Disclosure of Invention
The invention aims to overcome the problems in the prior art, and provides a device for quickly replacing a solar panel on a solar road surface, which can be used for arranging a fixed base on a road bed, arranging a plurality of first grooves on the fixed base, arranging a panel fixed seat in each first groove, arranging the solar panel on the panel fixed seat, arranging the panel fixed seat in each first groove through the panel fixed seat, achieving the aim of installing and fixing the panel fixed seat, further fixing the panel fixed seat through the actions of a first locking block and a second locking block, achieving the aim of installing and fixing the panel fixed seat, installing and fixing the panel fixed seat through the installation seat, and further controlling the first locking block and a second locking block through the rotation of a first rotating rod and a second rotating rod The action of locking piece to convenience that can be further installs fixedly to the panel fixing base.
The invention is realized by the following technical scheme:
the utility model provides a solar energy road surface quick replacement solar cell panel equipment, including the road bed, be provided with the unable adjustment base of corresponding connection on the road bed, the last a plurality of first recesses that are provided with of unable adjustment base, be provided with a panel fixing base in the first recess respectively, be provided with a solar cell panel on the panel fixing base respectively, the side of panel fixing base is provided with a gliding first locking piece respectively, be provided with in the first recess respectively one with the corresponding joint groove of first locking piece, be provided with on the panel fixing base with the corresponding second pivot of first locking piece, the one end of second pivot is provided with an extrusion piece respectively, the sliding control of extrusion piece the slip of first locking piece, the rotation control of second pivot the slip of extrusion piece. A fixing base is paved on the roadbed, a solar cell panel can be arranged on the cell panel fixing base, so that the cell panel can be arranged on the cell panel fixing base, a first sliding locking block can be arranged in the cell panel fixing base, and the cell panel fixing base can be further fixed, so that the purpose of fixing the cell panel fixing base can be achieved.
The other end of the second rotating shaft is respectively provided with a first rotating head, the central position of the first groove is respectively provided with a fixed shaft connected with the fixed base, the fixed shaft is respectively provided with a positioning head, the positioning head is provided with a plurality of positioning chutes, the bottom of the battery panel fixed seat is provided with a second chute corresponding to the positioning head, the second chute is internally provided with a plurality of fixed rods connected with the battery panel fixed seat, the fixed rods are respectively correspondingly clamped with the positioning chutes, the positioning head is respectively provided with a second locking block sliding in the positioning chutes, the second locking blocks are respectively correspondingly clamped with the fixed rods, the battery panel fixed seat is respectively internally provided with a rotating fourth rotating shaft, and the fourth rotating shaft is respectively provided with a sliding first threaded shaft, the first threaded shaft is provided with an extrusion head respectively, the extrusion heads extrude the second locking block to swing respectively, the rotation of the fourth rotating shaft drives the sliding of the first threaded shaft, and the rotation of the first rotating head drives the fourth rotating shaft to rotate. Can pass through the action of second locking piece can be further right the dead lever compresses tightly to can be further right the panel mount pad is fixed, thereby guarantees stability, thereby improvement that can be further to the fixed efficiency of installation of panel fixing base, thereby has avoided the problem that the vehicle that leads to because of the installation quality is low traveles and is stranded.
Still including a mount pad, the four corners of mount pad is provided with a gliding first slide-bar respectively, be provided with a pivoted rotation gyro wheel on the first slide-bar respectively, still be provided with on the mount pad respectively one with the corresponding control lever of first commentaries on classics head, the rotation of control lever drives first commentaries on classics head rotates, be provided with a control on the mount pad the second bull stick that first slide-bar goes up and down in step, be provided with a drive on the mount pad the synchronous pivoted first bull stick of control lever. Can pass through the further convenience of mount pad is installed fixedly to the panel fixing base to the trouble that the artifical panel fixing base of installation caused is avoided utilizing by can step forward, the efficiency of the installation dismantlement of improvement to the panel fixing base that can step forward, the installation is dismantled in convenient maintenance.
Furthermore, the solar cell panel fixing seat is provided with a glass plate for sealing the solar cell panel, the first groove and the cell panel fixing seat are respectively arranged in a square shape, four side surfaces of the cell panel fixing seat respectively comprise a third sliding groove arranged in the cell panel fixing seat, the first locking block is respectively provided with a pressure pushing plate sliding in the third sliding groove, the third sliding groove is respectively internally provided with a first spring for elastically pressing the pressure pushing plate, the cell panel fixing seat is respectively provided with a first sliding groove corresponding to the third sliding groove, one end of the first locking block respectively slides in the first sliding groove, the extrusion block and the first sliding groove are respectively arranged in a square shape, the extrusion block is respectively provided with an extrusion groove arranged in an inclined shape, and the extrusion groove respectively corresponds to the first locking block, the extrusion block is provided with a third threaded hole respectively, the second rotating shaft is provided with threads which are correspondingly meshed and connected with the third threaded holes respectively, and the other end of the first locking block is correspondingly clamped with the clamping groove.
Furthermore, a third rotating groove for supporting the fourth rotating shaft to rotate is respectively arranged in the battery board fixing seat, a first threaded hole is respectively arranged on the fourth rotating shaft, the first threaded shaft is respectively correspondingly engaged and connected with the first threaded hole, a first sliding hole correspondingly communicated with the third rotating groove is respectively arranged in the battery board fixing seat, a first sliding block sliding in the first sliding hole is respectively arranged on the first threaded shaft, the first sliding block and the first sliding hole are respectively arranged in a square shape, the extrusion head is arranged in a conical shape, a fourth sliding groove is respectively arranged on the positioning head, four positioning sliding grooves are respectively arranged, the positioning sliding grooves are respectively correspondingly communicated with the fourth sliding grooves, and a fifth rotating shaft connected to the positioning head is respectively arranged in the fourth sliding groove, the second locking block is arranged in a conical shape and rotates on the fifth rotating shaft respectively, the extrusion head slides in the fourth sliding groove, the fifth rotating shaft is sleeved with a second spring, and the second spring drives the second locking block to reset.
Furthermore, a first rotating hole for supporting the second rotating shaft to rotate is arranged on the battery board fixing seat, a second rotating groove correspondingly communicated with the first rotating hole is arranged on the battery board fixing seat, one of the first rotating heads is provided with a first rotating wheel which rotates in the second rotating groove, a third rotating shaft which rotates is arranged in the battery board fixing seat, one end of the third rotating shaft is provided with a first gear, the first rotating wheel is provided with a tooth socket correspondingly engaged and connected with the first gear, the battery panel fixing seat is internally provided with a sixth rotating shaft which rotates, the other end of the third rotating shaft and one end of the sixth rotating shaft are respectively provided with a first bevel gear which is correspondingly engaged and connected, the other end of the sixth rotating shaft is provided with a third bevel gear, and the fourth rotating shaft is provided with a second bevel gear correspondingly meshed with the third bevel gear.
Furthermore, the mounting base is respectively provided with a fifth chute corresponding to the first sliding shaft, the fifth chute and the first sliding shaft are respectively arranged in a square shape, the first sliding shaft is respectively connected with a second threaded shaft sliding in the mounting base, the mounting base is respectively provided with a fourth rotary groove corresponding to the second threaded shaft, the fourth rotary groove is respectively provided with a rotating first chain wheel, the first chain wheel is respectively provided with a second threaded hole correspondingly engaged and connected with the second threaded shaft, the four first chain wheels are correspondingly connected through a first chain, the second rotary rod is provided with a third chain wheel, and the third chain wheel is correspondingly engaged and connected with the first chain;
the end parts of the first sliding shafts are respectively provided with a second groove, the second grooves are respectively internally provided with a first rotating shaft connected to the first sliding shafts, and the rotating rollers respectively rotate on the first rotating shafts.
Further, be provided with one in the mount pad respectively with the corresponding fifth turn trough of control lever, the one end of control lever is provided with one respectively the second sprocket of fifth turn trough internal rotation, four connect through a second chain is corresponding between the second sprocket respectively, be provided with a fourth sprocket on the first turn rod, the fourth sprocket with the corresponding meshing of second chain is connected, first overhead first joint groove that is the octagon setting that is provided with respectively, the other end of control lever is the octagon setting respectively, and respectively with the corresponding octagon setting that is in first joint groove, be provided with one on the mount pad respectively and support control lever pivoted second slide opening.
Furthermore, a plug connected to the fixing base is arranged in each first groove, and a slot corresponding to the plug is arranged on each battery panel fixing seat.
Compared with the prior art, the invention has the beneficial effects that: the solar cell panel can be arranged on the cell panel mounting seat, so that a cell panel fixing seat can be fixedly mounted in the first groove, the solar cell panel can be fixedly mounted, the cell panel mounting seat can be further fixedly supported by sliding of the first locking block, the cell panel fixing seat can be fixed on the fixing base, the problem of low mounting quality caused by manual mounting of the solar cell panel can be further solved, and normal running of a vehicle can be further guaranteed;
the side surface of the battery panel fixing seat is provided with the second sliding locking block, so that the battery panel fixing seat can be further supported and fixed through sliding of the second locking block, the mounting quality of the battery panel fixing seat can be further ensured, the problem that the battery panel fixing seat shakes due to running of a vehicle is avoided, and normal running of the vehicle can be further ensured;
can pass through set up first bull stick of pivoted and second bull stick on the mount pad, thereby can control the lift of mount pad, and can further control the rotation of control lever, thereby can further pass through the rotation of control lever drives the rotation of first bull head, thereby can be further right the slip of first locking piece and second locking piece is controlled, thereby can further convenience dismantle the installation and the maintenance of panel fixing base, thereby avoided utilizing the artifical problem that the installation effectiveness that leads to of dismantling the installation panel fixing base is low, thereby further improvement installation dismantlement efficiency.
Drawings
The invention is further described below with reference to the accompanying drawings.
Fig. 1 is a schematic view of an overall structure of a device for rapidly replacing a solar panel on a solar road according to an embodiment of the present invention.
Fig. 2 is a schematic view of an overall structure of a battery plate fixing seat according to an embodiment of the present invention.
Fig. 3 is a schematic view of a mounting structure of a battery panel fixing seat according to an embodiment of the present invention.
Fig. 4 is a schematic view of the overall structure of the positioning head according to the embodiment of the present invention.
FIG. 5 is a top view of the positioning head according to the embodiment of the present invention.
Fig. 6 is a schematic view of the overall structure of the mounting base according to the embodiment of the invention.
Fig. 7 is a top view of the mounting base according to the embodiment of the present invention.
FIG. 8 is a top view of the fixing base according to the embodiment of the present invention.
In the figure: 1 roadbed, 2 fixed base, 3 first groove, 4 cell panel fixed base, 5 glass plate, 6 solar cell panel, 7 mounting base, 8 first sliding shaft, 9 second groove, 10 first rotating shaft, 11 rotating roller, 12 control rod, 13 second rotating shaft, 14 first locking block, 15 extrusion block, 16 first chute, 17 first rotating hole, 18 second rotating groove, 19 first rotating head, 20 first rotating wheel, 21 first clamping groove, 22 first gear, 23 third rotating shaft, 24 first bevel gear, 25 second chute, 26 fixed shaft, 27 positioning head, 28 fixed rod, 29 positioning chute, 30 third rotating groove, 31 fourth rotating shaft, 32 second bevel gear, 33 third bevel gear, 34 first threaded hole, 35 first threaded shaft, 36 first sliding hole, 37 first sliding block, 38 third chute, 39 top pressing plate, 40 first spring, 41 clamping groove, 42 extrusion groove, 43 slot, 44 plug socket, 45 extrusion head, 46 fourth runner, 47 fifth rotating shaft, 48 second locking block, 49 second spring, 50 fifth runner, 51 fourth runner, 52 second threaded shaft, 53 second threaded hole, 54 first chain, 55 first chain wheel, 56 second sliding hole, 57 fifth runner, 58 second chain wheel, 59 second chain wheel, 60 first rotating rod, 61 second rotating rod, 62 third chain wheel, 63 fourth chain wheel and 64 sixth rotating shaft.
Detailed Description
As shown in fig. 1 to 8, a device for rapidly replacing a solar cell panel on a solar road comprises a road bed 1, wherein a fixing base 2 is correspondingly connected to the road bed 1, a plurality of first grooves 3 are formed in the fixing base 2, a cell panel fixing seat 4 is respectively arranged in each first groove 3, a solar cell panel 6 is respectively arranged on each cell panel fixing seat 4, a sliding first locking block 14 is respectively arranged on the side surface of each cell panel fixing seat 4, a clamping groove 41 corresponding to each first locking block 14 is respectively arranged in each first groove 3, a second rotating shaft 13 corresponding to each first locking block 14 is arranged on each cell panel fixing seat 4, an extruding block 15 is respectively arranged at one end of each second rotating shaft 13, and the sliding of each extruding block 15 controls the sliding of each first locking block 14, the rotation of the second rotating shaft 13 controls the sliding of the squeezing block 15.
The solar cell panel fixing structure is characterized in that a fixing base 2 is arranged on a roadbed 1, the fixing base 2 is provided with a plurality of first grooves 3, the number of the first grooves 3 can be set according to the design requirement by splicing the base 2, a cell panel fixing seat 4 is arranged in each first groove 3, a solar cell panel 6 is arranged on each cell panel fixing seat 4, the solar cell panel 6 can be arranged on the cell panel fixing seat 4, the solar cell panel 6 can be further conveniently installed and maintained, a first sliding locking block 14 is arranged on each side surface of the cell panel fixing seat 4, and the cell panel fixing seat 4 is arranged in a square shape, the four first locking blocks 14 are respectively arranged and respectively slide in the battery panel fixing seat 4, the battery panel fixing seat 4 is respectively provided with a second rotating shaft 13 corresponding to the first locking blocks 14, the second rotating shaft 13 rotates in the battery panel fixing seat 4, the second rotating shaft 13 is respectively provided with an extrusion block 15, the rotation of the second rotating shaft 13 can drive the extrusion blocks 15 to slide, the extrusion blocks 15 can further drive the first locking blocks 14 to slide, the first grooves 3 are respectively provided with clamping grooves 41 corresponding to the first locking blocks 14, so that the first locking blocks 14 can further slide into the clamping grooves 41 in the sliding process of the first locking blocks 14, and the battery panel fixing seat 4 can be further fixed, thereby can reach the fixed purpose of panel fixing base 4 to can be in the installation the in-process of panel fixing base 4 can pass through the rotation of second pivot 13, can be further right panel fixing base 4 is installed fixedly.
The other end of the second rotating shaft 13 is respectively provided with a first rotating head 19, the central position of the first groove 3 is respectively provided with a fixing shaft 26 connected to the fixing base 2, the fixing shaft 26 is respectively provided with a positioning head 27, the positioning head 27 is respectively provided with a plurality of positioning chutes 29, the bottom of the battery panel fixing seat 4 is provided with a second chute 25 corresponding to the positioning head 27, the second chute 25 comprises a plurality of fixing rods 28 connected to the battery panel fixing seat 4, the fixing rods 28 are respectively correspondingly clamped with the positioning chutes 29, the positioning head 27 is respectively provided with a second locking block 48 sliding in the positioning chutes 29, the second locking blocks 48 are respectively correspondingly clamped with the fixing rods 28, and the battery panel fixing seat 2 is respectively provided with a rotating fourth rotating shaft 31, be provided with a gliding first screw spindle 35 on the fourth pivot 31 respectively, be provided with an extrusion head 45 on the first screw spindle 35 respectively, extrusion head 45 extrudes respectively the swing of second locking piece 48, the rotation of fourth pivot 31 drives the slip of first screw spindle 35, the rotation of first pivot 19 drives fourth pivot 31 rotates.
A first rotating head 19 is respectively arranged at the other end of the second rotating shaft 13, so that the second rotating shaft 13 can be further driven to rotate by the rotation of the first rotating head 19, and the installation of the battery panel fixing seat 4 can be further controlled, a fixed shaft 26 is respectively arranged at the central position of the first groove 3, the fixed shafts 26 are respectively connected to the fixing bases 2, a positioning head 27 is respectively arranged on each fixed shaft 26, a plurality of positioning sliding grooves 29 are respectively arranged on each positioning head 27, four positioning sliding grooves 29 are respectively arranged, a second sliding groove 25 corresponding to the positioning head 27 is respectively arranged at the bottom of the battery panel fixing seat 4, the positioning head 27 and the second sliding groove 25 are respectively arranged in a square shape, and a fixing rod 28 connected to the battery panel fixing seat 4 is arranged in the second sliding groove 25, the number of the fixing rods 28 corresponds to the number of the positioning chutes 29, and the positions of the fixing rods correspond to each other, so that the fixing rods 28 can be further clamped in the positioning chutes 29 in the process of installing the battery panel fixing seat 4, the positioning heads 27 are respectively provided with second locking blocks 48 sliding in the positioning chutes 29, the second locking blocks 48 can respectively slide in the positioning chutes 29, the second locking blocks 48 can further clamp the fixing rods 28 in the swinging process, so that the fixing rods 28 can be further clamped by the second locking blocks 48, the battery panel fixing seat 4 can be further fixed, the fixing stability of the battery panel fixing seat 4 is ensured, and a rotating fourth rotating shaft 31 is further arranged in the battery panel fixing seat 4, the fourth rotating shaft 31 is respectively provided with a sliding first threaded shaft 35, the first threaded shafts 35 are respectively provided with an extrusion head 45, the extrusion heads 45 are respectively arranged in a conical shape, so that the sliding of the extrusion heads 45 can be further driven through the sliding of the first threaded shafts 35, the second locking block 48 can be extruded through the sliding of the extrusion heads 45, the action of the second locking block 48 can be further driven, the rotation of the fourth rotating shaft 31 can be brought to the rotation of the first threaded shaft 35, so that the sliding of the extrusion heads 45 can be further driven, the first rotating head 19 can simultaneously drive the rotation of the fourth rotating shaft 31 and the rotation of the second rotating shaft 13 in the rotating process, and the synchronous action of the first locking block 14 and the second locking block 48 can be further controlled, thereby can pass through first locking piece 14 with second locking piece 48 can be further right panel fixing base 4 is fixed, thereby can further assurance arrive the stability of the installation of panel fixing base 4, thereby can guarantee the installation fixed quality of panel fixing base 4, thereby avoided because of the low unstable problem of panel fixing base 4 installation that leads to of installation quality, thereby can further assurance to the vehicle be in normal the going on panel fixing base 4.
Still including a mount pad 7, the four corners of mount pad 7 is provided with a gliding first smooth axle 8 respectively, be provided with a pivoted on the first smooth axle 8 respectively and rotate gyro wheel 11, still be provided with respectively on the mount pad 7 one with the corresponding control lever 12 of first bull stick 19, the rotation of control lever 12 drives first bull stick 19 rotates, be provided with a control on the mount pad 7 the second bull stick 61 that first smooth axle 8 goes up and down in step, be provided with a drive on the mount pad 7 the synchronous pivoted first bull stick 60 of control lever 12.
A sliding installation seat 7 is arranged on the battery panel fixing seat 4, a first sliding shaft 8 which can slide up and down is respectively arranged at four corners of the installation seat 7, the installation seat 7 is arranged in a square shape, a rotating roller 11 is respectively arranged on the first sliding shaft 4, so that the installation seat 7 can be further driven to slide by the rotation of the rotating roller 11, a rotating control rod is arranged on the installation seat 7, the number of the control rods 12 is the same as that of the first rotating heads 19, and the arrangement positions of the control rods are corresponding to that of the first rotating heads 19, the rotation of the control rods 12 can drive the first rotating heads 19 to rotate, a rotating second rotating rod 61 is arranged on the installation seat 7, so that the first sliding shaft 8 can be further driven to slide up and down by the rotation of the second rotating rod 61, therefore, the lifting of the mounting base 7 can be further controlled, the mounting base 7 is further provided with a rotating first rotating rod 60, so that the control rod 12 can be further driven to rotate through the rotation of the first rotating rod 60, when the mounting base 7 is lifted, the control rod 12 can be further correspondingly connected with the first rotating head 19, so that the first rotating head 19 can be further driven to rotate through the rotation of the control rod 12, so that the first locking block 14 and the second locking block 48 can be further driven to synchronously operate, the battery panel fixing base 4 can be further installed and fixed, the mounting base 7 can be used for rapidly detaching and maintaining the battery panel fixing base 4, and the problem of low installation efficiency caused by manual installation can be further avoided, and can further improvement to the maintenance efficiency of panel fixing base 4, avoid taking place the problem of traffic jam.
As shown in fig. 1 to 3, a glass plate 5 for sealing the solar cell panel 6 is disposed on the cell panel fixing seat 4, the first groove 3 and the cell panel fixing seat 4 are respectively disposed in a square shape, four side surfaces of the cell panel fixing seat 4 respectively include a third sliding groove 38 disposed in the cell panel fixing seat 4, the first locking block 14 is respectively provided with a pressing plate 39 sliding in the third sliding groove 38, the third sliding groove 38 is respectively provided with a first spring 40 for pressing the pressing plate 39, the cell panel fixing seat 4 is respectively provided with a first sliding groove 16 corresponding to the third sliding groove 38, one end of the first locking block 14 respectively slides in the first sliding groove 16, the pressing block 15 and the first sliding groove 16 are respectively disposed in a square shape, the pressing block 15 is respectively provided with a pressing groove 42 disposed in an inclined shape, the extrusion grooves 42 correspond to the first locking blocks 14 respectively, the extrusion blocks 15 are provided with third threaded holes 67 respectively, the second rotating shaft 13 is provided with threads which are correspondingly engaged and connected with the third threaded holes 67 respectively, and the other ends of the first locking blocks 14 are correspondingly clamped with the clamping grooves 41 respectively.
The solar panel fixing seat 4 is respectively provided with a glass plate 5, so that the solar panel 6 can be sealed through the glass plate 5, the glass plate 5 is utilized to protect the solar panel 6, so that damage to the solar panel 6 caused by rolling of a vehicle can be further avoided, the solar panel fixing seat 4 is respectively provided with four third sliding grooves 38, the third sliding grooves 38 are respectively arranged on the end surface of the solar panel fixing seat 4, the first locking blocks 14 are respectively provided with a top pressing plate 39, the top pressing plates 39 can respectively slide in the third sliding grooves 38, the third sliding grooves 38 are respectively provided with a first spring 40, so that the first locking blocks 14 can be further reset through the elastic pressing of the top pressing plates 39 through the first springs 40, a first sliding groove 16 corresponding to the third sliding groove 38 is respectively arranged in the battery panel fixing seat 4, one end of the first locking block 14 slides in the first sliding groove 16, the extrusion blocks 15 slide in the first sliding groove 16, the extrusion blocks 15 and the first sliding groove 16 are respectively arranged in a square shape, an extrusion groove 42 arranged in an inclined shape is respectively arranged on the extrusion blocks 15, so that the first locking block 14 can be further extruded through the extrusion groove 42 by the sliding of the extrusion blocks 15, the sliding of the first locking block 14 can be further driven, the purpose of controlling the sliding of the first locking block 14 can be achieved, a third threaded hole 67 is respectively arranged on the extrusion blocks 15, and threads correspondingly engaged and connected with the third threaded hole 67 are respectively arranged on the second rotating shaft 13, therefore, the extrusion block 15 can be further driven to slide through the rotation of the second rotating shaft 13, so that the sliding of the first locking block 14 can be further controlled, and after the first locking block 14 slides into the clamping groove 41, the battery panel fixing seat 4 can be further locked and fixed.
As shown in fig. 1, 3, 4 and 5, a third rotary slot 30 for supporting the rotation of the fourth rotary shaft 31 is respectively arranged in the battery plate fixing seat 4, a first threaded hole 34 is respectively arranged on the fourth rotary shaft 31, the first threaded shaft 35 is correspondingly engaged with the first threaded hole 34, a first sliding hole 36 correspondingly communicated with the third rotary slot 30 is respectively arranged in the battery plate fixing seat 4, a first sliding block 37 sliding in the first sliding hole 36 is respectively arranged on the first threaded shaft 35, the first sliding block 37 and the first sliding hole 36 are respectively arranged in a square shape, the extrusion head 45 is arranged in a conical shape, a fourth sliding slot 46 is respectively arranged on the positioning head 27, four positioning sliding slots 29 are respectively arranged, and the positioning sliding slots 29 are respectively correspondingly communicated with the fourth sliding slots 46, set up respectively in the fourth spout 46 and connect fifth pivot 47 on the locating head 27, second locking piece 48 is the toper setting respectively and rotates on the fifth pivot 47, extrusion head 45 is in slide in the fourth spout 46, the cover is equipped with a second spring 49 on the fifth pivot 47, second spring 49 drives second locking piece 48 resets.
A third rotary groove 30 is respectively arranged in the battery panel fixing seat 4, so that the fourth rotary shaft 31 can be supported through the third rotary groove 30, so that the normal rotation of the fourth rotary shaft 31 can be further ensured, a first threaded hole 34 is respectively arranged on the fourth rotary shaft 31, the first threaded shaft 35 is correspondingly meshed with the first threaded hole 34, so that the first threaded shaft 35 can be further driven to lift and slide through the rotation of the fourth rotary shaft 31, so that the extrusion head 45 can be further driven to lift and fall, a first sliding hole 36 correspondingly communicated with the third rotary groove 30 is respectively arranged in the battery panel fixing seat 4, a first sliding block 37 is arranged on the first threaded shaft 35, and the first sliding block 37 can slide in the first sliding hole 36, the first sliding block 37 and the first sliding hole 36 are respectively arranged in a square shape, so that the first threaded shaft 35 can be supported by the first sliding block 37, and normal sliding of the first threaded shaft 35 can be further ensured;
the positioning heads 27 are respectively provided with a fourth sliding chute 46, the fourth sliding chutes 46 are arranged in a cylindrical shape, the extrusion heads 45 are arranged in a conical shape, the extrusion heads 45 can slide in the fourth sliding chutes 46, the positioning sliding chutes 29 are four, the positioning sliding chutes 29 are respectively communicated with the fourth sliding chutes 46 correspondingly, the fourth sliding chutes 46 are respectively provided with a fifth rotating shaft 47, the second locking blocks 48 respectively rotate on the fifth rotating shafts 47, the second locking blocks 48 are respectively arranged in a conical shape, so that the second locking blocks 48 can be further extruded by the sliding of the extrusion heads 45, the second locking blocks 48 can be further driven to swing, the fixing rods 28 can be extruded by the second locking blocks 48, and the purpose of fixing the battery panel fixing seats 4 can be further achieved, a second spring 49 is respectively sleeved on the fifth rotating shaft 47, and one end of the second spring 49 is connected to the second locking block 48, so that the second locking block 48 can be further driven to reset by the second spring 49.
As shown in fig. 3, a first rotating hole 17 for supporting the second rotating shaft 13 to rotate is formed in the battery panel fixing seat 4, a second rotating groove 18 correspondingly communicated with the first rotating hole 17 is formed in the battery panel fixing seat 4, a first rotating wheel 20 for rotating in the second rotating groove 18 is formed in one of the first rotating heads 19, a third rotating shaft 23 for rotating is formed in the battery panel fixing seat 4, a first gear 22 is arranged at one end of the third rotating shaft 23, a tooth groove correspondingly engaged and connected with the first gear 22 is formed in the first rotating wheel 20, a sixth rotating shaft 64 is formed in the battery panel fixing seat 4, a first bevel gear 24 correspondingly engaged and connected is respectively arranged at the other end of the third rotating shaft 23 and one end of the sixth rotating shaft 64, and a third bevel gear 33 is arranged at the other end of the sixth rotating shaft 64, the fourth rotating shaft 31 is provided with a second bevel gear 32 which is correspondingly engaged with the third bevel gear 33.
The battery board fixing seat 4 is provided with a first rotating hole 17 for supporting the second rotating shaft 13 to rotate, so that the second rotating shaft 13 can be supported through the first rotating hole 17, so that the normal rotation of the second rotating shaft 13 can be further ensured, the battery board fixing seat 4 is further provided with a second rotating groove 18, the second rotating groove 18 is correspondingly communicated with the first rotating hole 17, the first rotating head 19 is provided with a first rotating wheel 20, the first rotating wheel 20 can rotate in the second rotating groove 18, the battery board fixing seat 4 is further provided with a rotating third rotating shaft 23, the third rotating shaft 23 is provided with a first gear 22, the first rotating wheel 20 is provided with a tooth groove correspondingly engaged and connected with the first gear 22, so that the first gear 22 can be further driven to rotate through the rotation of the first rotating head 19, therefore, the third rotating shaft 23 can be further driven to rotate, a rotating sixth rotating shaft 64 is arranged in the battery panel fixing seat 4, so that the second rotating shaft 31 can be further driven to rotate through the corresponding meshing connection of the two first bevel gears 24, the sixth rotating shaft 64 can be further driven to rotate, the second bevel gear 32 can be correspondingly meshed with the third bevel gear 33, the first threaded shaft 35 can be further controlled to lift and slide, and the extrusion head 45 can be further controlled to slide through the rotation of the first rotating head 19.
As shown in fig. 1, 6 and 7, the mounting seats 7 are respectively provided with a fifth sliding chute 50 corresponding to the first sliding shaft 8, the fifth sliding chute 50 and the first sliding shaft 8 are respectively arranged in a square shape, the first sliding shaft 8 is respectively connected with a second threaded shaft 52 which slides in the mounting seat 7, a fourth rotary groove 51 corresponding to the second threaded shaft 52 is respectively arranged in the mounting seat 7, a rotating first chain wheel 55 is respectively arranged in the fourth rotary slot 51, a second threaded hole 53 correspondingly engaged and connected with the second threaded shaft 52 is respectively arranged on the first chain wheel 55, four first chain wheels 55 are correspondingly connected through a first chain 54, the second rotating rod 61 is provided with a third chain wheel 62, and the third chain wheel 62 is correspondingly meshed with the first chain 54.
The four corners of the mounting seat 7 are respectively provided with a fifth sliding chute 50, the fifth sliding chute 50 and the first sliding shaft 8 are respectively arranged in a square shape, the rotation of the first sliding shaft 8 can be further limited by the fifth sliding chute 50, the first sliding shaft 8 is respectively provided with a second threaded shaft 52, the second threaded shaft 52 can slide in a sliding hole arranged in the mounting seat 7, the mounting seat 7 is respectively provided with a fourth rotating groove 51 corresponding to the second threaded shaft 52, the first chain wheel 55 rotates in the fourth rotating groove 51, so that the first chain wheel 55 can be supported by the fourth rotating groove 51, the normal rotation of the first chain wheel 55 can be further ensured, the first chain wheel 55 is respectively provided with a second threaded hole 53, and the second threaded shaft 52 is respectively correspondingly engaged with the second threaded hole 53, therefore, the second threaded shaft 52 can be driven to move up and down and slide by the rotation of the first chain wheel 55, the first sliding shaft 8 can be further driven to slide, the mounting base 7 can be further controlled to move up and down, the four first chain wheels 55 can be correspondingly connected by the first chain 54, the four first chain wheels 55 can be further driven to synchronously rotate by the rotation of the first chain 54, the third chain wheel 62 can be further driven to rotate by the rotation of the second rotating rod 61, and the first chain wheel 54 can be further driven to rotate.
The end parts of the first sliding shafts 8 are respectively provided with a second groove 9, the second grooves 9 are respectively provided with a first rotating shaft 10 connected to the first sliding shafts 8, and the rotating rollers 11 respectively rotate on the first rotating shafts 10.
Therefore, the rotating roller 11 can rotate on the first rotating shaft 10, so that the first sliding shaft 8 can be further driven to slide, and the position of the mounting seat 7 can be further adjusted.
As shown in fig. 1, fig. 3, fig. 6, and fig. 7, a fifth rotating groove 57 corresponding to the control rod 12 is respectively disposed in the mounting seat 7, one end of the control rod 12 is respectively provided with a second sprocket 58 rotating in the fifth rotating groove 57, four second sprockets 58 are respectively correspondingly connected through a second chain 59, the first rotating rod 60 is provided with a fourth sprocket 63, the fourth sprocket 63 is correspondingly engaged with the second chain 59, the first rotating head 19 is respectively provided with a first engaging groove 21 disposed in an octagonal manner, the other end of the control rod 12 is respectively disposed in an octagonal manner, and is respectively disposed in an octagonal manner corresponding to the first engaging groove 21, and the mounting seat 7 is respectively provided with a second sliding hole 56 supporting the control rod 12 to rotate.
One end of the control rod 12 is connected with a second chain wheel 58, a fifth rotating groove 57 for supporting the second chain wheel 58 to rotate is arranged in the mounting seat 7, so that the second chain wheel 58 can be supported through the fifth rotating groove 57, and normal rotation of the second chain wheel 58 can be further ensured, four control rods 12 are arranged, the four second chain wheels 58 are correspondingly connected through a second chain 59, so that the four control rods 12 can be further synchronously rotated, the first rotating rod 60 is provided with a fourth chain wheel 63, so that the first rotating rod 60 can further drive the fourth chain wheel 63 to rotate, so that the second chain 59 can be further driven to rotate, and the four control rods 12 can be further driven to synchronously rotate, after the control rod 12 is lifted into the first clamping groove 21, the other end of the control rod 12 and the first clamping groove 21 are respectively arranged in an octagonal shape, so that the four first rotating heads 19 can be further driven to rotate synchronously, the synchronous action of the first locking block 14 and the second locking block 48 can be further controlled, the control rod 12 can be supported through the second sliding hole 56, and the normal rotation of the control rod 12 can be further ensured.
As shown in fig. 1 and 3, a plug 44 connected to the fixing base 2 is respectively disposed in the first groove 3, and a slot 43 corresponding to the plug 44 is respectively disposed on the battery panel fixing base 4.
The corresponding connection of the plug 44 and the slot 43 enables further transmission of the power generated by the solar panel 6.
The above-mentioned embodiments are only for convenience of description, and are not intended to limit the present invention in any way, and those skilled in the art will understand that the technical features of the present invention can be modified or changed by other equivalent embodiments without departing from the scope of the present invention.