US 12,345,426 B2
Air conditioner that defrosts outdoor heat exchanger based on refrigerant residue amount of outdoor heat exchanger
Tomoki Shimizu, Fuji (JP); Ken Miura, Fuji (JP); and Tetsuma Hamashima, Fuji (JP)
Assigned to Carrier Japan Corporation, Tokyo (JP)
Filed by Toshiba Carrier Corporation, Kanagawa (JP)
Filed on Mar. 17, 2023, as Appl. No. 18/185,537.
Application 18/185,537 is a continuation of application No. PCT/JP2020/035357, filed on Sep. 17, 2020.
Prior Publication US 2023/0221027 A1, Jul. 13, 2023
Int. Cl. F24F 11/42 (2018.01); F24F 110/12 (2018.01); F24F 140/20 (2018.01)
CPC F24F 11/42 (2018.01) [F24F 2110/12 (2018.01); F24F 2140/20 (2018.01)] 3 Claims
OG exemplary drawing
 
1. An air conditioner in which an indoor unit and an outdoor unit are connected by a pipe, and a temperature of a space where the indoor unit is disposed is conditioned, the air conditioner comprising:
a controller configured to control the indoor unit and the outdoor unit, wherein
the outdoor unit includes a first outdoor heat exchanger configured to exchange heat of a temperature of a refrigerant flowing from the pipe with an outside air, a second outdoor heat exchanger configured to exchange heat of the temperature of the refrigerant flowing from the pipe with the outside air, the second outdoor heat exchanger disposed below the first outdoor heat exchanger, a first expansion valve configured to adjust a flow rate of the refrigerant flowing from the first outdoor heat exchanger to the pipe, a second expansion valve configured to adjust a flow rate of the refrigerant flowing from the second outdoor heat exchanger to the pipe, an outside air temperature sensor configured to acquire a temperature of outside air, a first outdoor heat exchanger temperature sensor configured to acquire a temperature of the first outdoor heat exchanger, a first refrigerant temperature sensor configured to acquire a temperature of the refrigerant flowing from the first expansion valve to the pipe, a second outdoor heat exchanger temperature sensor configured to acquire a temperature of the second outdoor heat exchanger, and a second refrigerant temperature sensor configured to acquire a temperature of the refrigerant flowing from the second expansion valve to the pipe, and
the controller
varies an opening degree of the first expansion valve and an opening degree of the second expansion valve to be equal to or less than a predetermined opening degree based on the temperature acquired by the outside air temperature sensor and switches between a first defrosting drive to defrost the first outdoor heat exchanger and the second outdoor heat exchanger at the same time, and a second defrosting drive to defrost the first outdoor heat exchanger after the start of defrosting of the second outdoor heat exchanger;
estimates a refrigerant residue amount of the first outdoor heat exchanger based on the temperatures acquired by the first outdoor heat exchanger temperature sensor and the first refrigerant temperature sensor, and a refrigerant residue amount of the second outdoor heat exchanger based on the temperatures acquired by the second outdoor heat exchanger temperature sensor and the second refrigerant temperature sensor; and
adjusts the opening degree of the first expansion valve configured to adjust the flow rate of the refrigerant flowing from the first outdoor heat exchanger before defrosting to the pipe and the opening degree of the second expansion valve configured to adjust the flow rate of the refrigerant flowing from the second outdoor heat exchanger before defrosting to the pipe, based on the refrigerant residue amount of the first outdoor heat exchanger and the refrigerant residue amount of the second outdoor heat exchanger.