CN217563581U - Angle-adjustable intelligent solar photovoltaic panel - Google Patents
Angle-adjustable intelligent solar photovoltaic panel Download PDFInfo
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- CN217563581U CN217563581U CN202220950991.XU CN202220950991U CN217563581U CN 217563581 U CN217563581 U CN 217563581U CN 202220950991 U CN202220950991 U CN 202220950991U CN 217563581 U CN217563581 U CN 217563581U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The utility model relates to a photovoltaic module field, especially intelligent type solar photovoltaic board of angularly adjustable, including mount pad, photovoltaic board, slope subassembly and upset subassembly, the mount pad level sets up, the slope subassembly sets up the side at the mount pad, and the lateral wall sliding connection of slope subassembly and mount pad, the upset subassembly sets up at the top of slope subassembly, and the upset subassembly is located the side of mount pad, the photovoltaic board sets up the top at the upset subassembly. The utility model has the advantages that: the photovoltaic panel is subjected to overhead roof treatment, so that better sunlight can be obtained, other functions of the roof can not be influenced, and the shape of the building is richer.
Description
Technical Field
The utility model relates to a photovoltaic module field, especially intelligent type solar photovoltaic board of angularly adjustable.
Background
Solar energy is a renewable energy source, and has the characteristics of clean and safe use, short construction period, long service time and wide use region range in China. But its use is relatively rare within a building.
At present, a solar photovoltaic panel is generally used on a curtain wall of a building, and the solar photovoltaic panel is dark in color and single in shape, so that the application of the solar photovoltaic panel on the building is restricted.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome the shortcoming among the prior art, provide intelligent type solar photovoltaic board of angularly adjustable.
The purpose of the utility model is realized through the following technical scheme: angle-adjustable's intelligent type solar photovoltaic board, including mount pad, photovoltaic board, slope subassembly and upset subassembly, the slope subassembly sets up the side at the mount pad, and the lateral wall sliding connection of slope subassembly and mount pad, the upset subassembly sets up at the top of slope subassembly, and the side that the upset subassembly is located the mount pad, the photovoltaic board sets up the top at the upset subassembly.
Preferably, the slope subassembly includes support arm, first installation cover, first rotation pole, bottom plate, first fixing base and slope piece, set up the spout that supplies support arm sliding connection on the lateral wall of mount pad, the support arm is equipped with two, and two support arm intervals set up the side at the mount pad, and the bottom of two support arms all is located the spout, the bottom plate level sets up, and the bottom plate is located the top of two support arms, first fixing base is equipped with four, and four first fixing bases are the bottom of matrix distribution at the bottom plate, first rotation pole level sets up between two first fixing bases, and the both ends of first rotation pole run through two first fixing bases and two support arms respectively and extend away, first installation cover is equipped with two, and two first installation covers rotate respectively and set up on the lateral wall of two support arms, and two first installation covers respectively with the both ends looks spiro union of first rotation pole, a part of slope piece sets up in the mount pad, and the other part of slope piece sets up the bottom at the bottom plate.
Preferably, the slope piece is including rotating handle, first axis of rotation, lifting screw, driving gear, driven gear, lifing arm, second installation cover and second dwang, the spaced apart two sliding trays that are equipped with on the lateral wall of mount pad, and two sliding trays all are located the top of spout, lifting screw is equipped with two, and two lifting screw rotate respectively and set up two sliding trays, driven gear is equipped with two, and two driven gear set up the bottom at two lifting screw respectively, first axis of rotation is the level and sets up in the mount pad, and just first axis of rotation is located the below of two lifting screw, the one end of first axis of rotation extends to a driven gear's below, and the other end of first axis of rotation runs through the mount pad and extends away, the driving gear is equipped with two, and two driving gear spacer sleeves are established on first axis of rotation, and two driving gears mesh with two driven gears respectively, it sets up on the other end of first axis of rotation to rotate the handle, the lifing arm is equipped with two, and two lifting arm overlap respectively and establish on two lifting screw, and two lifting arm's top all extend to the bottom plate of two lifting arm, the second installation cover is equipped with two second installation covers, and two second installation covers that rotate respectively and the second installation cover and two second installation covers on two sides.
Preferably, the overturning assembly comprises a sliding block, four connecting rollers, two inserting plates, two second fixing seats, two overturning racks, two vertical rollers, a connecting rod, a driving piece and two overturning pieces, the second fixing seats are arranged at the top of the bottom plate, the four second fixing seats are distributed at the top of the bottom plate in a matrix mode, the two overturning racks are arranged at the top of the bottom plate, the two overturning racks are arranged between the two overturning racks, the connecting rollers are horizontally arranged above the bottom plate, the sliding block sleeves the connecting rollers, the two inserting plates are arranged at the two ends of the connecting rollers respectively and are connected with the two second fixing seats in an inserting mode, the two inserting plates are fixedly connected with the two overturning racks respectively, the two vertical rollers are arranged at the bottoms of the two overturning racks respectively, the bottom end of each vertical roller penetrates through the bottom plate and extends out, the two vertical rollers are connected with the bottom plate in a sliding mode, the two overturning pieces are arranged at the tops of the four second fixing seats respectively, each overturning piece comprises a second rotating shaft and a gear, the two rotating racks are arranged at the tops of the two rotating plates, the two rotating gears are meshed with the two rotating racks respectively, and the two rotating pieces are arranged at the tops of the two rotating plates, and are arranged at the tops of the two rotating racks respectively and are meshed with the two rotating gears.
Preferably, the driving piece includes mounting disc, driving motor, rotor arm, installation roller and conflict pole, the mounting disc is located the below of bottom plate, the installation roller is equipped with four, and four installation rollers all follow the top of mounting disc circumference equiangular setting at the mounting disc, and the top of four installation rollers all with the bottom fixed connection of bottom plate, every all overlap on the installation roller and be equipped with the spacing ring, the rotor arm rotates the top that sets up at the mounting disc, driving motor sets up in the bottom of mounting disc, and driving motor's output runs through mounting disc and rotor arm fixed connection, the conflict pole level sets up in the top of mounting disc, and the lateral wall and four spacing rings of conflict pole laminate mutually, the rotor arm is inconsistent with the middle section of conflict pole.
The utility model has the advantages of it is following:
the rotating handle is rotated, the two driving gears drive the two driven gears to rotate through the first rotating shaft, the two lifting arms move along the length direction of the two lifting screws to lift one side of the bottom plate upwards to incline the bottom plate, when the inclined angle of the bottom plate is the same as the inclined angle of the roof, the bottom plate is covered on the roof, the rest parts of the device are arranged on the inner roof of the house, the device can be effectively prevented from being used for a long time, the internal structure of the device is rusted and corroded, the service life of the device is prolonged, when the device is arranged on a flat roof, the device is arranged on the inner roof of the house, two supporting arms and two lifting arms can simultaneously penetrate through the roof and extend out, the bottom plate is covered above the roof, the driving motor drives the rotating arms fixedly connected with the output ends of the driving motor to rotate, and under the condition that the rotating arms are abutted against the middle sections of the abutting rods, the movable collision rod can be limited by the limiting rings on the periphery to prevent the movable collision rod from shifting during moving, the collision rod moves to drive the connecting rod and the two vertical rollers to move so as to drive the two turnover racks to move, the two turnover racks move to drive the two rotating gears meshed with the two turnover racks to rotate, so that the placing plate rotates by taking the two second fixing seats as axes under the connection of the second rotating shaft, the movement of the turnover racks can drive the two plugboards to move simultaneously, one second rotating shaft cannot move on the two second fixing seats through the plug-in fit of the plugboards and the second fixing seats, the movement of the photovoltaic panel caused during turnover is avoided, harm is avoided, through the operation, the photovoltaic panel can change the inclination angle along with the movement of the sun, the sunlight is better absorbed, and the photovoltaic panel is subjected to roof overhead treatment, can obtain better sunlight, does not influence other functions of the roof and enriches the modeling of the building.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a schematic structural view of a tilt assembly of the present invention;
fig. 3 is a schematic structural view of the turnover assembly of the present invention;
fig. 4 is a schematic structural diagram of a second turnover assembly of the present invention;
fig. 5 is a schematic structural diagram of the driving member of the present invention.
In the figure: 1-mounting seat, 2-photovoltaic panel, 3-tilting assembly, 31-supporting arm, 32-first mounting sleeve, 33-first rotating rod, 34-bottom plate, 35-first fixing seat, 36-tilting member, 361-rotating handle, 362-first rotating shaft, 363-lifting screw, 364-driving gear, 365-driven gear, 366-lifting arm, 367-second mounting sleeve, 368-second rotating rod, 4-overturning assembly, 41-sliding block, 42-connecting roller, 43-plug board, 44-second fixing seat, 45-overturning rack, 46-vertical roller, 47-connecting rod, 48-driving member, 481-mounting disc, 482-driving motor, 483-rotating arm, 484-mounting roller, 485-contact rod, 486-limiting ring, 49-overturning member, 491-second rotating shaft, 492-rotating gear and 410-placing plate.
Detailed Description
The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.
As shown in fig. 1 to 5, intelligent type solar photovoltaic board of angularly adjustable, it includes mount pad 1, photovoltaic board 2, slope subassembly 3 and upset subassembly 4, mount pad 1 level sets up, slope subassembly 3 sets up the side at mount pad 1, and the lateral wall sliding connection of slope subassembly 3 and mount pad 1, upset subassembly 4 sets up at the top of slope subassembly 3, and upset subassembly 4 is located the side of mount pad 1, photovoltaic board 2 sets up the top at upset subassembly 4.
Specifically, the tilting assembly 3 includes a supporting arm 31, a first mounting sleeve 32, a first rotating rod 33, a bottom plate 34, a first fixing seat 35 and a tilting member 36, a sliding slot for sliding connection of the supporting arm 31 is formed in the side wall of the mounting seat 1, the supporting arm 31 is provided with two supporting arms 31, the two supporting arms 31 are arranged beside the mounting seat 1 at intervals, the bottom ends of the two supporting arms 31 are located in the sliding slot, the bottom plate 34 is horizontally arranged, the bottom plate 34 is located above the two supporting arms 31, the first fixing seats 35 are provided with four supporting seats, the four first fixing seats 35 are distributed at the bottom of the bottom plate 34 in a matrix manner, the first rotating rod 33 is horizontally arranged between the two first fixing seats 35, two ends of the first rotating rod 33 respectively penetrate through the two first fixing seats 35 and the two supporting arms 31 and extend out, the first mounting sleeve 32 is provided with two supporting rods, two first installation sleeves 32 are respectively rotatably arranged on the side walls of two supporting arms 31, and two first installation sleeves 32 are respectively in threaded connection with two ends of a first rotating rod 33, one part of the inclined piece 36 is arranged in the installation base 1, the other part of the inclined piece 36 is arranged at the bottom of the bottom plate 34, when the device is installed on an inclined roof, a worker rotates the rotating handle 361 to enable two driving gears 364 to drive two driven gears 365 to rotate through the first rotating shaft 362, two lifting arms 366 move along the length direction of two lifting screws 363 to lift up one side of the bottom plate 34 upwards to enable the bottom plate 34 to incline, when the inclined angle of the bottom plate 34 is the same as the inclined angle of the roof, the bottom plate 34 covers the roof, the rest parts of the device are installed on the inner roof of a house, the device can be effectively prevented from being used for a long time, and the internal structure of the device is rusted and corroded, the service life of the device is prolonged, when the device is installed on a flat roof, the device is installed on the inner top wall of a house, so that the two supporting arms 31 and the two lifting arms 366 can simultaneously penetrate through the roof to extend out, and the bottom plate 34 is covered above the roof.
Specifically, the tilting member 36 includes a rotating handle 361, a first rotating shaft 362, two lifting screws 363, a driving gear 364, two driven gears 365, two lifting arms 366, two lifting arms 368, and a second rotating rod 368, two sliding grooves are spaced apart from each other on a side wall of the mounting base 1, and both sliding grooves are located above the sliding grooves, two lifting screws 363 are provided, two lifting screws 363 are respectively rotatably provided in the two sliding grooves, two driven gears 365 are provided, two driven gears 365 are respectively provided at bottom ends of the two lifting screws 363, the first rotating shaft 362 is horizontally provided in the mounting base 1, and the first rotating shaft 362 is located below the two lifting screws 363, one end of the first rotating shaft 362 extends to below one driven gear 365, the other end of the first rotating shaft 362 extends through the mounting base 1 and extends out, two driving gears 364 are provided, two driving gears 364 are spaced apart from each other on the first rotating shaft 362, and two driving gears 364 are respectively engaged with the two driven gears 367, the rotating handle 361 is provided at the other end of the first rotating shaft 362, two lifting arms 366 are provided with two lifting arms 366, two lifting arms 368 are respectively provided on two lifting arms 368 and extend out of the mounting base plate 368, and two lifting arms 368 are respectively provided on two lifting arms 35, two lifting arms 35 are provided on the side walls of the mounting base plate 363, and extend horizontally provided, two lifting arms 12, the two driving gears 364 rotate the two driven gears 365 via the first rotating shaft 362, and the two lifting arms 366 move along the length direction of the two lifting screws 363 to lift one side of the bottom plate 34 upward, thereby tilting the bottom plate 34.
Specifically, the flipping module 4 includes a sliding block 41, a connecting roller 42, a socket plate 43, four second fixing seats 44, four flipping racks 45, vertical rollers 46, a connecting rod 47, a driving member 48, and two flipping members 49, the second fixing seats 44 are four, the four second fixing seats 44 are distributed on the top of the bottom plate 34 in a matrix, the flipping racks 45 are two, the two flipping racks 45 are disposed at the top of the bottom plate 34 at intervals, and the four second fixing seats 44 are located between the two flipping racks 45, the connecting roller 42 is horizontally disposed above the bottom plate 34, the sliding block 41 is sleeved on the connecting roller 42, the socket plate 43 is two, the two socket plates 43 are disposed at the two ends of the connecting roller 42, respectively, and each socket plate 43 is plugged into the two second fixing seats 44, the two socket plates 43 are fixedly connected to the two flipping racks 45, the vertical rollers 46 are disposed at the bottom of the two flipping racks 45, the bottom end of each vertical roller 46 penetrates through the bottom plate 34 and extends out, the two rotating rollers 46 are slidably connected to the bottom plate 34, the two rotating shafts 491 are disposed at the top of the second fixing seats 44, the rotating rack 491 is disposed at the top of the rotating shaft 491, the rotating arm 491 is disposed at the top of the second fixing seats, the rotating shaft 491, the rotating arm 491 is disposed at the top of the rotating shaft 491, the rotating arm 46, the rotating shaft 491 is disposed at the rotating shaft 35, the rotating arm 491 of the rotating rack 34, the rotating shaft 46, the rotating arm is disposed at the rotating shaft 46, the rotating shaft 491, the rotating arm 491 of the rotating arm is disposed at the rotating arm 491 of the rotating shaft 34, and under the condition that the rotating arm 483 is inconsistent with the middle section of the collision rod 485, the collision rod 485 is moved in the horizontal direction, the surrounding limit ring 486 can limit the moved collision rod 485, so that the collision rod 485 is prevented from shifting when moving, the collision rod 485 is moved to drive the connecting rod 47 and the two vertical rollers 46 to move, so as to drive the two turnover racks 45 to move, the two turnover racks 45 move to drive the two rotating gears 492 meshed with the two turnover racks to rotate, so that the placing plate 410 rotates by taking the two second fixing seats 44 as axes under the connection of the second rotating shaft 491, meanwhile, the turnover racks 45 move to drive the two plug-in plates 43 to move, through the plug-in cooperation of the plug-in plates 43 and the second fixing seats 44, the second rotating shaft 491 cannot move on the two second fixing seats 44, the photovoltaic plate 2 is prevented from moving during turnover, damage is caused, and through the operation, the photovoltaic plate 2 can change the inclination angle of the photovoltaic plate along with the movement of the sun, and better sunlight can be absorbed.
Specifically, driving piece 48 includes mounting disc 481, driving motor 482, rotor 483, installation roller 484 and conflict pole 485, mounting disc 481 is located the below of bottom plate 34, installation roller 484 is equipped with four, and four installation rollers 484 all set up at the top of mounting disc 481 along mounting disc 481 circumference equiangular setting, and the top of four installation rollers 484 all with the bottom fixed connection of bottom plate 34, every all overlap on the installation roller 484 and be equipped with spacing ring 486, rotor 483 rotates and sets up at the top of mounting disc 481, driving motor sets up the bottom at mounting disc 481, and the output of driving motor 482 runs through mounting disc 481 and rotor 483 fixed connection, conflict pole 485 level sets up in the top of mounting disc 481, and the lateral wall of conflict pole 485 laminates with four spacing rings 486 mutually, rotor 483 is inconsistent with the middle section of conflict pole 482, and driving motor 482 drives the rotor 483 who is connected with its output is fixed and contradicts, and contradicts with the rotor 483 under the circumstances that rotor 483 pole 485 contradicts, makes the middle section of conflict pole 485 move, and the horizontal displacement of pole 485 can carry out the horizontal displacement of two connecting rod 485 and carry out the stopper 485 and move around and drive the stopper pole 47.
Specifically, the number of the photovoltaic panels 2 can be increased at will, and the absorption amount of sunlight is increased.
The working process of the utility model is as follows: when the device is installed on an inclined roof, a worker rotates the rotating handle 361, the two driving gears 364 drive the two driven gears 365 to rotate through the first rotating shaft 362, the two lifting arms 366 move along the length direction of the two lifting screws 363 to lift up one side of the bottom plate 34 upwards to incline the bottom plate 34, when the inclined angle of the bottom plate 34 is the same as the inclined angle of the roof, the bottom plate 34 covers the roof, and the rest parts of the device are installed on the inner roof of the house, so that the device can be effectively prevented from being used for a long time, the internal structure of the device is rusted and corroded, the service life of the device is prolonged, when the device is installed on a flat roof, the device is installed on the inner roof wall of the house, the two supporting arms 31 and the two lifting arms 366 can simultaneously penetrate through the roof to extend out, the bottom plate 34 covers the upper side of the roof, the driving motor 482 drives the rotating arm 483 fixedly connected with the output end of the rotating arm 483 to rotate, and under the condition that the rotating arm 483 is abutted against the middle section of the contact bar 485, the contact bar 485 is moved horizontally, the limit ring 486 around can limit the position of the moved contact bar 485 to prevent the contact bar 485 from shifting during movement, the contact bar 485 is moved to drive the connecting rod 47 and the two vertical rollers 46 to move so as to drive the two turning racks 45 to move, the two turning racks 45 are moved to drive the two turning gears 492 engaged with the two turning racks 45 to rotate, so that the placing plate 410 is rotated by taking the two second fixing seats 44 as axes under the connection of the second rotating shaft 491, and the movement of the turning racks 45 can drive the two inserting plates 43 to move simultaneously, through the inserting and matching of the inserting plates 43 and the second fixing seats 44, one second rotating shaft 491 can not move on the two second fixing seats 44, thereby avoiding the movement of the photovoltaic panel 2 during turning, cause harm, through above-mentioned operation for photovoltaic board 2 can follow the removal of sun and go to change its inclination, better absorption sunlight.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (5)
1. Angle-adjustable intelligent solar photovoltaic panel, its characterized in that: including mount pad (1), photovoltaic board (2), slope subassembly (3) and upset subassembly (4), slope subassembly (3) set up the side at mount pad (1), and the lateral wall sliding connection of slope subassembly (3) and mount pad (1), upset subassembly (4) set up the top at slope subassembly (3), and upset subassembly (4) are located the side of mount pad (1), photovoltaic board (2) set up the top at upset subassembly (4).
2. The intelligent solar photovoltaic panel with adjustable angle as claimed in claim 1, wherein: the tilting component (3) comprises a supporting arm (31), a first mounting sleeve (32), a first rotating rod (33), a bottom plate (34), a first fixed seat (35) and a tilting member (36), the side wall of the mounting seat (1) is provided with a sliding chute for the sliding connection of the supporting arm (31), two supporting arms (31) are arranged, the two supporting arms (31) are arranged at the side of the mounting seat (1) at intervals, the bottom ends of the two supporting arms (31) are positioned in the sliding grooves, the bottom plate (34) is horizontally arranged, the bottom plate (34) is positioned above the two supporting arms (31), four first fixing seats (35) are arranged, the four first fixing seats (35) are distributed at the bottom of the bottom plate (34) in a matrix manner, the first rotating rod (33) is horizontally arranged between the two first fixed seats (35), and two ends of the first rotating rod (33) respectively penetrate through the two first fixed seats (35) and the two supporting arms (31) and extend out, two first mounting sleeves (32) are arranged, the two first mounting sleeves (32) are respectively and rotatably arranged on the side walls of the two supporting arms (31), and two first mounting sleeves (32) are respectively screwed with two ends of the first rotating rod (33), one part of the tilting member (36) is arranged in the mounting seat (1), and the other part of the tilting member (36) is arranged at the bottom of the bottom plate (34).
3. The intelligent solar photovoltaic panel with adjustable angle of claim 2, wherein: the inclined part (36) comprises a rotating handle (361), a first rotating shaft (362), two lifting screws (363), a driving gear (364), two driven gears (365), two lifting arms (366), a second mounting sleeve (367) and a second rotating shaft (368), two sliding grooves are formed in the side wall of the mounting seat (1) at intervals and are located above the sliding grooves, the two lifting screws (363) are provided with two sliding grooves, the two lifting screws (363) are respectively and rotatably arranged in the two sliding grooves, the two driven gears (365) are provided with two driven gears (365) respectively arranged at the bottom ends of the two lifting screws (363), the first rotating shaft (362) is horizontally arranged in the mounting seat (1), the first rotating shaft (362) is located below the two lifting screws (363), one end of the first rotating shaft (362) extends to the lower portion of one driven gear (365), the other end of the first rotating shaft (362) penetrates through the mounting seat (1) and extends out, the two driving gears (364) are arranged, the two driving gears (364) are sleeved on the first rotating shaft (364), the two rotating shafts (364), the two driving gears (362) are respectively and are meshed with the other ends of the two lifting arms (361), two lifting arm (366) overlap respectively and establish on two lifting screw (363), and the top of two lifting arm (366) all extends to the below of bottom plate (34), second dwang (368) level sets up between two first fixing base (35), and the both ends of second dwang (368) run through other two first fixing base (35) and two lifting arm (366) respectively and extend away, second installation cover (367) is equipped with two, and two second installation covers (367) rotate respectively and set up on the lateral wall of two lifting arm (366), and two second installation covers (367) are threaded mutually with the both ends of second dwang (368) respectively.
4. The intelligent solar photovoltaic panel with adjustable angle of claim 2, wherein: the overturning assembly (4) comprises sliding blocks (41), connecting rollers (42), inserting plates (43), four second fixing seats (44), overturning racks (45), two vertical rollers (46), connecting rods (47), a driving piece (48) and two overturning pieces (49), the four second fixing seats (44) are distributed at the top of the base plate (34) in a matrix manner, the four overturning racks (45) are arranged, the two overturning racks (45) are arranged at the top of the base plate (34) at intervals, the four second fixing seats (44) are positioned between the two overturning racks (45), the connecting rollers (42) are horizontally arranged above the base plate (34), the sliding blocks (41) are sleeved on the connecting rollers (42), the two inserting plates (43) are arranged, the two inserting plates (43) are respectively arranged at two ends of the connecting rollers (42), each inserting plate (43) is inserted into the two second fixing seats (44), the two inserting plates (43) are respectively fixedly connected with the two overturning racks (45), the two vertical rollers (46) are respectively arranged at two ends of the two vertical rollers (46), each vertical roller (46) penetrates through the bottom of the vertical rollers (34), and each vertical roller (46) extends out of the base plate (34), two upset pieces (49) set up respectively at the top of four second fixing bases (44), and every upset piece (49) all includes second axis of rotation (491) and rotating gear (492), second axis of rotation (491) rotates the top that sets up at two second fixing bases (44), rotating gear (492) are equipped with two, and two rotating gear (492) set up respectively at the both ends of second axis of rotation (491), and two rotating gear (492) mesh with two upset racks (45) respectively mutually, driving piece (48) set up in the bottom of bottom plate (34), two the top of second axis of rotation (491) is equipped with places board (410).
5. The intelligent solar photovoltaic panel with adjustable angle of claim 4, wherein: drive piece (48) are including mounting disc (481), driving motor (482), rotor arm (483), installation roller (484) and conflict pole (485), mounting disc (481) is located the below of bottom plate (34), installation roller (484) are equipped with four, and four installation rollers (484) all set up at the top of mounting disc (481) along the equal angle of mounting disc (481) circumference, and the top of four installation rollers (484 all with the bottom fixed connection of bottom plate (34), every all overlap on installation roller (484) and be equipped with spacing ring (486), rotor arm (483) rotate and set up the top at mounting disc (481), driving motor (482) set up the bottom at mounting disc (481), and the output of driving motor (482) runs through mounting disc (483) and rotor arm (483) fixed connection, conflict pole (485) level sets up the top at mounting disc (481), and the lateral wall and four spacing ring (486) laminating mutually of conflict pole (485), the middle section of conflict pole (483) and conflict pole (481).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220950991.XU CN217563581U (en) | 2022-04-21 | 2022-04-21 | Angle-adjustable intelligent solar photovoltaic panel |
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CN202220950991.XU CN217563581U (en) | 2022-04-21 | 2022-04-21 | Angle-adjustable intelligent solar photovoltaic panel |
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CN202220950991.XU Active CN217563581U (en) | 2022-04-21 | 2022-04-21 | Angle-adjustable intelligent solar photovoltaic panel |
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