IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0532440
(2012-06-25)
|
등록번호 |
US-8800502
(2014-08-12)
|
우선권정보 |
KR-10-2011-0132284 (2011-12-09) |
발명자
/ 주소 |
- Choi, Yong Hyun
- Kim, Yong Chul
- Park, June Kyu
- Park, Jungha
- Park, Man Hee
- Lee, Ki-hyung
- Son, Jung-wook
|
출원인 / 주소 |
|
대리인 / 주소 |
Morgan, Lewis & Bockius LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
5 |
초록
▼
A heat storage device of a vehicle may include an insulation container, a coolant passage connected to an engine, a heat exchanger having a fin formed on the coolant passage inside the insulation container, a phase change material charged in the insulation container to exchange heat with flowing coo
A heat storage device of a vehicle may include an insulation container, a coolant passage connected to an engine, a heat exchanger having a fin formed on the coolant passage inside the insulation container, a phase change material charged in the insulation container to exchange heat with flowing coolant, a phase change material temperature sensor, a pressure sensor, an engine coolant temperature sensor, and a control portion that circulates the coolant according to the driving condition of the engine and the coolant temperature such that the coolant exchanges heat with the phase change material. Accordingly, fuel for warming an engine or heating an interior room is reduced, a separate heating device or a warm up device such as a PTC heater can be replaced, quality of the exhaust gas is quickly improved, and there is a merit in overcoming environmental regulations.
대표청구항
▼
1. A heat storage device of a vehicle, comprising: an insulation container in which an outlet and an inlet are formed;a coolant passage disposed to penetrate the inlet and the outlet, wherein opposing ends of the coolant passage are fluidly connected to coolant outlets of a vehicle engine;a heat exc
1. A heat storage device of a vehicle, comprising: an insulation container in which an outlet and an inlet are formed;a coolant passage disposed to penetrate the inlet and the outlet, wherein opposing ends of the coolant passage are fluidly connected to coolant outlets of a vehicle engine;a heat exchanger that includes a fin formed on the coolant passage inside the insulation container;a phase change material that is charged in the insulation container to exchange heat with coolant flowing in the coolant passage through the fin;a phase change material temperature sensor that detects a temperature of the phase change material within the insulation container;a pressure sensor that detects a pressure inside the insulation container;an engine coolant temperature sensor that detects a temperature of coolant circulating in the engine; anda control portion that circulates the coolant through the coolant passage according to a driving condition of the engine and the coolant temperature such that the coolant exchanges heat with the phase change material;wherein a bypass line is fluidly connected to the coolant passage to bypass the insulation container, and an inlet valve and an outlet valve are disposed to divert coolant passage around the insulation container; andwherein an outlet temperature sensor is disposed downstream of the outlet valve to detect a temperature of coolant exhausted through the outlet of the insulation container, and an inlet temperature sensor is disposed upstream of the inlet valve to detect a temperature of coolant that flows therein through the inlet of the insulation container. 2. The heat storage device of a vehicle of claim 1, further comprising: a heater core that uses coolant flowing in the coolant passage to heat an interior compartment; anda heater core supply valve that selectively supplies coolant from the coolant passage to the heater core. 3. The heat storage device of a vehicle of claim 2, wherein if the temperature of the engine coolant detected by the engine coolant temperature sensor is less than a first predetermined value, the control portion determines that it is in a cold state, closes the heater core supply valve, and controls the inlet valve and the outlet valve such that the coolant of the coolant passage flows through the heat exchanger to be heated by the phase change material. 4. The heat storage device of a vehicle of claim 2, wherein if the coolant temperature of the engine detected by the engine coolant temperature sensor is between the first predetermined value and a second predetermined value, the control portion determines that it is in a warm-up middle condition, opens the heater core supply valve, and control the inlet valve and the outlet valve to heat the coolant by using the heat of the heater core. 5. The heat storage device of a vehicle of claim 2, wherein if the coolant temperature of the engine detected by the engine coolant temperature sensor reaches the second predetermined value, the control portion determines that it is in a warm-up condition, opens the heater core supply valve, and controls the inlet valve and the outlet valve such that the coolant of the coolant passage flows in the bypass line. 6. The heat storage device of a vehicle of claim 2, wherein if the coolant temperature of the engine detected by the engine coolant temperature sensor reaches a third predetermined value higher than the second predetermined value, the control portion determines that it is in an overly warm condition, opens the heater core supply valve, and controls the inlet valve and the outlet valve such that the coolant of the coolant passage flows in the heat exchanger to make the coolant heat the phase change material. 7. The heat storage device of a vehicle of claim 2, wherein if the engine is turned off, the control portion controls the inlet valve and the outlet valve such that the heat energy stored in the phase change material cannot be exhausted outside through the coolant. 8. The heat storage device of a vehicle of claim 1, wherein the control portion enters into a failsafe mode when the difference between the coolant temperature detected by the inlet temperature sensor and the coolant temperature detected by the outlet temperature sensor is less than a predetermined value based on the temperature of the phase change material detected by the phase change material temperature sensor. 9. The heat storage device of a vehicle of claim 8, wherein if the control portion enters into a failsafe mode, the control portion lights an emergency lamp of a cluster and controls the inlet valve and the outlet valve such that the coolant is not supplied to the coolant passage inside the insulation container but is supplied to the bypass line. 10. The heat storage device of a vehicle of claim 1, wherein the control portion enters into a failsafe mode if the rising speed of the temperature of the phase change material detected by the phase change material temperature sensor exceeds a predetermined value, or the rising speed of the pressure of the phase change material detected by the pressure sensor exceeds a predetermined value. 11. The heat storage device of a vehicle of claim 10, wherein if the control portion enters into a failsafe mode, the control portion lights an emergency lamp of a cluster and controls the inlet valve and the outlet valve such that the coolant is not supplied to the coolant passage inside the insulation container but is supplied to the bypass line. 12. The heat storage device of a vehicle of claim 1, wherein the control portion enters into a failsafe mode if the temperature of the phase change material detected by the phase change material temperature sensor is less than a predetermined value. 13. The heat storage device of a vehicle of claim 12, wherein if the control portion enters into a failsafe mode, the control portion lights an emergency lamp of a cluster and controls the inlet valve and the outlet valve such that the coolant is not supplied to the coolant passage inside the insulation container but is supplied to the bypass line. 14. The heat storage device of a vehicle of claim 1, wherein the control portion enters into a failsafe mode if the variation speed of the temperature of the phase change material detected by the phase change material temperature sensor exceeds a predetermined value, or the variation speed of the pressure of the phase change material detected by the phase change material pressure sensor exceeds a predetermined value. 15. The heat storage device of a vehicle of claim 14, wherein if the control portion enters into a failsafe mode, the control portion lights an emergency lamp of a cluster and controls the inlet valve and the outlet valve such that the coolant is not supplied to the coolant passage inside the insulation container but is supplied to the bypass line.
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