Refrigeration cycle device

1 . A refrigeration cycle device comprising: a compressor that draws and discharges a refrigerant; a high-pressure side heat exchanger that dissipates heat from the high-pressure refrigerant discharged from the compressor; a first decompression portion that decompresses the refrigerant flowing out of the high-pressure side heat exchanger; a refrigerant outside-air heat exchanger that exchanges heat between the refrigerant flowing out of the first decompression portion and outside air; a second decompression portion that decompresses the refrigerant flowing out of the refrigerant outside-air heat exchanger; a low-pressure side heat exchanger arranged in series with the refrigerant outside-air heat exchanger in a flow of the refrigerant, the low-pressure side heat exchanger being configured to exchange heat between the low-pressure refrigerant decompressed by at least one of the first decompression portion and the second decompression portion, and a heat medium to cool the heat medium; a cooler core that exchanges heat between the heat medium cooled by the low-pressure side heat exchanger and air to be blown into a vehicle interior to cool the air; and a controller configured to switch between a heat absorption mode in which the refrigerant outside-air heat exchanger absorbs heat into the refrigerant and a heat dissipation mode in which the refrigerant outside-air heat exchanger dissipates heat from the refrigerant, by adjusting an amount of decompression in each of the first decompression portion and the second decompression portion. 2 . The refrigeration cycle device according to claim 1 , further comprising: a refrigerant reservoir that stores the refrigerant heat-exchanged in the high-pressure side heat exchanger during the heat absorption mode and stores the refrigerant heat-exchanged in the refrigerant outside-air heat exchanger during the heat dissipation mode. 3 . A refrigeration cycle device comprising: a compressor that draws and discharges a refrigerant; a high-pressure side heat exchanger that dissipates heat from the high-pressure refrigerant discharged from the compressor; a first decompression portion that decompresses the refrigerant flowing out of the high-pressure side heat exchanger; a refrigerant outside-air heat exchanger that exchanges heat between the refrigerant flowing out of the first decompression portion and outside air; a second decompression portion that decompresses the refrigerant flowing out of the refrigerant outside-air heat exchanger; a low-pressure side heat exchanger that absorbs heat into the low-pressure refrigerant decompressed by at least one of the first decompression portion and the second decompression portion; a controller that switches between a heat absorption mode in which the refrigerant outside-air heat exchanger absorbs heat into the refrigerant and a heat dissipation mode in which the refrigerant outside-air heat exchanger dissipates heat from the refrigerant, by adjusting an amount of decompression in each of the first decompression portion and the second decompression portion; and a refrigerant reservoir that stores the refrigerant heat-exchanged in the high-pressure side heat exchanger during the heat absorption mode and stores the refrigerant heat-exchanged in the refrigerant outside-air heat exchanger during the heat dissipation mode. 4 . The refrigeration cycle device according to claim 1 , further comprising: a flow-rate adjustment portion that adjusts a flow rate of the heat medium in at least one of the low-pressure side heat exchanger and the cooler core, wherein the controller controls an operation of the flow-rate adjustment portion when a temperature of the heat medium flowing out of the low-pressure side heat exchanger is equal to or lower than 0° C. in the heat absorption mode. 5 . The refrigeration cycle device according to claim 4 , wherein the controller controls the operation of the flow-rate adjustment portion such that the flow rate of the heat medium in at least one of the low-pressure side heat exchanger and the cooler core is decreased as a pressure of the refrigerant in the refrigerant outside-air heat exchanger becomes lower. 6 . The refrigeration cycle device according to claim 5 , wherein the flow-rate adjustment portion adjusts the flow rate of the heat medium in both the low-pressure side heat exchanger and the cooler core. 7 . The refrigeration cycle device according to claim 2 , wherein in the heat absorption mode, the high-pressure side heat exchanger and the refrigerant outside-air heat exchanger are arranged in series with each other in the flow of the refrigerant, in the heat dissipation mode, the refrigerant outside-air heat exchanger and the low-pressure side heat exchanger are arranged in series with each other in the flow of the refrigerant, and the refrigerant reservoir includes: a first refrigerant reservoir disposed on a refrigerant-flow downstream side of the high-pressure side heat exchanger and on a refrigerant-flow upstream side of the first decompression portion, the first refrigerant reservoir being configured to store the refrigerant that is heat-exchanged in the high-pressure side heat exchanger; and a second refrigerant reservoir disposed on a refrigerant-flow downstream side of the refrigerant outside-air heat exchanger and on a refrigerant-flow upstream side of the second decompression portion, the second refrigerant reservoir being configured to store the refrigerant that is heat-exchanged in the refrigerant outside-air heat exchanger. 8 . The refrigeration cycle device according to claim 7 , wherein the first refrigerant reservoir is integrated with the high-pressure side heat exchanger, and the high-pressure side heat exchanger exchanges heat between the refrigerant and a high-temperature side heat medium to heat the high-temperature side heat medium, the refrigeration cycle device further comprising a heater core that exchanges heat between the high-temperature side heat medium heated by the high-pressure side heat exchanger and the air. 9 . The refrigeration cycle device according to claim 7 , further comprising: a heat-absorption mode subcooling portion that subcools the refrigerant flowing out of the first refrigerant reservoir in the heat absorption mode, wherein the first refrigerant reservoir and the heat-absorption mode subcooling portion exchange heat between the refrigerant and the high-temperature heat medium in the heat absorption mode. 10 . The refrigeration cycle device according to claim 7 , further comprising: a heat-dissipation mode subcooling portion that subcools the refrigerant flowing out of the second refrigerant reservoir in the heat dissipation mode; a bypass portion through which the refrigerant flowing out of the refrigerant outside-air heat exchanger flows while bypassing the heat-dissipation mode subcooling portion; and a bypass opening-degree adjustment portion that decreases an opening degree of a flow passage of the bypass portion in the heat dissipation mode, as compared to in the heat absorption mode. 11 . The refrigeration cycle device according to claim 10 , wherein the heat-dissipation mode subcooling portion has a plurality of refrigerant tubes through which the refrigerant flows, the refrigeration cycle device further comprising: a distribution tank portion that distributes the refrigerant flowing out of the second refrigerant reservoir to the plurality of refrigerant tubes, wherein the bypass portion extends from the distribution tank portion to a refrigerant-flow downstream side of the heat-dissipation mode subcooling portion. 12 . The refrigeration cycle device according to c