	US 11,754,327 B2
	Air conditioning system
Qingliang Meng, Qingdao (CN); Qiang Song, Qingdao (CN); Jiangbin Liu, Qingdao (CN); and Jingsheng Liu, Qingdao (CN)
Assigned to Qingdao Haier Air-conditioning Electronic Co., Ltd., Qingdao (CN); and Haier Smart Home Co., Ltd., Qingdao (CN)
Appl. No. 17/256,766
Filed by Qingdao Haier Air-conditioning Electronic Co., Ltd, Shandong (CN); and Haier Smart Home Co., Ltd., Shandong (CN)
PCT Filed Dec. 26, 2019, PCT No. PCT/CN2019/128657 § 371(c)(1), (2) Date Dec. 29, 2020, PCT Pub. No. WO2021/012608, PCT Pub. Date Jan. 28, 2021.
Claims priority of application No. 201910677071.8 (CN), filed on Jul. 25, 2019.
Prior Publication US 2021/0180845 A1, Jun. 17, 2021
Int. Cl. F25B 49/02 (2006.01); F25B 41/345 (2021.01); F25B 41/34 (2021.01); F25B 13/00 (2006.01)

CPC F25B 49/02 (2013.01) [F25B 13/00 (2013.01); F25B 41/34 (2021.01); F25B 41/345 (2021.01); F25B 2313/02741 (2013.01); F25B 2400/0407 (2013.01)]

2 Claims

1. An air conditioning system, comprising an indoor heat exchanger, an outdoor heat exchanger, a compressor, a throttling device, a four-way valve and an ejection device, wherein the indoor heat exchanger, the outdoor heat exchanger, the compressor and the throttling device form a closed-loop refrigerant circulation circuit, the four-way valve is configured to switch the air conditioning system between a cooling mode and a heating mode,

wherein the ejection device comprises an ejector, a first solenoid valve, a second solenoid valve, a third solenoid valve, and a fourth solenoid valve; the second solenoid valve is arranged on a downstream side of the ejector, the third solenoid valve is arranged on an upstream side of the ejector, and the ejector, the second solenoid valve and the third solenoid valve constitute an ejection flow path which is connected between the discharge side of the compressor and the four-way valve; the first solenoid valve is arranged in parallel with the ejection flow path, and the fourth solenoid valve is connected between an ejection end of the ejector and the indoor heat exchanger; or

wherein the ejection device comprises an ejector, a first solenoid valve, a second solenoid valve, and a third solenoid valve; the second solenoid valve is arranged on a downstream side of the ejector, and the third solenoid valve is arranged on an upstream side of the ejector; the ejector, the second solenoid valve and the third solenoid valve constitute an ejection flow path which is connected between the discharge side of the compressor and the four-way valve, and the first solenoid valve is arranged in parallel with the ejection flow path; or

wherein the ejection device comprises an ejector, a first solenoid valve, a second solenoid valve and a fourth solenoid valve; the second solenoid valve is arranged on a downstream side of the ejector, and the ejector and the second solenoid valve constitute an ejection flow path which is connected between the discharge side of the compressor and the four-way valve; the first solenoid valve is arranged in parallel with the ejection flow path, and the fourth solenoid valve is connected between an ejection end of the ejector and the indoor heat exchanger; or

wherein the ejection device comprises an ejector, a first solenoid valve, a third solenoid valve and a fourth solenoid valve; the third solenoid valve is arranged on an upstream side of the ejector, and the ejector and the third solenoid valve constitute an ejection flow path which is connected between the discharge side of the compressor and the four-way valve; the first solenoid valve is arranged in parallel with the ejection flow path, and the fourth solenoid valve is connected between an ejection end of the ejector and the indoor heat exchanger.