Patent Number: 
Section: claims

1. A method for manufacturing a control rod of a nuclear reactor, the control rod comprising a blade including neutron absorbers and sheathes, a tie rod to be fixed to the blade at a first groove, a handle to be fixed to the blade at a second groove and a lower-blade to be fixed to the blade at a third groove, said method comprising: cutting weep holes for water to cool the neutron absorbers in the sheath and cutting a periphery of the sheath;  bending the sheath cut in the cutting step to a C-shape;  inserting the neutron absorbers in a bent portion of the sheath formed by bending in the bending step;  welding the blade to the tie rod so that the first groove is welded reliably to secure a penetration bead on a rear surface of the sheath by irradiating a laser beam on a first portion deviated from the first groove within a range of 2 mm, the blade to the handle so that the second groove is welded reliably to secure a penetration bead on the rear surface of the sheath by irradiating a laser beam on a second portion deviated from the second groove within a range of 2 mm, and the blade to the lower-blade so that the third groove is welded reliably to secure a penetration bead on the rear surface of the sheath by irradiating a laser beam on a third portion deviated from the third groove within a range of 2 mm; and  finishing portions welded in the welding step. 2. A method for manufacturing a control rod of a nuclear reactor according to  claim 1 , wherein the laser beam is one of a YAG laser beam or a CO2 laser beam. claim 1 3. A method for manufacturing a control rod of a nuclear reactor according to  claim 1 , wherein the welding step comprises performing a TIG welding on a first position deviated from the first groove, a second position deviated from the second groove, and a third position deviated from the third groove within a range of 3 mm. claim 1 4. A method for manufacturing a control rod of a nuclear reactor according to one of the claims  1 ,  2  or  3 , wherein the cutting step comprises cutting the weep holes and the sheath with high-pressure nitrogen gas. 5. A method for manufacturing a control rod of a nuclear reactor according to one of the claims  1 ,  2  or  3 , wherein the inserting step comprises aligning ragged end faces of the sheath which are connected to the tie rod by laser cutting with high-pressure nitrogen gas. 6. A method for manufacturing a control rod of a nuclear reactor according to one of the claims  1 ,  2  or  3 , wherein the welding step comprises forming two slits in one of the tie rod, the handle and the lower-blade, inserting projections of the blade in the slits, and irradiating the laser beam on one of a boundary between the blade and the tie rod and a boundary between the blade and the lower-blade. 7. A method for manufacturing a control rod of a nuclear reactor according to one of the claims  1  or  3 , wherein the welding step comprises welding the blade by irradiating one of a YAG laser beam or a CO 2  laser beam on a position deviated from the first, second, and third grooves toward a thick structure portion whose thickness is greater than a depth of the first, second, and third grooves respectively to form a penetration bead. 8. A method for manufacturing a control rod of a nuclear reactor according to  claim 2 , wherein the welding step comprises welding the blade by irradiating said one of the YAG laser beam or the CO 2  laser beam on a position deviated from the first, second, and third grooves toward a thick structure portion whose thickness is greater than a depth of the first, second, and third grooves respectively to form a penetration bead. claim 2