Air-conditioning apparatus and method of designing same

The invention claimed is: 1. An air-conditioning apparatus comprising: a refrigerant circuit in which a compressor, a heat-source-side heat exchanger, an expansion device, and a refrigerant flow path in at least one intermediate heat exchanger configured to cause heat exchange between a refrigerant and a heat medium are connected by a refrigerant pipe, the refrigerant circuit being configured to cause the refrigerant to circulate therethrough; and a heat medium circuit in which a pump, a use-side heat exchanger, and a heat-medium flow path in the at least one intermediate heat exchanger are connected by a heat-medium conveying pipe, the heat medium circuit being configured to cause the heat medium to circulate therethrough, wherein the at least one intermediate heat exchanger comprises a plurality of intermediate heat exchangers, the plurality of intermediate heat exchangers are 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 some of the intermediate heat exchangers serve as condensers and others of the intermediate heat exchangers serve as evaporators, and the heat-medium conveying pipe has an inside diameter set to a value within both a first range of inside diameters and a second range of inside diameters on the basis of a capacity of the use-side heat exchanger connected to the heat-medium conveying pipe, the second range of inside diameters is different from the first range of inside diameters, the first range of inside diameters is a range of inside diameters being proper when the use-side heat exchanger connected to the heat-medium conveying pipe is in cooling operation, the second range of inside diameters is a range of inside diameters being proper when the use-side heat exchanger connected to the heat-medium conveying pipe is in heating operation. 2. The air-conditioning apparatus of claim 1 , wherein each of the ranges of inside diameters being proper has a lower limit above which a flow speed of the heat medium flowing in the heat-medium conveying pipe is a flow speed at which an oxide film is not separated, and each of the ranges of inside diameters being proper has an upper limit below which the flow speed of the heat medium flowing in the heat-medium conveying pipe is a flow speed at which corrosive products do not accumulate. 3. The air-conditioning apparatus of claim 1 , wherein the refrigerant comprises a single component refrigerant, a near-azeotropic refrigerant mixture, a zeotropic refrigerant mixture, a natural refrigerant, or a refrigerant that becomes a supercritical state. 4. The air-conditioning apparatus of claim 1 , wherein the heat medium comprises antifreeze, water, a liquid mixture of the antifreeze and the water, or a liquid mixture of the water and an anti-corrosion additive. 5. A method of designing an air-conditioning apparatus, the air-conditioning apparatus including a refrigerant circuit in which a compressor, a heat-source-side heat exchanger, an expansion device, and a refrigerant flow path in at least one intermediate heat exchanger configured to cause heat exchange between a refrigerant and a heat medium are connected by a refrigerant pipe, the refrigerant circuit being configured to cause the refrigerant to circulate therethrough, and a heat medium circuit in which a pump, a use-side heat exchanger, and a heat-medium flow path in the at least one intermediate heat exchanger are connected by a heat-medium conveying pipe, the heat medium circuit being configured to cause the heat medium to circulate therethrough, wherein the at least one intermediate heat exchanger comprises a plurality of intermediate heat exchangers, the plurality of intermediate heat exchangers are 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 some of the intermediate heat exchangers serve as condensers and others of the intermediate heat exchangers serve as evaporators, the method comprises the steps of: acquiring a capacity of the use-side heat exchanger; and setting an inside diameter of the heat-medium conveying pipe connected to the use-side heat exchanger to a value within both a range of inside diameters being proper when the use-side heat exchanger connected to the heat-medium conveying pipe is in cooling operation and a range of inside diameters being proper when the use-side heat exchanger connected to the heat-medium conveying pipe is in heating operation on a basis of the capacity of the use-side heat exchanger, wherein the range of inside diameters being proper when the use-side heat exchanger connected to the heat-medium conveying pipe is in heating operation is different from the range of inside diameters being proper when the use-side heat exchanger connected to the heat-medium conveying pipe is in cooling operation.