CN112187158A

CN112187158A - Sun-shading solar panel

Info

Publication number: CN112187158A
Application number: CN202011083097.9A
Authority: CN
Inventors: 朱倩
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-01-05

Abstract

The invention discloses a sun-shading solar panel, which comprises a box body, wherein symmetrical and penetrating internal cavities are arranged in the box body, a turnover window is rotatably arranged in the internal cavities, a plurality of loading shell plates are arranged in the end wall of the internal cavity, one side of each loading shell plate is provided with a connecting seat, the adjacent loading shell plates are in rotating fit connection through the connecting seats, the loading shell plate far away from the internal cavity is in rotating fit connection with the box body, and a spreading device which enables the loading shell plates to be fully spread to form a closed structure is arranged between the loading shell plate close to the innermost side of the internal cavity and the internal cavity.

Description

Sun-shading solar panel

Technical Field

The invention relates to the technical field of solar equipment, in particular to a sun-shading solar panel.

Background

Most of the solar panels in the existing equipment are directly installed on the ground in a fixed mode and then receive corresponding sunlight, and the existing equipment has more defects, on one hand, in daily life, when the sun is not needed to be shaded and the room is kept to be completely dark, a relatively lightproof material is needed to be made into a curtain to effectively shade the sunlight, but the existing equipment does not form the curtain structure on the solar panels to fully shade the sunlight of a window so as to prevent the room from being completely dark after the sunlight enters, so that the curtain after the sun is shaded cannot recover the solar energy, the actual working efficiency and the reliability of the equipment are greatly reduced, and due to the defects, the existing equipment cannot achieve the purpose of saving energy and cannot timely recover the corresponding solar energy, the reliability of the actual use of the device is lowered.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a solar shading panel, which can solve the above problems in the prior art.

The invention is realized by the following technical scheme: the sun-shading solar panel comprises a box body, wherein symmetrical and penetrating inner containing cavities are arranged in the box body, a turnover window is rotatably arranged in the inner cavity, a plurality of loading shell plates are arranged in the end wall of the inner cavity, a connecting seat is arranged on one side of each loading shell plate, the adjacent loading shell plates are connected by the connecting seat in a rotating fit manner, the loading shell plate far away from the inner cavity is connected with the box body in a rotating fit manner, an unfolding device which enables the loading shell plates to be completely unfolded to form a closed structure is arranged between the loading shell plate close to the innermost side of the inner cavity and the inner cavity, an inner clamping cavity is arranged in the loading shell plate, a solar cell loading panel is arranged in the inner clamping cavity, the loading shell plate is internally provided with a power clamping device which adopts a convenient clamping mode and loads the solar cell panel.

According to a further technical scheme, the unfolding device comprises an internal connection motor arranged in the end wall of the internal containing cavity, two sides of the internal connection motor are in power connection with a connection threaded shaft, the connection threaded shaft is in running fit with the end wall of the internal containing cavity, an internal thread moving block is arranged on the outer surface of the connection threaded shaft in running fit connection, the internal thread moving block is in sliding fit connection with the internal containing cavity, and the internal thread moving block is in running fit connection with the loading shell plate close to the internal containing cavity.

According to the technical scheme, the power clamping device comprises a slide-out inner cavity which is arranged in the loading shell plate in a bilateral symmetry mode, a transmission inner cavity which is arranged in the loading shell plate and is in central symmetry is arranged on one side of the slide-out inner cavity, a bottom transmission connection containing cavity which is arranged in the loading shell plate and is in vertical symmetry is arranged on one side of the transmission inner cavity, a lifting fixture block is arranged in the slide-out inner cavity and the bottom transmission connection containing cavity in a sliding mode, and an internal driving assembly which enables the lifting fixture block to be close to or far away from each other simultaneously is arranged in the slide-out inner cavity, the transmission inner cavity and.

According to a further technical scheme, the internal driving component comprises a connecting shaft which is connected with the end wall of the sliding-out inner cavity in a rotating fit manner, a bottom bevel gear and a bottom bevel gear are respectively arranged on two sides of the connecting shaft, a power connecting bevel gear is meshed with one side of the bottom bevel gear, a matching connecting threaded rod is arranged in the power connecting bevel gear, an open matching threaded hole is arranged in the lifting fixture block, the matching connecting threaded rod is in threaded fit connection with the matching threaded hole, a side meshing bevel gear is meshed with one side of the bottom bevel gear, a bottom rotating shaft is arranged on one side of the side meshing bevel gear, the bottom rotating shaft penetrates through the bottom transmission connecting cavity in a rotating manner, a connecting bevel gear is arranged on the end face of the bottom rotating shaft far away from the side meshing bevel gear, the solar cell panel loading device is characterized in that an internal connection motor is arranged in the end wall of the bottom transmission connection accommodating cavity, the internal connection motor is in power connection with a rotating matching bevel gear, an output threaded rod is arranged on one side of the rotating matching bevel gear, the output threaded rod is in threaded matching connection with a lifting clamping block, and the lifting clamping block is used for clamping the solar cell panel.

The invention has the beneficial effects that:

the solar panel folding device is simple in structure, can be unfolded to form a sun-shading structure, enables redundant sunlight to be fully utilized, and can be convenient for conveniently dismounting the solar panel.

When shading and recovering solar energy, the internal connection motor drives the connection threaded shaft to rotate after working, so that the connection threaded shaft drives the internal thread moving block to slide in the internal containing cavity after rotating, the loading shell plates rotate through the connecting seat, then the loading shell plates are completely unfolded and then the internal containing cavity is sealed, and at the moment, the sun can be shielded and photovoltaic power generation can be carried out.

When the loaded solar cell panel is clamped in the internal clamping cavity and the loading shell plate, the internal connection motor drives the rotating matching bevel gear to rotate after working, the connecting bevel gear is driven to rotate by the rotating matching bevel gear, the bottom side rotating shaft is driven to rotate by the side meshing bevel gear which is meshed with the bottom bevel gear to drive the connecting shaft to rotate as the connecting bevel gear is fixed with the internal connection motor, the matching connecting threaded rod is driven to rotate by the power connecting bevel gear as the bottom side bevel gear is meshed with the power connecting bevel gear, the matching connecting threaded rod is in threaded matching connection with the matching threaded hole, and the output threaded rod is in threaded matching connection with the lifting clamping block, and the lifting clamping blocks are enabled to be close to the inner clamping cavities at the same time, the loaded solar panel is clamped between the lifting clamping blocks, and the loaded solar panel is clamped in the inner clamping cavities so as to be convenient for dismounting, maintenance and replacement of the inner clamping cavities.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the internal structure of the solar panel according to the present invention;

FIG. 2 is a schematic view of the direction A in FIG. 1;

FIG. 3 is a schematic view of B in FIG. 2;

FIG. 4 is a schematic view of FIG. 2 taken along direction C;

FIG. 5 is a schematic view of D in FIG. 4;

FIG. 6 is a schematic view of E in FIG. 4;

FIG. 7 is a schematic view of F in FIG. 4;

in the figure, a loading shell plate 11, a connecting seat 12, a box body 13, an internal thread moving block 14, a connecting threaded shaft 15, a turnover window 16, an internal connecting motor 17, an internal accommodating cavity 18, a loading solar cell panel 21, an internal clamping cavity 22, a lifting clamping block 23, a power connecting bevel gear 31, a bottom bevel gear 32, a connecting shaft 33, a matching threaded hole 34, a sliding-out inner cavity 35, a matching connecting threaded rod 36, a bottom bevel gear 41, a side meshing bevel gear 42, a bottom rotating shaft 43, a transmission inner cavity 44, a connecting bevel gear 51, a rotating matching bevel gear 52, an internal connecting motor 53, a bottom transmission connecting accommodating cavity 54 and an output threaded rod 55.

Detailed Description

As shown in fig. 1 to 7, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the following up-down left-right front-back direction is consistent with the up-down left-right front-back direction of the projection relation of the solar panel in fig. 1, the solar panel comprises a box body 13, wherein an inner containing cavity 18 which is symmetrical and penetrates through is arranged in the box body 13, a turnover window 16 is rotationally arranged in the inner containing cavity 18, a plurality of loading shell plates 11 are arranged in the end wall of the inner containing cavity 18, a connecting seat 12 is arranged on one side of each loading shell plate 11, the adjacent loading shell plates 11 are rotationally matched and connected through the connecting seat 12, the loading shell plate 11 far away from the inner containing cavity 18 is rotationally matched and connected with the box body 13, an unfolding device which enables the loading shell plates 11 to be completely unfolded to form a closed structure is arranged between the loading shell plate 11 and the inner containing cavity 18 which are close to the innermost side of the inner containing cavity 18, and an inner clamping cavity, the inside dress card chamber 22 is provided with in and loads solar cell panel 21, it installs the card to be provided with the mode that adopts convenient dress card in the shell plate 11 to load, load the power dress card device of solar cell panel 21.

Beneficially, the unfolding device comprises an internal connection motor 17 arranged in the end wall of the internal cavity 18, a connection threaded shaft 15 is arranged on two sides of the internal connection motor 17 in a power connection mode, the connection threaded shaft 15 is connected with the end wall of the internal cavity 18 in a rotating fit mode, an internal thread moving block 14 is arranged on the outer surface of the connection threaded shaft 15 in a threaded fit mode, the internal thread moving block 14 is connected with the internal cavity 18 in a sliding fit mode, and the internal thread moving block 14 is connected with the loading shell plate 11 close to the internal cavity 18 in a rotating fit mode.

Beneficially, the power card installing device includes slide-out inner cavities 35 symmetrically arranged in the loading shell plate 11 from left to right, transmission inner cavities 44 symmetrically arranged in the loading shell plate 11 from the center are arranged on one side of each slide-out inner cavity 35, bottom transmission connection accommodating cavities 54 symmetrically arranged in the loading shell plate 11 from top to bottom are arranged on one side of each transmission inner cavity 44, lifting fixture blocks 23 are arranged in the slide-out inner cavities 35 and the bottom transmission connection accommodating cavities 54 in a sliding manner, and internal driving components for enabling the lifting fixture blocks 23 to simultaneously approach or separate from each other are arranged in the slide-out inner cavities 35, the transmission inner cavities 44 and the bottom transmission connection accommodating cavities 54.

Beneficially, the internal driving assembly comprises a connecting shaft 33 in rotating fit connection with the end wall of the sliding-out inner cavity 35, a bottom bevel gear 32 and a bottom bevel gear 41 are respectively arranged at two sides of the connecting shaft 33, a power connection bevel gear 31 is arranged at one side of the bottom bevel gear 32 in a meshing manner, a fit connection threaded rod 36 is arranged in the power connection bevel gear 31, an open fit threaded hole 34 is arranged in the lifting fixture block 23, the fit connection threaded rod 36 is in threaded fit connection with the fit threaded hole 34, a side engagement bevel gear 42 is arranged at one side of the bottom bevel gear 41 in a meshing manner, a bottom rotation shaft 43 is arranged at one side of the side engagement bevel gear 42, the bottom rotation shaft 43 penetrates through the bottom transmission connection accommodating cavity 54 in a rotating manner, a connection bevel gear 51 is arranged at the end face of the bottom, one side of the connecting bevel gear 51 is engaged with a rotating matching bevel gear 52, an internal connecting motor 53 is arranged in the end wall of the bottom transmission connecting cavity 54, the internal connecting motor 53 is in power connection with the rotating matching bevel gear 52, an output threaded rod 55 is arranged on one side of the rotating matching bevel gear 52, the output threaded rod 55 is in threaded matching connection with the lifting fixture block 23, and the lifting fixture block 23 is used for clamping the solar cell panel 21.

During initial state, above-mentioned device, subassembly and structure are in the out-of-service condition, and this equipment can expand and form sunshade structure, makes unnecessary sunshine can by make full use of to can be convenient for carry out convenient dismouting with solar cell panel.

When the sun is shaded and solar energy is recovered, the internal connection motor 17 drives the connection threaded shaft 15 to rotate after working, so that the connection threaded shaft 15 drives the internal thread moving block 14 to slide in the internal containing cavity 18 after rotating, the loading shell plates 11 are rotated through the connecting seat 12, then the loading shell plates 11 are completely unfolded, then the internal containing cavity 18 is sealed, and at the moment, the sun can be shaded and photovoltaic power generation can be performed.

When the solar cell panel 21 is clamped in the internal clamping cavity 22 and the loading shell plate 11, the internal connection motor 53 works to drive the rotation matching bevel gear 52 to rotate and then drive the connection bevel gear 51 to rotate, the bottom rotation shaft 43 drives the side meshing bevel gear 42 to rotate due to the fixing of the connection bevel gear 51 and the internal connection motor 53, the side meshing bevel gear 42 is meshed with the bottom bevel gear 41, so that the bottom bevel gear 41 drives the connecting shaft 33 to rotate, the bottom bevel gear 32 is meshed with the power connection bevel gear 31, so that the power connection bevel gear 31 drives the matching connection threaded rod 36 to rotate, the matching connection threaded rod 36 is in threaded matching connection with the matching threaded hole 34, and the output threaded rod 55 is in threaded matching connection with the lifting clamping block 23, the lifting fixture block 23 is enabled to be close to the inner clamping cavity 22 at the same time, the loaded solar cell panel 21 is clamped between the lifting fixture blocks 23, and the loaded solar cell panel 21 can be clamped in the inner clamping cavity 22 so as to be convenient for dismounting, maintenance and replacement of the inner clamping cavity 22.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The sun-shading solar panel comprises a box body, wherein the box body is internally provided with symmetrical and penetrating internal containing cavities, a turnover window is rotatably arranged in the inner cavity, a plurality of loading shell plates are arranged in the end wall of the inner cavity, a connecting seat is arranged on one side of each loading shell plate, the adjacent loading shell plates are connected by the connecting seat in a rotating fit manner, the loading shell plate far away from the inner cavity is connected with the box body in a rotating fit manner, an unfolding device which enables the loading shell plates to be completely unfolded to form a closed structure is arranged between the loading shell plate close to the innermost side of the inner cavity and the inner cavity, an inner clamping cavity is arranged in the loading shell plate, a solar cell loading panel is arranged in the inner clamping cavity, the loading shell plate is internally provided with a power clamping device which adopts a convenient clamping mode and loads the solar cell panel.

2. The solar shading solar panel according to claim 1, characterized in that: the unfolding device comprises an internal connection motor arranged in the end wall of the internal containing cavity, two sides of the internal connection motor are in power connection with a connection threaded shaft, the connection threaded shaft is in running fit with the end wall of the internal containing cavity, an internal thread moving block is arranged on the outer surface of the connection threaded shaft in running fit with the outer surface of the connection threaded shaft, the internal thread moving block is in sliding fit with the internal containing cavity and is connected with the loading shell plate in running fit with the internal containing cavity.

3. The solar shading solar panel according to claim 1, characterized in that: the power clamping device comprises a slide-out inner cavity which is arranged in the loading shell plate in a bilateral symmetry mode, a transmission inner cavity which is arranged in the loading shell plate and is in central symmetry is arranged on one side of the slide-out inner cavity, a bottom transmission connection containing cavity which is arranged in the loading shell plate and is in vertical symmetry is arranged on one side of the transmission inner cavity, a lifting fixture block is arranged in the slide-out inner cavity and the bottom transmission connection containing cavity in a sliding mode, and an internal driving assembly which enables the lifting fixture block to be close to or far away from each other simultaneously is arranged in the slide-out inner cavity, the transmission inner cavity and.

4. The solar shading solar panel according to claim 3, characterized in that: the internal driving component comprises a connecting shaft which is connected with the end wall of the sliding-out inner cavity in a rotating fit manner, a bottom bevel gear and a bottom bevel gear are respectively arranged on two sides of the connecting shaft, a power connecting bevel gear is meshed with one side of the bottom bevel gear, a matching connecting threaded rod is arranged in the power connecting bevel gear, an open matching threaded hole is arranged in the lifting fixture block, the matching connecting threaded rod is in threaded fit connection with the matching threaded hole, a side meshing bevel gear is meshed with one side of the bottom bevel gear, a bottom rotating shaft is arranged on one side of the side meshing bevel gear, the bottom rotating shaft penetrates through the bottom transmission connecting accommodating cavity in a rotating manner, a connecting bevel gear is arranged on the end face of the bottom rotating shaft far away from the side meshing bevel gear, a rotating matching bevel gear is meshed with one side, the internal connection motor is in power connection with the rotating matching bevel gear, an output threaded rod is arranged on one side of the rotating matching bevel gear, the output threaded rod is in threaded matching connection with the lifting clamping block, and the lifting clamping block clamps the solar cell panel.