Patent Number: 
Section: claims

1. A vol-oxidizer of spent nuclear fuel, the vol-oxidizer comprising:a reaction portion in which spent nuclear fuel is being injected and oxidized;a driving portion connected to the reaction portion and moving up and down and rotating the injected spent nuclear fuel; anda discharge portion gathering the oxidized spent nuclear fuel in the reaction portion and guiding the oxidized spent nuclear fuel to a subsequent operation. 2. The vol-oxidizer of claim 1, the reaction portion comprising:a reaction vessel forming a certain space inside;a heater enclosing the reaction vessel;a material injection tube connected to the reaction vessel and injecting the spent nuclear fuel to the reaction vessel; anda tube module including an air inlet connected to the reaction vessel and ventilating the reaction vessel. 3. The vol-oxidizer of claim 2, wherein the reaction vessel is in a funnel shape, a cross section of an upper portion of the reaction vessel has a regular circular diameter, and, from a certain upper portion to a lower portion of the funnel, the diameter of the funnel becomes smaller. 4. The vol-oxidizer of claim 3, wherein the vol-oxidizer further comprises a corn type metal filter, mounted in a portion of the reaction vessel in which the reaction vessel's diameter becomes smaller and allows air to ventilate by having micro holes. 5. The vol-oxidizer of claim 2, wherein the reaction vessel has a plurality of fixed mixing vanes protruding inward in regular intervals, and the plurality of vanes rotating, colliding with the spent nuclear fuel. 6. The vol-oxidizer of claim 2, wherein the driving portion comprises:a rotation axle passing through the inside of the reaction vessel and moving up and down to selectively open or close a hole formed in a lower portion of the reaction vessel;a rotation driving unit rotating the rotation axle; anda transfer driving unit moving the axle up and down. 7. The vol-oxidizer of claim 6, wherein the vol-oxidizer further comprises a mesh mounted around the rotation axle and formed with a plurality of square holes. 8. The vol-oxidizer of claim 7, the mesh comprising:a first mesh portion in a shape of a half circle;a second mesh portion adjacent to the first mesh portion and in a half circle; anda plurality of links connecting the first mesh portion, the second mesh portion, and the rotation axle;wherein the plurality of links are moved according to the rotation axle's transfer by an air cylinder to fold and open the first mesh portion and the second mesh portion. 9. The vol-oxidizer of claim 6, the rotation driving unit comprising:a rotation motor generating a rotation force; anda gear unit connecting the rotation motor and the rotation axle. 10. The vol-oxidizer of claim 9, wherein the gear portion is a bevel gear and the rotation motor is mounted on a mounting plate protruded from a lateral face of the reaction portion and a plurality of protruding guiding bars are formed from the mounting plate around the rotation motor. 11. The vol-oxidizer of claim 6, the transfer driving unit comprising:a plate mounted with the reaction portion;a driving axle formed perpendicular to the plate;a guiding bar formed perpendicular to the plate and connected to the plate by a bearing; anda transfer motor moving up and down the driving axle. 12. The vol-oxidizer of claim 1, the discharge portion comprising:a powder vessel located in a lower portion of the reaction portion and gathering oxidized spent nuclear fuel; anda valve located in an upper portion of the powder vessel and controlling an inlet of the spent nuclear fuel. 13. The vol-oxidizer of claim 12, wherein the powder vessel is in a funnel shape and is detachably mounted. 14. A vol-oxidizer of spent nuclear fuel, the vol-oxidizer comprising:a bottom plate;a powder vessel detachably mounted on the bottom plate;a reaction vessel located in an upper portion of the powder vessel, oxidizing spent nuclear fuel and discharging the spent nuclear fuel to the powder vessel;a heater enclosing the reaction vessel and supplying the reaction vessel with heat;an injection tube injecting the spent nuclear fuel and air into the reaction vessel;a rotation axle passing through the reaction vessel;a mesh mounted around the rotation axle in a cylindrical direction and having the spent nuclear fuel being dropped into the reaction vessel anda driving unit driving the rotation axle to rotate and to move up and down. 15. The vol-oxidizer of claim 14, wherein the reaction vessel is in a funnel shape, a cross section of an upper portion of the reaction vessel has a regular circular diameter, and, from a certain upper portion to a lower portion of the funnel, the diameter of the funnel becomes smaller, and the vol-oxidizer has a corn type metal filter mounted in a portion of the reaction vessel in which the reaction vessel's diameter becomes smaller and allowing air to ventilate by having micro holes. 16. The vol-oxidizer of claim 14, the reaction vessel wherein the reaction vessel has a plurality of fixed mixing vanes protruding inward in regular intervals, and the plurality of vanes rotating, colliding with the spent nuclear fuel. 17. The vol-oxidizer of claim 14, the mesh comprising:a first mesh portion in a shape of a half circle;a second mesh portion adjacent to the first mesh portion and in a half circle; anda plurality of links connecting the first mesh portion, the second mesh portion, and the rotation axle;wherein the plurality of links are moved according to the rotation axle's transfer by an air cylinder to fold and open the first mesh portion and the second mesh portion. 18. The vol-oxidizer of claim 14, the driving unit comprising:a rotation motor generating a rotation force; anda gear unit connecting the rotation motor and the rotation axle. 19. The vol-oxidizer of claim 14, the driving unit comprising:a plate mounted with the reaction portion;a driving axle formed in a perpendicular direction and connected to the plate;a guiding bar formed in a perpendicular direction (*“from the plate”?*) and connected by the plate and a bearing; anda transfer motor moving the driving axle up and down. 20. The vol-oxidizer of claim 19, the vol-oxidizer further comprises a guiding bar formed between the bottom plate and the plate in a perpendicular direction, extending to connect the bottom plate and the plate and guiding the plate to move. 21. The vol-oxidizer of claim 14, wherein the powder vessel is in a funnel shape, in which an open and close valve is mounted in an inlet, and controls an inflow and outflow of the spent nuclear fuel. 22. The vol-oxidizer of claim 14, wherein the rotation axle is connected to the driving unit and an expanded open and close portion is formed in a lower portion of the vol-oxidizer.