IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0920859
(2006-05-26)
|
등록번호 |
US-8735011
(2014-05-27)
|
우선권정보 |
JP-2005-154025 (2005-05-26) |
국제출원번호 |
PCT/JP2006/311037
(2006-05-26)
|
§371/§102 date |
20071121
(20071121)
|
국제공개번호 |
WO2006/126740
(2006-11-30)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- Toyota Jidosha Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
4 |
초록
▼
A fuel cell system is provided including heating means for heating up heat medium that exchanges heat with a fuel cell, and in which the fuel cell is warmed up by the heat medium heated by the heating means. The system includes: flow rate detecting means for detecting a flow rate of the heat medium
A fuel cell system is provided including heating means for heating up heat medium that exchanges heat with a fuel cell, and in which the fuel cell is warmed up by the heat medium heated by the heating means. The system includes: flow rate detecting means for detecting a flow rate of the heat medium flowing through the heating means; and heat controlling means for controlling the heating means based on the flow rate of the heat medium detected by the flow rate detecting means. With this arrangement, it is possible to prevent overheating of the heat medium in the fuel cell system in which the heat medium is heated to warm up the fuel cell.
대표청구항
▼
1. A fuel cell system comprising: a fuel cell that obtains electric power through electrochemical reaction;a temperature detecting device that detects a temperature of the fuel cell;a heat medium circulating path in which heat medium for exchanging heat with the fuel cell is circulated;a heat medium
1. A fuel cell system comprising: a fuel cell that obtains electric power through electrochemical reaction;a temperature detecting device that detects a temperature of the fuel cell;a heat medium circulating path in which heat medium for exchanging heat with the fuel cell is circulated;a heat medium pump for circulating the heat medium in the heat medium circulating path;a heat exchanging device that cools down the heat medium, the heat exchanging device being disposed on the heat medium circulating path;a heat exchanging device bypass in which the heat medium is circulated to bypass the heat exchanging device on the heat medium circulating path, wherein the heat exchanging device bypass is separate from, but in fluid communication with, the heat medium circulating path, the heat exchanging device bypass creating a flow path for the heat medium that does not include the heat exchanging device;a heat medium flow rate controlling device, which is programmed to control a flow rate of at least one of the heat medium flowing through the heat exchanging device bypass and the heat medium flowing through the heat medium circulating path, based on the temperature of the fuel cell detected by the temperature detecting device;a heating device that heats the heat medium, the heating device being disposed on the heat exchanging device bypass;a flow rate detecting device that detects a flow rate of the heat medium flowing through the heat exchanging device bypass, the flow rate detecting device being disposed on the heat exchanging device bypass; anda heat controlling device, which is programmed to control the heating device based on the flow rate of the heat medium detected by the flow rate detecting device. 2. The fuel cell system in accordance with claim 1, wherein the heat medium flow rate controlling performs controlling such that: if the temperature of the fuel cell detected by the temperature detecting device is lower than a first predetermined temperature, the flow rate of the heat medium flowing through the heat exchanging device bypass is made larger than the flow rate of the heat medium flowing through the heat medium circulating path on which the heat exchanging device is disposed, andif the temperature of the fuel cell detected by the temperature detecting device is equal to or higher than a second predetermined temperature, the flow rate of the heat medium flowing through the heat medium circulating path on which the heat exchanging device is disposed is made larger than the flow rate of the heat medium flowing through the heat exchanging device bypass. 3. A fuel cell system comprising: a fuel cell that obtains electric power through electrochemical reaction;a heat medium circulating path in which heat medium for exchanging heat with the fuel cell is circulated;a heat medium pump for circulating the heat medium in the heat medium circulating path;a heat exchanging device that cools down the heat medium, the heat exchanging device being disposed on the heat medium circulating path;a heat exchanging device bypass in which the heat medium is circulated to bypass the heat exchanging device on the heat medium circulating path, wherein the heat exchanging device bypass is separate from, but in fluid communication with, the heat medium circulating path, the heat exchanging device bypass creating a flow path for the heat medium that does not include the heat exchanging device;a heating device that heats the heat medium, the heating device being disposed on the heat exchanging device bypass;a flow rate detecting device that detects a flow rate of the heat medium flowing through the heat exchanging device bypass, the flow rate detecting device being disposed on the heat exchanging device bypass; anda heat controlling device, which is programmed to control that controls the heating device based on the flow rate of the heat medium detected by the flow rate detecting device. 4. The fuel cell system in accordance with claim 1, wherein the heat controlling device controls start and stop of the heating device based on the flow rate of the heat medium detected by the flow rate detecting device. 5. The fuel cell system in accordance with claim 1, wherein the flow rate detecting device detects a flow rate of the heat medium flowing through the heat exchanging device bypass according to a difference in pressure between the heat medium flowing into the heating device and the heat medium flowing out of the heating device. 6. The fuel cell system in accordance with claim 1, wherein the heat controlling device controls the heating device such that, if the flow rate of the heat medium detected by the flow rate detecting device is smaller than a predetermined flow rate, the heating device does not apply heating process to the heat medium. 7. The fuel cell system in accordance with claim 1, wherein the heat medium flow rate controlling device is a three-way valve, the three-way valve allowing the heat medium to flow through one of the heat medium circulating paths and the heat exchanging device bypass, based on the temperature of the fuel cell detected by the temperature detecting device. 8. The fuel cell system in accordance with claim 1, wherein the heat medium pump is a pump that is capable of adjusting the flow rate of the heat medium flowing through the heat medium circulating path, the pump adjusting the flow rate based on the temperature of the fuel cell detected by the temperature detecting device. 9. The fuel cell system in accordance with claim 1, wherein the heat exchanging device is a radiator, the radiator cooling down the heat medium flowing therethrough by causing the heat medium to exchange heat with outside air. 10. The fuel cell system in accordance with claim 1, wherein the heating device is an electric heater or a combustion-type heater. 11. The fuel cell system in accordance with claim 3, wherein the heat controlling device controls start and stop of the heating device based on the flow rate of the heat medium detected by the flow rate detecting device. 12. The fuel cell system in accordance with claim 3, wherein the flow rate detecting device detects a flow rate of the heat medium flowing through the heat exchanging device bypass according to a difference in pressure between the heat medium flowing into the heating device and the heat medium flowing out of the heating device. 13. The fuel cell system in accordance with claim 3, wherein the heat controlling device controls the heating device such that, if the flow rate of the heat medium detected by the flow rate detecting device is smaller than a predetermined flow rate, the heating device does not apply heating process to the heat medium. 14. The fuel cell system in accordance with claim 2, wherein the heat medium flow rate controlling device is a three-way valve, the three-way valve allowing the heat medium to flow through one of the heat medium circulating paths and the heat exchanging device bypass, based on the temperature of the fuel cell detected by the temperature detecting device. 15. The fuel cell system in accordance with claim 2, wherein the heat medium pump is a pump that is capable of adjusting the flow rate of the heat medium flowing through the heat medium circulating path, the pump adjusting the flow rate based on the temperature of the fuel cell detected by the temperature detecting device. 16. The fuel cell system in accordance with claim 3, wherein the heat exchanging device is a radiator, the radiator cooling down the heat medium flowing therethrough by causing the heat medium to exchange heat with outside air. 17. The fuel cell system in accordance with claim 3, wherein the heating device is an electric heater or a combustion-type heater. 18. The fuel cell system in accordance with claim 1, wherein the heat controlling device is programmed to control the heating device to be activated if the flow rate of the heat medium detected by the flow rate detecting device is greater or equal to a preset threshold. 19. The fuel cell system in accordance with claim 3, wherein the heat controlling device is programmed to control the heating device to be activated if the flow rate of the heat medium detected by the flow rate detecting device is greater or equal to a preset threshold.
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