CN108422879B - Charging pile adopting off-grid photovoltaic power generation based on wireless communication technology - Google Patents

Abstract

The invention discloses an off-grid photovoltaic power generation-based charging pile, which structurally comprises a solar panel, a digital display screen, a mode adjusting button, an on-off switch, a charging pile body, a mobile device, a charging pile pipeline, a charging connector, a storage hole and a ventilation hole, wherein the solar panel is connected above the charging pile body in a gluing mode, the ventilation hole is nested above the right side of the charging pile body, the digital display screen is welded in the center of the surface of the charging pile body, and the mobile device is provided with a main gear device, a transmission device, an outer shell, a wheel device, a telescopic device, a linkage device, a fixing device, a pulley device and a lifting device, and has the advantages that: through the mobile device that is equipped with, can press the inside wheel after the button and can descend automatically and supply people to use when people need remove charging pile, also can go it on rising when not needing the wheel, improved charging pile's availability factor and multifunctionality.

Description

Charging pile adopting off-grid photovoltaic power generation based on wireless communication technology

Technical Field

The invention discloses a charging pile based on a wireless communication technology and adopting off-grid photovoltaic power generation, and belongs to the field of charging piles.

Background

The function of the charging pile is similar to that of an oiling machine in a gas station, and the charging pile can be fixed on the ground or on the wall, installed in public buildings, markets, public parking lots and the like and residential area parking lots or charging stations, and can charge various types of electric vehicles according to different voltage levels.

But the stake of charging of prior art equipment can't remove when charging for the vehicle, can increase area when fixing same position, has caused the puzzlement when people go out and has filled the trouble that the during operation absorbed the sunlight of stake.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a charging pile based on a wireless communication technology and adopting off-grid photovoltaic power generation, so as to solve the problems that the charging pile of the prior art cannot move when charging a vehicle, and occupies a large area when being fixed at the same position, which causes troubles when people go in and out and troubles when the charging pile absorbs sunlight when working.

In order to achieve the purpose, the invention is realized by the following technical scheme: a charging pile based on wireless communication technology and adopting off-grid photovoltaic power generation structurally comprises a solar panel, a digital display screen, a mode adjusting button, an on-off switch, a charging pile body, a mobile device, a charging pile pipeline, a charging connector, a storage hole and a ventilation hole, wherein the solar panel is connected above the charging pile body in a gluing mode, the ventilation hole is nested above the right side of the charging pile body, the digital display screen is welded at the center of the surface of the charging pile body, the mode adjusting button is embedded at the right side of the digital display screen, the on-off switch is arranged below the mode adjusting button and is connected with the charging pile body in a gluing mode, the storage hole is fixed at the center of the right side of the charging pile body through a screw, the charging connector is connected inside the storage hole in a threaded mode, the charging pile pipeline is connected inside the charging connector in a gluing mode, the moving device is provided with a main gear device, a transmission device, an outer shell, a wheel device, a telescopic device, a linkage device, a fixing device, a pulley device and a lifting device, wherein the main gear device is fixed at the upper left inside the outer shell through screws, the lifting device is arranged at the right side of the main gear device and is parallel to the main gear device, the lifting device is in transmission connection with the main gear device, the transmission device is fixed at the lower left inside the outer shell through screws, the telescopic device is welded below the linkage device, the wheel device is fixed below the telescopic device through screws, the pulley device is mechanically connected at the left side of the linkage device, the linkage device is fixed below the fixing device through screws, and the fixing device is fixed at the upper right inside the outer shell through rivets.

Further, master gear device is equipped with first motor, master gear, mechanical main shaft, first transmission area, motor start key, transmission axle, and first motor passes through the upper left side of screw fixation in the shell body inside, transmission axle mechanical connection is in the inside of first motor, the center at master gear inside is connected to mechanical main shaft machinery, master gear threaded connection is at the end of transmission axle, the right side at first motor is inlayed to the motor start key, first transmission area encircles the surface of connecting at the master gear.

Furthermore, the transmission device is provided with a second transmission rod, a first transmission rod, a transmission device starting key, a third transmission rod, a rotating disc, a second motor, a fourth transmission rod, a fixed connecting column, a fifth transmission rod, a supporting plate and a metal iron block, the supporting plate is fixed at the lower left corner inside the shell through a rivet, the second motor is fixed at the center above the supporting plate through a screw, the transmission device starting key is electrically connected with the second motor through a lead, the rotating disc is mechanically connected above the second motor, the first transmission rod is in threaded connection with the center inside the rotating disc, the second transmission rod is connected at the tail end of the first transmission rod, the third transmission rod is fixed at the tail end of the second transmission rod through a screw, the fourth transmission rod is fixed at the tail end of the third transmission rod through a rivet, and the fifth transmission rod is connected at the tail end of the third transmission rod, the fixed connecting column is welded on the right side above the supporting plate, and the metal iron block is welded below the fourth transmission rod.

Further, the wheel device is provided with a rotary bearing, a first wheel, a second wheel, a stress plate, a third wheel and a sliding plate, the first wheel is connected below the first fixed connection block through a screw rod, the rotary bearing is mechanically connected inside the first wheel, the second wheel is fixed at the center of the lower portion of the outer shell through a rivet, the third wheel is connected below the second fixed connection plate through a rivet, the sliding plate is embedded on the right side of the inner portion of the outer shell, and the stress plate is embedded below the outer shell.

Further, the telescoping device is equipped with first fixed connection piece, second fixed connection board, flexible piece, telescopic link, first fixed connection piece passes through the screw fixation in the below of backup pad, second fixed connection board passes through fix with rivet in the below of support panel, flexible piece mechanical connection is in the inside of second fixed connection board, telescopic link mechanical connection is in the inside of flexible piece.

Furthermore, the linkage device is provided with a connecting plate, a first linkage rod, a contact rod, a second linkage rod, an auxiliary disc, a third linkage rod, a connecting groove, a fourth linkage rod, a supporting panel and a fifth linkage rod, the connecting plate is fixed below the main fixed connecting column through a rivet, the first connecting rod is fixed on the surface of the connecting plate through a screw, the contact rod is connected with the left side of the connecting plate in a threaded manner, the second linkage rod nail is connected with the tail end of the first linkage rod, the auxiliary disc is mechanically connected with the tail end of a third linkage rod, the third linkage rod is fixed above the connecting groove through a rivet, the fourth interlocking rod is mechanically connected to the right side of the connecting groove, the fifth interlocking rod is connected to the tail end of the fourth interlocking rod by a nail, the support panel is welded on the right side inside the outer shell, and the connecting groove is fixed in the center above the support panel through screws.

Further, fixing device is equipped with first fixed column, second fixed column, main fixed connection post, welding board, buffer spring, main fixed connection post welding is in the inside upper right corner of shell body, second fixed column threaded connection is in the left side of second fixed column, first fixed column welding is in the inside top of shell body, the welding board is installed in main fixed connection post's below and adopts the welding with the shell body, buffer spring mechanical connection is in the left side of welding the board.

Furthermore, the pulley device is provided with a first rotating gear, a mechanical rotating shaft, a rotating gear, a rotating disk, a second transmission belt, a rotor, a third motor, a second rotating gear, a current connecting wire and a pulley device starting key, the first rotating gear is mechanically connected above the second transmission belt, the second rotating gear is mechanically connected below the second transmission belt, the second transmission belt is connected to the outer surfaces of the first rotating gear and the second rotating gear in a surrounding manner, the mechanical rotating shaft is connected to the right side of the first rotating gear in a threaded manner, the rotary gear is connected below the mechanical rotating shaft in a transmission way, the rotating disk is connected behind the rotary gear in a threaded way, rotor mechanical connection is in the left side of third motor, the third motor passes through the left side of screw fixation in the support panel top, the inside at the third motor is glued to the electric current connecting wire.

Further, elevating gear is equipped with dead lever, auxiliary gear, chain, cylinder, third transmission band, the dead lever passes through the top of screw fixation in the shell body inside, auxiliary gear mechanical connection is at the end of dead lever, the chain encircles the surface of connecting at auxiliary gear, the cylinder passes through chain and auxiliary gear mechanical connection, the surface at the cylinder is connected in encircleing to the third transmission band.

Further, the inside of swivel bearing is equipped with the lubricant, prevents that the part of inside rubs for a long time and causes the damage.

Further, the outer part of the current connecting lead is made of an insulator material, so that people can be prevented from being injured by mistake in the process of electric leakage.

Advantageous effects

When the charging pile is used, the solar panel can absorb sunlight and convert the sunlight into electric energy to be used by equipment, the electric energy vehicle is charged through the charging connector, the output frequency of current can be changed by the adjusting mode adjusting button, when the charging pile body is moved, the transmission device starting key is pressed, the second motor in the charging pile body is started to rotate and drive the first transmission rod to rotate, the first transmission rod drives the second transmission rod, the second transmission rod drives the third transmission rod, the third transmission rod drives the fourth transmission rod and the fifth transmission rod to move, the metal iron block is pressed downwards, the wheel device is pressed downwards through back and forth pressing, the first wheel, the second wheel and the third wheel of the wheel device are pressed downwards to be in contact with each other through the pressure above, and are fixed through the first fixed connecting block-and the second fixed connecting plate-above, when the wheel device is lifted up, a pulley start key is pressed, an internal third motor is started to work, a rotor rotates to drive a second rotating gear, the second rotating gear drives an upper first rotating gear to rotate through a second transmission belt, then the first rotating gear drives a mechanical rotating shaft to rotate, so that a lower rotating gear starts to rotate to drive a rotating disc, the rotating disc rotates to drive an auxiliary disc, the auxiliary disc drives a third linkage rod to move, the third linkage rod drives a fourth linkage rod, the fourth linkage rod drives a fifth linkage rod to link, the fifth linkage rod drives a second linkage rod, the second linkage rod drives a first linkage rod, and the first linkage rod drives a connecting plate to touch the motor start key of the first motor, make first motor start work drive mechanical main shaft through the transmission axle, mechanical main shaft's rotation can drive the master gear rotatory, the master gear drives auxiliary gear through first transmission band and rotates, auxiliary gear's rotation drives the cylinder rotation through the chain again, the rotation of cylinder can be with the pulling of third transmission band, the third transmission band is connected with the buckle on the wheel device, make the wheel device can be pulled up, accomplish the step that rises, the mobile device who is equipped with, the availability factor and the multifunctionality that fill electric pile can be improved

According to the charging pile based on the wireless communication technology and adopting off-grid photovoltaic power generation, through the arranged mobile device, the wheels in the charging pile can automatically descend for people to use after a button is pressed when people need to move the charging pile, and can ascend when the wheels are not needed, so that the use efficiency and the versatility of the charging pile are improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an off-grid photovoltaic power generation-based charging pile according to the present invention.

Fig. 2 is a schematic structural diagram of a mobile device according to the present invention.

Fig. 3 is a detailed structural diagram of the mobile device of the present invention.

Fig. 4 is a schematic diagram of the mobile device according to the present invention.

In the figure: solar panel-1, digital display screen-2, mode adjusting button-3, switch key-4 charging pile body-5, moving device-6, charging pile pipeline-7, charging connector-8, storage hole-9, vent hole-10, main gear device-61, transmission device-62, outer shell-63, wheel device-64, telescopic device-65, linkage device-66, fixing device-67, pulley device-68, lifting device-69, first motor-611, main gear-612, mechanical spindle-613, first transmission belt-614, motor starting key-615, second transmission rod-621, first transmission rod-622, transmission starting key-623, third transmission rod-624, A rotating disk-625, a second motor-626, a fourth transmission rod-627, a fixed connection column-628, a fifth transmission rod-629, a support plate-6210, a metal iron block-6211, a rotating bearing-641, a first wheel-642, a second wheel-643, a stress plate-644, a third wheel-645, a sliding plate-646, a first fixed connection block-651, a second fixed connection plate-652, a telescopic block-653, a telescopic rod-654, a connection plate-661, a first linkage rod-662, a contact rod-663, a second linkage rod-664, an auxiliary disk-665, a third linkage rod-666, a connection groove-667, a fourth linkage rod-668, a support panel-669, a fifth linkage rod-6610, a first fixed column-671, a first fixed column-668, a support plate-629, a support plate-652, a second fixed connection plate-653, The device comprises a second fixed column-672, a main fixed connecting column-673, a welding plate-674, a buffer spring-675, a first rotating gear-681, a mechanical rotating shaft-682, a rotating gear-683, a rotating disc-684, a second transmission belt-685, a rotor-686, a third motor-687, a second rotating gear-688, a current connecting wire-689, a pulley device starting key-6810, a fixed rod-691, an auxiliary gear-692, a chain-693, a roller-694 and a third transmission belt-695.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 4, the present invention provides a charging pile using off-grid photovoltaic power generation based on wireless communication technology: the solar charging pile comprises a solar panel 1, a digital display screen 2, a mode adjusting button 3, an on-off switch 4, a charging pile body 5, a mobile device 6, a charging pile pipeline 7, a charging connector 8, a storage hole 9 and a ventilation hole 10, wherein the solar panel 1 is connected above the charging pile body 5 in an adhesive manner, the ventilation hole 10 is nested above the right side of the charging pile body 5, the digital display screen 2 is welded at the center of the surface of the charging pile body 5, the mode adjusting button 3 is nested at the right side of the digital display screen 2, the on-off switch 4 is arranged below the mode adjusting button 3 and is connected with the charging pile body 5 in an adhesive manner, the storage hole 9 is fixed at the center of the right side of the charging pile body 5 through a screw, the charging connector 8 is in a threaded manner inside the storage hole 9, and the charging pile, the moving device 6 is fixed below the charging pile body 5 through rivets, the moving device 6 is provided with a main gear device 61, a transmission device 62, an outer shell 63, a wheel device 64, a telescopic device 65, a linkage device 66, a fixing device 67, a pulley device 68 and a lifting device 69, the main gear device 61 is fixed at the upper left part inside the outer shell 63 through screws, the lifting device 69 is arranged at the right side of the main gear device 61 and is parallel to each other, the lifting device 69 is in transmission connection with the main gear device 61, the transmission device 62 is fixed at the lower left part inside the outer shell 63 through screws, the telescopic device 65 is welded below the linkage device 66, the wheel device 64 is fixed below the telescopic device 65 through screws, the pulley device 68 is mechanically connected at the left side of the linkage device 66, the linkage device 66 is fixed below the fixing device 67 through screws, the fixing device 67 is fixed at the upper right inside the outer shell 63 by a rivet, the main gear device 61 is provided with a first motor 611, a main gear 612, a mechanical main shaft 613, a first transmission belt 614, a motor start key 615 and a transmission shaft 616, the first motor 611 is fixed at the upper left inside the outer shell 63 by a screw, the transmission shaft 616 is mechanically connected inside the first motor 611, the mechanical main shaft 613 is mechanically connected at the center inside the main gear 612, the main gear 612 is screwed at the end of the transmission shaft 616, the motor start key 615 is embedded at the right side of the first motor 611, the first transmission belt 614 is connected around the outer surface of the main gear 612, the transmission device 62 is provided with a second transmission rod 621, a first transmission rod 622, a transmission device start key 623, a third transmission rod 624, a rotating disc 625, a second motor 626, a fourth transmission rod 627, a fixed connection column 628, A fifth driving rod 629, a supporting plate 6210 and a metal iron block 6211, wherein the supporting plate 6210 is fixed at the lower left corner inside the outer shell 63 by a rivet, the second motor 626 is fixed at the center above the supporting plate 6210 by a screw, the transmission device start key 623 is electrically connected with the second motor 626 by a lead, the rotating disc 625 is mechanically connected above the second motor 626, the first driving rod 622 is screwed at the center inside the rotating disc 625, the second driving rod 621 is nailed at the tail end of the first driving rod 622, the third driving rod 624 is fixed at the tail end of the second driving rod 621 by a screw, the fourth driving rod 627 is fixed at the tail end of the third driving rod 624 by a rivet, the fifth driving rod 629 is nailed at the tail end of the third driving rod 624, the fixed connection pole 628 is welded at the right side above the supporting plate 6210, the metal iron block 6211 is welded below the fourth driving rod 627, the wheel device 64 is provided with a rotary bearing 641, a first wheel 642, a second wheel 643, a force bearing 644, a third wheel 645 and a sliding plate 646, the first wheel 642 is connected below a first fixed connecting block 651 through a screw rod, the rotary bearing 641 is mechanically connected inside the first wheel 642, the second wheel 643 is fixed at the center below the outer shell 63 through a rivet, the third wheel 645 is connected below a second fixed connecting plate 652 through a nail, the sliding plate 646 is embedded at the right side inside the outer shell 63, the force bearing plate 644 is embedded below the outer shell 63, the telescopic device 65 is provided with a first fixed connecting block 651, a second fixed connecting plate 652, a telescopic block 653 and a telescopic rod 654, the first fixed connecting block 651 is fixed below a supporting plate 6210 through a screw, the second fixed connecting plate 652 is fixed below a supporting panel 669 through a rivet, the flexible block 653 is mechanically connected inside the second fixed connection plate 652, the flexible rod 654 is mechanically connected inside the flexible block 653, the linkage 66 is provided with a connection plate 661, a first linkage rod 662, a contact rod 663, a second linkage rod 664, an auxiliary disc 665, a third linkage rod 666, a connection groove 667, a fourth linkage rod 668, a support panel 669, a fifth linkage rod 6610, the connection plate 661 is fixed below the main fixed connection rod 673 by a rivet, the first linkage rod 662 is fixed on the surface of the connection plate 661 by a screw, the contact rod 663 is screwed on the left side of the connection plate 661, the second linkage rod 664 is nailed at the end of the first linkage rod 662, the auxiliary disc 665 is mechanically connected at the end of the third linkage rod 666, the third linkage rod 666 is fixed above the connection groove 667 by a rivet, the fourth linkage rod 668 is mechanically connected on the right side of the connection groove 667, the fifth linkage 6610 is pinned to the end of the fourth linkage 668, the support panel 669 is welded to the right side of the inside of the outer case 63, the connection groove 667 is fixed to the center above the support panel 669 by screws, the fixing device 67 is provided with a first fixing column 671, a second fixing column 672, a main fixing connection column 673, a welding plate 674 and a buffer spring 675, the main fixing connection column 673 is welded to the upper right corner of the inside of the outer case 63, the second fixing column 672 is screwed to the left side of the second fixing column 672, the first fixing column 671 is welded to the upper side of the inside of the outer case 63, the welding plate 674 is arranged below the main fixing connection column 673 and welded to the outer case 63, the buffer spring 674 is mechanically connected to the left side of the welding plate 674, and the pulley device 68 is provided with a first rotation gear 681, a mechanical rotation shaft 682, a rotation gear 683, a rotating disk 684, a second transmission belt 685, a rotor 686, a third motor 687, a second rotating gear 688, a current connection wire 689, and a pulley gear actuating key 6810, wherein the first rotating gear 681 is mechanically connected above the second transmission belt 685, the second rotating gear 688 is mechanically connected below the second transmission belt 685, the second transmission belt 685 is connected around the outer surfaces of the first rotating gear 681 and the second rotating gear 688, the mechanical rotating shaft 682 is screwed on the right side of the first rotating gear 681, the rotating gear 683 is in transmission connection below the mechanical rotating shaft 682, the rotating disk 684 is screwed behind the rotating gear 683, the rotor 686 is mechanically connected on the left side of the third motor 687, the third motor 687 is fixed on the left side above the supporting panel 669 by screws, the current connection wire 689 is glued inside the third motor 687, the lifting device 69 is provided with a fixing rod 691, an auxiliary gear 692, a chain 693, a roller 694 and a third conveying belt 695, the fixing rod 691 is fixed above the inside of the outer shell 63 through screws, the auxiliary gear 692 is mechanically connected to the tail end of the fixing rod 691, the chain 693 is connected to the outer surface of the auxiliary gear 692 in a surrounding manner, the roller 694 is mechanically connected with the auxiliary gear 692 through the chain, the third conveying belt 695 is connected to the outer surface of the roller 694 in a surrounding manner, a lubricant is arranged inside the rotary bearing 641 to prevent parts inside from being damaged due to long-time friction, the outside of the current connecting lead 689 is made of an insulator material to prevent people from being damaged by accidental touch during electricity leakage.

The mechanical spindle 613 of the present invention refers to a spindle for driving a workpiece or a tool to rotate on a machine tool, and generally includes a spindle, a bearing, a transmission member, a gear or a pulley, etc. to form a spindle component, and is mainly used for supporting transmission parts such as a gear and a pulley in a machine to transmit motion and torque.

When the charging pile is used, the provided solar panel 1 can absorb sunlight and convert the sunlight into electric energy for equipment use, the electric energy vehicle is charged through the charging connector 8, the output frequency of current can be changed through the adjusting mode adjusting button 3, when the charging pile body 5 is moved, the transmission device starting key 623 is pressed, the internal second motor 626 is started to rotate and drive the first transmission rod 622 to rotate, the first transmission rod 622 drives the second transmission rod 621, the second transmission rod 621 drives the third transmission rod 624, the third transmission rod 624 drives the fourth transmission rod 627 and the fifth transmission rod 629 to move, the metal iron block 6211 is pressed downwards, the wheel device 64 is pressed downwards through back and forth pressing, the first wheel 642, the second wheel 643 and the third wheel 645 of the wheel device 64 are pressed downwards to be opposite through the upper pressure and are fixed through the upper first fixed connecting block-651 and the second fixed connecting block-652, when the wheel device 64 is to be lifted up, the movable pulley start key 6810 is pressed, the internal third motor 687 is started to operate, the rotor 686 rotates to drive the second rotating gear 688, the second rotating gear 688 drives the upper first rotating gear 681 to rotate through the second transmission belt 685, the first rotating gear drives the mechanical rotating shaft 682 to rotate, the lower rotating gear 683 rotates to drive the rotating disc 684, the rotating disc 684 rotates to drive the auxiliary disc 665, the auxiliary disc drives the third linkage lever 666 to move, the third linkage lever 666 drives the fourth linkage lever 688, the fourth linkage lever 688 drives the fifth linkage lever 6610 to move, the fifth linkage lever 6610 drives the second linkage lever 664, and the second linkage lever 664 drives the first linkage lever 662, the first link rod 662 drives the connecting plate 661 to contact the motor start key 615 of the first motor 611, so that the first motor 611 starts to operate and drives the main shaft 613 through the transmission shaft 616, the main gear 612 is driven to rotate by the rotation of the main shaft 613, the main gear 612 drives the auxiliary gear 692 to rotate through the first transmission belt 614, the auxiliary gear 692 drives the roller 694 to rotate through the chain 693, the roller 694 rotates to pull up the third transmission belt 695, the third transmission belt 695 is connected with the buckle on the wheel device 64, so that the wheel device 64 is pulled up to complete the ascending step, and the moving device 6 is provided to improve the use efficiency and the versatility of the charging pile.

The charging pile solves the problems that a charging pile of the prior art cannot move when charging a vehicle, the occupied area is increased when the charging pile is fixed at the same position, troubles are caused when people go in and out, and the trouble that the charging pile absorbs sunlight when working is caused.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides an adopt electric pile that fills of off-grid photovoltaic power generation based on wireless communication technology, its structure includes solar panel (1), digital display screen (2), mode adjustment button (3), on & off switch (4), fills electric pile body (5), mobile device (6), fills electric pile pipeline (7), charging connector (8), deposits hole (9), ventilation hole (10), its characterized in that:

the solar panel (1) is connected above the charging pile body (5) in an adhesive mode, the ventilation hole (10) is nested above the right side of the charging pile body (5), the digital display screen (2) is welded at the center of the surface of the charging pile body (5), the mode adjusting button (3) is inlaid at the right side of the digital display screen (2), the on-off key (4) is arranged below the mode adjusting button (3) and is connected with the charging pile body (5) in an adhesive mode, the storage hole (9) is fixed at the center of the right side of the charging pile body (5) through screws, the charging connector (8) is connected inside the storage hole (9) in a threaded mode, the charging pile pipeline (7) is connected inside the charging connector (8) in an adhesive mode, and the mobile device (6) is fixed below the charging pile body (5) through rivets;

the moving device (6) is provided with a main gear device (61), a transmission device (62), an outer shell (63), a wheel device (64), a telescopic device (65), a linkage device (66), a fixing device (67), a pulley device (68) and a lifting device (69);

the main gear device (61) is fixed at the upper left inside the outer shell (63) through screws, the lifting device (69) is arranged at the right side of the main gear device (61) and is parallel to each other, the lifting device (69) is in transmission connection with the main gear device (61), the transmission device (62) is fixed at the lower left inside the outer shell (63) through screws, the telescopic device (65) is welded below the linkage device (66), the wheel device (64) is fixed below the telescopic device (65) through screws, the pulley device (68) is mechanically connected at the left side of the linkage device (66), the linkage device (66) is fixed below the fixing device (67) through screws, and the fixing device (67) is fixed at the upper right inside the outer shell (63) through rivets;

the main gear device (61) is provided with a first motor (611), a main gear (612), a mechanical main shaft (613), a first transmission belt (614), a motor starting key (615) and a transmission shaft (616), wherein the first motor (611) is fixed at the upper left inside the outer shell (63) through screws, the transmission shaft (616) is mechanically connected inside the first motor (611), the mechanical main shaft (613) is mechanically connected at the center inside the main gear (612), the main gear (612) is in threaded connection with the tail end of the transmission shaft (616), the motor starting key (615) is embedded at the right side of the first motor (611), and the first transmission belt (614) is connected around the outer surface of the main gear (612);

the transmission device (62) is provided with a second transmission rod (621), a first transmission rod (622), a transmission device starting key (623), a third transmission rod (624), a rotating disc (625), a second motor (626), a fourth transmission rod (627), a fixed connecting column (628), a fifth transmission rod (629), a supporting plate (6210) and a metal iron block (6211), the supporting plate (6210) is fixed at the lower left corner inside the outer shell (63) through rivets, the second motor (626) is fixed at the center above the supporting plate (6210) through screws, the transmission device starting key (623) is electrically connected with the second motor (626) through a conducting wire, the rotating disc (625) is mechanically connected above the second motor (626), the first transmission rod (622) is in the center inside the rotating disc (625) through screw threads, the second transmission rod (621) is in the tail end of the first transmission rod (622) through screws, the third transmission rod (624) is fixed at the tail end of the second transmission rod (621) through a screw, the fourth transmission rod (627) is fixed at the tail end of the third transmission rod (624) through a rivet, the fifth transmission rod (629) is connected at the tail end of the third transmission rod (624) through a nail, the fixed connecting column (628) is welded at the right side above the supporting plate (6210), and the metal iron block (6211) is welded below the fourth transmission rod (627);

the wheel device (64) is provided with a rotating bearing (641), a first wheel (642), a second wheel (643), a stress plate (644), a third wheel (645) and a sliding plate (646), the first wheel (642) is connected below a first fixed connecting block (651) through a screw rod, the rotating bearing (641) is mechanically connected inside the first wheel (642), the second wheel (643) is fixed at the center below the outer shell (63) through a rivet, the third wheel (645) is connected below a second fixed connecting plate (652) in a nailing mode, the sliding plate (646) is embedded in the right side inside the outer shell (63), and the stress plate (644) is embedded below the outer shell (63);

the telescopic device (65) is provided with a first fixed connecting block (651), a second fixed connecting plate (652), a telescopic block (653) and a telescopic rod (654), the first fixed connecting block (651) is fixed below the supporting plate (6210) through screws, the second fixed connecting plate (652) is fixed below the supporting panel (669) through rivets, the telescopic block (653) is mechanically connected inside the second fixed connecting plate (652), and the telescopic rod (654) is mechanically connected inside the telescopic block (653);

the linkage device (66) is provided with a connecting plate (661), a first linkage rod (662), a contact rod (663), a second linkage rod (664), an auxiliary disc (665), a third linkage rod (666), a connecting groove (667), a fourth linkage rod (668), a supporting panel (669) and a fifth linkage rod (6610), wherein the connecting plate (661) is fixed below the main fixed connection column (673) through rivets, the first linkage rod (662) is fixed on the surface of the connecting plate (661) through screws, the contact rod (663) is in threaded connection on the left side of the connecting plate (6610), the second linkage rod (661) is in nailed connection at the tail end of the first linkage rod (662), the auxiliary disc (665) is in mechanical connection at the tail end of the third linkage rod (664), the third linkage rod (663) is fixed above the connecting groove (667) through rivets, the fourth linkage rod (668) is in mechanical connection on the right side of the connecting groove (667), the fifth linkage rod (6610) is connected to the tail end of the fourth linkage rod (668) in a nailing mode, the support panel (669) is welded to the right side inside the outer shell (63), and the connecting groove (667) is fixed in the center above the support panel (669) through screws;

the fixing device (67) is provided with a first fixing column (671), a second fixing column (672), a main fixing connecting column (673), a welding plate (674) and a buffer spring (675), the main fixing connecting column (673) is welded at the upper right corner inside the outer shell (63), the second fixing column (672) is in threaded connection with the left side of the second fixing column (672)), the first fixing column (671) is welded above the inside of the outer shell (63), the welding plate (674) is arranged below the main fixing connecting column (673) and is welded with the outer shell (63), and the buffer spring (675) is mechanically connected with the left side of the welding plate (674);

the pulley device (68) is provided with a first rotating gear (681), a mechanical rotating shaft (682), a rotating gear (683), a rotating disc (684), a second transmission belt (685), a rotor (686), a third motor (687), a second rotating gear (688), a current connecting lead (689) and a pulley device starting key (6810), wherein the first rotating gear (681) is mechanically connected above the second transmission belt (685), the second rotating gear (688) is mechanically connected below the second transmission belt (685), the second transmission belt (685) is connected on the outer surfaces of the first rotating gear (681) and the second rotating gear (688) in a surrounding manner, the mechanical rotating shaft (682) is in threaded connection on the right side of the first rotating gear (681), the rotating gear (683) is in transmission connection below the mechanical rotating shaft (682), and the rotating disc (684) is in threaded connection behind the rotating gear (683), the rotor (686) is mechanically connected to the left side of a third motor (687), the third motor (687) is fixed to the left side above the supporting panel (669) through screws, and the current connecting lead (689) is connected to the inside of the third motor (687) in an adhesive mode;

the lifting device (69) is provided with a fixed rod (691), an auxiliary gear (692), a chain (693), a roller (694) and a third conveying belt (695), the fixed rod (691) is fixed above the inner part of the outer shell (63) through a screw, the auxiliary gear (692) is mechanically connected to the tail end of the fixed rod (691), the chain (693) is connected to the outer surface of the auxiliary gear (692) in a surrounding manner, the roller (694) is mechanically connected with the auxiliary gear (692) through the chain, and the third conveying belt (695) is connected to the outer surface of the roller (694) in a surrounding manner;

when the solar charging pile is used, the arranged solar panel can absorb sunlight and convert the sunlight into electric energy for equipment to use, the electric energy vehicle is charged through the charging connector, the output frequency of current can be changed by the adjusting mode adjusting button, when the charging pile body is moved, the transmission device starting key is pressed, the second motor in the charging pile body is started to rotate and drive the first transmission rod to rotate, the first transmission rod drives the second transmission rod, the second transmission rod drives the third transmission rod, the third transmission rod drives the fourth transmission rod and the fifth transmission rod to move, the metal iron block is pressed downwards, the wheel device is pressed downwards through back and forth pressing, the first wheel, the second wheel and the third wheel of the wheel device are pressed downwards through the pressure above to be in contact with the opposite surfaces, the first fixed connecting block and the second fixed connecting block above are used for fixing the connecting plate, and the wheel device is prevented from rising again, when the wheel device is lifted, a pulley start key is pressed, an internal third motor is started to work, a second rotating gear is driven by the rotation of a rotor, the second rotating gear drives the upper first rotating gear to rotate through a second transmission belt, then a mechanical rotating shaft is driven by the first rotating gear to rotate, the lower rotating gear starts to rotate to drive a rotating disc, the rotation of the rotating disc drives an auxiliary disc, the auxiliary disc drives a third linkage rod to move, the third linkage rod drives a fourth linkage rod, the fourth linkage rod drives a fifth linkage rod to be linked, the fifth linkage rod drives a second linkage rod, the second linkage rod drives a first linkage rod, and the first linkage rod drives a connecting plate to touch the motor start key of the first motor, the first motor is started to work, the mechanical main shaft is driven through the transmission shaft, the main gear can be driven to rotate by rotation of the mechanical main shaft, the main gear drives the auxiliary gear to rotate through the first transmission belt, the auxiliary gear drives the roller to rotate through the chain, the roller can be pulled by rotation of the roller, the third transmission belt is connected with the buckle on the wheel device, and the wheel device can be pulled up.

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