Photovoltaic charging device for new energy automobile
Technical Field
The invention relates to the field of new energy automobiles, in particular to a photovoltaic charging device for a new energy automobile.
Background
The new energy automobile is an automobile which adopts unconventional automobile fuel as a power source (or adopts conventional automobile fuel and a novel vehicle-mounted power device) and integrates the power control and driving aspects of the automobile, the formed technical principle is advanced, the automobile has a novel technology and a novel structure, the function of the charging pile is similar to that of an oiling machine in a gas station, the charging pile can be fixed on the ground or a wall, the charging pile can be installed in public buildings (public buildings, malls, public parks and the like) and resident parking lots or charging stations, electric automobiles of various types can be charged according to different voltage levels, and the photovoltaic panel assembly is a power generation device which can generate direct current when being exposed to sunlight and consists of a thin solid photovoltaic cell almost entirely made of semiconductor materials (such as silicon).
In the prior art, a new energy automobile needs to be charged in a corresponding charging pile after being used, and the charging pile is exposed outdoors for a long time, so that sundries may be attached to a photovoltaic panel on the charging pile, and the sundries may damage the photovoltaic panel by a hot spot effect.
Disclosure of Invention
Aiming at the problems in the prior art, the invention aims to provide a photovoltaic charging device for a new energy automobile, which can automatically remove stains attached to a photovoltaic panel when a charging pile is used, so that the surface of the photovoltaic panel is kept clean, the photovoltaic panel can be effectively prevented from being damaged by a hot spot effect, and meanwhile, cleaning water can be used for washing hands and other purposes.
In order to solve the problems, the invention adopts the following technical scheme.
A photovoltaic charging device for a new energy automobile comprises a charging pile body, a charging socket, a photovoltaic panel, a cleaning mechanism and a water supply mechanism; the charging socket is arranged at the front end of the charging pile main body, the photovoltaic plate is fixedly connected with the top of the charging pile main body, and the cleaning mechanism is arranged at the outer end of the photovoltaic plate and is positioned at the outer side of the water supply mechanism; the cleaning mechanism comprises an electric slide seat, a main slide rail, a cleaning frame and an inductor; the electric sliding seat is fixedly connected with the outer end of the photovoltaic panel, the main sliding rail is cut on the upper end face of the electric sliding seat, the cleaning frame is in sliding connection with the main sliding rail, and the electric sliding seat can control the cleaning frame to linearly move along the length or width direction of the main sliding rail so as to clean the surface of the photovoltaic panel; the water supply mechanism is arranged at the outer end of the charging pile main body and is positioned at the outer side of the photovoltaic panel; when the inductor detects sundries on the surface of the photovoltaic panel, a signal is transmitted to the charging pile body, the water supply mechanism is controlled to supply water to the cleaning frame, and meanwhile, the electric sliding seat is electrified to drive the cleaning frame to linearly move along the main sliding rail.
Preferably, the cleaning frame comprises an electric sliding frame, an auxiliary sliding rail, a cleaning plate, a spray head group and a cleaning brush; the electric sliding frame is arranged in the main sliding rail, the auxiliary sliding rail is cut at one end of the electric sliding frame, which is close to each other, the electric sliding seat controls the spray head group to move linearly along the length or width direction of the auxiliary sliding rail so as to contact the surface, the spray head group is fixed on the upper end surface of the cleaning plate, and the cleaning brush is fixed on the upper end surface of the cleaning plate and is positioned at the outer side of the spray head group; when the electric slide seat drives the spray head group to linearly move along the main slide rail, the spray head group is controlled to spray water on the surface of the photovoltaic panel, and then the spray head group is contacted with the surface of the photovoltaic panel through the cleaning brush.
Preferably, the water supply mechanism comprises a water tank, a closing cover, a water outlet head, a connecting port, a storage component and a diversion mechanism; the water tank is fixedly connected with the outer end of the charging pile body, the closing cover is arranged at the top of the water tank, the water outlet head is fixedly connected with the lower end of the water outlet head, the connecting port is cut at the outer end of the water tank and is positioned at the lower side of the water outlet head, the storage component is arranged in the water tank and is positioned between the connecting port and the water outlet head, and the diversion mechanism is fixedly connected with the front end of the water tank; the flow dividing mechanism corresponds to the storage component; when the charging pile main body controls the water supply mechanism to supply water to the cleaning frame, the water outlet head sprays water and passes through the storage component, liquid in the storage component enters the cleaning frame through the connection port, and the flow direction of the water outlet head can be changed by controlling the flow dividing mechanism.
Preferably, the storage component comprises a telescopic rod, a fixed frame, a hollowed-out balloon, a special-shaped balloon and a cleaning agent ball; the telescopic rod is fixedly connected with the inner wall of the water tank; the fixed frame is fixedly connected with the outer end of the telescopic rod; the hollow saccule is arranged at the inner end of the fixed frame; the special-shaped balloon is fixedly connected with the inner wall of the hollowed balloon; the cleaning agent pellets are filled in the hollow balloon and are uniformly distributed at the outer end of the special-shaped balloon; after the water outlet head sprays water flow, the water flow can flush the hollow balloon, and meanwhile, the water flow can flow through the cleaning agent pellets from top to bottom, so that the cleaning agent in the cleaning agent pellets can flow out of the hollow balloon together, and finally, the cleaning agent is guided out through the connecting port.
Preferably, the diverting mechanism comprises a conduit, a faucet, a sliding assembly, a diverting assembly and a movable assembly; the guide pipe is fixedly connected with the outer end of the water tank, the water faucet is fixed at the lower end of the guide pipe, the sliding component slides in the water tank and is positioned at the upper end of the water faucet, the flow dividing component is fixed at the upper end of the sliding component, and the movable component is arranged between the flow dividing component and the sliding component, corresponds to the storage component horizontally and is mutually extruded; when the flow direction of the water outlet head needs to be changed, the sliding component can be moved to drive the diversion component to enter the water tank, so that the water outlet head water flow is guided into the guide pipe by the diversion component and then is discharged by the faucet; on the one hand when the tap goes out the clear water, the accessible promotes the slip subassembly and drives the reposition of redundant personnel subassembly and remove to in the water tank to guide rivers through reposition of redundant personnel subassembly, thereby make water outlet head spun rivers can flow to the tap, make tap can go out water, on the other hand when tap goes out and has the detergent water, can continue to promote the slip subassembly and go deep into the water tank, make movable assembly extrusion storage assembly simultaneously, thereby let out water head rivers and will store the detergent in the subassembly together import on the tap through reposition of redundant personnel subassembly, make tap derived water have clean effect.
Preferably, the sliding component comprises a sliding plate, a slideway, a main compression spring, a groove, a fixed block, a first separation component and a second separation component; the sliding plate is in sliding connection with the inner bottom end of the water tank, the sliding way is cut at one end of the sliding plate, which is close to the water tank, the main compression springs are arranged in the sliding way, the number of the grooves is multiple and are distributed at the lower end of the sliding plate at equal intervals, the fixed block is fixedly connected with the inner bottom end of the guide pipe and is matched with the grooves, the first separation component is in sliding connection with the sliding way, one end, which extends to the sliding way, is fixedly connected with the main compression springs, and the second separation component is fixedly connected with the front end of the sliding plate, penetrates through the guide pipe and extends out; when the sliding plate moves in the guide pipe through pushing, the fixed block and the groove can horizontally move into the water tank after being blocked for the first time, and the sliding plate stops when blocked for the second time, clear water sprayed by the water outlet head can be led into the water faucet, but after the sliding plate is pushed continuously for the third time, the sliding plate completely covers the first separation component, water flows into the water faucet through the discharge port, and the water led out at the moment contains cleaning agent, so that the type of water outlet is controlled through the sliding component.
Preferably, the split assembly comprises a special split plate, a first communication port, a second communication port and a fixed plate; the special-shaped flow distribution plate is fixedly connected with the upper end of the sliding component, the first communication port is cut at the front end of the special-shaped flow distribution plate, the second communication port is cut at the upper end of the special-shaped flow distribution plate, and the fixing plates are respectively fixed at the upper end of the sliding plate and the inner top end of the special-shaped flow distribution plate; when the first time of clamping occurs to the sliding plate, the sliding plate can slide in the guide pipe, when the second time of clamping occurs to the sliding plate, the special-shaped flow distribution plate can move to the position right below the water outlet head, water flow is guided into the guide pipe by the upper end face of the special-shaped flow distribution plate, and then the water flow enters the faucet, and when the third time of clamping occurs to the sliding plate, the second communication opening on the special-shaped flow distribution plate can be vertically flush with the water outlet head, so that water flow directly enters between the special-shaped flow distribution plate and the sliding plate, and cleaning agent extruded by the movable assembly is carried to enter the faucet together through the first communication opening.
Preferably, the movable assembly comprises a chute, a movable plate, a special-shaped blocking rod, a discharge hole and an auxiliary compression spring; the sliding grooves are respectively cut at the upper end of the sliding plate and the inner top end of the special-shaped splitter plate, the movable plate slides in the sliding grooves, the special-shaped blocking rod is fixed at one end of the movable plate, which is close to the first communication port, and is matched with the second communication port, the discharge port is cut at the outer end of the movable plate and is positioned at the lower side of the special-shaped blocking rod, and the auxiliary compression spring is arranged between the movable plate and the sliding grooves; when the sliding plate is blocked for the third time, the movable plate is contacted and extruded with the storage component, the movable plate slides in the sliding groove when the movable plate is extruded, and the cleaning agent in the storage component after being extruded is led into the other side of the movable plate through the discharging port, so that the cleaning agent is led out together with water flow entering through the second communication port.
Preferably, the first separation component comprises a separation plate, a through hole and a turnover piece; the separation plates are connected with the slide ways in a sliding way, the number of the through holes is multiple, the through holes are distributed at the upper end of the separation plates at equal intervals, and the turning pieces are connected with the inner walls of the through holes in a rotating way; when the first partition component is not covered by the sliding plate, the partition plate can partition the inside of the water tank, so that residual water is not easy to enter the lower side of the first partition component, and after water is sprayed out by the water outlet head, the water can impact the turnpieces, so that the turnpieces rotate to open the water flow to enter the connecting port, and when the water outlet head stops water outlet, the turnpieces are automatically closed.
Compared with the prior art, the invention has the advantages that:
1. According to the scheme, when the charging pile is used, dirt attached to the photovoltaic panel can be automatically removed, so that the surface of the photovoltaic panel is kept clean, the photovoltaic panel can be effectively prevented from being damaged by a hot spot effect, and meanwhile, cleaning water can be used for washing hands and other purposes.
2. The debris that accessible inductor appears on photovoltaic board surface is responded to make clean mechanism get rid of debris through the response, thereby reach the effect of automatic clearance, and the effectual life who prolongs whole equipment.
3. The water can be led out and used for other purposes by changing the flow direction of the water in the water supply mechanism, and the charging pile main body can simply clean the vehicle through the led-out water when charging the vehicle, so that the waiting time during charging is greatly utilized.
4. When the sliding plate moves in the guide pipe through pushing, the fixed block and the groove can horizontally move into the water tank after being blocked for the first time, and the sliding plate stops when blocked for the second time, clear water sprayed by the water outlet head can be led into the water faucet, but after the sliding plate is pushed continuously for the third time, the sliding plate completely covers the first separation component, water flows into the water faucet through the discharge port, and the water led out at the moment contains cleaning agent, so that the type of water outlet is controlled through the sliding component.
5. When the first partition component is not covered by the sliding plate, the partition plate can partition the inside of the water tank, so that residual water is not easy to enter the lower side of the first partition component, and after water is sprayed out by the water outlet head, the water can impact the turnpieces, so that the turnpieces rotate to open the water flow to enter the connecting port, and when the water outlet head stops water outlet, the turnpieces are automatically closed.
Drawings
Fig. 1 is a schematic view of the overall structure of a charging pile body according to the present invention;
FIG. 2 is a schematic diagram of a turnover structure of a cleaning frame according to the present invention;
FIG. 3 is an enlarged schematic view of the structure of FIG. 2 at A;
FIG. 4 is a schematic view of the overall structure of the water supply mechanism of the present invention;
FIG. 5 is a schematic cross-sectional view of a water supply mechanism of the present invention;
FIG. 6 is a schematic diagram of a storage assembly according to the present invention;
FIG. 7 is a schematic view of a shunt mechanism according to the present invention;
FIG. 8 is an enlarged schematic view of the structure at B in FIG. 7;
Fig. 9 is a schematic view of a partition assembly according to the present invention.
The reference numerals in the figures illustrate:
1a charging pile main body, 2a charging socket and 3 a photovoltaic panel;
41 electric slide seat, 42 main slide rail, 43 cleaning frame, 431 electric slide frame, 432 auxiliary slide rail, 433 cleaning plate, 434 spray head group, 435 cleaning brush, 44 sensor;
5 water supply mechanism, 51 water tank, 52 closing cover, 53 water outlet head, 54 connector, 55 storage component, 551 telescopic rod, 552 fixed frame, 553 hollow saccule, 554 special-shaped saccule, 555 cleaning agent ball, 56 shunt mechanism, 561 conduit, 562 tap, 563 sliding component, 5631 slide plate, 5632 slide way, 5633 main compression spring, 5634 groove, 5635 fixed block, 5636 separation component I, 5637 separation component II, 5636-1 separation plate, 5636-2 through hole, 5636-3 turn piece, 564 shunt component, 5641 special-shaped shunt plate, 5642 first communication port, 5643 second communication port, 5644 fixed plate, 565 movable component, 5651 slide way, 5652 movable plate, 5653 special-shaped blocking rod, 5654 discharge port, 5655 auxiliary compression spring.
Detailed Description
Examples
Referring to fig. 1-3, a photovoltaic charging device for a new energy automobile comprises a charging pile body 1, a charging socket 2, a photovoltaic panel 3, a cleaning mechanism and a water supply mechanism 5; the charging socket 2 is arranged at the front end of the charging pile main body 1, the photovoltaic panel 3 is fixedly connected with the top of the charging pile main body 1, and the cleaning mechanism is arranged at the outer end of the photovoltaic panel 3 and is positioned at the outer side of the water supply mechanism 5; the cleaning mechanism comprises an electric slide seat 41, a main slide rail 42, a cleaning frame 43 and an inductor 44; the electric sliding seat 41 is fixedly connected with the outer end of the photovoltaic panel 3, the main sliding rail 42 is cut on the upper end face of the electric sliding seat 41, the cleaning frame 43 is in sliding connection with the main sliding rail 42, and the electric sliding seat 41 controls the cleaning frame 43 to linearly move along the length or width direction of the main sliding rail 42 so as to clean the surface of the photovoltaic panel 3; the water supply mechanism 5 is arranged at the outer end of the charging pile body 1 and is positioned at the outer side of the photovoltaic panel 3; when the sensor 44 detects that sundries appear on the surface of the photovoltaic panel 3, a signal is transmitted to the charging pile body 1, the water supply mechanism 5 is controlled to supply water to the cleaning frame 43, and meanwhile, the electric sliding seat 41 is electrified to drive the cleaning frame 43 to linearly move along the main sliding rail 42.
Referring to fig. 2 to 3, the cleaning frame 43 includes a motor-driven slide frame 431, a sub-slide rail 432, a cleaning plate 433, a nozzle group 434, and a cleaning brush 435; the electric sliding frame 431 is installed in the main sliding rail 42, the auxiliary sliding rail 432 is cut at one end of the electric sliding frame 431, which is close to each other, the electric sliding seat 41 controls the spray head group 434 to move linearly along the length or width direction of the auxiliary sliding rail 432 to contact the surface, the spray head group 434 is fixed on the upper end surface of the cleaning plate 433, the cleaning brush 435 is fixed on the upper end surface of the cleaning plate 433, and the spray head group 434 is positioned outside; when the electric slide 41 drives the spray head group 434 to move linearly along the main slide rail 42, the spray head group 434 is controlled to spray water on the surface of the photovoltaic panel 3, and then the spray head group 434 is contacted with the surface of the photovoltaic panel 3 through the cleaning brush 435.
Referring to fig. 4 to 5, the water supply mechanism 5 includes a water tank 51, a closing cap 52, a water outlet head 53, a connection port 54, a storage assembly 55, and a diversion mechanism 56; the water tank 51 is fixedly connected with the outer end of the charging pile main body 1, the closing cover 52 is arranged at the top of the water tank 51, the water outlet head 53 is fixedly connected with the lower end of the water outlet head 53, the connecting port 54 is cut at the outer end of the water tank 51 and is positioned at the lower side of the water outlet head 53, the storage component 55 is arranged in the water tank 51 and is positioned between the connecting port 54 and the water outlet head 53, and the diversion mechanism 56 is fixedly connected with the front end of the water tank 51; the diversion mechanism 56 corresponds to the storage assembly 55; when the charging pile body 1 controls the water supply mechanism 5 to supply water to the cleaning frame 43, the water outlet head 53 sprays water and passes through the storage component 55, the water enters the cleaning frame 43 together with the liquid in the storage component 55 through the connection port 54, and the flow direction of the water outlet head 53 can be changed by controlling the flow dividing mechanism 56.
Referring to fig. 5-6, the storage assembly 55 includes a telescoping rod 551, a fixed frame 552, a hollowed balloon 553, a shaped balloon 554, and a detergent pellet 555; the telescopic rod 551 is fixedly connected with the inner wall of the water tank 51; the fixed frame 552 is fixedly connected with the outer end of the telescopic rod 551; the hollow balloon 553 is arranged at the inner end of the fixed frame 552; the special-shaped air bag 554 is fixedly connected with the inner wall of the hollow balloon 553; the cleaning agent pellets 555 are filled in the hollow balloon 553 and are uniformly distributed at the outer end of the special-shaped air bag 554; after the water outlet head 53 sprays water flow, the water flow can flush the hollow balloon 553, and meanwhile, the water flow can flow through the cleaning agent small ball 555 from top to bottom, so that the cleaning agent in the cleaning agent small ball 555 can flow out of the hollow balloon 553 together, and finally, the cleaning agent is guided out through the connecting port 54.
Referring to fig. 7, the shunt mechanism 56 includes a conduit 561, a faucet 562, a sliding assembly 563, a shunt assembly 564, and a movable assembly 565; the guide pipe 561 is fixedly connected with the outer end of the water tank 51, the water faucet 562 is fixed at the lower end of the guide pipe 561, the sliding component 563 slides in the water tank 51 and is positioned at the upper end of the water faucet 562, the shunt component 564 is fixed at the upper end of the sliding component 563, the movable component 565 is arranged between the shunt component 564 and the sliding component 563 and horizontally corresponds to the storage component 55 and is mutually extruded; when the flow direction of the water outlet head 53 needs to be changed, the sliding component 563 can be moved to drive the diversion component 564 to enter the water tank 51, so that the water flow of the water outlet head 53 is guided into the guide pipe 561 by the diversion component 564 and then is discharged by the water faucet 562; on the one hand, when the water tap 562 is required to discharge clean water, the sliding component 563 can be pushed to drive the diversion component 564 to move into the water tank 51, and the water flow is guided through the diversion component 564, so that the water flow sprayed by the water outlet head 53 can flow onto the water tap 562, and the water tap 562 can discharge water, on the other hand, when the water tap 562 discharges water with cleaning agent, the sliding component 563 can be pushed to extend into the water tank 51, and meanwhile, the movable component 565 can be pushed to squeeze the storage component 55, so that the water flow of the water outlet head 53 can guide the cleaning agent and water in the storage component 55 into the water tap 562 together through the diversion component 564, and the water guided by the water tap 562 has a cleaning effect.
Referring to fig. 7 to 8, the sliding assembly 563 includes a sliding plate 5631, a sliding way 5632, a main compression spring 5633, a groove 5634, a fixing block 5635, a partition assembly one 5636 and a partition assembly two 5637; the sliding plate 5631 is in sliding connection with the inner bottom end of the water tank 51, the sliding way 5632 is cut at one end of the sliding plate 5631 close to the water tank 51, the main compression springs 5633 are arranged in the sliding way 5632, the number of the grooves 5634 is 3, and the grooves 5634 are distributed at equal intervals at the lower end of the sliding plate 5631, and the number of the grooves 5634 is 3 in the scheme; the fixed block 5635 is fixedly connected with the inner bottom of the guide tube 561 and is matched with the groove 5634, the first separation component 5636 is slidingly connected with the slide 5632 and extends to one end of the slide 5632 to be fixedly connected with the main compression spring 5633, and the second separation component 5637 is fixedly connected with the front end of the slide 5631 and penetrates through the guide tube 561 and extends out; when the slide plate 5631 moves in the guide tube 561 by pushing the second partition member 5637, the fixed block 5635 and the groove 5634 can move the slide plate 5631 horizontally into the water tank 51 after the first time of clamping, and stop at the second time of clamping, the clean water sprayed from the water outlet head 53 is introduced into the water tap 562, but after the third time of clamping by continuing to push the slide plate 5631, the slide plate 5631 completely covers the first partition member 5636, and the water flow is introduced into the water tap 562 through the discharge opening 5654, and the water discharged at this time contains the detergent, so that the type of water outlet is controlled by the sliding member 563.
Referring to fig. 7-8, the shunt assembly 564 includes a profiled shunt plate 5641, a first communication port 5642, a second communication port 5643, and a securing plate 5644; the special-shaped splitter plate 5641 is fixedly connected with the upper end of the sliding component 563, a first communication port 5642 is cut at the front end of the special-shaped splitter plate 5641, a second communication port 5643 is cut at the upper end of the special-shaped splitter plate 5641, and the fixing plates 5644 are respectively fixed at the upper end of the sliding plate 5631 and the inner top end of the special-shaped splitter plate 5641; when the sliding plate 5631 is blocked for the first time, the sliding plate 5631 can slide in the guide pipe 561, when the sliding plate 5631 is blocked for the second time, the special-shaped splitter plate 5641 can move to the position right below the water outlet head 53, the upper end surface of the special-shaped splitter plate 5641 guides water flow into the guide pipe 561 and then enters the water faucet 562, and when the sliding plate 5631 is blocked for the third time, the second communicating opening 5643 on the special-shaped splitter plate 5641 is vertically flush with the water outlet head 53, so that water flow directly enters between the special-shaped splitter plate 5641 and the sliding plate 5631 and carries the cleaning agent extruded by the movable component 565 to enter the water faucet 562 through the first communicating opening 5642.
Referring to fig. 7-8, the movable assembly 565 includes a chute 5651, a movable plate 5652, a shaped blocking rod 5653, a discharge opening 5654, and a secondary compression spring 5655; the sliding groove 5651 is respectively cut at the upper end of the sliding plate 5631 and the inner top end of the special-shaped splitter plate 5641, the movable plate 5652 slides in the sliding groove 5651, the special-shaped blocking rod 5653 is fixed at one end of the movable plate 5652 close to the first communication port 5642 and matched with the second communication port 5643, the discharge port 5654 is cut at the outer end of the movable plate 5652 and is positioned at the lower side of the special-shaped blocking rod 5653, and the auxiliary compression spring 5655 is arranged between the movable plate 5652 and the sliding groove 5651; when the sliding plate 5631 is jammed for the third time, the movable plate 5652 is pressed against the storage component 55, the movable plate 5652 slides in the sliding groove 5651 while the movable plate 5652 is pressed, and the cleaning agent in the storage component 55 is introduced into the other side of the movable plate 5652 through the discharge port 5654 after the storage component 55 is pressed, so that the cleaning agent is guided out together with the water flow entering through the second communication port 5643.
Referring to fig. 9, a partition member 5636 includes a partition plate 5636-1, a through hole 5636-2, and a flap 5636-3; the partition plate 5636-1 is in sliding connection with the slide way 5632, the number of the through holes 5636-2 is multiple, the through holes 5636-2 are distributed at the upper end of the partition plate 5636-1 at equal intervals, and the turnpieces 5636-3 are in rotary connection with the inner walls of the through holes 5636-2; when the first partition member 5636 is not covered by the slide plate 5631, the partition plate 5636-1 partitions the inside of the water tank 51 so that the residual water is not likely to enter the lower side of the first partition member 5636, and after the water is discharged from the water outlet head 53, the flap 5636-3 is impacted by the water so that the flap 5636-3 is rotated to open the water flow into the connection port 54, and when the water outlet head 53 stops discharging the water, the flap 5636-3 is automatically closed.
When the sensor 44 detects that sundries appear on the surface of the photovoltaic panel 3, a signal is transmitted to the charging pile body 1, the water supply mechanism 5 is controlled to supply water to the cleaning frame 43, meanwhile, the electric sliding seat 41 is electrified to drive the cleaning frame 43 to linearly move along the main sliding rail 42, the spray head group 434 is controlled to spray water on the surface of the photovoltaic panel 3, then the cleaning brush 435 is contacted with the surface of the photovoltaic panel 3, so that the effect of cleaning the photovoltaic panel 3 is achieved, when the water in the water supply mechanism 5 is needed to be used, the charging pile body 1 is used for controlling the water supply mechanism 5 to supply water to the cleaning frame 43, the water outlet head 53 sprays water and passes through the storage component 55, and the water in the storage component 55 enters the cleaning frame 43 through the connection port 54, the flow direction of the water outlet head 53 can be changed by controlling the flow dividing mechanism 56, on one hand, when the water tap 562 is required to output clear water, the flow dividing component 564 can be driven to move into the water tank 51 by pushing the sliding component 563, and water flow is guided by the flow dividing component 564, so that the water sprayed by the water outlet head 53 can flow onto the water tap 562 to enable the water tap 562 to output water, on the other hand, when the water tap 562 outputs water with cleaning agent, the sliding component 563 can be pushed to extend into the water tank 51, and meanwhile, the movable component 565 can be made to squeeze the storage component 55, so that the water flow of the water outlet head 53 can guide the cleaning agent and water in the storage component 55 into the water tap 562 together through the flow dividing component 564, and the water led out by the water tap 562 has a cleaning effect; can realize when charging the stake and being used, can clear away the spot that adheres to on the photovoltaic board voluntarily, make the surface of photovoltaic board keep clean to can effectually prevent that the photovoltaic board from receiving the destruction of hot spot effect, can also use the use such as clean water to wash hand simultaneously.
The above; is only a preferred embodiment of the present invention; the scope of the invention is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the invention and the improved conception thereof; are intended to be encompassed within the scope of the present invention.