CN116545356A - Solar photovoltaic energy-saving device for power distribution engineering - Google Patents

Abstract

The invention discloses a solar photovoltaic energy-saving device for power distribution engineering, and particularly relates to the technical field of photovoltaic power generation.

Description

Solar photovoltaic energy-saving device for power distribution engineering

Technical Field

The invention relates to the technical field of photovoltaic power generation, in particular to a solar photovoltaic energy-saving device for power distribution engineering.

Background

In order to ensure the power generation efficiency of the photovoltaic energy-saving device, the photovoltaic energy-saving device is arranged in a relatively open outdoor environment, the photovoltaic panel is arranged obliquely so as to ensure the collection and utilization efficiency of sunlight, when severe weather is met, the resistance received by the photovoltaic panel which is obliquely arranged is large, the photovoltaic panel which is impacted by stronger wind force can obviously shake or even the mounting frame is broken, and meanwhile, obvious dust accumulation easily occurs after the photovoltaic panel is used outdoors for a long time, so that the utilization rate of the photovoltaic panel to the sunlight is influenced, and therefore, the solar photovoltaic energy-saving device for power distribution engineering is required to solve the problems.

Disclosure of Invention

In order to overcome the defects, the invention provides a solar photovoltaic energy-saving device for power distribution engineering, which aims to solve the technical problems that: when the wind power is large in the use process of the existing photovoltaic panel, the condition that the photovoltaic panel shakes due to wind power impact is easy, and meanwhile, the utilization rate of sunlight is affected by dust accumulated for a long time.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a solar photovoltaic economizer for distribution engineering, includes the bottom mounting bracket, be connected with photovoltaic support through montant on the bottom mounting bracket, the photovoltaic support passes through threaded connection subassembly and is connected with the removal mounting panel, first slide hole and second slide hole have all been seted up to the both sides of photovoltaic support, third slide hole and fourth slide hole have been seted up to the side of removal mounting panel, the slip of first slide hole is equipped with two second spliced poles, the slip of second slide hole is equipped with first spliced pole, first spliced pole is established outside first carriage, the second spliced pole is connected outside the second carriage, remove the outside third carriage of being connected of mounting panel, all be equipped with the photovoltaic board on first carriage, second carriage and the third carriage, one side of photovoltaic support is connected with piston controlling means, first spliced pole overcoat is equipped with first carriage, the second connecting column is sleeved with a second movable frame, the second movable frame is connected with the first movable frame through a connecting rope, the first movable frame and the second movable frame are both arranged outside the photovoltaic support in a sliding mode, the second movable frame is provided with a connecting traction device, the connecting traction device is provided with a driving device connected outside the photovoltaic support, the piston control device is communicated with a first connecting pipe, the first connecting pipe is arranged outside the photovoltaic support in a penetrating and clamping mode, the first connecting pipe is communicated with the second connecting pipe through a threaded joint assembly, the second connecting pipe is connected with a telescopic air cylinder, the telescopic air cylinder is arranged under the first supporting frame and the second supporting frame, the bottoms of the telescopic air cylinder under the first supporting frame and the telescopic air cylinder under the second supporting frame are both connected with a movable cleaning rod, the movable mounting plate is connected with a movable storage device, the movable storage device is connected to the fixed plate, the fixed plate is arranged in the bottom installation frame, a horizontal support plate is connected to the position, corresponding to the movable storage device, on the fixed plate, and a wiping rod is connected to the photovoltaic support.

As a further aspect of the invention: the first sliding hole is communicated with the third sliding hole, the size of the first sliding hole is matched with that of the third sliding hole, the second sliding hole is communicated with the fourth sliding hole, and the second sliding hole is matched with the third sliding hole.

As a further aspect of the invention: the second movable frame is connected with a push rod, the height of the push rod is larger than the distance between the third sliding hole and the fourth sliding hole, and the third sliding hole, the fourth sliding hole and the third supporting frame are sequentially arranged from top to bottom.

As a further aspect of the invention: the driving device comprises a driving assembly, the driving assembly is connected outside the photovoltaic bracket, an output shaft of the driving assembly is connected with a reciprocating screw rod, a threaded cap is arranged outside the reciprocating screw rod, the threaded cap is arranged outside the photovoltaic bracket in a sliding mode, and the connecting traction device is connected under the threaded cap.

As a further aspect of the invention: the connecting traction device comprises an elastic rod, the elastic rod is connected under the driving device, the bottom end of the elastic rod is connected with the connecting block, a middle rope is connected under the connecting block, the bottom end of the middle rope is connected with a limiting block, the limiting block is slidably arranged in a limiting connecting frame, the limiting connecting frame is connected to a second movable frame, the limiting block is in a T shape, and the shape of the limiting connecting frame is matched with that of the limiting block.

As a further aspect of the invention: the piston control device comprises a piston frame, the piston frame is connected outside the photovoltaic support, a piston plate is arranged in the piston frame in a sliding mode, one side of the piston plate is connected with a piston rod, one end of the piston rod penetrates through and is arranged outside the piston frame in a sliding mode, one end of the piston rod, located outside the piston frame, is connected with a contact block, and the contact block is connected outside the traction device in a lap joint mode.

As a further aspect of the invention: the gas storage cavity in the piston frame, which is close to the contact block, is communicated with the first connecting pipe, an elastic component is sleeved outside the piston rod, one end of the elastic component is connected with the piston plate, the other end of the elastic component is connected with the piston frame, and the piston plate is rectangular.

As a further aspect of the invention: the movable storage device comprises two rotary connecting frames, the rotary connecting frames are connected under the movable mounting plate, the opposite faces of the two rotary connecting frames are connected with the same rotary shaft, and the opposite faces of the two rotary connecting frames are connected with two base plates.

As a further aspect of the invention: the rotary shaft is sleeved with a rotary connecting cylinder, an electric hydraulic rod is connected below the rotary connecting cylinder, the bottom end of the electric hydraulic rod is connected with a fixed plate, coil springs are connected to the two ends of the rotary connecting cylinder, the coil springs are sleeved outside the rotary shaft and connected with a rotary connecting frame, and the position of the base plate corresponds to the position of the horizontal support plate.

The invention has the beneficial effects that:

1. according to the invention, the driving assembly, the reciprocating screw rod, the threaded cap, the first moving frame, the second moving frame, the pushing rod, the first connecting column, the second connecting column and the first supporting frame are arranged, when the driving assembly drives the reciprocating screw rod to rotate, the threaded cap and the elastic rod are controlled to move backwards, the elastic rod drives the limiting block and the limiting connecting frame to move through the middle rope, the second moving frame moves backwards, when the second moving frame pushes the first moving frame to move backwards through the pushing rod, the second moving frame and the first moving frame drive the second supporting frame and the first supporting frame to move backwards, when the second connecting column and the first connecting column respectively enter the third sliding hole and the fourth sliding hole, the three photovoltaic plates are arranged from top to bottom, then the electric hydraulic rod is controlled to drive the rotary connecting cylinder to move downwards, the rotary connecting cylinder drives the rotary connecting frame and the movable mounting plate to move through the rotary shaft, the backing plate is supported by the horizontal supporting plate to rotate to a horizontal state, and the three photovoltaic plates are horizontally placed after being overlapped, so that the wind impact degree of the photovoltaic plates on the side surfaces is reduced, the photovoltaic plates are easy to resist large wind and have poor safety and stability;

2. according to the invention, the piston frame, the piston plate, the piston rod, the contact block, the first connecting pipe, the second connecting pipe, the telescopic air cylinder, the movable cleaning rod and the wiping rod are arranged, the second movable frame is driven by the elastic rod to move backwards, the elastic rod is separated from the contact block, the elastic component drives the piston plate to move backwards at the moment, gas in the piston frame is extruded and transferred into the telescopic air cylinder, the telescopic air cylinder is extended to control the movable cleaning rod to move, the second movable frame drives the movable cleaning rod to clean the photovoltaic plate on the second supporting frame, meanwhile, the photovoltaic plate on the third supporting frame is wiped by the wiping rod, the second movable frame drives the cleaning rod to clean the photovoltaic plate on the first supporting frame, and the photovoltaic plate automatically cleans dust on the surface of the photovoltaic plate in the accommodating process, so that the photovoltaic plate is more ideal in sunlight utilization rate.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view showing a bottom perspective of the first support frame of the present invention;

fig. 4 is a schematic perspective view of a first support frame according to the present invention;

FIG. 5 is a schematic view of a driving device according to the present invention;

FIG. 6 is an enlarged schematic view of the portion A of FIG. 4 according to the present invention;

FIG. 7 is an enlarged schematic view of the portion B of FIG. 3 according to the present invention;

FIG. 8 is a schematic view of a three-dimensional cross-sectional structure of a piston control device according to the present invention;

FIG. 9 is a schematic diagram of a mobile storage device according to the present invention;

in the figure: 1. a bottom mounting rack; 2. a vertical rod; 3. a photovoltaic support; 4. a threaded connection assembly; 5. moving the mounting plate; 6. a first sliding hole; 7. a second sliding hole; 8. a third sliding hole; 9. a fourth sliding hole; 10. a first connection post; 11. a first support frame; 12. a second connection post; 13. a second support frame; 14. a first moving frame; 15. a second moving frame; 16. a connecting rope; 17. connecting a traction device; 171. an elastic rod; 172. a connecting block; 173. a middle rope; 174. a limiting block; 175. a limit connecting frame; 18. a driving device; 181. a drive assembly; 182. a reciprocating screw rod; 183. a threaded cap; 19. a piston control device; 191. a piston frame; 192. a piston plate; 193. a piston rod; 194. an elastic component; 195. a contact block; 20. a first connection pipe; 21. a push rod; 22. a threaded joint assembly; 23. a second connection pipe; 24. a telescopic inflator; 25. moving the cleaning rod; 26. a photovoltaic panel; 27. a third support frame; 28. a fixing plate; 29. a mobile storage device; 291. a rotary connecting frame; 292. a rotation shaft; 293. a backing plate; 294. rotating the connecting cylinder; 295. a coil spring; 296. an electric hydraulic rod; 30. a horizontal support plate; 31. a wiping rod.

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. 1-9, the invention provides a solar photovoltaic energy-saving device for power distribution engineering, which comprises a bottom mounting frame 1, wherein the bottom mounting frame 1 is connected with a photovoltaic bracket 3 through a vertical rod 2, the photovoltaic bracket 3 is connected with a movable mounting plate 5 through a threaded connection assembly 4, and the threaded connection assembly 4 is used for realizing the assembly and disassembly between the movable mounting plate 5 and the photovoltaic bracket 3;

the two sides of the photovoltaic bracket 3 are provided with a first sliding hole 6 and a second sliding hole 7, the side surface of the movable mounting plate 5 is provided with a third sliding hole 8 and a fourth sliding hole 9, two second connecting columns 12 are arranged in the first sliding hole 6 in a sliding manner, a first connecting column 10 is arranged in the second sliding hole 7 in a sliding manner, the first connecting column 10 is arranged outside the first supporting frame 11, the first connecting column 10 and the second connecting column 12 are arranged for supporting the first supporting frame 11 and the second supporting frame 13 to slide along the first sliding hole 6 and the second sliding hole 7, and meanwhile, the first connecting column 10 and the second connecting column 12 can slide into the fourth sliding hole 9 and the third sliding hole 8 for realizing the arrangement of three photovoltaic panels 26 from top to bottom;

the second connecting column 12 is connected outside the second supporting frame 13, the movable mounting plate 5 is externally connected with the third supporting frame 27, the first supporting frame 11, the second supporting frame 13 and the third supporting frame 27 are respectively provided with a photovoltaic plate 26, one side of the photovoltaic bracket 3 is connected with a piston control device 19, a first movable frame 14 is sleeved outside the first connecting column 10, a second movable frame 15 is sleeved outside the second connecting column 12, the second movable frame 15 is connected with the first movable frame 14 through a connecting rope 16, the first movable frame 14 and the second movable frame 15 are both arranged outside the photovoltaic bracket 3 in a sliding manner, the second movable frame 15 is provided with a connecting traction device 17, the connecting traction device 17 is provided with a driving device 18 connected outside the photovoltaic bracket 3, the driving device 18 comprises a driving component 181, the driving component 181 is connected outside the photovoltaic bracket 3, an output shaft of the driving component 181 is connected with a reciprocating screw 182, the reciprocating screw 182 is provided with a threaded cap 183, the threaded cap 183 is arranged outside the photovoltaic bracket 3 in a sliding manner, the connecting traction device 17 is connected under the threaded cap 183, the driving component 181 and the driving component 181 is connected with the driving device 183 in a sliding manner, and the threaded cap 183 is further controlled by the driving component 181, the driving device is connected with the driving device 17 in a rotating manner, and the threaded cap 183 is controlled by the driving device;

the connecting pulling device 17 comprises an elastic rod 171, the elastic rod 171 is connected under the driving device 18, the bottom end of the elastic rod 171 is connected with a connecting block 172, a middle rope 173 is connected under the connecting block 172, the bottom end of the middle rope 173 is connected with a limiting block 174, the limiting block 174 is slidably arranged in a limiting connecting frame 175, the limiting connecting frame 175 is connected on the second movable frame 15, the limiting block 174 is of a T shape, the shape of the limiting connecting frame 175 is matched with that of the limiting block 174, the elastic rod 171 controls the connecting block 172 and the limiting connecting frame 175 to move back and forth by utilizing the movement of a threaded cap 183 through the arrangement of the elastic rod 171, the limiting block 174 and the limiting connecting frame 175 can be assembled and disassembled, and the connecting block can move smoothly when the photovoltaic panel 26 is stored downwards, and the middle rope 173 can ensure that the limiting block 174 is kept connected with the connecting block 172 when a rotation condition occurs;

the piston control device 19 is communicated with the first connecting pipe 20, the piston control device 19 comprises a piston frame 191, the piston frame 191 is connected outside the photovoltaic bracket 3, a piston plate 192 is arranged in the piston frame 191 in a sliding mode, one side of the piston plate 192 is connected with a piston rod 193, one end of the piston rod 193 penetrates through and is arranged outside the piston frame 191 in a sliding mode, one end, located outside the piston frame 191, of the piston rod 193 is connected with a contact block 195, and the contact block 195 is connected outside the traction device 17 in a lap joint mode.

The air storage cavity in the piston frame 191, which is close to the contact block 195, is communicated with the first connecting pipe 20, an elastic component 194 is sleeved outside the piston rod 193, one end of the elastic component 194 is connected with the piston plate 192, the other end of the elastic component 194 is connected with the piston frame 191, the piston plate 192 is rectangular, when the elastic rod 171 moves backwards, the contact block 195 loses extrusion of the elastic rod 171, the elastic component 194 drives the piston plate 192 to move, gas in the piston frame 191 is automatically extruded and transferred into the telescopic air cylinder 24, and the air pressure in the telescopic air cylinder 24 is controlled to increase;

the first connecting pipe 20 is arranged outside the photovoltaic bracket 3 in a penetrating and clamping way, the first connecting pipe 20 is communicated with the second connecting pipe 23 through the threaded joint assembly 22, the second connecting pipe 23 is connected with the telescopic air cylinder 24, the piston control device 19 can continuously suck or extrude gas into the first connecting pipe 20 through arranging the piston control device 19, the first connecting pipe 20 and the second connecting pipe 23, the threaded joint assembly 22 is used for controlling the assembly and connection between the first connecting pipe 20 and the second connecting pipe 23, and the pressure in the telescopic air cylinder 24 is increased through arranging the telescopic air cylinder 24 so that the movable cleaning rod 25 can be controlled to move to be in contact with the photovoltaic panel 26;

the telescopic air cylinders 24 are arranged below the first supporting frame 11 and the second supporting frame 13, the bottom ends of the telescopic air cylinders 24 positioned below the first supporting frame 11 and the telescopic air cylinders 24 positioned below the second supporting frame 13 are connected with movable cleaning rods 25, the movable mounting plate 5 is connected with a movable storage device 29, the movable storage device 29 is connected to a fixed plate 28, the fixed plate 28 is arranged in the bottom mounting frame 1, the fixed plate 28 is connected with a horizontal supporting plate 30 at a position corresponding to the movable storage device 29, the photovoltaic bracket 3 is internally connected with a wiping rod 31, and the wiping rod 31 is used for wiping and cleaning the surface of the photovoltaic plate 26 at the forefront side through the arrangement of the wiping rod 31;

the movable storage device 29 includes two rotary connection frames 291, the rotary connection frames 291 are connected to the movable mounting plate 5, the same rotation shaft 292 is connected to the opposite surfaces of the two rotary connection frames 291, and the two pad plates 293 are connected to the opposite surfaces of the two rotary connection frames 291.

The rotary shaft 292 is sleeved with the rotary connecting cylinder 294, an electric hydraulic rod 296 is connected to the lower portion of the rotary connecting cylinder 294, the bottom end of the electric hydraulic rod 296 is connected with the fixed plate 28, coil springs 295 are connected to the two ends of the rotary connecting cylinder 294, the coil springs 295 are sleeved outside the rotary shaft 292 and are connected with the rotary connecting frame 291, the positions of the base plates 293 correspond to the positions of the horizontal supporting plates 30, when the electric hydraulic rod 296 controls the rotary connecting cylinder 294 to move downwards, the rotary connecting cylinder 294 pulls the rotary connecting frame 291 and the movable mounting plate 5 to move downwards through the rotary shaft 292, downward storage of the photovoltaic plates 26 is controlled, the coil springs 295 can ensure that the rotary connecting frame 291 is kept in an inclined state without being subjected to external pressure, and after the base plates 293 are contacted with the horizontal supporting plates 30, the rotary connecting frame 291 and the photovoltaic plates 26 can be extruded and rotated to a horizontal state; .

The first sliding hole 6 is communicated with the third sliding hole 8, the first sliding hole 6 is matched with the third sliding hole 8 in size, the second sliding hole 7 is communicated with the fourth sliding hole 9, and the second sliding hole 7 is matched with the third sliding hole 8.

The push rod 21 is connected under the second moving frame 15, the height of the push rod 21 is larger than the distance between the third sliding hole 8 and the fourth sliding hole 9, the third sliding hole 8, the fourth sliding hole 9 and the third supporting frame 27 are sequentially arranged from top to bottom, and by arranging the push rod 21, the push rod 21 can push the first moving frame 14 to move backwards while the second moving frame 15 moves backwards, so that the backward moving process of the two photovoltaic panels 26 at the front side is realized.

The working principle of the invention is as follows:

in windy weather, the screw connection assembly 4 is detached, the driving assembly 181 and the electric hydraulic rod 296 are directly controlled to work, when the driving assembly 181 drives the reciprocating screw rod 182 to rotate, the screw cap 183 and the elastic rod 171 are controlled to move backwards, at the moment, the elastic rod 171 drives the limiting block 174 and the limiting connection frame 175 to move through the middle rope 173, the limiting connection frame 175 drives the second movable frame 15 to move backwards, the second connection column 12 moves backwards in the first sliding hole 6, the elastic rod 171 moves backwards and is separated from the contact block 195, at the moment, the elastic assembly 194 drives the piston plate 192 to move backwards, the piston plate 192 moves and gas in the piston frame 191 is extruded and transferred into the telescopic air cylinder 24 through the first connection pipe 20 and the second connection pipe 23, the telescopic air cylinder 24 stretches to control the movement of the cleaning rod 25, the movement of the cleaning rod 25 moves downwards, the second support frame 13 moves upwards and is contacted with the wiping rod 31, the wiping rod 31 wipes the photovoltaic panel 26 on the second support frame 13, the second moving frame 15 moves backwards and pushes the first moving frame 14 to move backwards through the pushing rod 21, when the second connecting column 12 and the first connecting column 10 enter the third sliding hole 8 and the fourth sliding hole 9 respectively, the three photovoltaic panels 26 are arranged from top to bottom, the limiting block 174 is taken out from the limiting connecting frame 175, the electric hydraulic rod 296 drives the rotary connecting cylinder 294 to move downwards, the rotary connecting cylinder 294 drives the rotary connecting frame 291 and the movable mounting plate 5 to move through the rotary shaft 292, the backing plate 293 is supported by the horizontal support plate 30 to rotate to a horizontal state along with the downward movement of the movable mounting plate 5, the photovoltaic panel 26 is controlled to rotate to the horizontal state, the electric hydraulic rod 296 stops working, the electric hydraulic rod 296 stretches to drive the rotary connecting cylinder 294 to move upwards after the windy weather is finished, when the pad 293 is separated from the horizontal support plate 30, the coil spring 295 drives the movable mounting plate 5 to reset and rotate, then the movable mounting plate 5 moves into the photovoltaic bracket 3, the electric hydraulic rod 296 is controlled to stop working, the threaded connection assembly 4 is assembled, the limiting block 174 is placed into the limiting connection frame 175, the driving assembly 181 drives the reciprocating screw rod 182 to rotate, the reciprocating screw rod 182 drives the threaded cap 183 and the elastic rod 171 to move forward, the elastic rod 171 drives the second movable frame 15 to move forward through the middle rope 173, the limiting block 174 and the limiting connection frame 175, the second movable frame 15 moves forward and pulls the first movable frame 14 to move forward through the connecting rope 16, when the second connecting column 12 and the first connecting column 10 move into the first sliding hole 6 and the second sliding hole 7 respectively, and simultaneously the elastic rod 171 presses the contact block 195 and the piston plate 192, gas in the telescopic gas cylinder 24 is pumped into the piston frame 191, the telescopic gas cylinder 24 is shortened and drives the movable cleaning rod 25 to be close to the photovoltaic plate 26, and after the first movable frame 14 and the second movable frame 15 move to the front limiting position, the unfolding of the photovoltaic plate 26 is completed.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (9)

1. Solar photovoltaic energy-saving device for power distribution engineering, including bottom mounting bracket (1), its characterized in that: the photovoltaic support (3) is connected with the photovoltaic support (3) through the vertical rod (2) on the bottom mounting frame (1), the photovoltaic support (3) is connected with the movable mounting plate (5) through the threaded connection assembly (4), a first sliding hole (6) and a second sliding hole (7) are formed in two sides of the photovoltaic support (3), a third sliding hole (8) and a fourth sliding hole (9) are formed in the side face of the movable mounting plate (5), two second connecting columns (12) are arranged in the first sliding hole (6) in a sliding mode, a first connecting column (10) is arranged in the second sliding hole (7) in a sliding mode, the first connecting column (10) is arranged outside the first supporting frame (11), the second connecting column (12) is connected outside the second supporting frame (13), a third supporting frame (27) is connected to the movable mounting plate (5), a photovoltaic panel (26) is arranged on the side face of the movable mounting plate (5), a first supporting frame (11), a second supporting frame (13) and a third supporting frame (27) are arranged on the side face of the movable mounting plate, a first connecting column (14) is arranged on the movable mounting plate, a second connecting column (14) and a second connecting column (14) is arranged on the movable mounting plate (12), the first movable frame (14) and the second movable frame (15) are both arranged outside the photovoltaic bracket (3) in a sliding manner, the second movable frame (15) is provided with a connecting traction device (17), the connecting traction device (17) is provided with a driving device (18) connected outside the photovoltaic bracket (3), the piston control device (19) is communicated with the first connecting pipe (20), the first connecting pipe (20) is arranged outside the photovoltaic bracket (3) in a penetrating manner, the first connecting pipe (20) is communicated with the second connecting pipe (23) through a threaded joint assembly (22), the second connecting pipe (23) is connected with a telescopic air cylinder (24), the telescopic air cylinder (24) is arranged below the first supporting frame (11) and the second supporting frame (13), the bottom ends of the telescopic air cylinder (24) below the first supporting frame (11) and the telescopic air cylinder (24) below the second supporting frame (13) are both connected with a movable rod (25), the movable mounting plate (5) is connected with a movable storage device (29), the movable storage device (29) is connected with a fixed support plate (28) in a fixed position corresponding to the fixed support plate (28) in the fixed support plate (28), the photovoltaic bracket (3) is connected with a wiping rod (31).

2. A solar photovoltaic energy-saving device for power distribution engineering according to claim 1, wherein: the first sliding hole (6) is communicated with the third sliding hole (8), the first sliding hole (6) is matched with the third sliding hole (8) in size, the second sliding hole (7) is communicated with the fourth sliding hole (9), and the second sliding hole (7) is matched with the third sliding hole (8).

3. A solar photovoltaic energy-saving device for power distribution engineering according to claim 1, wherein: the second movable frame (15) is connected with a push rod (21) downwards, the height of the push rod (21) is larger than the distance between the third sliding hole (8) and the fourth sliding hole (9), and the third sliding hole (8), the fourth sliding hole (9) and the third supporting frame (27) are sequentially arranged from top to bottom.

4. A solar photovoltaic energy-saving device for power distribution engineering according to claim 1, wherein: the driving device (18) comprises a driving assembly (181), the driving assembly (181) is connected outside the photovoltaic bracket (3), an output shaft of the driving assembly (181) is connected with a reciprocating screw rod (182), a threaded cap (183) is arranged outside the reciprocating screw rod (182), the threaded cap (183) is arranged outside the photovoltaic bracket (3) in a sliding mode, and the connecting and pulling device (17) is connected under the threaded cap (183).

5. A solar photovoltaic energy-saving device for power distribution engineering according to claim 1, wherein: connect draw gear (17) including elastic rod (171), elastic rod (171) connect under drive arrangement (18), the bottom and the connecting block (172) of elastic rod (171) are connected, be connected with middle rope (173) under connecting block (172), the bottom of middle rope (173) is connected with stopper (174), stopper (174) slip is established in spacing connection frame (175), spacing connection frame (175) are connected on second removes frame (15), stopper (174) are established to the T shape, the shape of spacing connection frame (175) and the shape looks adaptation of stopper (174).

6. A solar photovoltaic energy-saving device for power distribution engineering according to claim 1, wherein: the piston control device (19) comprises a piston frame (191), the piston frame (191) is connected outside the photovoltaic bracket (3), a piston plate (192) is arranged in the piston frame (191) in a sliding mode, one side of the piston plate (192) is connected with a piston rod (193), one end of the piston rod (193) penetrates through and is arranged outside the piston frame (191) in a sliding mode, one end of the piston rod (193) located outside the piston frame (191) is connected with a contact block (195), and the contact block (195) is overlapped outside the connecting traction device (17).

7. The solar photovoltaic energy-saving device for power distribution engineering according to claim 6, wherein: the gas storage cavity in the piston frame (191) near the contact block (195) is communicated with the first connecting pipe (20), an elastic component (194) is sleeved outside the piston rod (193), one end of the elastic component (194) is connected with the piston plate (192), the other end of the elastic component (194) is connected with the piston frame (191), and the piston plate (192) is rectangular.

8. A solar photovoltaic energy-saving device for power distribution engineering according to claim 1, wherein: the movable storage device (29) comprises two rotary connecting frames (291), the rotary connecting frames (291) are connected under the movable mounting plate (5), the opposite surfaces of the two rotary connecting frames (291) are connected with the same rotary shaft (292), and the opposite surfaces of the two rotary connecting frames (291) are connected with two base plates (293).

9. The solar photovoltaic energy-saving device for power distribution engineering according to claim 8, wherein: the rotary shaft (292) overcoat is equipped with rotary connection section of thick bamboo (294), be connected with electronic hydraulic stem (296) under rotary connection section of thick bamboo (294), the bottom and the fixed plate (28) of electronic hydraulic stem (296) are connected, the both ends of rotary connection section of thick bamboo (294) all are connected with coil spring (295), coil spring (295) cover is established outside rotary shaft (292) and is connected with rotary connection frame (291), the position of backing plate (293) corresponds with the position of horizontal support plate (30).