IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0793970
(2004-12-23)
|
등록번호 |
US-8132547
(2012-03-13)
|
우선권정보 |
FR-03 15138 (2003-12-22) |
국제출원번호 |
PCT/FR2004/003360
(2004-12-23)
|
§371/§102 date |
20080730
(20080730)
|
국제공개번호 |
WO2006/070080
(2006-07-06)
|
발명자
/ 주소 |
- Guerrero, Pascal
- Jouanny, Philippe
- Ap, Ngy Srun
|
출원인 / 주소 |
- Valeo Systemes Thermiques
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
6 |
초록
▼
The inventive management system comprises a high-temperature circuit (12) provided with a high-temperature cooling radiator (20), a low-temperature circuit (14) provided with a low-temperature cooling radiator (30, 30a, 30b), wherein the same heat carrier fluid runs through said circuits. Said syste
The inventive management system comprises a high-temperature circuit (12) provided with a high-temperature cooling radiator (20), a low-temperature circuit (14) provided with a low-temperature cooling radiator (30, 30a, 30b), wherein the same heat carrier fluid runs through said circuits. Said system also comprises a radiator (36) assignable to first switching means (52) and to second switching means (54) for switching the system from a connected configuration, in which the assignable radiator (36) is connected to the low-temperature circuit (14), to a disconnected configuration, in which the assignable radiator is connected to the high-temperature circuit (12), and vice-versa. The switching means are sequentially actuated after a time-delay during switching from the disconnected configuration to the connected configuration and/or from the connected configuration to the disconnected configuration in order to minimize thermal shocks in the assignable cooling radiator (36).
대표청구항
▼
1. A thermal energy management system developed by an automotive vehicle thermal engine, comprising: a high-temperature circuit including the vehicle engine and a high-temperature cooling radiator;a low-temperature circuit including a low-temperature cooling radiator, wherein the high-temperature ci
1. A thermal energy management system developed by an automotive vehicle thermal engine, comprising: a high-temperature circuit including the vehicle engine and a high-temperature cooling radiator;a low-temperature circuit including a low-temperature cooling radiator, wherein the high-temperature circuit and the low-temperature circuit are run through by a same heat carrier fluid;an assignable cooling radiator;first switching means inserted between the high-temperature circuit and the assignable cooling radiator; andsecond switching means inserted between the low-temperature circuit and the assignable cooling radiator in order to switch the system from a connected configuration in which the assignable cooling radiator is connected to the low-temperature circuit, to a disconnected configuration, in which the assignable cooling radiator is connected to the high-temperature circuit, and conversely from the disconnected configuration to the connected configuration,wherein the first and second switching means are sequentially operated after a time delay during the passage from the disconnected configuration to the connected configuration and from the connected configuration to the disconnected configuration, in order to minimize thermal shocks. 2. The management system according to claim 1, further comprising: a high-temperature fluid input line that brings the heat carrier fluid from high-temperature circuit to assignable radiator;a high-temperature fluid output line that brings it back from assignable radiator to high-temperature circuit;a low-temperature fluid input line (44) that brings the heat carrier fluid from low-temperature circuit to assignable radiator; and a low-temperature fluid output line that brings it back from assignable radiator to low-temperature circuit,wherein the first and second switching means are respectively inserted on the high-temperature fluid input line and on the low-temperature fluid output line. 3. The management system according to claim 2, characterized in that low-temperature fluid output line (46) is linked to low-temperature circuit (14) upstream from a section (30a) of low-temperature radiator (30), third switching means (56) being mounted on the low-temperature circuit between beginning (58) of the low-temperature fluid input line and end (60) of the low-temperature fluid output line. 4. The management system according to claim 1, wherein the first and second switching means are controlled by a control unit, and at least one sensor supplying at least one control parameter representative of the cooling needs of the high-temperature circuit and the low-temperature circuit to the control unit. 5. The management system according to claim 4, wherein the control parameter is chosen among the group comprising at least the heat carrier fluid temperature at engine output, an engine load parameter, and a parameter for knowing the engine load status. 6. The management system according to claim 4, wherein the control unit uses a control flowchart that puts the system in the connected configuration as the vehicle starts up, reads the control parameter and compares the control parameter to a low-threshold value, wherein the system is maintained in connected configuration as long as the control parameter value read is lower than the low-threshold value. 7. The management system according to claim 6, wherein the control flowchart, after comparing the control parameter to a low-threshold value, compares the control parameter to a low-threshold value and places the system in the disconnected configuration when the control parameter value is higher than the low-threshold value. 8. The management system according to claim 7, wherein the control flowchart immediately controls the switching of first switching means after determining by comparison that the low-threshold control parameter value is lower than the low-threshold value, and second, controls the second switching means with a first time-delay (T1), and third, switches the third switching means with a second time-delay (T2) higher than the first time-delay (T1). 9. The management system according to claim 6, wherein the control flowchart immediately controls the switching of the first, second, and third switching means after determining by comparison that the low-threshold control parameter value is higher than the low-threshold value. 10. The management system according to claim 6, wherein the control flowchart immediately controls the switching of the third switching means after determining by comparison that the low-threshold control parameter value is higher than the low-threshold value, and second, controls the switching of the second switching means with a first time-delay (T1), and third, controls the switching of time-delay (T2) greater than the first time-delay (T1). 11. The management system according to claim 1, wherein the first and second switching means are two-ways electrovalves. 12. The management system according to claim 1, wherein the high-temperature radiator and the assignable cooling radiator are realized as a unique exchanger divided into a high-temperature cooling section and an assignable cooling section. 13. The management system according to claim 1, wherein the low-temperature circuit includes a water-cooled condenser which is part of an air-conditioning circuit and a water cooled supercharging air radiator. 14. The management system according to claim 1, wherein the low-temperature radiator is divided in a first and a second cooling passes.
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