Heat pump

The invention claimed is: 1. A heat pump, comprising: a first compressor, a first radiator, a second radiator, a first pressure reducing device, and an evaporator being connected by first refrigerant piping to form a first refrigeration cycle, the elements of the first refrigeration cycle being arranged such that a first refrigerant circulates in a direction of flow from the first compressor, then through the first radiator, then through the second radiator, then through the first pressure reducing device, and then through the evaporator; and a second compressor, a first heat exchange unit, a second pressure reducing device and a second heat exchange unit being connected by second refrigerant piping to form a second refrigeration cycle, the elements of the second refrigeration cycle being arranged such that a second refrigerant different from the first refrigerant circulates in a direction of flow from the second compressor, then through the first heat exchange unit, then through the second pressure reducing device and then through the second heat exchange unit, wherein in the first refrigeration cycle, the first refrigerant operates in a supercritical state, the first compressor generates maximum pressure in the first refrigeration cycle to make the first refrigerant the supercritical state, the first refrigerant in the supercritical state radiates heat at the first radiator and the second radiator, and the first pressure reducing device decompresses the first refrigerant radiated heat at the first radiator and the second radiator to change the first refrigerant from the supercritical state to a two-phase gas-liquid state, wherein in the second refrigeration cycle, the first heat exchange unit exchanges heat between the second refrigerant and the first refrigerant flowing out from the first radiator and flowing into the second radiator, and the second heat exchange unit exchanges heat between the second refrigerant and the first refrigerant flowing out from the second radiator and flowing into the first pressure reducing device, wherein heat collected from the first refrigerant at the second heat exchange unit is used for heating the first refrigerant at the first heat exchange unit, and wherein a temperature of the first refrigerant flowing into the second radiator is higher than a temperature of the first refrigerant flowing out from the first radiator. 2. The heat pump of claim 1 , wherein a temperature of the first refrigerant flowing into the first pressure reducing device is controlled to be lower than a temperature of a medium to be heated flowing into the first radiator and the second radiator. 3. The heat pump of claim 1 , wherein in the first heat exchange unit and the second heat exchange unit, a flow direction of the first refrigerant and a flow direction of the second refrigerant counter each other. 4. The heat pump of claim 1 , wherein the second refrigerant has a theoretical COP at an evaporating temperature of 10 degrees C. to 30 degrees C. and a psuedo-critical temperature or condensing temperature of 30 degrees C. to 50 degrees C. that is higher than a theoretical COP of the first refrigerant at an evaporating temperature of 10 degrees C. to 30 degrees C. and a psuedo-critical temperature or condensing temperature of 30 degrees C. to 50 degrees C. 5. The heat pump of claim 1 , wherein the first refrigerant includes a carbon dioxide. 6. The heat pump of claim 1 , wherein the second refrigerant has a lower global warming potential than a R410A refrigerant. 7. The heat pump of claim 1 , wherein the heat pump is used for a multi-room air conditioning apparatus in which a heat source unit, a relay unit, and a plurality of indoor units are connected by piping to be placed apart from each other, wherein heat transport from the heat source unit to the relay unit is carried out by the first refrigerant and heat transport from the relay unit to the plurality of indoor units is carried out by a refrigerant different from the first refrigerant, and wherein the second refrigeration cycle is disposed in the relay unit.