Air conditioning system

The invention claimed is: 1. An air conditioning system configured to exchange heat, in order to condition air of one indoor air-conditioning-target space, with air of an attic disposed around the air-conditioning-target space and separated from the air-conditioning-target space, the air conditioning system comprising a plurality of air conditioners each including: a service-side heat exchanger configured to exchange heat between air of the air-conditioning-target space and refrigerant, a heat-source-side heat exchanger configured to exchange heat between the air of the attic and the refrigerant, and a compressor whose operation frequency is variable, the compressor being configured to compress the refrigerant circulating through the service-side heat exchanger and the heat-source-side heat exchanger; and a controller that is capable of performing control, according to an air conditioning capacity of at least two of the plurality of air conditioners, so that at least one of the air conditioners whose compressors are in operation has its compressor stopped, and the at least one air conditioner having its compressor stopped is switched to an operation of using a fan to circulate air within the air-conditioning-target space. 2. The air conditioning system according to claim 1 , wherein when at least two of the plurality of air conditioners collectively have an air conditioning capacity falling within a predetermined range, the at least one air conditioner has its compressor stopped and each of the air conditioners whose compressor is still in operation has an operating frequency of its compressor raised to an operation frequency improving energy consumption efficiency of the plurality of air conditioners. 3. The air conditioning system according to claim 2 , wherein each of the air conditioners whose compressor is still in operation has an operation operating frequency of its compressor adjusted so as to reduce total power consumption of the compressors still in operation. 4. The air conditioning system according to claim 2 , wherein each of the air conditioners whose compressor is still in operation has an operating state of the air conditioner changed so as to reduce a temperature change around the air conditioners whose compressors are still in operation. 5. The air conditioning system according to claim 1 , wherein when at least two of the plurality of air conditioners collectively have an air conditioning capacity falling within a predetermined range, the at least one air conditioner has its compressor stopped and each of the air conditioner whose compressor is still in operation has an operation operating frequency of its compressor adjusted so as to reduce total power consumption of the compressors still in operation. 6. The air conditioning system according to claim 5 , wherein when at least two of the plurality of air conditioners collectively have an air conditioning capacity falling within a predetermined range, the at least one air conditioner has its compressor stopped and each of the air conditioner whose compressor is still in operation has an operating state of the air conditioner changed so as to reduce a temperature change around the air conditioners whose compressors is are still in operation. 7. The air conditioning system according to claim 1 , wherein when at least two of the plurality of air conditioners collectively have an air conditioning capacity falling within a predetermined range, the at least one air conditioner has its compressor stopped and each of the air conditioners whose compressor is still in operation has an operating state of the air conditioner changed so as to reduce a temperature change around the air conditioners whose compressors are still in operation. 8. The air conditioning system according to claim 7 , wherein each of the air conditioners whose compressor is still in operation has at least one of an air flow orientation and air velocity of the air conditioner changed so as to reduce a temperature change around the air conditioners whose compressor are still in operation. 9. The air conditioning system according to claim 8 , wherein after at least one air conditioner has its compressor stopped, when at least two of the plurality of air conditioners collectively have an air conditioning capacity falling within a predetermined range, the controller switches which air conditioner's compressor is in operation and which air conditioner's compressor is stopped. 10. The air conditioning system according to claim 7 , wherein after the at least one air conditioner has its compressor stopped, when at least two of the plurality of air conditioners collectively have an air conditioning capacity falling within a predetermined range, the controller switches which air conditioner's compressor is in operation and which air conditioner's compressor is stopped. 11. An air conditioning system configured to exchange heat, in order to condition air of one indoor air-conditioning-target space, with air of a common space disposed indoors around the air-conditioning-target space and not being a target of the air conditioning, the air conditioning system comprising a plurality of air conditioners each including: a service-side heat exchanger configured to exchange heat between air of the air-conditioning-target space and a refrigerant, a heat-source-side heat exchanger configured to exchange heat between the air of the common space and the refrigerant, and a compressor configured to compress the refrigerant circulating through the service-side heat exchanger and the heat-source-side heat exchanger, wherein the plurality of air conditioners include a plurality of in-group air conditioners grouped to establish communication with one another, and a controller that is capable of performing control so that, when at least two of the plurality of air conditioners have an air conditioning capacity falling within a predetermined range for at least two of the plurality of air conditioners, at least one of the air conditioners whose compressors are still in operation is selected to have its compressor stopped through the communication among the plurality of in-group air conditioners, and the at least one air conditioner has it compressor stopped. 12. An air conditioning system configured to exchange heat, in order to condition air of one indoor air-conditioning-target space, with air of an attic disposed around the air-conditioning-target space and separated from the air-conditioning-target space, the air conditioning system comprising a plurality of air conditioners each including: a service-side heat exchanger configured to exchange heat between air of the air-conditioning-target space and a refrigerant, a heat-source-side heat exchanger configured to exchange heat between the air of the attic and the refrigerant, and a compressor whose operation frequency is variable, the compressor being configured to compress the refrigerant circulating through the service-side heat exchanger and the heat-source-side heat exchanger; and a controller that is capable of performing control, according to an air conditioning capacity of at least two of the plurality of air conditioners, so that at least one of the air conditioners whose compressors are in operation has its compressor stopped, and the plurality of air conditioners include a plurality of in-group air conditioners grouped to establish communication with one another, and the at least one air conditioner is selected through the communication among the plurality of in-group air conditioners. 13. The air conditioning system according to claim 12 , wherein when at least