Casting device

The invention claimed is: 1. A casting device, comprising: a movable mold; a heating chamber in which a molten metal is to be poured into the mold; and a cooling chamber adjacent to the heating chamber, the mold being movable from the heating chamber to the cooling chamber to be cooled, wherein the cooling chamber includes a gas cooling portion including a gas supply nozzle configured to discharge cooling gas toward the mold from a discharge end of the gas supply nozzle, and wherein the gas cooling portion is configured to adjust a position of the discharge end of the gas supply nozzle in response to movement of the mold. 2. The casting device according to claim 1 , wherein the gas cooling portion is configured to move the gas supply nozzle to adjust the position of the discharge end. 3. The casting device according to claim 1 , wherein the gas cooling portion is configured to advance or retreat the gas supply nozzle to adjust the position of the discharge end. 4. The casting device according to claim 1 , wherein the gas cooling portion is configured to expand or contract the gas supply nozzle at fixed positions to adjust the position of the discharge end. 5. The casting device according to claim 1 , wherein the gas supply nozzle is one of a plurality of gas supply nozzles of the gas cooling portion, and the plurality of gas supply nozzles are radially arranged in a horizontal plane to surround the mold. 6. The casting device according to claim 1 , wherein the gas supply nozzle includes a slit-shaped nozzle opening extending in a horizontal direction. 7. The casting device according to claim 1 , wherein the cooling chamber is below the adjacent heating chamber in a vertical direction, and gas supply nozzle is configured such that the discharge end of the gas supply nozzle is directed downward. 8. The casting device according to claim 1 , wherein the cooling chamber is below the adjacent heating chamber in a vertical direction, and the cooling chamber includes a radiation cooling portion below the gas cooling portion in the vertical direction. 9. The casting device according to claim 8 , wherein the radiation cooling portion includes a cylindrical water-cooling jacket. 10. The casting device according to claim 1 , wherein the mold is one of a plurality of molds, the gas supply nozzle is one of a plurality of gas supply nozzles of the gas cooling portion, and the gas cooling portion is configured to adjust a discharge end of each of the plurality of gas supply nozzles associated with each respective one of the plurality of molds in response to movement of the each respective one of the plurality of molds. 11. The casting device according to claim 10 , wherein the plurality of gas supply nozzles are rotated in a horizontal plane to adjust the position of the discharge end of each of the gas supply nozzles. 12. The casting device according to claim 1 , wherein the gas cooling portion is configured to adjust the position of the discharge end of the gas supply nozzle in response to movement of the mold such that a distance between the discharge end of the gas supply nozzle and the mold is kept constant. 13. The casting device according to claim 1 , wherein the gas cooling portion further includes an actuator configured to advance and retreat the gas supply nozzle such that a distance between the discharge end of the gas supply nozzle and the mold is kept constant. 14. A casting method comprising: pouring a molten metal into a mold; and cooling the mold from one direction, wherein, during the cooling, a discharge position of cooling gas is adjusted in response to movement of the mold while the cooling gas is discharged toward the mold. 15. The casting method according to claim 14 , wherein, during the cooling, the discharge position of cooling gas is adjusted in response to movement of the mold while the cooling gas is discharged from a discharge end of a gas supply nozzle toward the mold such that the distance between the discharge end of the gas supply nozzle and the mold is kept constant. 16. The casting method according to claim 15 , wherein the distance between the discharge end of the gas supply nozzle and the mold is kept constant by advancing and retreating the gas supply nozzle using an actuator.