Rankine cycle device, expansion system and expansion machine

The invention claimed is: 1. A Rankine cycle device comprising: a pump for pressurizing a working fluid; a heater for heating the working fluid pressurized by the pump; an expansion machine comprising: an expansion mechanism for extracting a power from the working fluid heated by the heater, an electric power generator connected to the expansion mechanism, a sealed container containing the expansion mechanism and the electric power generator, a first inlet for supplying the working fluid to the expansion mechanism, a first outlet for draining the working fluid from the expansion mechanism to an outside of the sealed container, a second inlet for supplying, to an inside of the sealed container, the working fluid having a lower temperature than that of the working fluid at the first outlet, and a second outlet for draining, to the outside of the sealed container, the working fluid supplied from the second inlet; a radiator for cooling the working fluid drained from the second outlet and for supplying the working fluid to the pump; and a cooling path having a cooler for cooling the working fluid drained from the first outlet, the cooling path connecting the first outlet to the second inlet. 2. The Rankine cycle device according to claim 1 , wherein the second inlet and the second outlet are positioned closer to the electric power generator than the first outlet. 3. The Rankine cycle device according to claim 1 , wherein the second inlet is positioned closer to the electric power generator than the expansion mechanism. 4. The Rankine cycle device according to claim 1 , wherein the second outlet is positioned closer to the electric power generator than the expansion mechanism. 5. The Rankine cycle device according to claim 1 , wherein the second inlet is positioned farther from the expansion mechanism than the second outlet. 6. The Rankine cycle device according to claim 1 , wherein the expansion machine further has a partition member for partitioning the inside space of the sealed container into the expansion mechanism and the electric power generator. 7. The Rankine cycle device according to claim 1 , wherein the cooler cools the working fluid drained from the first outlet by exchanging the heat between the working fluid flowing through the cooling path and the working fluid flowing from the pump toward the heater. 8. The Rankine cycle device according to any one of claim 1 , wherein the cooler cools the working fluid drained from the first outlet by exchanging the heat between the working fluid flowing through the cooling path and a heat medium outside the Rankine cycle device. 9. An expansion system comprising: an expansion machine comprising: an expansion mechanism for extracting a power from a working fluid heated by a heater, an electric power generator connected to the expansion mechanism, a sealed container containing the expansion mechanism and the electric power generator, a first inlet for supplying the working fluid to the expansion mechanism, a first outlet for draining the working fluid from the expansion mechanism to an outside of the sealed container, a second inlet for supplying, to an inside of the sealed container, the working fluid having a lower temperature than that of the working fluid at the first outlet, and a second outlet for draining, to the outside of the sealed container, the working fluid supplied from the second inlet; a cooling path having a cooler comprising a heat exchanger for cooling the working fluid drained from the first outlet, the cooling path connecting the first outlet to the second inlet, and the second inlet and the second outlet are connected to the electric power generator of the sealed container. 10. An expansion machine comprising: an expansion mechanism for extracting a power from a working fluid heated by a heater; an electric power generator connected to the expansion mechanism; a sealed container containing the expansion mechanism and the electric power generator; a first inlet for supplying the working fluid to the expansion mechanism; a first outlet for draining the working fluid from the expansion mechanism to an outside of the sealed container; a second inlet for supplying, to an inside of the sealed container, the working fluid having a lower temperature than that of the working fluid at the first outlet; and a second outlet for draining, to the outside of the sealed container, the working fluid supplied from the second inlet, wherein the second inlet and the second outlet are connected to the electric power generator of the sealed container, and the working fluid at the first inlet has a higher pressure than that of the working fluid at the second outlet during operation of the expansion machine. 11. The expansion machine according to claim 10 , wherein the second inlet is positioned farther from the expansion mechanism than the second outlet. 12. The Rankine cycle device according to claim 1 , wherein the working fluid at the second inlet supplied to the inside of the sealed container is in a gaseous phase. 13. The Rankine cycle device according to claim 1 , wherein the cooler comprises a heat exchanger. 14. The expansion system according to claim 9 , wherein the working fluid at the second inlet supplied to the inside of the sealed container is in a gaseous phase. 15. The expansion machine according to claim 10 , wherein the working fluid at the second inlet supplied to the inside of the sealed container is in a gaseous phase. 16. The expansion system according to claim 9 , wherein the heat exchanger is arranged such that heat exchange therein occurs between working fluid drained from the first outlet and working fluid flowing to the first inlet. 17. The Rankine cycle device according to claim 1 , wherein the working fluid at the first inlet has a higher pressure than that of the working fluid at the second outlet during operation of the expansion machine. 18. The expansion system according to claim 9 , wherein the working fluid at the first inlet has a higher pressure than that of the working fluid at the second outlet during operation of the expansion machine.