RU2000121273A - NUCLEAR REACTOR FUEL ASSEMBLY - Google Patents

Claims (2)

1. A fuel assembly of a nuclear reactor containing a bundle of fuel elements that are hexagonal in cross section and are mounted vertically so that their longitudinal axes are at the same distance from each other, honeycomb spacers with cells composed of interconnected cells with beadings in the form corrugations and a rim, a bearing grid, a shank, a central pipe and guide channels located mainly in the center of the fuel assembly in the form of pipes, into which control and protection rods and with lugs at the bottom end, with which they are fixed in the bearing grid, the heat-generating elements being installed in the cells with interference, there are no corresponding cells at the place of installation of the guide channels and central pipe in the distance grids, and the distance gratings are installed on the direction channels and the central tube with the possibility of limited movement along the latter with the relative movements of the fuel elements due to radiation growth and thermal their expansion, and the displacement value is selected from the operating conditions of the corrugations of the cells in the elastic deformation zone, characterized in that the displacement of the spacing grids on the central tube during radiation growth and thermal expansion of the fuel elements is limited by the magnitude of this displacement by performing restrictive constraints on both sides rings, which are fixed puklevkami the holes in the central tube 90 with an angle ^o between the top and bottom on both sides puklevkami each d stantsioniruyuschey lattice with the distance between the spacer grid and the lower edge of the upper guard ring for the lower half of the spacer grids of the fuel assembly, equal to L = 0,45D ÷ 0,5D, wherein L - the distance between the spacer grid and the lower edge of the guard ring; D is the diameter of the central pipe, and for the upper half of the spacer grids of the fuel assembly, the distance between the spacer grid and the lower edge of the upper restriction ring is L ₁ = 0.95D ÷ 1.0D, where L ₁ is the distance between the spacer grid and the lower edge of the restriction ring ; D is the diameter of the central pipe, and on three guide channels located at an angle of 120 ^o relative to each other and at an equal distance from the central pipe in the upper part above the spacer grids, safety rings are fixed that limit the maximum distance of movement of the spacer grids during radiation growth and thermal expansion of the fuel elements with a distance from the spacer grid to the lower edge of the safety ring of the lower half of the spacer grids equal to L ₂ = 0.65 D ₁ ÷ 0,7Д ₁ , where L _{2 is the} distance between the spacer grid and the lower edge of the safety ring; D ₁ is the diameter of the guide channel, and for the upper half of the spacer grids of the fuel assembly, the distance between the spacer grid and the lower edge of the safety ring is L ₃ - 1.15 D ₁ ÷ 1.16 D ₁ , where L ₃ is the distance between the spacer grid and the lower edge safety ring; D ₁ - the diameter of the guide channel.  2. The fuel assembly according to claim 1, characterized in that the safety rings are split and fixed to the guide channels by spot welding.