Blower assembly for a vehicle air conditioning unit and method for operating a vehicle air conditioning unit
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60H-001/00
B60H-001/24
출원번호
US-0381104
(2013-02-28)
등록번호
US-10059171
(2018-08-28)
우선권정보
DE-10 2012 004 655 (2012-03-02)
국제출원번호
PCT/EP2013/054001
(2013-02-28)
국제공개번호
WO2013/127903
(2013-09-06)
발명자
/ 주소
Gesell, Bodo
출원인 / 주소
Valeo Klimasysteme GmbH
대리인 / 주소
Howard & Howard Attorneys PLLC
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A blower assembly for a vehicle air conditioning unit includes a first air flow duct having a first blower and a second air flow duct having a second blower. A fresh-air inlet opening is arranged in the first air flow duct and a recirculated-air inlet opening is arranged in the second air flow duct.
A blower assembly for a vehicle air conditioning unit includes a first air flow duct having a first blower and a second air flow duct having a second blower. A fresh-air inlet opening is arranged in the first air flow duct and a recirculated-air inlet opening is arranged in the second air flow duct. A distribution chamber is downstream of the first and second air flow ducts and an air cooling unit and a bypass duct bypassing the air cooling unit are downstream of the distribution chamber. A bypass flap is in the distribution chamber for directing at least a part of the air flow in the first air flow duct to the air cooling unit and/or to the bypass duct with substantially all of the air flow in the first air flow duct directed into the bypass duct in one position of the bypass flap.
대표청구항▼
1. A blower assembly (10) for a vehicle air conditioning unit, the blower assembly (10) comprising: a first air flow duct (12), in which a first blower (14) is arranged,a second air flow duct (16), in which a second blower (18) is arranged,wherein the first air flow duct (12) comprises a fresh-air i
1. A blower assembly (10) for a vehicle air conditioning unit, the blower assembly (10) comprising: a first air flow duct (12), in which a first blower (14) is arranged,a second air flow duct (16), in which a second blower (18) is arranged,wherein the first air flow duct (12) comprises a fresh-air inlet opening (20) upstream of the first blower (14) and the second air flow duct (16) comprises a recirculated-air inlet opening (26) upstream of the second blower (18),a distribution chamber (39) located downstream of the first and second air flow ducts (12, 16),an air cooling unit (40) and a bypass duct (42) bypassing the air cooling unit (40) located downstream of the distribution chamber (39), anda bypass flap (44) arranged in the distribution chamber (39), with the bypass flap (44) directing at least a part of the air flow in the first air flow duct (12) to the air cooling unit (40) and/or to the bypass duct (42),wherein the bypass flap (44) directs substantially all of the air flow in the first air flow duct (12) into the bypass duct (42) in one position of the bypass flap (44), further comprising a closable transfer opening (30) which forms a connection between the first and second air flow ducts (12, 16) when the closable transfer opening (30) is open, further comprising a flap system (32) which controls a flow of fresh air through the fresh-air inlet opening (20) into the first air flow duct (12), a flow of recirculated air through the recirculated-air inlet opening (26) into the second air flow duct (16) and a flow of transfer air between the two air flow ducts (12, 16) through the transfer opening (30), wherein the flap system (32) has a fresh-air flap (34) at the fresh-air inlet opening (20), a recirculated-air flap (36) at the recirculated-air inlet opening (26) and/or a transfer flap (38) at the transfer opening (30), and wherein the flap system (32) has a common flap (48) for at least two openings which is different than the fresh-air flap (34) and the recirculated-air flap (36). 2. The blower assembly (10) as claimed in claim 1, characterized in that a filter (24) is provided between the fresh-air inlet opening (20) and the first blower (14) in the first air flow duct (12) a filter (28) is provided between the recirculated-air inlet opening (26) and the second blower (18) in the second air flow duct (16). 3. The blower assembly (10) as claimed in claim 2, wherein the two filters (24, 28) are formed by a common filter element or by individual filter elements. 4. The blower assembly (10) as claimed in claim 1, wherein the first and second blowers (14, 18) are in the form of a twin blower. 5. A vehicle air conditioning unit (100) having a blower assembly (10) as claimed in claim 1. 6. A blower assembly (10) for a vehicle air conditioning unit, the blower assembly (10) comprising: a first air flow duct (12), in which a first blower (14) is arranged,a second air flow duct (16), in which a second blower (18) is arranged,wherein the first air flow duct (12) comprises a fresh-air inlet opening (20) upstream of the first blower (14) and the second air flow duct (16) comprises a recirculated-air inlet opening (26) upstream of the second blower (18),a closable transfer opening (30) which forms a connection between the first and second air flow ducts (12, 16) when the closable transfer opening (30) is open, and a flap system (32) which controls a flow of fresh air through the fresh-air inlet opening (20) into the first air flow duct (12), a flow of recirculated air through the recirculated-air inlet opening (26) into the second air flow duct (16) and a flow of transfer air between the two air flow ducts (12, 16) through the transfer opening (30), wherein the flap system (32) has a common flap (48) for at least two openings which is different than a fresh-air flap (34) and a re-circulated air flap (36). 7. A method for operating a vehicle air conditioning unit (100) having a blower assembly (10), wherein the blower assembly (10) comprises: a first air flow duct (12), in which a first blower (14) is arranged,a second air flow duct (16), in which a second blower (18) is arranged,wherein the first air flow duct (12) comprises a fresh-air inlet opening (20) upstream of the first blower (14) and the second air flow duct (16) comprises a recirculated-air inlet opening (26) upstream of the second blower (18),a distribution chamber (39) located downstream of the first and second air flow ducts (12, 16),an air cooling unit (40) and a bypass duct (42) bypassing the air cooling unit (40) located downstream of the distribution chamber (39), anda bypass flap (44) arranged in the distribution chamber (39), with the bypass flap (44) directing at least a part of the air flow in the first air flow duct (12) to the air cooling unit (40) and/or to the bypass duct (42),wherein the bypass flap (44) directs substantially all of the air flow in the first air flow duct (12) into the bypass duct (42) in one position of the bypass flap (44), and further comprises a closable transfer opening (30) which forms a connection between the first and second air flow ducts (12, 16) when the closable transfer opening (30) is open, and further comprises a flap system (32) which controls a flow of fresh air through the fresh-air inlet opening (20) into the first air flow duct (12), a flow of recirculated air through the recirculated-air inlet opening (26) into the second air flow duct (16) and a flow of transfer air between the two air flow ducts (12, 16) through the transfer opening (30), wherein the flap system (32) has a fresh-air flap (34) at the fresh-air inlet opening (20), a recirculated-air flap (36) at the recirculated-air inlet opening (26) and/or a transfer flap (38) at the transfer opening (30), and wherein the flap system (32) has a common flap (48) for at least two openings which is different than the fresh-air flap (34) and the recirculated-air flap (36), the method comprising the method steps of:determining at least one air quality parameter of supplied fresh air and/or recirculated air;selecting an operating mode of the vehicle air conditioning unit (100) depending on the at least one air quality parameter;optionally drawing in fresh air or recirculated air in the first and/or second air flow duct (12, 16) depending on the selected operating mode;cooling and drying the air flowing through the second air flow duct (16) in the air cooling unit (40) with the second air flow duct (16) open;optionally cooling and drying the air flowing through the first air flow duct (12) in the air cooling unit (40) or directing the air flowing through the first air flow duct past the air cooling unit (40) depending on the selected operating mode with the first air flow duct (12) open; andmixing the air flowing through the first and second air flow ducts (12, 16) to form a common air flow. 8. The method as claimed in claim 7, wherein, at cold outside temperatures, the method further comprises the following steps: drawing in exclusively fresh air via the first air flow duct (12) and recirculated air via the second air flow duct (16) anddirecting the air flowing through the first air flow duct (12) past the air cooling unit (40). 9. The method as claimed in claim 7, wherein in one operating mode, the method further comprises the following steps: drawing in fresh air and/or recirculated air via the first air flow duct (12) and recirculated air via the second air flow duct (16), anddirecting the air flowing through the first air flow duct (12) past the air cooling unit (40),wherein mixing ratios of fresh air and recirculated air are selected such that the required energy for reheating the common air flow is minimized. 10. The method as claimed in claim 7, wherein in one operating mode, the method further comprises the following steps: drawing in fresh air and/or recirculated air via the first air flow duct (12) and recirculated air via the second air flow duct (16), anddirecting at least a part of the air flowing through the first air flow duct (12) past the air cooling unit (40),wherein mixing ratios of fresh air and recirculated air or of that portion of the air flowing through the first air flow duct that is directed past the air cooling unit (40) are selected such that the required energy for reheating the common air flow is minimized. 11. The method as claimed in claim 7, further comprising the step of operating the air cooling unit (40) as part of a heat pump, wherein the heat obtained in the air cooling unit (40) is used to reheat the common air flow. 12. The method as claimed in claim 7, wherein in one operating mode, the method further comprises following steps: drawing in fresh air via both air flow ducts (12, 16), andcooling and drying the fresh air by way of the air cooling unit (40). 13. The method as claimed in claim 7, wherein in one operating mode, the method further comprises following steps: drawing in fresh air and/or recirculated air via the first air flow duct (12),recirculated air via the second air flow duct (16), andcooling and drying the air flows in both air flow ducts (12, 16) by means of the air cooling unit (40).
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이 특허에 인용된 특허 (11)
Ito, Koji; Goto, Yoshihiro; Okumura, Yoshihiko, Air conditioner.
Kakehashi Nobuharu,JPX ; Ogawa Yoshiyuki,JPX ; Samukawa Katsuhiko,JPX, Vehicle-air-conditioning system with cooling degree estimator for left/right temperature control.
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