of the storing tank (531), two ends of the outside of the collecting tank (541) are respectively provided with a push rod base (542), the positions of the push rod bases (542) respectively correspond to the positions of the marble base (514), the push rod bases (542) are vertically provided with push rods (543) with springs, and the positions of the push rods (543) with springs correspond to the positions of the tops of the push plates (516).

4. The high power solar dense grid assembly of claim 1, wherein the middle position of the top of the marble groove seat (514) is a planar structure, both ends of the top of the marble groove seat (514) are arc-shaped structures, and the upper end of the push plate (516) movably penetrates through the middle position of the top of the marble groove seat (514).

5. A high power solar dense grid assembly according to claim 3, wherein the cleaning brush head dust collecting device (55) comprises a middle roller (551), the length direction of the middle roller (551) is parallel to the length direction of the collecting tank (541), the middle roller (551) is rotatably arranged at one side of the collecting tank (541), and a plurality of grid brushes (552) are circumferentially distributed on the peripheral wall of the middle roller (551).

6. A high power solar dense grid assembly according to claim 3, wherein one end of the ejector rod (543) with a spring is movably connected with the ejector rod seat (542), and the other end of the ejector rod (543) with the spring is spherical.