IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0911881
(2004-08-05)
|
우선권정보 |
JP-2003-287094(2003-08-05) |
발명자
/ 주소 |
- Yoshida,Makoto
- Oomura,Mitsuyo
- Homan,Toshinobu
- Honda,Keita
- Kishita,Hiroshi
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
13 인용 특허 :
10 |
초록
▼
In a battery cooling system that cools a battery by using conditioned air (inside air of a passenger compartment) of a vehicle air conditioner, a battery control unit controls a battery blower to increase an air amount supplied to the battery when a predetermined condition is satisfied. In contrast
In a battery cooling system that cools a battery by using conditioned air (inside air of a passenger compartment) of a vehicle air conditioner, a battery control unit controls a battery blower to increase an air amount supplied to the battery when a predetermined condition is satisfied. In contrast, an air-conditioning control unit decreases a compression capacity of a compression device after an air amount supplied to the battery is increased to a predetermined amount by the battery control unit. For example, the air-conditioning control unit decreases the compression capacity of the compression device after a predetermined time passes after the air amount supplied to the battery is increased to the predetermined amount. Accordingly, the temperature inside the passenger compartment and the compression device can be stably controlled.
대표청구항
▼
What is claimed is: 1. A battery cooling system for cooling a battery mounted on a vehicle by using conditioned air of an air conditioner, the air conditioner comprising: a compression device for compressing refrigerant, the compression device disposed to control a compression capacity; an air cond
What is claimed is: 1. A battery cooling system for cooling a battery mounted on a vehicle by using conditioned air of an air conditioner, the air conditioner comprising: a compression device for compressing refrigerant, the compression device disposed to control a compression capacity; an air conditioning case for defining an air passage through which air flows, the air conditioning case having an air outlet portion from which air is blown into a passenger compartment of the vehicle; a cooling heat exchanger for cooling air by using refrigerant from the compression device, the cooling heat exchanger being disposed in the air conditioning case upstream from the air outlet portion; and an air-conditioning control unit which controls a cooling capacity of the cooling heat exchanger by controlling a compression capacity of the compression device, the battery cooling system comprising: a battery case for accommodating the battery, the battery case having an air supply passage through which air inside the passenger compartment is introduced to be supplied to the battery; a blower disposed in the battery case for blowing air introduced into the air supply passage to the battery; and a battery control unit which controls the blower to increase an air amount supplied to the battery when a predetermined condition is satisfied, wherein the air-conditioning control unit decreases the compression capacity of the compression device after the air amount supplied to the air supply passage of the battery case is increased to a predetermined amount. 2. The battery cooling system according to claim 1, wherein the battery case includes at least one of an air circulation passage through which air after cooling the battery returns to the passenger compartment, and an air discharge passage through which air after cooling the battery is discharged outside of the passenger compartment. 3. The battery cooling system according to claim 1, wherein the air-conditioning control unit decreases the compression capacity of the compression device after a predetermined time passes after the air amount supplied to the air supply passage of the battery case is increased to the predetermined amount. 4. The battery cooling system according to claim 1, wherein: the air conditioner includes an inside air temperature detecting unit for detecting a temperature inside the passenger compartment; the predetermined condition is satisfied when the temperature detected by the inside air temperature detecting unit is lower than a first predetermined temperature; and the air-conditioning control unit decreases the compression capacity of the compression device when the temperature detected by the inside air temperature detecting unit becomes lower than a second predetermined temperature that is lower than the first predetermined temperature. 5. The battery cooling system according to claim 4, wherein the battery control unit controls the blower to decrease the air amount supplied to the battery when the temperature detected by the inside air temperature detecting unit is higher than the first predetermined temperature. 6. The battery cooling system according to claim 1, wherein: the air-conditioning control unit includes a target temperature calculation means for calculating a target temperature of air to be blown into the passenger compartment; the predetermined condition is satisfied when the target temperature calculated by the target temperature calculation means is higher than a first predetermined temperature; and the air-conditioning control unit decreases the compression capacity of the compression device when the calculated target temperature is higher than a second predetermined temperature that is higher than the first predetermined temperature. 7. The battery cooling system according to claim 6, wherein the battery control unit controls the blower to decrease the air amount supplied to the battery when the calculated target temperature is lower than the first predetermined temperature. 8. A vehicle apparatus comprising: an air conditioner for performing air conditioning of a passenger compartment of the vehicle, the air conditioner including a compression device for compressing refrigerant, the compression device disposed to control a compression capacity, a refrigerant radiator for cooling the refrigerant discharged from the compressor, a decompression device for decompressing refrigerant from the refrigerant radiator, an air conditioning case for defining an air passage through which air flows, the air conditioning case having an air outlet portion from which air is blown into the passenger compartment of the vehicle, a cooling heat exchanger for cooling air by using refrigerant from the decompression device, the cooling heat exchanger being disposed in the air conditioning case upstream from the air outlet portion, and an air-conditioning control unit which controls a cooling capacity of the cooling heat exchanger by controlling a compression capacity of the compression device; and the battery cooling system for cooling a battery mounted on the vehicle, the battery cooling system including a battery case for accommodating the battery, the battery case having an air supply passage through which air inside the passenger compartment is introduced to be supplied to the battery, a blower disposed in the battery case for blowing air introduced into the air supply passage to the battery, and a battery control unit which controls the blower to increase an air amount supplied to the battery when a predetermined condition is satisfied, wherein the air-conditioning control unit decreases the compression capacity of the compression device after the air amount supplied to the air supply passage of the battery case is increased to a predetermined amount. 9. The vehicle apparatus according to claim 8, wherein the battery case includes at least one of an air circulation passage through which air after cooling the battery returns to the passenger compartment, and an air discharge passage through which air after cooling the battery is discharged outside of the passenger compartment. 10. The vehicle apparatus according to claim 8, wherein the air-conditioning control unit decreases the compression capacity of the compression device after a predetermined time passes after the air amount supplied to the air supply passage of the battery case is increased to the predetermined amount. 11. The vehicle apparatus according to claim 8, wherein: the air conditioner includes an inside air temperature detecting unit for detecting a temperature inside the passenger compartment; the predetermined condition is satisfied when the temperature detected by the inside air temperature detecting unit is lower than a first predetermined temperature; and the air-conditioning control unit decreases the compression capacity of the compression device when the temperature detected by the inside air temperature detecting unit becomes lower than a second predetermined temperature that is lower than the first predetermined temperature. 12. The vehicle apparatus according to claim 8, wherein: the air-conditioning control unit includes a target temperature calculation means for calculating a target temperature of air to be blown into the passenger compartment; the predetermined condition is satisfied when the target temperature calculated by the target temperature calculation means is higher than a first predetermined temperature; and the air-conditioning control unit decreases the compression capacity of the compression device when the calculated target temperature is higher than a second predetermined temperature that is higher than the first predetermined temperature. 13. The vehicle apparatus according to claim 8, wherein: the air conditioner includes an inside air temperature detecting unit for detecting a temperature inside the passenger compartment; the air-conditioning control unit includes a target temperature calculation means for calculating a target temperature of air to be blown into the passenger compartment; the predetermined condition is satisfied when the temperature detected by the inside air temperature detecting unit is lower than a first predetermined inside air temperature or when the calculated target temperature is higher than a first predetermined target temperature; and the air-conditioning control unit decreases the compression capacity of the compression device when the temperature detected by the inside air temperature detecting unit becomes lower than a second predetermined inside air temperature that is lower than the first predetermined inside air temperature, or when the calculated target temperature is higher than a second predetermined target temperature that is higher than the first predetermined target temperature. 14. The vehicle apparatus according to claim 13, wherein the battery control unit controls the blower to decrease the air amount supplied to the battery when the temperature detected by the inside air temperature detecting unit is higher than the first predetermined inside air temperature or when the calculated target temperature is lower than the first predetermined target temperature. 15. The vehicle apparatus according to claim 8, wherein the battery is used as a driving source of an electrical motor that is operated for a vehicle traveling.
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