CN115807575B - Photovoltaic bicycle shed with respect to changeable angle direction - Google Patents

Abstract

The invention relates to a photovoltaic car shed, in particular to a photovoltaic car shed with changeable angle and direction. The invention aims to provide a photovoltaic shed with changeable angle orientation, which can improve the power generation efficiency. The utility model provides a photovoltaic bicycle shed about convertible angle position, including bottom plate, support frame, pivot, motor, mounting bracket and photovoltaic board etc. both sides all are connected with the support frame around the bottom plate top, and the rotation is connected with the pivot between the support frame, is connected with the motor on one of them support frame, and the output shaft of pivot and motor is connected with the mounting bracket in the pivot, and the equal rotation in mounting bracket top left and right sides is connected with the photovoltaic board that can become the electric energy with light energy conversion. The intelligent controller can adjust the angle of the photovoltaic panel according to the illumination value, so that the photovoltaic panel always faces the sun, the time of direct sunlight irradiation of the photovoltaic panel is prolonged, the photovoltaic panel is in the state of highest power generation efficiency for a long time, and the power generation efficiency is further improved.

Description

Photovoltaic bicycle shed with respect to changeable angle direction

Technical Field

The invention relates to a photovoltaic car shed, in particular to a photovoltaic car shed with changeable angle and direction.

Background

The photovoltaic bicycle shed is characterized in that a photovoltaic power generation assembly is additionally arranged on the original bicycle shed, so that the bicycle shed has the functions of generating electricity and storing electric energy, and an electric automobile can be charged.

Most photovoltaic bicycle shed comprises support, bicycle shed and photovoltaic power generation module, and photovoltaic power generation module sets up at the top of bicycle shed, receives the illumination of sunlight, but, the bicycle shed is fixed mounting generally, and the angle is not adjustable, and photovoltaic power generation module fixed mounting is at the bicycle shed top, so photovoltaic power generation module's angle is also not adjustable, leads to solar ray to penetrate photovoltaic power generation module's time limit directly, and solar ray is penetrate photovoltaic power generation module's the highest power generation efficiency, and solar ray does not penetrate photovoltaic power generation module when, and photovoltaic power generation module's power generation efficiency is lower relatively.

Disclosure of Invention

In order to overcome the defect that the angle of the photovoltaic power generation component is not adjustable, so that the time for directly irradiating the photovoltaic power generation component by solar rays is limited, and the power generation efficiency of the photovoltaic power generation component is reduced, the technical problem of the invention is that: provided is a photovoltaic shed capable of improving power generation efficiency and changing the angle and direction.

The technical implementation scheme of the invention is as follows: the utility model provides a photovoltaic bicycle shed about convertible angle position, including the bottom plate, a supporting rack, the pivot, a motor, the mounting bracket, photovoltaic board, intelligent control ware, contact switch, supporting component and support the subassembly, both sides all are connected with the support frame around the bottom plate top, be connected with the pivot between the support frame, be connected with the motor on one of them support frame, the output shaft of pivot and motor is connected with the mounting bracket in the pivot, all be connected with the photovoltaic board that can become the electric energy with light energy conversion in the mounting bracket top left and right sides, wherein a photovoltaic board top is connected with intelligent control ware, intelligent control ware and motor electric connection, the upper portion of another support frame is connected with contact switch, the mounting bracket rotates and can be contacted with contact switch, contact switch and intelligent control ware electric connection all are equipped with the supporting component that is used for supporting the mounting bracket on the support frame, all be equipped with the support subassembly that can prop up photovoltaic board on the support frame.

Further, the supporting component comprises a sliding block and a supporting rod, the sliding blocks are arranged on the left side and the right side of the supporting frame in a sliding mode, damping is arranged between the sliding block and the supporting frame, and the supporting rod is connected between the sliding block and the mounting frame in a rotating mode.

Further, prop up the subassembly including slide, straight rack, arc rack, the guide arm, promote the frame, first elastic component, the draw-in lever, the second elastic component, push pedal and third elastic component, the inboard equal slidingtype of support frame is equipped with the slide, slide front side middle part is opened there is the dovetail groove, slide top all is connected with straight rack, both sides all are connected with arc rack around the mounting bracket bottom, arc rack and straight rack meshing, the support inboard all is connected with the guide arm, all slidingtype is equipped with the promotion frame on the guide arm, it has the damping to promote between frame and the guide arm, all around first elastic component on the guide arm, both ends of first elastic component are connected with guide arm and promotion frame respectively, it is equipped with the draw-in lever to promote the equal slidingtype in frame upper portion of promotion, all around there is the second elastic component on the draw-in lever, both ends of second elastic component are connected with draw-in lever and promotion frame respectively, both sides all slidingtype are equipped with the push pedal around the mounting bracket top, push pedal slidingtype run through pivot, push pedal and photovoltaic board slidingtype connection, the promotion frame upwards moves and can contact with the push pedal, push pedal upper portion around third elastic component, both ends and push pedal connection respectively.

Further, still including clearance mechanism, clearance mechanism is including the sliding plate, clean board and fourth elastic component, and the mounting bracket top all slidingtype is equipped with the sliding plate, and the sliding plate bottom all is connected with the board that cleans that is used for cleaning the photovoltaic board, cleans board and photovoltaic board contact, is connected with fourth elastic component between sliding plate and the mounting bracket.

Further, the wire winding device comprises a transmission mechanism, wherein the transmission mechanism comprises a connecting block, a transmission shaft, a unidirectional gear, a wire winding disc, pull ropes, locking components and unlocking components, wherein the upper portion of a support frame is connected with two connecting blocks, the transmission shaft is connected to the connecting block in a rotary mode, the unidirectional gear is connected to the transmission shaft in a rotary mode, the unidirectional gear is meshed with the connecting block in a rotary mode, the wire winding disc is connected to the transmission shaft in a meshed mode, the pull ropes are wound on the wire winding disc, two pull ropes are connected with a left sliding plate, the other two pull ropes are connected with a right sliding plate, locking components capable of locking the wire winding disc are arranged on the support frame, and unlocking components capable of unlocking the wire winding disc are arranged on clamping rods.

Further, the locking component comprises a connecting frame, clamping blocks, fifth elastic pieces and pushing blocks, the upper portion of the supporting frame is connected with the connecting frame, the clamping blocks capable of locking the wire spool are arranged on the left side and the right side of the connecting frame in a sliding mode, the fifth elastic pieces are connected between the clamping blocks and the connecting frame, the pushing blocks are connected on the wire spool at equal intervals, and the pushing blocks are clamped by the clamping blocks.

Further, the unlocking component comprises a connecting plate and a pushing rod, the clamping rods are connected with the connecting plate, the pushing rods are connected to the upper parts of the connecting plate, and the pushing rods move upwards to be in contact with the clamping blocks.

Further, still including watering mechanism, watering mechanism is including collecting box, connecting pipe and shower nozzle, and both sides all are connected with the collecting box that can collect the rainwater around the mounting bracket top, and the intercommunication has the connecting pipe between two relative collecting boxes around, all evenly spaced intercommunication has the shower nozzle that can spout water on the photovoltaic board on the connecting pipe.

The beneficial effects are that: 1. the intelligent controller can adjust the angle of the photovoltaic panel according to the illumination value, so that the photovoltaic panel always faces the sun, the time of direct sunlight irradiation of the photovoltaic panel is prolonged, the photovoltaic panel is in the state of highest power generation efficiency for a long time, and the power generation efficiency is further improved.

2. When the angle of the photovoltaic plate is adjusted, the photovoltaic plate can be moved with the wiping plate, the photovoltaic plate is automatically wiped, dust on the photovoltaic plate is wiped off, and the dust is prevented from affecting the power generation efficiency of the photovoltaic plate.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

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

Fig. 3 is a schematic perspective view of a supporting assembly according to the present invention.

Fig. 4 is a schematic perspective view of a first embodiment of the bracing assembly according to the invention.

Fig. 5 is a schematic view showing a second perspective structure of the bracing assembly according to the present invention.

Fig. 6 is a schematic perspective view of the cleaning mechanism and the sprinkler mechanism of the present invention.

Fig. 7 is a schematic perspective view of the cleaning mechanism and the transmission mechanism of the present invention.

Fig. 8 is a schematic perspective view of a transmission mechanism of the present invention.

Fig. 9 is an exploded view of the transmission mechanism of the present invention.

Meaning of reference numerals in the drawings: 1_floor, 2_support frame, 3_spindle, 4_motor, 5_mount, 6_photovoltaic panel, 7_intelligent controller, 71_touch switch, 8_support assembly, 81_slider, 82_support bar, 9_support assembly, 91_slide, 92_straight rack, 93_curved rack, 94_guide bar, 95_push rack, 96_first elastic member, 97_clamp bar, 98_second elastic member, 99_push plate, 910_third elastic member, 10_purge mechanism, 101_slide plate, 102_wipe plate, 103_fourth elastic member, 11_drive mechanism, 111_connection block, 112_drive shaft, 113_unidirectional gear, 114_spool, 115_pull cord, 116_connection frame, 117_clamp block, 118_fifth elastic member, 119_push block, 1110_connection plate, 1112_push bar, 12_water spray mechanism, 121_collection box, 122_connection pipe, 123_spray head.

Detailed Description

The invention is described in detail below with reference to the drawings and the specific embodiments.

Example 1

The utility model provides a photovoltaic bicycle shed about convertible angle position, as shown in fig. 1-5, including bottom plate 1, support frame 2, pivot 3, motor 4, mounting bracket 5, photovoltaic board 6, intelligent control ware 7, contact switch 71, supporting component 8 and prop up subassembly 9, both sides all are connected with support frame 2 through the quantity around the bottom plate 1 top, rotary connection has pivot 3 between support frame 2 upper portion, support frame 2 front side upper portion of front side has motor 4 through bolted connection, the output shaft of pivot 3 and motor 4 passes through the coupling joint, be connected with mounting bracket 5 in the pivot 3, mounting bracket 5 top left and right sides all rotate and be connected with photovoltaic board 6, photovoltaic board 6 can become the electric energy with light energy conversion, photovoltaic board 6 can follow the sun and rotate, photovoltaic board 6 top right side on the left side has intelligent control ware 7 through bolted connection, intelligent control ware 7 and motor 4 electric connection, support frame 2 front side upper portion of rear side is connected with contact switch 71, 5 rotate and can contact switch 71 and intelligent control ware 7 electric connection, be equipped with support frame 8 on the support frame 2, supporting component 8 is equipped with supporting component 8 and is used for prop up supporting component 9 to prop up the photovoltaic board 6, it can be the eight-shaped like a piece to prop up the board to make the photovoltaic board 6.

As shown in fig. 1 and 2, the support assembly 8 comprises a sliding block 81 and a support rod 82, the left side and the right side of the support frame 2 are both provided with the sliding block 81 in a sliding manner, damping is arranged between the sliding block 81 and the support frame 2, the support rod 82 is rotatably connected between the sliding block 81 and the mounting frame 5, and the sliding block 81 can be driven to move up and down through the support rod 82 when the mounting frame 5 rotates.

As shown in fig. 2, 3, 4 and 5, the propping up assembly 9 comprises a sliding plate 91, straight racks 92, arc racks 93, a guide rod 94, a pushing frame 95, a first elastic piece 96, a clamping rod 97, a second elastic piece 98, a pushing plate 99 and a third elastic piece 910, wherein the sliding plate 91 is arranged on the inner side of the supporting frame 2 in a sliding manner, a trapezoid slot is arranged in the middle of the front side of the sliding plate 91, the straight racks 92 are connected to the top of the sliding plate 91 through bolts, the arc racks 93 are connected to the front side and the rear side of the bottom of the mounting frame 5, the arc racks 93 are meshed with the straight racks 92, the arc racks 93 can drive the straight racks 92 to move left and right, the guide rod 94 is connected to the inner side of the supporting frame 2 through bolts, the pushing frame 95 is arranged on the guide rod 94 in a sliding manner, damping is arranged between the pushing frame 95 and the guide rod 94, the upward moving speed of the pushing frame 95 can be reduced, the first elastic piece 96 is wound on the guide rod 94, one end of the first elastic piece 96 is connected with the guide rod 94, the other end of the first elastic piece 96 is connected with the pushing frame 95, the first elastic piece 96 is a spring, the upper part of the pushing frame 95 is provided with a clamping rod 97 in a sliding mode, the clamping rod 97 is contacted with the bottom of the sliding plate 91, the clamping rod 97 is provided with a second elastic piece 98 in a winding mode, one end of the second elastic piece 98 is connected with the clamping rod 97, the other end of the second elastic piece 98 is connected with the pushing frame 95, the second elastic piece 98 is a spring, the front side and the rear side of the top of the mounting frame 5 are provided with a pushing plate 99 in a sliding mode, the pushing plate 99 penetrates through the rotating shaft 3 in a sliding mode, the pushing plate 99 is connected with the photovoltaic plate 6 in a sliding mode, the pushing plate 99 can drive the photovoltaic plate 6 to rotate upwards, the pushing frame 95 moves upwards to be contacted with the pushing plate 99, the upper part of the pushing plate 99 is provided with a third elastic piece 910 in a winding mode, one end of the third elastic piece 910 is connected with the pushing plate 99, and the other end of the third elastic piece 910 is connected with the mounting frame 5, the third elastic member 910 is a spring.

Initially, the first elastic member 96 is in a compressed state, the automobile can be parked on the bottom plate 1, the photovoltaic panel 6 can block rainwater, the rainwater is prevented from falling onto the automobile, the solar light irradiates on the photovoltaic panel 6, the photovoltaic panel 6 converts light energy into electric energy, the intelligent controller 7 can detect an illumination value, if the illumination value reaches a rated value, the photovoltaic panel 6 faces the sun, sunlight directly irradiates the photovoltaic panel 6, the power generation efficiency of the photovoltaic panel 6 is highest, the supporting rod 82 and the sliding block 81 can support the mounting frame 5, damping is arranged between the sliding block 81 and the supporting frame 2, the mounting frame 5 can be more stable, the position of the sun can be changed along with the time, at the moment, the photovoltaic panel 6 does not face the sun, the illumination value detected by the intelligent controller 7 is lower than the rated value, the intelligent controller 7 can control the motor 4 to work, the output shaft of the motor 4 drives the rotating shaft 3 to rotate, the rotating shaft 3 drives the mounting frame 5 to rotate, the mounting frame 5 drives the sliding block 81 to move through the supporting rod 82, the mounting frame 5 can also drive the photovoltaic panel 6 to rotate, the illumination value detected by the intelligent controller 7 can also change, when the illumination value detected by the intelligent controller 7 reaches the rated value, the intelligent controller 7 can control the motor 4 to be closed, at the moment, the photovoltaic panel 6 is right against the sun again, so that the photovoltaic panel 6 can rotate along with the sun, the power generation efficiency of the photovoltaic panel 6 is always in the highest state, the maximum efficiency utilizes solar energy, the intelligent controller 7 can also detect wind speed and raindrops, when the wind speed detected by the intelligent controller 7 reaches the rated value, the intelligent controller 7 can also control the motor 4 to work, adjust the photovoltaic panel 6 to the windward angle, prevent the photovoltaic panel 6 from being blown over by heavy wind, and when the raindrops detected by the intelligent controller 7, the intelligent controller 7 controls the contact switch 71 to be effective, meanwhile, the intelligent controller 7 controls the motor 4 to work, the mounting frame 5 is driven to rotate, the mounting frame 5 drives the arc-shaped rack 93 to rotate, the arc-shaped rack 93 drives the straight rack 92 to move, the straight rack 92 drives the sliding plate 91 to move, when the mounting frame 5 touches the contact switch 71, the contact switch 71 sends a signal to the intelligent controller 7, the intelligent controller 7 controls the motor 4 to be closed, at the moment, the mounting frame 5 is in a horizontal state, the push plate 99 is in a vertical state, the clamping rod 97 corresponds to a trapezoid groove on the sliding plate 91, the pushing frame 95 moves upwards under the action of the first elastic piece 96, the clamping rod 97 moves upwards along with the movement of the clamping rod 97 into the trapezoid groove on the sliding plate 91, when the pushing frame 95 moves upwards to touch the push plate 99, the pushing frame 95 pushes the push plate 99 to move upwards, the third elastic piece 910 compresses, the push plate 99 pushes the two photovoltaic panels 6 to rotate upwards, so that the two photovoltaic panels 6 are splayed, the automobile is better shielded from rain, when the weather is clear, the intelligent controller 7 controls the motor 4, the angle of the photovoltaic panels 6 is continuously adjusted, the photovoltaic panels 6 are right against the sun, meanwhile, the mounting frame 5 can rotate, the mounting frame 5 drives the arc-shaped racks 93 to rotate, the arc-shaped racks 93 drive the straight racks 92 to move, the straight racks 92 drive the slide plate 91 to move, the clamping rods 97 slowly move out of trapezoid grooves on the slide plate 91, the slide plate 91 pushes the clamping rods 97 to move towards each other, the second elastic piece 98 is stretched, then the slide plate 91 pushes the clamping rods 97 to move downwards, the pushing frame 95 moves downwards along with the movement, the first elastic piece 96 is compressed, the pushing frame 95 does not push the push plate 99 any more, the push plate 99 moves downwards under the action of the third elastic piece 910, the push plate 99 pushes the photovoltaic panels 6 to rotate downwards, when the sliding plate 91 and the clamping rod 97 are not contacted, the clamping rod 97 moves in a direction away from each other under the action of the second elastic piece 98, the sliding plate 91 blocks the clamping rod 97, the first elastic piece 96 is always in a compressed state, at this time, the two photovoltaic panels 6 are in a parallel state, the photovoltaic panels 6 also move along with the sliding plate 91 when the angle is adjusted, the clamping rod 97 sometimes corresponds to a trapezoid groove on the sliding plate 91, however, damping exists between the pushing frame 95 and the guide rod 94, so that the upward moving speed of the clamping rod 97 is slower, the clamping rod 97 does not move into the trapezoid groove on the sliding plate 91, and the sliding plate 91 moves away.

Example 2

On the basis of embodiment 1, as shown in fig. 6 and 7, the cleaning mechanism 10 is further included, the cleaning mechanism 10 includes a sliding plate 101, a wiping plate 102 and a fourth elastic member 103, the top of the mounting frame 5 is provided with the sliding plate 101 in a sliding manner, the bottom of the sliding plate 101 is connected with the wiping plate 102, the wiping plate 102 can wipe dust on the photovoltaic panel 6, the bottom of the wiping plate 102 is contacted with the top of the photovoltaic panel 6, two fourth elastic members 103 are connected between the sliding plate 101 and the mounting frame 5, and the fourth elastic member 103 is a spring.

As shown in fig. 7, fig. 8 and fig. 9, the device further comprises a transmission mechanism 11, the transmission mechanism 11 comprises a connecting block 111, a transmission shaft 112, a unidirectional gear 113, a wire spool 114, pull ropes 115, locking components and unlocking components, wherein the upper portion of the support frame 2 is connected with two connecting blocks 111, the transmission shaft 112 is rotationally connected with the unidirectional gear 113, the unidirectional gear 113 is rotationally connected with the connecting blocks 111, the unidirectional gear 113 is meshed with the straight racks 92, the transmission shaft 112 is connected with the wire spool 114 through keys, the wire spool 114 is wound with the pull ropes 115, the left two pull ropes 115 are connected with the left sliding plate 101, the right two pull ropes 115 are connected with the right sliding plate 101, the support frame 2 is provided with the locking components, the locking components can lock the wire spool 114, the clamping rods 97 are rotationally connected with the unlocking components, and the unlocking components can unlock the wire spool 114.

As shown in fig. 7, 8 and 9, the locking assembly comprises a connecting frame 116, a clamping block 117, a fifth elastic piece 118 and a pushing piece 119, wherein the connecting frame 116 is connected to the upper portion of the supporting frame 2 through bolts, the clamping block 117 is slidably arranged on the left side and the right side of the connecting frame 116, the clamping block 117 can lock the wire spool 114, the fifth elastic piece 118 is connected between the clamping block 117 and the connecting frame 116, the fifth elastic piece 118 is a spring, the pushing pieces 119 are connected to the wire spool 114 at equal intervals, and the clamping block 117 clamps the pushing pieces 119, so that the wire spool 114 is locked.

As shown in fig. 8 and 9, the unlocking component comprises a connecting plate 1110 and a push rod 1112, the clamping rods 97 are connected with the connecting plate 1110 by screws, the push rod 1112 is connected with the upper parts of the connecting plates 1110 by screws, and the push rod 1112 moves upwards to be in contact with the clamping blocks 117.

When the straight rack 92 moves leftwards, the straight rack 92 drives the left unidirectional gear 113 to rotate clockwise, the right unidirectional gear 113 idles, the left unidirectional gear 113 drives the left wire spool 114 to rotate clockwise through the left transmission shaft 112, the left wire spool 114 winds the left pull rope 115, the left pull rope 115 drives the left sliding plate 101 to move rightwards, the left fourth elastic piece 103 stretches, the left sliding plate 101 drives the left wiping plate 102 to move rightwards, the left photovoltaic panel 6 is wiped, dust on the left photovoltaic panel 6 is wiped, the dust is prevented from affecting the power generation efficiency of the left photovoltaic panel 6, the left wire spool 114 also drives the push block 119 on the left wire spool 114 to rotate clockwise, the push block 119 on the left wire spool 114 pushes the left clamping block 117 to move rightwards, the left fifth elastic piece 118 is compressed, when the push block 119 on the left wire spool 114 is not contacted with the left clamping block 117, the left clamping block 117 moves leftwards under the action of the left fifth elastic piece 118, when the straight rack 92 moves rightwards, the left unidirectional gear 113 idles, the left clamping block 117 clamps the left push block 119, so that the left wire spool 114 cannot rotate anticlockwise, the left fourth elastic piece 103 keeps a stretched state, the right straight rack 92 moves rightwards and drives the right unidirectional gear 113 to rotate anticlockwise, and accordingly, the right pull rope 115 can pull the right wiping plate 102 to move leftwards to wipe the right photovoltaic panel 6, the right fourth elastic piece 103 is stretched, when the clamping rod 97 moves upwards, the clamping rod 97 can drive the connecting plate 1110 to move upwards, the push rod 1112 moves upwards along with the clamping block 117 to move away from each other, the fifth elastic piece 118 stretches, when the push rod 1112 passes over the clamping block 117, the clamping blocks 117 move towards each other under the action of the fifth elastic member 118, when the clamping rod 97 moves downwards, the pushing rod 1112 moves downwards, the clamping blocks 117 are pushed to move towards each other by the pushing rod 1112, the fifth elastic member 118 compresses, when the clamping blocks 117 no longer block the pushing blocks 119, the wiping plate 102 moves towards each other under the action of the fourth elastic member 103, meanwhile, the pull rope 115 is released from the wire spool 114, the wire spool 114 rotates, the transmission shaft 112 rotates along with the wire spool 114, but the transmission shaft 112 does not rotate along with the unidirectional gear 113, and when the pushing rod 1112 passes over the clamping blocks 117, the clamping blocks 117 move towards each other under the action of the fifth elastic member 118.

As shown in fig. 1 and 6, the solar energy water-spraying device further comprises a water-spraying mechanism 12, the water-spraying mechanism 12 comprises a collecting box 121, connecting pipes 122 and spray heads 123, the collecting boxes 121 are connected to the front side and the rear side of the top of the mounting frame 5, rainwater falls into the collecting boxes 121 when the solar energy water-spraying device rains, the connecting pipes 122 are communicated between the two collecting boxes 121 which are opposite to each other, the spray heads 123 are communicated with the connecting pipes 122 at uniform intervals, and the spray heads 123 can spray water onto the photovoltaic panel 6.

During raining, rainwater can fall into the collecting box 121, rainwater in the collecting box 121 flows into the connecting pipe 122, the photovoltaic panel 6 can be relatively dry under the condition of long-term no raining, at the moment, the spray head 123 is opened by a worker, the rainwater in the connecting pipe 122 is sprayed out through the spray head 123 and onto the photovoltaic panel 6, the wiping board 102 can wipe the photovoltaic panel 6 cleaner, and after all the rainwater in the connecting pipe 122 is sprayed out, the spray head 123 is closed.

It should be understood that this example is only illustrative of the invention and is not intended to limit the scope of the invention. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the present invention, and such equivalents are intended to fall within the scope of the claims appended hereto.

Claims (6)

1. The utility model provides a photovoltaic bicycle shed about convertible angle position, is including bottom plate (1) and support frame (2), both sides all are connected with support frame (2), characterized by around bottom plate (1) top: the photovoltaic power generation device comprises a supporting frame (2), and is characterized by further comprising a rotating shaft (3), a motor (4), a mounting frame (5), photovoltaic panels (6), intelligent controllers (7), contact switches (71), supporting components (8) and supporting components (9), wherein the rotating shaft (3) is connected between the supporting frames (2), one supporting frame (2) is connected with the motor (4), the rotating shaft (3) is connected with an output shaft of the motor (4), the mounting frame (5) is connected to the rotating shaft (3), the photovoltaic panels (6) capable of converting light energy into electric energy are respectively connected to the left side and the right side of the top of the mounting frame (5) in a rotating mode, the intelligent controllers (7) are connected to the top of one photovoltaic panel (6), the intelligent controllers (7) are electrically connected with the motor (4), the upper portions of the other supporting frames (2) are connected with the contact switches (71), the rotating frame (5) are contacted with the contact switches (71), the supporting components (8) used for supporting the mounting frame (5) are respectively arranged on the supporting frames (2), and the supporting components (9) capable of supporting the photovoltaic panels (6) are respectively connected to the supporting frames (2).

The support assembly (8) comprises a sliding block (81) and a support rod (82), the sliding blocks (81) are arranged on the left side and the right side of the support frame (2) in a sliding mode, damping is arranged between the sliding blocks (81) and the support frame (2), and the support rod (82) is connected between the sliding blocks (81) and the mounting frame (5) in a rotating mode;

the supporting component (9) comprises a sliding plate (91), straight racks (92), arc racks (93), guide rods (94), pushing frames (95), first elastic pieces (96), clamping rods (97), second elastic pieces (98), pushing plates (99) and third elastic pieces (910), wherein sliding plates (91) are arranged on the inner sides of the supporting frames (2) in a sliding mode, trapezoid grooves are formed in the middle of the front sides of the sliding plates (91), straight racks (92) are connected to the tops of the sliding plates (91), arc racks (93) are connected to the front side and the rear side of the bottoms of the mounting frames (5), the arc racks (93) are meshed with the straight racks (92), guide rods (94) are connected to the inner sides of the supporting frames (2), pushing frames (95) are arranged on the guide rods (94) in a sliding mode, damping is arranged between the pushing frames (95) and the guide rods (94), the two ends of each first elastic piece (96) are connected with the guide rods (94) and the pushing frames (95) in a sliding mode, clamping rods (97) are arranged on the upper portions of the pushing frames (95) in a sliding mode, the bottoms of the clamping rods (97) are in contact with the bottoms of the corresponding sliding frames (97) respectively, the second elastic pieces (98) are connected to the second elastic pieces (98) in a sliding mode, and the second elastic pieces (95) are connected to the upper ends of the sliding frames (97) respectively, both sides all are equipped with push pedal (99) around mounting bracket (5) top, and push pedal (99) slidingtype run through pivot (3), and push pedal (99) and photovoltaic board (6) slidingtype are connected, and push pedal (99) upper portion is around having third elastic component (910) that push pedal (99) upwards move can with push pedal (99), and the both ends of third elastic component (910) are connected with push pedal (99) and mounting bracket (5) respectively.

2. A photovoltaic shed as in claim 1, wherein the angular orientation is adjustable by: still including clearance mechanism (10), clearance mechanism (10) are including sliding plate (101), are cleaned board (102) and fourth elastic component (103), and mounting bracket (5) top all slidingtype is equipped with sliding plate (101), and sliding plate (101) bottom all is connected with and is used for cleaning the wiping plate (102) of photovoltaic board (6), and wiping plate (102) and photovoltaic board (6) contact are connected with fourth elastic component (103) between sliding plate (101) and mounting bracket (5).

3. A photovoltaic shed as in claim 2, wherein the angular orientation is adjustable by: still including drive mechanism (11), drive mechanism (11) are including connecting block (111), transmission shaft (112), unidirectional gear (113), wire reel (114), stay cord (115), locking component and unlocking component, support frame (2) upper portion all is connected with two connecting blocks (111), all be connected with transmission shaft (112) on connecting block (111) rotation, all be connected with unidirectional gear (113) on transmission shaft (112), unidirectional gear (113) and connecting block (111) rotation are connected, unidirectional gear (113) and straight rack (92) meshing, all be connected with wire reel (114) on transmission shaft (112), all wind stay cord (115) on wire reel (114), wherein two stay cords (115) are connected with sliding plate (101) on left side, all be equipped with the locking component that can lock wire reel (114) on support frame (2), all be equipped with the unblock subassembly that can unlock wire reel (114) on draw-bar (97).

4. A photovoltaic shed according to claim 3 in relation to a variable angular orientation, characterized by: the locking assembly comprises a connecting frame (116), clamping blocks (117), fifth elastic pieces (118) and pushing blocks (119), wherein the connecting frame (116) is connected to the upper portion of the supporting frame (2), the clamping blocks (117) capable of locking the wire reel (114) are arranged on the left side and the right side of the connecting frame (116) in a sliding mode, the fifth elastic pieces (118) are connected between the clamping blocks (117) and the connecting frame (116), pushing blocks (119) are connected to the wire reel (114) at equal intervals, and the clamping blocks (117) clamp the pushing blocks (119).

5. A photovoltaic shed as in claim 4, wherein the angular orientation is adjustable, comprising: the unlocking component comprises a connecting plate (1110) and a pushing rod (1112), wherein the clamping rods (97) are connected with the connecting plate (1110), the pushing rods (1112) are connected to the upper parts of the connecting plate (1110), and the pushing rods (1112) move upwards to be in contact with the clamping blocks (117).

6. A photovoltaic shed as in claim 1, wherein the angular orientation is adjustable by: still including watering mechanism (12), watering mechanism (12) are including collecting box (121), connecting pipe (122) and shower nozzle (123), and both sides all are connected with collecting box (121) that can collect the rainwater around mounting bracket (5) top, and the intercommunication has connecting pipe (122) between two collecting boxes (121) that are front and back are relative, and all evenly spaced intercommunication has shower nozzle (123) on can spouting water photovoltaic board (6) on connecting pipe (122).