Device and method for underwater repair of hole of a nuclear reactor part

The invention claimed is: 1. A repair device for the underwater repair of a hole of a nuclear reactor part by remachining the hole, the repair device comprising: a holder; a cutting tool held by the holder and having at least one cutting tooth for remachining an inner surface of the hole, the cutting tool having a suction channel extending into the cutting tool between at least one inlet opening and at least one outlet opening; a drive shaft for rotating the cutting tool, the drive shaft being held by the holder; and a suction tube connected to the holder and fluidly connected to the outlet opening of the suction channel, wherein the cutting tool comprises a cutting part and a drive part connected to the drive shaft, the outlet opening emerging in a recess of the drive shaft, the drive shaft having at least one lateral opening for the passage of the fluid from the inside of the recess toward the outside, the suction channel being connected to the holder in register with the lateral opening to suction the fluid through the lateral opening. 2. A repair device for the underwater repair of a hole of a nuclear reactor part by remachining the hole, the repair device comprising: a holder; a cutting tool held by the holder and having at least one cutting tooth for remachining an inner surface of the hole, the cutting tool having a suction channel extending into the cutting tool between at least one inlet opening and at least one outlet opening; a drive shaft for rotating the cutting tool, the drive shaft being held by the holder; and a suction tube connected to the holder and fluidly connected to the outlet opening of the suction channel, wherein the cutting tooth comprises a portion for machining a circular cylindrical hole and a portion for machining a frustoconical bevel at the inlet of the circular cylindrical hole. 3. A repair device for the underwater repair of a hole of a nuclear reactor part by remachining the hole, the repair device comprising: a holder; a cutting tool held by the holder and having at least one cutting tooth for remachining an inner surface of the hole, the cutting tool having a suction channel extending into the cutting tool between at least one inlet opening and at least one outlet opening; a drive shaft for rotating the cutting tool, the drive shaft being held by the holder; and a suction tube connected to the holder and fluidly connected to the outlet opening of the suction channel, further comprising a stop surface configured to abut against the part in which the hole to be repaired is arranged in order to limit the travel of the cutting tool in the hole to be repaired. 4. The repair device according to claim 3 , wherein the suction channel extending extends inside the cutting tool. 5. The repair device according to claim 3 , wherein the cutting tool comprises a cutting part and a drive part connected to the drive shaft, the outlet opening emerging in a recess of the drive shaft, the drive shaft having at least one lateral opening for the passage of the fluid from the inside of the recess toward the outside, the suction channel being connected to the holder in register with the lateral opening to suction the fluid through the lateral opening. 6. The repair device according to claim 3 , wherein the holder and the drive shaft comprise at least one rotational guiding assembly comprising a bearing provided on the holder and a complementary transmission shaft provided on the drive shaft. 7. The repair device according to claim 6 , wherein the cutting tool comprises a cutting part and a drive part connected to the drive shaft, the outlet opening emerging in a recess of the drive shaft, the drive shaft having at least one lateral opening for the passage of the fluid from the inside of the recess toward the outside, the suction channel being connected to the holder in register with the lateral opening to suction the fluid through the lateral opening and wherein the holder and the drive shaft comprise two rotational guiding assemblies located, along the drive shaft, on either side of the or each lateral opening. 8. The repair device according to claim 6 , wherein at least one rotational guiding assembly provides the sealing between the holder and the drive shaft. 9. The repair device according to claim 3 , wherein the holder is a support tube, the cutting tool being arranged at one end of the holder, the drive shaft extending inside the holder between the ends of the holder. 10. The repair device according to claim 3 , wherein the cutting tool extends along a longitudinal axis, the cutting tooth extending substantially rectilinearly along the longitudinal axis. 11. The repair device according to claim 3 , wherein the inlet opening of the suction channel is arranged at a base of an undercut face of the cutting tooth. 12. The repair device according to claim 3 , wherein the inlet opening of the suction channel is elongated along the cutting tooth. 13. The repair device according to claim 3 , wherein the cutting tool is a reamer. 14. The repair device according to claim 3 , wherein the cutting tooth comprises a portion for machining a circular cylindrical hole and a portion for machining a frustoconical bevel at the inlet of the circular cylindrical hole. 15. The repair device according to claim 3 , wherein the cutting tool comprises, on a cutting part of the cutting tool bearing the cutting tooth, at least one flat offset on the circumference of the cutting part, relative to the cutting tooth. 16. The repair device according to claim 3 , wherein the cutting tool is configured to produce a centering hole for a nuclear fuel assembly upper nozzle, a mistake-proofing hole for a nuclear fuel assembly upper nozzle, a centering hole for a nuclear fuel assembly lower nozzle, a hole for a lower core plate or a hole for an upper core plate.