Inter-vehicle wireless charging rescue method and device based on AGV
A wireless charging and vehicle-to-vehicle technology, applied to charging stations, vehicle parts, motor vehicles, etc., can solve the problems that the energy transaction model has not been proposed, and the flexibility of wireless charging cannot be fully utilized, so as to reduce carbon emissions and service scope Wider, the effect of improving economic benefits
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Embodiment 1
[0054] The application scenarios of the energy transaction model between vehicles of the present invention are as follows: figure 2 shown.
[0055] For example, when the electric vehicle B is about to reach the destination C, the electric vehicle B has only 20% power, which is not enough to reach the destination. The driver of electric vehicle B can make a charging request through the mobile device APP. At this time, the B electric vehicle is the client electric vehicle. The APP will search for the relevant information of AGVs that can provide charging services within a certain range from the client-side electric vehicle B according to the location of the client-side electric vehicle B, and then use the energy trading model to match the appropriate charging-end AGV vehicle A.
[0056] The matching of the energy trading model is determined by the following related factors:
[0057] 1. Client electric vehicle:
[0058] geographic information (latitude and longitude);
[00...
Embodiment 2
[0071] The AGV car-based wireless charging rescue method between vehicles provided by the embodiment of the present invention, the process is as follows image 3 shown, including:
[0072] 1. Extract the on-board information of the client's electric vehicle:
[0073] Location(Latitude, Longitude): Location(Latitude C_N, Longitude C_E);
[0074] Estimated mileage / to destination or nearby charging station: Dist_C(mi);
[0075] Driving efficiency of electric vehicles: η_C (mi / kWh).
[0076] 2. According to the geographical location of the client's electric vehicle, the energy trading platform searches for the information of the charging AGV car that can provide charging within a certain range:
[0077]
[0078] 3. Calculate the distance between the client electric vehicle and each charging AGV car in the sample: DD.
[0079] 4. Calculate the energy Energy_C required by the client's electric vehicle.
[0080] 5. Calculate the energy Energy_S that each charging AGV car in t...
Embodiment 3
[0094] The present invention also provides a wireless charging station for the AGV trolley, and the wireless charging station for the AGV trolley serves as the base camp of the AGV trolley at the charging end of the entire wireless charging rescue system. After the AGV completes the wireless charging rescue task, it will return to the wireless charging station for energy replenishment. After the system receives a charging request next time, the system assigns a suitable AGV to the designated automatic driving route for charging rescue service. The AGV car wireless charging station can use new energy (solar energy, wind energy) to wirelessly charge the AGV car.
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