CN-224218148-U - Vehicle power supply device and vehicle

Abstract

The application provides a vehicle power supply device and a vehicle. The vehicle power supply device comprises a transmitting module arranged in a vehicle and a receiving module arranged outside the vehicle, wherein the transmitting module comprises a power transmitting coil, the receiving module comprises a power receiving coil, the power transmitting coil is arranged on a vehicle window and used for transmitting electric energy to the power receiving coil in a wireless mode, and the power receiving coil is arranged on electric equipment outside the vehicle and used for receiving electric energy from the power transmitting coil in a wireless mode to supply power to the electric equipment outside the vehicle. The application can solve the complexity problem of the traditional wired power supply mode and simplify the power supply flow.

Inventors

• QIU CONGYU
• WANG FAQUAN
• QIAN YAOYANG

Assignees

• 浙江极氪智能科技有限公司
• 浙江吉利控股集团有限公司

Dates

Publication Date

20260508

Application Date

20250526

Claims (10)

1. 1. The power supply device for the vehicle is characterized by comprising a transmitting module arranged in the vehicle and a receiving module arranged outside the vehicle, wherein the transmitting module comprises a power transmitting coil, the receiving module comprises a power receiving coil, the power transmitting coil is arranged on a vehicle window and is used for transmitting electric energy to the power receiving coil in a wireless mode, and the power receiving coil is used for being arranged on electric equipment outside the vehicle and is used for receiving the electric energy from the power transmitting coil in a wireless mode to supply power for the electric equipment outside the vehicle.
2. 2. The power supply apparatus of claim 1, wherein the transmitter module further comprises a first power supply controller, the power transmitter coil is electrically connected to the first power supply controller, and the first power supply controller is communicatively connected to a vehicle control system of the vehicle for regulating and controlling the power transmitted through the transmitter coil according to instructions of the vehicle control system.
3. 3. The power supply device for a vehicle according to claim 2, wherein the transmitting module further comprises a first power cord, a first end of the first power cord is electrically connected to the first power supply controller, a second end of the first power cord has a first connector, and the transmitting module is electrically connected to the power supply interface in the vehicle in a pluggable manner through the first connector.
4. 4. The power supply device for a vehicle according to claim 1, wherein the transmitting module is adhered to an inner surface of the window by an adhesive member, or The transmission module is provided with a sucker device, and the transmission module is adsorbed on the inner surface of the vehicle window through the sucker device.
5. 5. The vehicle power supply apparatus of claim 1, wherein said power transmitting coil and said power receiving coil are arranged in a spatially orthogonal manner.
6. 6. The power supply device for a vehicle according to any one of claims 1 to 5, wherein the receiving module further comprises a second power cord, a first end of the second power cord is electrically connected to the power receiving coil, a second end of the second power cord has a second connector, and the receiving module is electrically connected to the power interface of the external electric device in a pluggable manner through the second connector.
7. 7. A vehicle comprising the vehicle power supply device according to any one of claims 1 to 5.
8. 8. The vehicle of claim 7, wherein the powered device outside the vehicle has a power interface, the receiving module further comprises a second power cord, a first end of the second power cord is electrically connected to the power receiving coil, a second end of the second power cord has a second connector, and the receiving module is electrically connected to the power interface of the powered device outside the vehicle in a pluggable manner through the second connector.
9. 9. The vehicle of claim 7, wherein the power transmitting coil is mounted to an interior surface of a roof glass, and the off-board powered device comprises a roof mounted drone cabin or roof luggage, and wherein the power receiving coil is integrated in the drone cabin or the roof luggage.
10. 10. The vehicle of claim 9, wherein the unmanned aerial vehicle cabin or the roof luggage case comprises a second power supply controller and an execution unit for executing opening and closing, the power receiving coil is electrically connected with the second power supply controller, and the second power supply controller is electrically connected with the execution unit and is used for controlling the execution unit to execute the opening and closing operation of the unmanned aerial vehicle cabin or the roof luggage case.

Description

Vehicle power supply device and vehicle Technical Field The application relates to the technical field of vehicles, in particular to a vehicle power supply device and a vehicle. Background With the popularization of electric vehicles and intelligent vehicles, the demand for vehicle-mounted power systems is increasing. Sometimes, for example, when a driver drives in the field, the vehicle may be required to power off-board powered equipment. At present, the traditional vehicle power supply mode mainly depends on vehicle-mounted cable connection, when external electric equipment needs to supply power, a vehicle door or a vehicle window needs to be opened, and the cable is pulled out of the vehicle to be connected to the external electric equipment, so that power supply for the external electric equipment can be realized. However, this method has the problems of inconvenient power connection, complicated wiring, poor aesthetic property, etc. in practical application. Disclosure of utility model An object of an embodiment of the present application is to provide a vehicle power supply device and a vehicle, which can solve at least one technical problem mentioned in the above prior art. One aspect of an embodiment of the present application provides a vehicle power supply apparatus. The vehicle power supply device comprises a transmitting module arranged in a vehicle and a receiving module arranged outside the vehicle, wherein the transmitting module comprises a power transmitting coil, the receiving module comprises a power receiving coil, the power transmitting coil is arranged on a vehicle window and used for transmitting electric energy to the power receiving coil in a wireless mode, and the power receiving coil is used for being arranged on electric equipment outside the vehicle and used for receiving the electric energy from the power transmitting coil in a wireless mode to supply power to the electric equipment outside the vehicle. The power transmitting coil is electrically connected with the first power supply controller, and the first power supply controller is in communication connection with a vehicle control system of a vehicle and is used for adjusting and controlling electric energy transmitted through the transmitting coil according to instructions of the vehicle control system. Further, the transmitting module further comprises a first power line, a first end of the first power line is electrically connected with the first power supply controller, a second end of the first power line is provided with a first connector, and the transmitting module is electrically connected to the power supply interface in the vehicle in a pluggable mode through the first connector. Further, the transmitting module is adhered to the inner surface of the vehicle window through an adhesive piece, or a sucker device is arranged on the transmitting module, and the transmitting module is adsorbed to the inner surface of the vehicle window through the sucker device. Further, the power transmitting coil and the power receiving coil are arranged in a spatially orthogonal manner. Further, the receiving module further comprises a second power line, a first end of the second power line is electrically connected with the power receiving coil, a second connector is arranged at a second end of the second power line, and the receiving module is electrically connected to a power interface of the electric equipment outside the vehicle in a pluggable mode through the second connector. Another aspect of an embodiment of the application provides a vehicle. The vehicle comprises a vehicle power supply device as described above. Further, the electric equipment outside the vehicle is provided with a power interface, the receiving module further comprises a second power wire, the first end of the second power wire is electrically connected with the power receiving coil, the second end of the second power wire is provided with a second connector, and the receiving module is electrically connected to the power interface of the electric equipment outside the vehicle in a pluggable manner through the second connector. Further, the power transmitting coil is mounted on the inner surface of the roof glass, the electric equipment outside the vehicle comprises an unmanned aerial vehicle cabin or a roof luggage case mounted on the roof, and the power receiving coil is integrated in the unmanned aerial vehicle cabin or the roof luggage case. Further, the unmanned aerial vehicle cabin or the roof luggage case comprises a second power supply controller and an execution unit for executing opening and closing, the power receiving coil is electrically connected with the second power supply controller, and the second power supply controller is electrically connected with the execution unit and used for controlling the execution unit to execute the opening and closing operation of the unmanned aerial vehicle cabin or the roof luggage case. According to t