Patent Number: 
Section: claims

1. A method of inspecting welding of a sealed closure plug of a fuel element for a nuclear reactor, the fuel element having a tubular sleeve enclosing a plurality of nuclear fuel pellets stacked in an axial direction of the sleeve and two sealed closure plugs having a cylindrical part inserted coaxially into an axial end part of the sleeve, the plug welded in a welding station by melting the sleeve and the plug along a circular line in a joint plane perpendicular to the axial direction of the sleeve and the plug through welding directed radially relative to the circular line in the joint plane of the sleeve and the plug, which are coupled to a rotation arrangement for rotation about a common axis, inspection effected by processing digitized optical images of areas of the fuel element adjoining the circular line and distributed along a periphery of the fuel element, the method comprising: rotating the sleeve and the plug about the common axis with aid of the rotation arrangement before welding the plug and the sleeve, the plug and the sleeve configured in a welding position at the welding station, wherein images are taken along the periphery of the fuel element to obtain the digitized optical images which are analyzed to determine a position of the joint plane, and a rotation of the fuel element is verified;  deducing at least one of to perform the welding or not to perform the welding; and  taking images, if the welding is performed after welding the plug to the sleeve of the fuel element of the fuel in the position at the welding station, along a circumference of the external surface of the fuel element in a vicinity of the line to obtain the digitized optical images, the digitized optical images analyzed to check a conformance of as weld a long the line. 2. The method according to  claim 1 , further comprising: claim 1 determining a reference line in the digitized optical images prior to welding, the reference line positioned in a vertical direction of an image corresponding to a circumferential direction of the fuel element, in a plane perpendicular to the axis of the fuel element, and determining grey levels of pixels of the images along search lines perpendicular to the reference line to determine a position of two edges of the joint plane in two planes perpendicular to the axis of the fuel element. 3. The method according to  claim 2 , further comprising: claim 2 determining a mean search fine from N adjoining search lines that are determined on a diagram of the grey levels on the mean search line and a detection threshold of the joint plane and comparing the grey levels along the mean search line to the detection threshold to determine the position of the edges of the joint plane, wherein N is an integer greater than 0 determined by a user. 4. The method according to  claim 3 , further comprising: claim 3 determining a distance in a direction of the axis of the fuel element between the reference line and at least one edge of the joint plane. 5. The method according to  claim 2 , wherein positions of the edges of a weld are determined relative to the reference line. claim 2 6. The method according to  claim 1 , wherein during a pulsed laser welding, establishing diagrams of grey levels along each column of the image corresponding to peripheral directions of the fuel element, in planes perpendicular to the axis of the fuel element, and, on a curve obtained for each of the columns of the image, determining transitions between minima and maxima of the curve which have a period consistent with a pulsed laser beam period, and, for each of the columns of the image, determining a number of the transitions having a period equal with the pulsed laser beam period to obtain a curve of a distribution of the transitions along the columns of the image, the curve giving the number of transitions per column which is filtered to obtain a curve of the distribution of the transitions in a vicinity of each edge of the weld, and determining a threshold value according to each edge area of the weld, and determining a condition of edges of the weld by determining columns in which a number of transitions are below the threshold. claim 1 7. The method according to  claim 6 , further comprising: claim 6 determining a width of the weld between the edges in the direction of the axis of the fuel element and deducing a depth of penetration of the weld therefrom by correlation. 8. The inspection method according to  claim 1 , wherein during a laser beam welding where a fixed reference line is disposed along a laser beam welding axis, determining the position of the joint plane relative to the fixed reference line. claim 1