IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0906671
(2005-03-01)
|
등록번호 |
US-8241097
(2012-08-14)
|
발명자
/ 주소 |
- Zhu, Douglas
- Maguire, Patrick
- Taenaka, Bob
|
출원인 / 주소 |
- Ford Global Technologies, LLC
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
8 |
초록
▼
An environmental control system for a battery in a vehicle includes an air intake for receiving ambient air from outside the vehicle. A duct system provides communication between the air intake and the battery. The duct system includes a movable door which can facilitate or inhibit movement of air b
An environmental control system for a battery in a vehicle includes an air intake for receiving ambient air from outside the vehicle. A duct system provides communication between the air intake and the battery. The duct system includes a movable door which can facilitate or inhibit movement of air between the air intake and the battery. An air outlet facilitates air flow from the duct system to the ambient environment outside the vehicle. A fan cooperates with the duct system for moving the air through a heat exchanger in the duct system and across the battery. A control system controls operation of the fan and the movable door, and is configured to determine whether the battery environment requires fresh air or recirculated air.
대표청구항
▼
1. A method for controlling an environment for a battery in a vehicle, the vehicle including a transmission and an air conditioning system for the battery, the method comprising: executing a first battery environment control strategy, including determining at least one vehicle operating condition;ve
1. A method for controlling an environment for a battery in a vehicle, the vehicle including a transmission and an air conditioning system for the battery, the method comprising: executing a first battery environment control strategy, including determining at least one vehicle operating condition;ventilating the battery environment with air from an ambient environment outside the vehicle when the execution of the first battery environment control strategy indicates that the battery environment requires ventilation;executing a second battery environment control strategy when the first battery environment control strategy does not indicate that the battery environment requires ventilation, the second battery environment control strategy including at least one of determining a transmission gear and determining whether the battery air conditioning system is operating;recirculating air around the battery when the second battery control strategy indicates that exchange of air from around the battery with air from the ambient environment outside the vehicle should be inhibited; andexecuting a third battery environment control strategy when the second battery environment control strategy does not indicate that the exchange of air from around the battery with air from the ambient environment outside the vehicle should be inhibited, the execution of the third battery environment control strategy including determining a temperature of the battery and a temperature of the ambient environment outside the vehicle, and effecting a battery environment control based at least in part on the temperature of the battery and the temperature of the ambient environment outside the vehicle. 2. The method of claim 1, wherein the third battery environment control strategy further includes: determining a temperature difference between the temperature of the battery and the temperature of the ambient environment outside the vehicle; andcooling the battery environment with air from the ambient environment outside the vehicle when the temperature of the battery is greater than a first predetermined temperature and the temperature difference is greater than a second predetermined temperature. 3. The method of claim 1, wherein determining the at least one vehicle operating condition includes at least one of determining whether the battery is in a reconditioning state, whether one or more anomalies exist in the battery, and whether the battery state of charge is greater than a first predetermined charge level. 4. The method of claim 3, wherein execution of the first battery environment control strategy indicates that the battery environment requires ventilation when the battery state of charge is greater than a first predetermined charge level. 5. The method of claim 3, wherein execution of the second battery environment control strategy further includes determining a current transmission gear, and recirculating air around the battery when it is determined that the transmission is in a park or neutral gear. 6. The method of claim 3, wherein execution of the second battery environment control strategy further includes determining whether the battery air conditioning system is operating to cool the battery, and recirculating air around the battery when it is determined that the battery air conditioning system is operating to cool the battery. 7. An environmental control system for a battery in a vehicle including a transmission, the system comprising: an air intake for receiving air from an ambient environment outside the vehicle;a duct system capable of providing communication between the air intake and the battery, the duct system including a first door movable between a first position for facilitating movement of air between the air intake and the battery, and a second position for inhibiting movement of air between the air intake and the battery;an air outlet configured to facilitate air flow from the duct system to the ambient environment outside the vehicle, the duct system further including a second door movable between a first position for facilitating movement of air between the battery and the air outlet, and a second position for inhibiting movement of air between the battery and the air outlet;a fan cooperating with the duct system for moving air through at least a portion of the duct system and across the battery; anda control system including at least one controller and configured to control operation of the fan and the first door, and to determine independently of temperature whether the battery environment requires ventilation, the control system being further configured to:command the first door into the first position and to operate the fan, thereby moving air in through the air intake, across the battery, and out through the air outlet when it is determined that the battery environment requires ventilation, andreceive at least one signal related to the transmission gear, and to command the second door into the second position when the transmission is in a park or neutral gear and the battery environment does not require ventilation. 8. The environmental control system of claim 7, wherein the control system determination of whether the battery environment requires ventilation includes at least one of the control system determining whether the battery is in a reconditioning state, whether one or more anomalies exist in the battery, and whether the battery state of charge is greater than a first predetermined charge level. 9. The environmental control system of claim 7, the vehicle further including a battery air conditioning system, wherein the control system is further configured to determine whether the battery air conditioning system is operating to cool the battery, and to command the first and second doors into their respective second positions when the transmission is in a forward or reverse gear, the battery air conditioning system is operating to cool the battery, and the battery environment does not require ventilation. 10. The environmental control system of claim 9, further comprising: a sensor for determining a temperature of the battery and for sending a signal to the control system related to the battery temperature; anda sensor for determining a temperature of the ambient environment outside the vehicle and for sending a signal to the control system related to the temperature of the ambient environment outside the vehicle, andwherein the control system is further configured to:a) determine a first temperature difference defined as the difference between the battery temperature and the temperature of the ambient environment outside the vehicle,b) command the first and second doors into their respective first positions, andc) operate the fan, thereby moving air in through the air intake, across the battery, and out through the air outlet, when the temperature of the battery is greater than a first predetermined temperature, the first temperature difference is greater than a second predetermined temperature, the transmission is in a forward or reverse gear, and the battery air conditioning system is not operating to cool the battery. 11. The environmental control system of claim 10, wherein the control system is further configured to inhibit operation of the fan when the temperature of the battery is within a first predetermined temperature range, and the battery environment does not require ventilation. 12. The environmental control system of claim 7, wherein the duct system further includes a second door movable between a first position for facilitating movement of air between the battery and the air outlet, and a second position for inhibiting movement of air between the battery and the air outlet, wherein the control system is further configured to: a) receive at least one signal indicating whether the vehicle is in a key-off mode,b) command the first and second doors into their respective first positions and operate the fan for a predetermined time, thereby moving air in through the air intake, across the battery, and out through the air outlet, when it is determined that the battery environment requires ventilation and the vehicle is in the key-off mode, andc) command the first and second doors into their respective second positions and stop operation of the fan when the predetermined time has elapsed.
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