Air-conditioning apparatus with separate component casings

The invention claimed is: 1. An air-conditioning apparatus, comprising: a refrigerant circuit including a compressor, a heat source side heat exchanger, an expansion device, and a refrigerant side passage of a heat exchanger related to heat medium connected by piping in series, the refrigerant circuit circulating a heat source side refrigerant; and a heat medium circuit including a heat medium side passage of the heat exchanger related to heat medium, a pump, a first heat medium flow switching device, a use side heat exchanger, a heat medium flow control device, and a second heat medium flow switching device connected by piping in series, the heat medium circuit circulating a heat medium, wherein the compressor and the heat source side heat exchanger are accommodated in an outdoor unit, the heat exchanger related to heat medium, the expansion device, and the pump are accommodated in a heat medium relay unit, the first heat medium flow switching device and the second heat medium flow switching device are accommodated in a heat medium regulating unit, the use side heat exchanger is accommodated in an indoor unit, the heat medium flow control device is accommodated in the heat medium regulating unit or the indoor unit, the outdoor unit, the heat medium relay unit, the heat medium regulating unit, and the indoor unit have separately different casings, the outdoor unit and the heat medium relay unit are connected with at least two refrigerant pipings, the heat medium relay unit and the heat medium regulating unit are connected with four heat medium pipings, the heat medium regulating unit and the indoor unit are connected with two heat medium pipings, the air-conditioning apparatus further comprises: a first controller configured to control a rotation speed of the pump; and a second controller configured to control a rotation speed of the compressor on the basis of a target condensing temperature, or a target pseudo-condensation temperature when a high-pressure side is in a supercritical state or a target evaporating temperature, and the first controller and the second controller are connected by wire or wireless allowing cooperative control. 2. The air-conditioning apparatus of claim 1 , wherein the four heat medium pipings connecting the heat medium relay unit with the heat medium regulating unit are constituted by four vertical pipings that are disposed in a substantially vertical direction and by four horizontal pipings that are disposed in a substantially horizontal direction. 3. The air-conditioning apparatus of claim 1 , wherein the heat medium relay unit is connected to one or a plurality of heat medium regulating units and the one or plurality of the heat medium regulating units is connected to one or a plurality of indoor units. 4. The air-conditioning apparatus of claim 1 , further comprising: a third controller that controls an opening degree of the heat medium flow control device on the basis of a temperature of the heat medium flowing in and out of the use side heat exchanger, wherein the third controller, the first controller, and the second controller are communicably connected to each other by wire or wireless, the first controller controls the rotation speed of the pump so that the opening degree of the heat medium flow control device approaches a target value on the basis of information on the opening degree of the heat medium flow control device from the third controller. 5. The air-conditioning apparatus of claim 4 , wherein the heat medium regulating unit is provided with a first temperature sensor that detects a temperature of the heat medium flowing into the use side heat exchanger and a second temperature sensor that detects a temperature of the heat medium flowing out of the use side heat exchanger, and the third controller controls the opening degree of the heat medium flow control device so that a temperature difference between a detection temperature of the first temperature sensor and a detection temperature of the second temperature sensor approaches a target value. 6. The air-conditioning apparatus of claim 4 , wherein the heat medium relay unit is provided with a pressure sensor that detects a pressure of the heat medium flowing into the pump or a pressure of the heat medium flowing out of the pump, the first controller changes a control target value of the pressure sensor on the basis of information on the opening degree of the heat medium flow control device. 7. The air-conditioning apparatus of claim 4 , wherein a control interval of the pump is larger than a control interval of the heat medium flow control device and a control interval of the target condensing temperature and/or the target evaporating temperature of the heat source side refrigerant is further larger. 8. The air-conditioning apparatus of claim 7 , wherein the control interval of the pump is three times or more of the control interval of the heat medium control device and the control interval of the target condensing temperature and/or the target evaporating temperature of the heat source side refrigerant is three times or more of the control interval of the pump.