CN220447695U - Non-stop charging roadway based on photovoltaic ceiling - Google Patents

Abstract

The utility model discloses a non-stop charging lane based on a photovoltaic ceiling, which comprises a charging lane body, wherein protective side plates are fixedly arranged on two sides of the top end of the charging lane body, the photovoltaic ceiling is fixedly arranged on the top between the two protective side plates, a plurality of uniformly distributed wireless charging transmitting coils are arranged in the charging lane body, and a control box is fixedly arranged in the middle of one side of the charging lane body.

Description

Non-stop charging roadway based on photovoltaic ceiling

Technical Field

The utility model relates to the technical field of non-stop charging of new energy automobiles, in particular to a non-stop charging lane based on a photovoltaic ceiling.

Background

With the development and application of new energy industry, the combination of the road photovoltaic system and the wireless charging technology of the electric automobile becomes a future technical hotspot. The existing road photovoltaic system is a bearing type road photovoltaic system, a photovoltaic module is paved on a road surface, electric energy generated by the photovoltaic module is connected with a wireless charging system to achieve the purpose of charging an electric automobile, the electric automobile is usually set to be a non-stop charging lane, the existing non-stop charging lane is inconvenient to clean the surface of a photovoltaic ceiling when in use, the photovoltaic ceiling is prevented from being covered by dust and foreign matters so as to influence the efficiency of absorbing solar energy by the photovoltaic ceiling, so that the power generation efficiency is influenced, and the residual electric quantity is inconvenient to directly feed back to a power grid when an energy storage battery is redundant.

To solve the above problems, a non-stop charging lane based on a photovoltaic ceiling is proposed herein.

Disclosure of Invention

The utility model aims to provide a non-stop charging lane based on a photovoltaic ceiling so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a car lane is filled in no stop based on photovoltaic ceiling, includes the car way body that charges, the both sides on car way body top that charges all are fixed and are provided with the protection curb plate, two the fixed photovoltaic ceiling that is provided with in top between the protection curb plate, the inside of car way body that charges is provided with the wireless transmission coil that charges of a plurality of evenly distributed, the fixed control box that is provided with in middle part of car way body one side that charges, the inboard top fixed mounting of control box has the energy storage battery, one side fixed mounting of control box inner wall has the dc-to-ac converter, one side fixed mounting that the dc-to-ac converter was kept away from to the control box inner wall has photovoltaic controller, electric energy conversion device, dc-to-ac converter and resonance compensation module, two the top of protection curb plate both sides is all fixed and is provided with the seat.

Solar energy on a photovoltaic ceiling is converted into electric energy through a photovoltaic controller to be stored in an energy storage battery, the electric energy is supplied to a plurality of wireless charging transmitting coils through the energy storage battery and a power grid, a high-frequency magnetic field is electrified through the plurality of wireless charging transmitting coils, energy transmission is carried out through electromagnetic coupling with a pick-up coil carried by a vehicle, direct electrical contact does not exist in the whole process, the running state of a powered end is not limited, the vehicle can be charged without stopping, electric energy is mainly provided by the photovoltaic ceiling built along a lane, the in-situ consumption of the photovoltaic electric energy is realized, when the energy storage battery has redundancy, the residual electric energy can be directly fed back to the power grid through inversion, and the electric energy can be taken from an external power grid when the generated energy of the energy storage battery is insufficient.

Preferably, the photovoltaic ceiling is electrically connected with the energy storage battery through the photovoltaic controller, the wireless charging transmitting coils are electrically connected with the resonance compensation module, the resonance compensation module is electrically connected with the current converter, the current converter is electrically connected with the electric energy conversion device, the electric energy conversion device is electrically connected with the energy storage battery and the power grid, the energy storage battery is electrically connected with the power grid through the inverter, and solar energy on the photovoltaic ceiling is converted into electric energy through the photovoltaic controller and stored in the energy storage battery.

Preferably, one side of the control box, which is far away from the protection side plate, is hinged with an access door, and the setting of the access door is convenient for overhauling the control box.

Preferably, two equal fixed mounting of one end of seat has the motor, two the output of motor extends to the inside fixedly connected with lead screw of two seats respectively, two the equal screw thread in surface of lead screw is provided with the sleeve, two the equal fixedly connected with in telescopic top removes the post, two the equal fixedly connected with mount pad in top of removing the post, two the equal block in inboard of mount pad is provided with the connecting block, two fixedly provided with cleaning brush between the connecting block, the cleaning brush corresponds the setting with the photovoltaic ceiling, rotates through two motor drive two lead screws, and then drives two sleeve synchronous round trip movement, drives two removal posts, two mount pads and two connecting blocks round trip movement, drives cleaning brush along photovoltaic ceiling round trip movement to carry out cleaning treatment to the surface of photovoltaic ceiling, avoid the photovoltaic ceiling to be covered by dust and foreign matter and then influence the efficiency of photovoltaic ceiling absorption solar energy.

Preferably, the top ends of the two placement seats are provided with moving grooves, and the two moving grooves are respectively connected with the two moving columns in a sliding manner, so that stable movement of the cleaning brush can be ensured.

Preferably, one end of the screw rod far away from the motor is respectively connected with one end of the inner sides of the two placement seats in a rotating way, so that stable operation of the screw rod is ensured.

Preferably, two equal screw thread in top of mount pad is provided with fixing bolt, two the screw hole has all been seted up on the top of connecting block, two fixing bolt respectively with two screw hole threaded connection, through not hard up two fixing bolt, make it separate with two screw holes, and then be convenient for dismantle the maintenance with the cleaning brush.

Compared with the prior art, the utility model has the beneficial effects that:

1. the solar energy on the photovoltaic ceiling is converted into electric energy through the photovoltaic controller and stored in the energy storage battery, the energy storage battery and the power grid supply power to the wireless charging transmitting coils, the wireless charging transmitting coils are electrified with high-frequency magnetic fields, the energy transmission is carried out through electromagnetic coupling with the pick-up coils carried by the vehicle, the whole process is free from direct electric contact, the running state of the powered end is not limited, the non-stop charging of the vehicle can be realized, the electric energy is mainly provided by the photovoltaic ceiling built along the lane, the in-situ consumption of the photovoltaic electric energy is realized, when the energy storage battery has redundancy, the residual electric energy can be directly fed back to the power grid through inversion, and when the generated energy of the energy storage battery is insufficient, the electric energy can be taken from the external power grid;

2. two lead screws are driven to rotate through two motors, and then two sleeves are driven to move back and forth synchronously, two moving columns, two mounting seats and two connecting blocks are driven to move back and forth, and the cleaning brush is driven to move back and forth along the photovoltaic ceiling, so that the surface of the photovoltaic ceiling is cleaned, the photovoltaic ceiling is prevented from being covered by dust and foreign matters, the solar energy absorption efficiency of the photovoltaic ceiling is further influenced, the power generation efficiency is further influenced, and the cleaning brush is separated from two threaded holes through the two loose fixing bolts, so that the cleaning brush is convenient to disassemble and maintain.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is an enlarged view of part A of the present utility model;

FIG. 3 is a front cross-sectional view of the present utility model;

FIG. 4 is a cross-sectional view of the seat of the present utility model;

FIG. 5 is a cross-sectional view of the control box of the present utility model;

FIG. 6 is a schematic diagram of the operation of the present utility model;

fig. 7 is a block diagram of a portion of the present utility model.

In the figure: 1. a charging roadway body; 2. a protective side plate; 3. a photovoltaic ceiling; 4. a setting seat; 5. a cleaning brush; 6. a control box; 7. an access door; 8. a moving groove; 9. a motor; 10. a moving column; 11. a mounting base; 12. a connecting block; 13. a wireless charging transmitting coil; 14. a screw rod; 15. a sleeve; 16. a fixing bolt; 17. a threaded hole; 18. an energy storage battery; 19. an inverter; 20. a photovoltaic controller; 21. an electric energy conversion device; 22. an inverter; 23. and a resonance compensation module.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-7, the utility model provides a non-stop charging lane based on a photovoltaic ceiling, which comprises a charging lane body 1, wherein protection side plates 2 are fixedly arranged on two sides of the top end of the charging lane body 1, a photovoltaic ceiling 3 is fixedly arranged on the top between the two protection side plates 2, a plurality of uniformly distributed wireless charging transmitting coils 13 are arranged in the charging lane body 1, a control box 6 is fixedly arranged in the middle of one side of the charging lane body 1, an energy storage battery 18 is fixedly arranged on the top of the inner side of the control box 6, an inverter 19 is fixedly arranged on one side of the inner wall of the control box 6, a photovoltaic controller 20, an electric energy conversion device 21, an inverter 22 and a resonance compensation module 23 are fixedly arranged on one side of the inner wall of the control box 6 far from the inverter 19, a mounting seat 4 is fixedly arranged on the tops of the two sides of the two protection side plates 2, solar energy on the photovoltaic ceiling 3 is converted into electric energy to be stored in the energy storage battery 18 through the photovoltaic controller 20, the plurality of wireless charging transmitting coils 13 are electrified and high-frequency through the plurality of wireless charging transmitting coils 13, an energy storage battery 18 is directly carried out by the vehicle feedback network through the power storage battery 18, and the whole electromagnetic energy can be directly carried out by the vehicle feedback network when the vehicle is not in contact with the power storage network, and the power consumption can be directly carried out in a non-stop state by the power network, and the vehicle can directly no power consumption state is realized when the vehicle is in a non-stop charging network, and the electric power is not in a power line, and the electric network is not in a state directly carried by the electric network, and the electric energy can be directly carried by the electric power by the vehicle through the power network, and the electric vehicle is in a power storage state and a power station in a power station and a power station.

When the intelligent energy storage device is used, one side, far away from the protection side plate 2, of the control box 6 is hinged with an access door 7, the photovoltaic ceiling 3 is electrically connected with the energy storage battery 18 through the photovoltaic controller 20, the plurality of wireless charging transmitting coils 13 are electrically connected with the resonance compensation module 23, the resonance compensation module 23 is electrically connected with the converter 22, the converter 22 is electrically connected with the electric energy conversion device 21, the electric energy conversion device 21 is electrically connected with the energy storage battery 18 and the power grid, and the energy storage battery 18 is electrically connected with the power grid through the inverter 19;

solar energy on the photovoltaic ceiling 3 is converted into electrical energy by the photovoltaic controller 20 and stored in the energy storage battery 18.

When the photovoltaic ceiling cleaning device is used, the motors 9 are fixedly installed at one ends of the two placement seats 4, the output ends of the two motors 9 are respectively extended to the inner parts of the two placement seats 4 and fixedly connected with the screw rods 14, the surfaces of the two screw rods 14 are respectively provided with the sleeves 15 in a threaded manner, the top ends of the two sleeves 15 are respectively fixedly connected with the movable columns 10, the top ends of the two movable columns 10 are respectively fixedly connected with the installation seats 11, the inner sides of the two installation seats 11 are respectively clamped with the connecting blocks 12, the cleaning brushes 5 are fixedly arranged between the two connecting blocks 12, the cleaning brushes 5 are correspondingly arranged with the photovoltaic ceiling 3, the top ends of the two placement seats 4 are respectively provided with the movable grooves 8, the two movable grooves 8 are respectively connected with the two movable columns 10 in a sliding manner, one ends of the two screw rods 14 far away from the motors 9 are respectively connected with one ends of the inner sides of the two placement seats 4 in a threaded manner, the top ends of the two installation seats 11 are respectively provided with the fixing bolts 16 in a threaded manner, the top ends of the two connecting blocks 12 are respectively provided with the threaded holes 17, and the two fixing bolts 16 are respectively connected with the threaded holes 17 in a threaded manner;

the two lead screws 14 are driven to rotate through the two motors 9, the two sleeves 15 are driven to move back and forth synchronously, the two moving columns 10, the two mounting seats 11 and the two connecting blocks 12 are driven to move back and forth, the cleaning brush 5 is driven to move back and forth along the photovoltaic ceiling 3, so that the surface of the photovoltaic ceiling 3 is cleaned, the photovoltaic ceiling 3 is prevented from being covered by dust and foreign matters, the solar energy absorption efficiency of the photovoltaic ceiling 3 is further affected, and the cleaning brush 5 is conveniently detached and maintained by loosening the two fixing bolts 16 to separate the two fixing bolts from the two threaded holes 17.

When the embodiment of the application is used, the following steps are adopted: the solar energy on the photovoltaic ceiling 3 is converted into electric energy through the photovoltaic controller 20 and stored in the energy storage battery 18, a plurality of wireless charging transmitting coils 13 are powered through the energy storage battery 18 and a power grid, a high-frequency magnetic field is electrified through the plurality of wireless charging transmitting coils 13, energy transmission is carried out through electromagnetic coupling with a pick-up coil carried by a vehicle, no direct electrical contact is carried out in the whole process, the running state of a receiving end is not limited, the non-stop charging of the vehicle can be realized, the electric energy is mainly provided by the photovoltaic ceiling 3 which is arranged along a lane, the in-situ consumption of the photovoltaic electric energy is realized, when the energy storage battery 18 has redundancy, the residual electric quantity can be directly fed back to the power grid through inversion, when the generated energy of the energy storage battery 18 is insufficient, the electric energy can be taken from an external power grid, and the photovoltaic electric energy is preferentially consumed in the system running;

in the use, rotate through two lead screws 14 of two motor 9 drive, and then drive two sleeve 15 synchronous round trip movement, drive two removal posts 10, two mount pad 11 and two connecting blocks 12 round trip movement, drive cleaning brush 5 along photovoltaic ceiling 3 round trip movement, thereby carry out cleaning treatment to the surface of photovoltaic ceiling 3, avoid photovoltaic ceiling 3 to be covered by dust and foreign matter and then influence the efficiency that photovoltaic ceiling 3 absorbed solar energy, thereby influence generating efficiency, through not hard up two fixing bolt 16, make it separate with two screw holes 17, and then be convenient for dismantle cleaning brush 5 and maintain.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. Non-stop charging lane based on photovoltaic ceiling, including charging lane body (1), its characterized in that: the utility model discloses a photovoltaic power generation system, including charging car way body (1), protection curb plate (2) are all fixed in both sides on charging car way body (1), two the top between protection curb plate (2) is fixed and is provided with photovoltaic ceiling (3), the inside of charging car way body (1) is provided with wireless charging transmitting coil (13) of a plurality of evenly distributed, the middle part of charging car way body (1) one side is fixed and is provided with control box (6), the inboard top fixed mounting of control box (6) has energy storage battery (18), one side fixed mounting of control box (6) inner wall has dc-to-ac converter (19), one side fixed mounting that control box (6) inner wall kept away from dc-to-ac converter (19) has photovoltaic controller (20), electric energy conversion device (21), converter (22) and resonance compensation module (23), two the top of protection curb plate (2) both sides is all fixed and is provided with seat (4).

2. The photovoltaic ceiling-based on-the-fly charging lane of claim 1, wherein: the photovoltaic ceiling (3) is electrically connected with the energy storage battery (18) through the photovoltaic controller (20), the wireless charging transmitting coils (13) are electrically connected with the resonance compensation module (23), the resonance compensation module (23) is electrically connected with the converter (22), the converter (22) is electrically connected with the electric energy conversion device (21), the electric energy conversion device (21) is electrically connected with the energy storage battery (18) and the power grid, and the energy storage battery (18) is electrically connected with the power grid through the inverter (19).

3. The photovoltaic ceiling-based on-the-fly charging lane of claim 1, wherein: one side of the control box (6) far away from the protection side plate (2) is hinged with an access door (7).

4. The photovoltaic ceiling-based on-the-fly charging lane of claim 1, wherein: two equal fixed mounting of one end of settling seat (4) has motor (9), two the output of motor (9) extends to the inside fixedly connected with lead screw (14) of two settling seats (4) respectively, two equal screw thread in surface of lead screw (14) is provided with sleeve (15), two equal fixedly connected with in top of sleeve (15) removes post (10), two equal fixedly connected with mount pad (11) in top of removing post (10), two equal block in inboard of mount pad (11) is provided with connecting block (12), two fixedly provided with cleaning brush (5) between connecting block (12), cleaning brush (5) correspond the setting with photovoltaic ceiling (3).

5. The photovoltaic ceiling-based on-the-fly charging lane of claim 4, wherein: the top ends of the two placement seats (4) are provided with moving grooves (8), and the two moving grooves (8) are respectively connected with two moving columns (10) in a sliding mode.

6. The photovoltaic ceiling-based on-the-fly charging lane of claim 4, wherein: one end of the two screw rods (14) far away from the motor (9) is respectively connected with one end of the inner sides of the two placement seats (4) in a rotating way.

7. The photovoltaic ceiling-based on-the-fly charging lane of claim 4, wherein: the top ends of the two mounting seats (11) are provided with fixing bolts (16) in a threaded mode, the top ends of the two connecting blocks (12) are provided with threaded holes (17), and the two fixing bolts (16) are respectively in threaded connection with the two threaded holes (17).