Air conditioner with indoor units and outdoor units

The invention claimed is: 1. An air conditioner, comprising: a plurality of indoor units, each of which includes at least an indoor expansion valve, an indoor heat exchanger, and a heat exchanger refrigerant outlet temperature sensor for detecting a refrigerant outlet temperature of the indoor heat exchanger; an outdoor unit connected to the indoor units via a liquid piping and a gas piping; and a controller included in the outdoor unit and connected to each of the plurality of indoor units, the controller configured to: calculate an average value of the refrigerant outlet temperatures detected by the heat exchanger refrigerant outlet temperature sensors for the indoor units in operation during a warming operation, obtain a temperature difference between the average refrigerant outlet temperature and each refrigerant outlet temperatures of the indoor heat exchangers for the respective indoor units in operation, and control respective opening degrees of each of the indoor expansion valves for the respective indoor units in operation so that respective obtained temperature differences are brought to be within a predetermined target temperature difference range, and in response to a determination that a first temperature difference of the obtained temperature differences is within the target temperature difference range, increase or decrease a first opening degree of a first indoor expansion valve of the at least one indoor expansion valve of a first indoor unit of at least one of the plurality of indoor units that has the first temperature difference within the target temperature difference range, based on a first indoor load in a room where the first indoor unit is installed. 2. The air conditioner according to claim 1 , wherein: the temperature differences obtained are positive or negative, and wherein the controller is configured to increase or decrease the first opening degree of the first indoor expansion valve based on the positive or negative temperature difference. 3. The air conditioner according to claim 2 , wherein the controller is configured to change the first opening degree of the first indoor expansion valve, which is increased or decreased based on a magnitude of the positive or negative temperature difference. 4. The air conditioner according to claim 1 , wherein: at least the first indoor unit includes an indoor draw-in temperature sensor for detecting a temperature of air drawn by the indoor heat exchanger of the first indoor unit, and a remote control switch for setting a set temperature, and wherein the controller is configured to, in response to a determination that the first temperature difference is within the target temperature difference range, control the first opening degree of the first indoor expansion valve based on a temperature difference between an indoor draw-in temperature detected by the indoor draw-in temperature sensor as the indoor load and the set temperature set by the remote control switch. 5. The air conditioner according to claim 1 , wherein: at least the first indoor unit includes an indoor draw-in temperature sensor for detecting a temperature of air drawn by the indoor heat exchanger of the first indoor unit, and an indoor blow-off temperature sensor for detecting a temperature of air blown from the indoor heat exchanger, and wherein the controller is configured to, in response to a determination that the first temperature difference is within the target temperature difference range, control the first opening degree of the first indoor expansion valve based on a temperature difference between an indoor draw-in temperature detected by the indoor draw-in temperature sensor as the indoor load, and an indoor blow-off temperature detected by the indoor blow-off temperature sensor. 6. The air conditioner according to claim 1 , wherein: each of the indoor units include an indoor blow-off temperature sensor for detecting a temperature of air blown from the indoor heat exchanger, and a remote control switch for setting a set temperature, and wherein the controller is configured to, in response to a determination that the first temperature difference is within the target temperature difference range, control the first opening degree of the first indoor expansion valve based on a temperature difference between an indoor blow-off temperature detected by the indoor blow-off temperature sensor of the first indoor unit as the indoor load, and the set temperature set by the remote control switch of the first indoor unit. 7. The air conditioner according to claim 1 , wherein: at least the first indoor unit includes an indoor draw-in temperature sensor for detecting a temperature of air drawn by the indoor heat exchanger, and a remote control switch for setting a set temperature, and wherein the controller, in response to a determination that the first temperature difference is within the target temperature difference range, controls the first opening degree of the first indoor expansion valve so that a supercooling degree at an outlet of the indoor heat exchanger for the first indoor unit as the indoor load reaches a target supercooling degree at the outlet of the indoor heat exchanger, which is determined by a temperature difference between an indoor draw-in temperature detected by the indoor draw-in temperature sensor and the set temperature set by the remote control switch. 8. The air conditioner according to claim 1 , wherein: at least the first indoor unit includes an indoor draw-in temperature sensor for detecting a temperature of air drawn by the indoor heat exchanger, and an indoor blow-off temperature sensor for detecting a temperature of air blown from the indoor heat exchanger, and wherein the controller is configured to, in response to a determination that the first temperature difference is within the target temperature difference range, control the opening degree of the first indoor expansion valve so that a supercooling degree at an outlet of the first indoor heat exchanger for the first indoor unit as the indoor load reaches a target supercooling degree at the outlet of the indoor heat exchanger, which is determined by a temperature difference between an indoor draw-in temperature detected by the indoor draw-in temperature sensor, and an indoor blow-off temperature detected by the indoor blow-off temperature sensor. 9. The air conditioner according to claim 1 , wherein: at least the first indoor unit includes an indoor blow-off temperature sensor for detecting a temperature of air blown from the indoor heat exchanger, and a remote control switch for setting a set temperature, and wherein the controller is configured to, in response to a determination that the first temperature difference is within the target temperature difference range, control the first opening degree of the first indoor expansion valve so that a supercooling degree at an outlet of the indoor heat exchanger for the first indoor unit as the indoor load reaches a target supercooling degree at the outlet of the indoor heat exchanger, which is determined by a temperature difference between an indoor blow-off temperature detected by the indoor blow-off temperature sensor and the set temperature set by the remote control switch.