Heat pump system

What is claimed is: 1. A heat pump system comprising: a heat pump cycle including a compressor adapted to compress and discharge a refrigerant, a heat medium-refrigerant heat exchanger that exchanges heat between a high-pressure refrigerant discharged from the compressor and a heat medium, a decompression device that decompresses the refrigerant flowing out of the heat medium-refrigerant heat exchanger, and an exterior heat exchanger that exchanges heat between the refrigerant decompressed by the decompression device and outside air; a first heat-medium circulation circuit in which the heat medium heated generally by the heat pump cycle circulates, the first heat-medium circulation circuit being provided with a heating heat exchanger that exchanges heat between a heating target fluid and the heat medium flowing out of the heat medium-refrigerant heat exchanger to heat the heating target fluid; a second heat-medium circulation circuit in which a heat medium having a temperature, different from that of the heat medium in the first heat-medium circulation circuit, circulates; a heat-medium radiation heat exchanger that is disposed in the second heat-medium circulation circuit and dissipates heat included in the heat medium flowing out of the heating heat exchanger of the first heat-medium circulation circuit, to a low-pressure refrigerant circulating through a range leading from an outlet side of the decompression device to a suction port of the compressor; a heat-medium flow-rate adjustment valve that adjusts a flow rate of the heat medium flowing out of the heating heat exchanger of the first heat-medium circulation circuit into the heat-medium radiation heat exchanger of the second heat-medium circulation circuit; and a heat-medium flow-rate controller configured to control an operation of the heat-medium flow-rate adjustment valve, based on a heating capacity of the heat pump cycle that is required for heating the heating target fluid in the first heat-medium circulation circuit, wherein the heat-medium flow-rate controller is configured to control the heat-medium flow-rate adjustment valve, based on a target temperature of the heating target fluid in the first heat-medium circulation circuit to increase the flow rate of the heat medium flowing out of the first heat-medium circulation circuit into the second heat-medium circulation circuit solely in accordance with an increase of the target temperature. 2. The heat pump system according to claim 1 , wherein the heat-medium radiation heat exchanger exchanges heat between the heat medium flowing out of the heating heat exchanger and the outside air, and the heat-medium radiation heat exchanger and the exterior heat exchanger are integrated together to enable heat transfer between the heat medium circulating through the heat-medium radiation heat exchanger and the refrigerant circulating through the exterior heat exchanger. 3. The heat pump system according to claim 1 , wherein the heat-medium radiation heat exchanger exchanges heat between the heat medium flowing out of the heating heat exchanger and the outside air, and the exterior heat exchanger is disposed to exchange heat between the outside air flowing out of the heat-medium radiation heat exchanger and the refrigerant decompressed by the decompression device. 4. The heat pump system according to claim 1 , wherein the heat-medium radiation heat exchanger exchanges heat between the heat medium flowing out of the heating heat exchanger and the low-pressure refrigerant. 5. The heat pump system according to claim 1 , wherein the heat-medium flow-rate adjustment valve is an electric flow-rate adjustment valve having a valve body and an electric actuator configured to adjust an opening degree by displacing the valve body. 6. The heat pump system according to claim 1 , wherein the heat medium circulating in the first heat-medium circulation circuit is heated primarily by the heat pump cycle. 7. The heat pump system according to claim 1 , wherein the exterior heat exchanger and the heat-medium radiation heat exchanger are integrated together and in direct fluid communication with each other so as to enable heat transfer between the refrigerant circulating through the exterior heat exchanger and the heat medium circulating through the heat-medium radiation heat exchanger. 8. The heat pump system according to claim 1 , wherein the exterior heat exchanger and the heat-medium radiation heat exchanger are integrated together so as to be disposed on a windward side in a flow direction of an outside air blown by a blower fan. 9. The heat pump system according to claim 1 , wherein the heating capacity of the heat pump cycle increases in accordance with the increase of the target temperature of the heating target fluid in the first heat-medium circulation circuit. 10. A heat pump system comprising: a heat pump cycle including a compressor adapted to compress and discharge a refrigerant, a heat medium-refrigerant heat exchanger that exchanges heat between a high-pressure refrigerant discharged from the compressor and a heat medium, a decompression device that decompresses the refrigerant flowing out of the heat medium-refrigerant heat exchanger, and an exterior heat exchanger that exchanges heat between the refrigerant decompressed by the decompression device and outside air; a first heat-medium circulation circuit in which the heat medium heated generally by the heat pump cycle circulates, the first heat-medium circulation circuit being provided with a heating heat exchanger that exchanges heat between a heating target fluid and the heat medium flowing out of the heat medium-refrigerant heat exchanger to heat the heating target fluid; a second heat-medium circulation circuit in which a heat medium having a temperature, different from that of the heat medium in the first heat-medium circulation circuit, circulates; a heat-medium radiation heat exchanger that is disposed in the second heat-medium circulation circuit and dissipates heat included in the heat medium flowing out of the heating heat exchanger of the first heat-medium circulation circuit, to a low-pressure refrigerant circulating through a range leading from an outlet side of the decompression device to a suction port of the compressor; a heat-medium flow-rate adjustment valve that adjusts a flow rate of the heat medium flowing out of the heating heat exchanger of the first heat-medium circulation circuit into the heat-medium radiation heat exchanger of the second heat-medium circulation circuit; and a heat-medium flow-rate controller configured to control an operation of the heat-medium flow-rate adjustment valve, that is adapted to increase a flow rate of the heat medium flowing out of the heating heat exchanger of the first heat-medium circulation circuit into the heat-medium radiation heat exchanger of the second heat-medium circulation circuit when the heat pump cycle is requested to stop heating the heating target fluid, wherein the heat-medium flow-rate controller is configured to control the heat-medium flow-rate adjustment valve, based on a target temperature of the heating target fluid in the first heat-medium circulation circuit to increase the flow rate of the heat medium flowing out of the first heat-medium circulation circuit into the second heat-medium circulation circuit solely in accordance with an increase of the target temperature. 11. The heat pump system according to claim 10 , wherein the heat-medium flow-rate adjustment valve is an electric flow-rate adjustment valve having a valve body and an electric actuator configured to adjust an opening degree by displacing the valve body. 1