Heat-pump-type vehicular air-conditioning system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60H-001/00
B60H-001/22
F25B-013/00
F25B-041/06
출원번호
US-0780830
(2014-06-06)
등록번호
US-10118462
(2018-11-06)
우선권정보
JP-2013-125472 (2013-06-14)
국제출원번호
PCT/JP2014/065078
(2014-06-06)
국제공개번호
WO2014/199916
(2014-12-18)
발명자
/ 주소
Kohigashi, Hirotsugu
Nakagawa, Nobuya
출원인 / 주소
MITSUBISHI HEAVY INDUSTRIES THERMAL SYSTEMS, LTD.
대리인 / 주소
Birch, Stewart, Kolasch & Birch, LLP
인용정보
피인용 횟수 :
0인용 특허 :
66
초록▼
A heat-pump-type vehicular air-conditioning that includes a cooling refrigerant circuit. The circuit has a base for connecting an onboard condenser provided on the downstream side of an onboard evaporator inside an HVAC unit. The circuit includes a second decompression unit between the outlet side o
A heat-pump-type vehicular air-conditioning that includes a cooling refrigerant circuit. The circuit has a base for connecting an onboard condenser provided on the downstream side of an onboard evaporator inside an HVAC unit. The circuit includes a second decompression unit between the outlet side of a receiver and one end side of a vehicle-mounted external heat exchanger. Also included is a second circuit having a solenoid valve opened during heating between the other end side of the vehicle-mounted external heat exchanger and the intake circuit of an electric compressor. The vehicular air-conditioning system being provided with a heating refrigerant circuit in which the electric compressor, a switching unit, the onboard condenser, the receiver, the first circuit, the vehicle-mounted external heat exchanger, and the second circuit are connected in the stated order.
대표청구항▼
1. A heat-pump-type vehicular air-conditioning system, comprising: a cooling refrigerant circuit in which an electric compressor, a vehicle-mounted external heat exchanger, a receiver, a first decompression unit, and an onboard evaporator provided within an HVAC unit are connected in an above stated
1. A heat-pump-type vehicular air-conditioning system, comprising: a cooling refrigerant circuit in which an electric compressor, a vehicle-mounted external heat exchanger, a receiver, a first decompression unit, and an onboard evaporator provided within an HVAC unit are connected in an above stated order;an onboard condenser disposed on a downstream side of the onboard evaporator within the HVAC unit, including a refrigerant inlet connected to a discharge circuit of the electric compressor via a switching unit, and a refrigerant outlet connected to the receiver;a first circuit including a second decompression unit connected between an outlet side of the receiver and one end side of the vehicle-mounted external heat exchanger; anda second circuit including a solenoid valve connected between another end side of the vehicle-mounted external heat exchanger and an intake circuit of the electric compressor, the solenoid valve being open during heating,a heating refrigerant circuit being configurable in such a manner that the electric compressor, the switching unit, the onboard condenser, the receiver, the first circuit including the second decompression unit, the vehicle-mounted external heat exchanger, and the second circuit including the solenoid valve are connected in an above stated order, andin a heating mode, upon frost formation on the vehicle-mounted external heat exchanger, defrosting being enabled by switching the heating refrigerant circuit to the cooling refrigerant circuit and directly guiding a hot gas from the electric compressor to the vehicle-mounted external heat exchanger,wherein the first decompression unit and the second decompression unit are each decompression units equipped with an on-off valve function, and the vehicle-mounted external heat exchanger and the onboard evaporator are jointly usable as evaporators while in the heating mode and while in a dehumidifying heating mode by using the on-off valve function of the first decompression unit and the second decompression unit, andwhile in the dehumidifying heating mode, on-off control of the on-off valve function of the first decompression unit is performed in accordance with a temperature of one of air blown form the onboard evaporator and a fin thereof, so as to cause one of flow and obstruction of refrigerant to the onboard evaporator. 2. The heat-pump-type vehicular air-conditioning system according to claim 1, wherein the receiver is a check valve-equipped receiver including a check valve incorporated into a refrigerant flow inlet of a refrigerant circuit from each of the vehicle-mounted external heat exchanger connected to the receiver, and the onboard condenser. 3. The heat-pump-type vehicular air-conditioning system according to claim 1, wherein the first decompression unit and the second decompression unit are each one of a solenoid valve-equipped temperature-driven automatic expansion valve and an electronic expansion valve. 4. The heat-pump-type vehicular air-conditioning system according to claim 1, wherein the first decompression unit is a decompression unit equipped with an on-off valve function, the first circuit including the second decompression unit is provided with a check valve acting as an alternative unit of the on-off valve function and having tolerance only for refrigerant flow from the outlet side of the receiver to the vehicle-mounted external heat exchanger, and the vehicle-mounted external heat exchanger and the onboard evaporator are jointly usable as evaporators while in the heating mode and while in a dehumidifying heating mode by using the on-off valve function of the first decompression unit and the solenoid valve of the second circuit. 5. The heat-pump-type vehicular air-conditioning system according to claim 1, wherein while in the heating mode, the on-off control of the on-off valve function of the first decompression unit and on-off control of one of the on-off valve function of the second decompression unit and the solenoid valve of the second circuit are performed in alternation, in accordance with an outlet refrigerant temperature of the vehicle-mounted external heat exchanger and the temperature of one of the air blown from the onboard evaporator and the fin thereof, so as to cause one of flow and obstruction of the refrigerant to the vehicle-mounted external heat exchanger and the onboard evaporator, in alternation.
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