Patent Number: 
Section: claims

1. A nuclear fuel element comprising a bundle of fuel rods and a framework for holding the bundle, wherein each of the fuel rods are of substantially cylindrical shape, and said framework comprises a plurality of spacer grids for a fuel assembly in a light-water-cooled nuclear reactor, for providing a transverse retention of the bundle of fuel rods in mutually parallel arrangements, at least one of the plurality of spacer grids comprising:an array of cells juxtaposed and placed in a regular lattice, each bounded and separated from neighboring cells by at least one peripheral wall which is open at two opposed ends, along a direction of an axis of the cell, the axis being vertical, so as to receive one of the fuel rods, said one of the fuel rods passing along the cell axis parallel to the peripheral wall, andan arrangement for bearing on and retaining the one of the fuel rods in a central position in which an axis of the one of the fuel rods lies along the axis of the cell, a free space being left between a cylindrical external surface of the one of the fuel rods and the peripheral wall of the cell, in which the arrangement for bearing on and retaining the one of the fuel rods in each of the cells housing a fuel rod comprisesa wall having a form of a helical sheet extending transversely in the free space between the external surface of the one of the fuel rods and the peripheral wall of the cell so as to bear on the one of the fuel rods over a substantial part of the height of the cell in a direction of the axis of the cell,wherein the wall having a form of a helical sheet comprisesat least one element in a helical arrangement with respect to the axis of the cell, wherein the at least one element in a helical arrangement consists ofa part of the peripheral wall of the cell cut in the peripheral wall along a direction inclined to the axis of the cell and folded so as to constitute a blade-shaped first part of direction transverse to the peripheral wall and a second part folded with respect to the first part, the second part extending approximately parallel to the peripheral wall and constituting a bearing surface for the external surface of the one of the fuel rods,wherein the second part is joined to the peripheral wall of the cell via the transverse first part constituting a spring leaf retaining the one of the fuel rods and for guiding a cooling fluid in a helical arrangement with respect to the axis of the cell, andwherein the second part folded with respect to the first part bears on the one of the fuel rods over a part of the height of the cell in the direction of the axis of the cell. 2. The nuclear fuel element according to claim 1, wherein each cell of the array of cells has a:square-based parallelepiped shape with four faces at 90°, and comprisesa first element in a helical arrangement being produced in a first end part of the peripheral wall in the axial direction of the cell by cuffing and bending part of a first face of the peripheral wall,a second element in a helical arrangement being produced by cuffing and bending part of a second face of the peripheral wall adjacent the first face in a second end part along the direction of the axis of the cell,a third element in a helical arrangement being produced by cuffing and bending a portion of a third face adjacent the second face, in the first end part along the direction of the axis of the cell anda fourth element in a helical arrangement being produced by cuffing and bending a portion of a fourth face of the peripheral wall of the cell adjacent the third and the first faces, in the second end part of the peripheral wall along the direction of the axis of the cell. 3. The nuclear fuel element according to claim 2, wherein the elements in a helical arrangement and lying in the second end part of the peripheral wall along the direction of the axis of the cell project from an end edge of the peripheral wall at the second end of the peripheral wall and are folded toward cells neighboring the cell in the peripheral wall from which the elements are cut. 4. The nuclear fuel element according to claim 1, wherein the at least one element in a helical arrangement is inclined at an angle of 30° relative to the central axis of the cell. 5. The nuclear fuel element according to claim 1, wherein the at least one element in a helical arrangement is folded, in the axial direction and in a direction of winding of the helical arrangement, alternately to an inside of the cell and toward an outside of the cell in a cell neighboring the cell. 6. The nuclear fuel element according to claim 5, wherein the at least one element in a helical arrangement is cut and folded in the cell and in adjacent cells such that the direction of winding of the at least one helical element is reversed between the cell and any adjacent cell. 7. The nuclear fuel element according to claim 1, wherein the at least one of the plurality of spacer grids further comprises:an arrangement of rigid dimples produced by cutting and pushing-back metal of the walls of the cell. 8. The nuclear fuel element according to claim 3, wherein the elements in a helical arrangement and lying in the second end part of the peripheral wall along the direction of the axis of the cell are arranged in the end of the peripheral wall and wherein the first part of said elements are folded with respect to the peripheral wall towards the first end of the peripheral wall.