Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus comprising: a heat source unit including a compressor, a first flow passage switching valve that switches a flow passage of a first refrigerant, wherein the heat source unit also includes a heat-source-side heat exchanger; a plurality of indoor units each including a use-side heat exchanger; a relay unit including a plurality of intermediate heat exchangers each of which is operable in either a condenser mode or an evaporator mode, second flow passage switching valves that switch operation of the indoor units between heating and cooling, and third flow passage switching valves that switch connection of the intermediate heat exchangers between the condenser mode and the evaporator mode, the air-conditioning apparatus including a primary-side cycle through which a primary-side heat transfer medium circulates between the heat source unit and the relay unit, and a secondary-side cycle through which a secondary-side heat transfer medium circulates between the relay unit and the indoor units, wherein heat exchange is performed between the primary-side cycle and the secondary-side cycle in the intermediate heat exchangers, wherein when all of operating indoor units out of the plurality of indoor units are performing a cooling operation, the third flow passage switching valves are controlled such that the number of the intermediate heat exchangers operating as evaporators is greater than in a cooling main operation in which, out of said plurality of indoor units, an indoor unit performing cooling and an indoor unit performing heating exist at the same time and the first flow passage switching valve is controlled so that the heat-source-side heat exchanger operates by being connected to a discharge side of the compressor; and control means for controlling a frequency of the compressor and a capacity of the heat-source-side heat exchanger such that, during the cooling main operation, a target value for a suction pressure or an evaporating temperature at the compressor is set lower than the target value for the suction pressure or the evaporating temperature at the compressor in a case where all of the operating indoor units are performing the cooling operation. 2. The air-conditioning apparatus of claim 1 , wherein a difference in a load capacity between cooling and heating modes of the indoor units is different from a difference in a heat exchange capacity between cooling and heating modes of the intermediate heat exchangers. 3. The air-conditioning apparatus of claim 1 , wherein the number of the indoor units connected to the relay unit is greater than the number of the intermediate heat exchangers. 4. The air-conditioning apparatus of claim 1 , wherein the target value for the suction pressure or the evaporating temperature in the cooling main operation is determined based on the target value for the suction pressure or the evaporating temperature when all of the operating indoor units are performing the cooling operation, capacities of the intermediate heat exchangers, and heat exchange capacities of the indoor units performing the cooling operation. 5. The air-conditioning apparatus of claim 1 , wherein the target value for the suction pressure, a discharge pressure, the evaporating temperature, or a condensing temperature in the cooling main operation is set based on an output value of a pump that drives the secondary-side heat transfer medium in the secondary-side cycle. 6. The air-conditioning apparatus of claim 1 , wherein a control target value for the secondary-side cycle is set in accordance with heat exchange capacities and operation modes of the indoor units, and a control target value for the primary-side cycle is set to be equivalent to the control target value for the secondary-side cycle. 7. The air-conditioning apparatus of claim 1 , wherein both in a case where at least one of the intermediate heat exchangers operates as an evaporator and in a case where at least one of the intermediate heat exchangers operates as a condenser, a flow of the secondary-side heat transfer medium is operable so that a flow of the primary-side heat transfer medium and the flow of the secondary-side heat transfer medium are opposed to each other. 8. The air-conditioning apparatus of claim 1 , wherein the intermediate heat exchangers have different heat transfer areas, and the intermediate heat exchangers serve as evaporators or condensers in accordance with a heat exchange capacity and an operation mode. 9. An air-conditioning apparatus comprising: a heat source unit including a compressor, a first flow passage switching valve that switches a flow passage of a first refrigerant, wherein the heat source unit also includes a heat-source-side heat exchanger; a plurality of indoor units each including a use-side heat exchanger; and a relay unit including a plurality of intermediate heat exchangers each of which is operable in either a condenser mode or an evaporator mode, second flow passage switching valves that switch operation of the indoor units between heating and cooling, and third flow passage switching valves that switch connection of the intermediate heat exchangers between the condenser mode and the evaporator mode, the air-conditioning apparatus including a primary-side cycle through which a primary-side heat transfer medium circulates between the heat source unit and the relay unit, and a secondary-side cycle through which a secondary-side heat transfer medium circulates between the relay unit and the indoor units, wherein heat exchange is performed between the primary-side cycle and the secondary-side cycle in the intermediate heat exchangers, wherein when all of operating indoor units out of the plurality of indoor units are performing a heating operation, the third flow passage switching valves are controlled such that the number of the intermediate heat exchangers operating as condensers is greater than in a heating main operation in which, out of said plurality of indoor units, an indoor unit performing cooling and an indoor unit performing heating exist at the same time and the first flow passage switching valve is controlled so that the heat-source-side heat exchanger operates by being connected to a suction side of the compressor; and control means for controlling a frequency of the compressor and a capacity of the heat-source-side heat exchanger such that, during the heating main operation, a target value for a discharge pressure or a condensing temperature at the compressor is set higher than the target value for the discharge pressure or the condensing temperature at the compressor in a case where all of the operating indoor units are performing the heating operation. 10. The air-conditioning apparatus of claim 9 , wherein the target value for the discharge pressure or the condensing temperature in the heating main operation is determined based on the target value for the discharge pressure or the condensing temperature when all of the operating indoor units are performing the heating operation, capacities of the intermediate heat exchangers, and heat exchange capacities of the indoor units performing the heating operation. 11. The air-conditioning apparatus of claim 9 , wherein the target value for a suction pressure, the discharge pressure, an evaporating temperature, or the condensing temperature in the heating main operation is set based on an output value of a pump that drives the secondary-side heat transfer medium in the secondary-side cycle. 12. The air-conditioning apparatus of claim 9 , wherein a difference in a load capacity between cooling and heating modes of the indoor units i