Air-conditioning apparatus

The invention claimed is: 1. An air-conditioning apparatus comprising: a refrigerant circuit in which a compressor, a heat-source-side heat exchanger, a plurality of expansion devices, refrigerant flow paths in a plurality of intermediate heat exchangers, and a plurality of refrigerant flow switching devices each configured to switch a refrigerant circulation path are connected by a refrigerant pipe, the refrigerant circuit being configured to allow a heat-source-side refrigerant to circulate therethrough; a heat medium circuit in which a plurality of heat-medium conveying devices disposed corresponding to the plurality of intermediate heat exchangers, a plurality of use-side heat exchangers, and heat-medium flow paths in the plurality of intermediate heat exchangers are connected by a heat-medium conveying pipe, the heat medium circuit being configured to allow a heat medium to circulates therethrough; and a controller, wherein the heat-source-side refrigerant and the heat medium exchange heat with each other in the intermediate heat exchangers, wherein the controller is configured to, when all of the plurality of heat-medium conveying devices are operating and a heat exchange amount in the use-side heat exchangers is equal to or lower than a lower limit of a thermal capacity that can be conveyed in the heat medium circuit, before at least one of the plurality of heat-medium conveying devices is stopped, close the refrigerant flow path in the intermediate heat exchanger connected to the heat-medium conveying device that is to be stopped, then stop the at least one of the plurality of heat-medium conveying devices, and then a thermal capacity required in at least one of the use-side heat exchangers is conveyed by the rest of the plurality of heat-medium conveying devices which were not stopped and which are operating. 2. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to, when the heat exchange amount in the use-side heat exchangers exceeds the lower limit of the thermal capacity that can be conveyed in the heat medium circuit, restart operation of the stopped heat-medium conveying device, and then open the refrigerant flow path in the intermediate heat exchanger connected to the stopped heat-medium conveying device. 3. The air-conditioning apparatus of claim 1 , wherein the air-conditioning apparatus is operative in a heating only operation mode in which all of the intermediate heat exchangers serve as condensers, a cooling only operation mode in which all of the intermediate heat exchangers serve as evaporators, and a cooling and heating mixed operation mode in which at least one of the intermediate heat exchangers serves as condenser and the rest of the intermediate heat exchangers serves as evaporator, and the controller is further configured to, in the heating only operation mode and the cooling only operation mode, when the heat exchange amount in the use-side heat exchangers is equal to or lower than the lower limit of the thermal capacity that can be conveyed in the heat medium circuit, perform control for stopping at least one of the plurality of heat-medium conveying devices. 4. The air-conditioning apparatus of claim 2 , wherein the air-conditioning apparatus is operative in a heating only operation mode in which all of the intermediate heat exchangers serve as condensers, a cooling only operation mode in which all of the intermediate heat exchangers serve as evaporators, and a cooling and heating mixed operation mode in which at least one of the intermediate heat exchangers serves as the condenser and the rest of the intermediate heat exchangers serve as the evaporator, and the controller is further configured to, in the heating only operation mode and the cooling only operation mode, when the heat exchange amount in the use-side heat exchangers exceeds the lower limit of the thermal capacity that can be conveyed in the heat medium circuit, perform control for restarting the stopped heat-medium conveying device. 5. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to determine timing of performing control for stopping at least one of the plurality of heat-medium conveying devices by a flow rate of the heat medium that can be supplied by the plurality of heat-medium conveying devices, a maximum flow speed of the heat medium circulating in the heat medium circuit, and a ratio of the heat exchange amount to a total heat exchange amount in the use-side heat exchangers. 6. The air-conditioning apparatus of claim 2 , wherein the controller is further configured to determine timing of performing control for restarting the stopped heat-medium conveying device by a flow rate of the heat medium that can be supplied by the plurality of heat-medium conveying devices, a maximum flow speed of the heat medium circulating in the heat medium circuit, and a ratio of the heat exchange amount to a total heat exchange amount in the use-side heat exchangers. 7. The air-conditioning apparatus of claim 1 , wherein the refrigerant circulating in the refrigerant circuit comprises any one of a single refrigerant, a near-azeotropic refrigerant mixture, a zeotropic refrigerant mixture, a refrigerant that includes a natural refrigerant and that changes in two phases, and a refrigerant that becomes a supercritical state or a mixture of two or more thereof. 8. The air-conditioning apparatus of claim 1 , wherein the heat medium circulating in the heat medium circuit comprises antifreeze, water, a liquid mixture thereof, or a material in which an additive having high anti-corrosive properties is added thereto. 9. The air-conditioning apparatus of claim 1 , wherein the controller is further configured to before the at least one of the plurality of heat-medium conveying devices is stopped, prior to closing the refrigerant flow path in the intermediate heat exchanger connected to the heat-medium conveying device that is to be stopped due to stopping the at least one of the plurality of heat-medium conveying devices, determine whether all of the plurality of heat medium conveying devices are operating; and determine whether the heat exchange amount in the use-side heat exchangers is equal to or lower than the lower limit of the thermal capacity that can be conveyed in the heat medium circuit; wherein the closing of the refrigerant flow path in the intermediate heat exchanger which is connected to the heat-medium conveying device that is to be stopped and the stopping of the at least one of the plurality of heat-medium conveying devices, is performed responsive to determining that both (i) all of the plurality of heat medium conveying devices are operating and (ii) the heat exchange amount in the use-side heat exchangers is equal to or lower than the lower limit of the thermal capacity that can be conveyed in the heat medium circuit.