AUTOMOBILE BATTERY THERMAL MANAGEMENT SYSTEM, AUTOMOBILE THERMAL MANAGEMENT SYSTEM, AND ELECTRIC AUTOMOBILE

Abstract

A vehicle battery thermal management system includes a heat conducting element connected to a vehicle air conditioning system and a self-heating circuit connected to a vehicle power battery. The heat conducting element, a compressor of the vehicle air conditioning system, and an outdoor condenser of the vehicle air conditioning system form a battery refrigeration loop, and the battery refrigeration loop absorbs heat from the vehicle power battery through a refrigerant in the heat conducting element to cool down the vehicle power battery. The self-heating circuit and the vehicle power battery form a battery self-heating loop, and the self-heating circuit is configured to control the vehicle power battery to perform high-frequency alternating charging and discharging for self-heating in the battery self-heating loop.

Description

Claims

1-10. (canceled)

11. A vehicle battery thermal management system, comprising a heat conducting element connected to a vehicle air conditioning system and a self-heating circuit connected to a vehicle power battery, wherein the heat conducting element, a compressor of the vehicle air conditioning system, and an outdoor condenser of the vehicle air conditioning system form a battery refrigeration loop, and the battery refrigeration loop absorbs heat from the vehicle power battery through a refrigerant in the heat conducting element to cool down the vehicle power battery; andthe self-heating circuit and the vehicle power battery form a battery self-heating loop, and the self-heating circuit is configured to control the vehicle power battery to perform high-frequency alternating charging and discharging for self-heating in the battery self-heating loop.

12. The vehicle battery thermal management system according to claim 11, wherein the heat conducting element comprises a cooling plate integrated in the vehicle power battery.

13. A vehicle thermal management system, comprising a vehicle air conditioning system and a vehicle battery thermal management system, wherein the vehicle battery thermal management system comprises a heat conducting element connected to the vehicle air conditioning system and a self-heating circuit connected to a vehicle power battery, wherein the heat conducting element, a compressor of the vehicle air conditioning system, and an outdoor condenser of the vehicle air conditioning system form a battery refrigeration loop, and the battery refrigeration loop absorbs heat from the vehicle power battery through a refrigerant in the heat conducting element to cool down the vehicle power battery; andthe self-heating circuit and the vehicle power battery form a battery self-heating loop, and the self-heating circuit is configured to control the vehicle power battery to perform high-frequency alternating charging and discharging for self-heating in the battery self-heating loop; andthe vehicle air conditioning system comprises the compressor, the outdoor condenser, and an evaporator, wherein an outlet of the compressor is connected with an inlet of the outdoor condenser, and an outlet of the outdoor condenser is connected with an inlet of the evaporator and an inlet of the heat conducting element;an outlet of the evaporator and an outlet of the heat conducting element are connected with an inlet of the compressor; andthe compressor, the outdoor condenser, and the evaporator form a passenger compartment refrigeration loop, and the passenger compartment refrigeration loop cools a passenger compartment through the evaporator in the passenger compartment.

14. The vehicle thermal management system according to claim 13, wherein the vehicle air conditioning system further comprises a first expansion valve and a second expansion valve for reducing refrigerant pressure; an inlet of the first expansion valve and an inlet of the second expansion valve are both connected with the outlet of the outdoor condenser; and an outlet of the first expansion valve is connected with the inlet of the evaporator, and an outlet of the second expansion valve is connected with the inlet of the heat conducting element.

15. The vehicle thermal management system according to claim 13, wherein the vehicle air conditioning system further comprises an electronic fan installed on a vehicle body and opposite to the outdoor condenser.

16. The vehicle thermal management system according to claim 13, wherein the vehicle air conditioning system further comprises a liquid collector; an inlet of the liquid collector is connected with the outlet of the heat conducting element and the outlet of the evaporator; and an outlet of the liquid collector is connected with the inlet of the compressor.

17. The vehicle thermal management system according to claim 13, wherein the vehicle air conditioning system further comprises an indoor condenser, a first solenoid valve, and a third expansion valve, wherein an inlet of the indoor condenser and an inlet of the first solenoid valve are both connected with the outlet of the compressor, and an outlet of the first solenoid valve is connected with the inlet of the outdoor condenser;an outlet of the indoor condenser is connected with the inlet of the outdoor condenser through the third expansion valve;the compressor, the indoor condenser, the outdoor condenser, and the heat conducting element form a first passenger compartment heating loop; andthe first passenger compartment heating loop absorbs the heat from the vehicle power battery through the refrigerant in the heat conducting element, transfers the absorbed heat to the indoor condenser through the compressor, and heats the passenger compartment through the indoor condenser in the passenger compartment.

18. The vehicle thermal management system according to claim 17, wherein the vehicle air conditioning system further comprises a second solenoid valve, wherein an inlet of the second solenoid valve is connected with the outlet of the outdoor condenser, and an outlet of the second solenoid valve is connected with the inlet of the compressor; andthe compressor, the indoor condenser, the third expansion valve, the outdoor condenser, and the second solenoid valve form a second passenger compartment heating loop, and the second passenger compartment heating loop heats the passenger compartment through the indoor condenser.

19. The vehicle thermal management system according to claim 13, wherein the vehicle air conditioning system further comprises a heater disposed on the vehicle body and configured to heat the passenger compartment.

20. The vehicle thermal management system according to claim 13, wherein the heat conducting element comprises a cooling plate integrated in the vehicle power battery.

21. An electric vehicle, comprising a vehicle thermal management system comprising a vehicle air conditioning system and a vehicle battery thermal management system, wherein the vehicle battery thermal management system comprises a heat conducting element connected to the vehicle air conditioning system and a self-heating circuit connected to a vehicle power battery, wherein the heat conducting element, a compressor of the vehicle air conditioning system, and an outdoor condenser of the vehicle air conditioning system form a battery refrigeration loop, and the battery refrigeration loop absorbs heat from the vehicle power battery through a refrigerant in the heat conducting element to cool down the vehicle power battery; andthe self-heating circuit and the vehicle power battery form a battery self-heating loop, and the self-heating circuit is configured to control the vehicle power battery to perform high-frequency alternating charging and discharging for self-heating in the battery self-heating loop; andthe vehicle air conditioning system comprises the compressor, the outdoor condenser, and an evaporator, wherein an outlet of the compressor is connected with an inlet of the outdoor condenser, and an outlet of the outdoor condenser is connected with an inlet of the evaporator and an inlet of the heat conducting element;an outlet of the evaporator and an outlet of the heat conducting element are connected with an inlet of the compressor; andthe compressor, the outdoor condenser, and the evaporator form a passenger compartment refrigeration loop, and the passenger compartment refrigeration loop cools a passenger compartment through the evaporator in the passenger compartment.

22. The electric vehicle according to claim 21, wherein the vehicle air conditioning system further comprises a first expansion valve and a second expansion valve for reducing refrigerant pressure; an inlet of the first expansion valve and an inlet of the second expansion valve are both connected with the outlet of the outdoor condenser; and an outlet of the first expansion valve is connected with the inlet of the evaporator, and an outlet of the second expansion valve is connected with the inlet of the heat conducting element.

23. The electric vehicle according to claim 21, wherein the vehicle air conditioning system further comprises an electronic fan installed on a vehicle body and opposite to the outdoor condenser.

24. The electric vehicle according to claim 21, wherein the vehicle air conditioning system further comprises a liquid collector; an inlet of the liquid collector is connected with the outlet of the heat conducting element and the outlet of the evaporator; and an outlet of the liquid collector is connected with the inlet of the compressor.

25. The electric vehicle according to claim 21, wherein the vehicle air conditioning system further comprises an indoor condenser, a heater, a first solenoid valve, a second solenoid valve, and a third expansion valve, wherein an inlet of the indoor condenser and an inlet of the first solenoid valve are both connected with the outlet of the compressor, and an outlet of the first solenoid valve is connected with the inlet of the outdoor condenser;an outlet of the indoor condenser is connected with the inlet of the outdoor condenser through the third expansion valve;an inlet of the second solenoid valve is connected with the outlet of the outdoor condenser, and an outlet of the second solenoid valve is connected with the inlet of the compressor;the compressor, the indoor condenser, the outdoor condenser, and the heat conducting element form a first passenger compartment heating loop, the first passenger compartment heating loop absorbs the heat from the vehicle power battery through the refrigerant in the heat conducting element, transfers the absorbed heat to the indoor condenser through the compressor, and heats the passenger compartment through the indoor condenser in the passenger compartment;the compressor, the indoor condenser, the third expansion valve, the outdoor condenser, and the second solenoid valve form a second passenger compartment heating loop, and the second passenger compartment heating loop heats the passenger compartment through the indoor condenser;the heater is disposed on the vehicle body and configured to heat the passenger compartment; andthe heat conducting element comprises a cooling plate integrated in the vehicle power battery.