Patent Number: 
Section: claims

1. A bottom nozzle of a light-water reactor fuel assembly, comprising a skirt, support blocks, transverse blades and longitudinal blades, wherein the skirt is a hollow structure and a bottom thereof is provided with corner legs which are protruded downwards, a cavity is defined in the hollow structure, the transverse blades are equidistantly and uniformly configured in the cavity to form a transverse thin strip layer, the longitudinal blades are equidistantly and uniformly configured in the cavity to form a longitudinal thin strip layer, both ends of the transverse blades and longitudinal blades are connected with the skirt, the transverse blades are located above longitudinal blades, projections of the transverse blades and the longitudinal blades in a level plane are intersectant to form interleaved grids, and the support blocks run through and are fixed on the transverse blades and the longitudinal blades, wherein a gap is formed between lower ends of the transverse blades and upper ends of the longitudinal blades to form a water passage subdivision layer, and wherein the transverse blades and the longitudinal blades are in wave structures, and the transverse blades and the longitudinal blades are flipped in orientation vertically 180 degrees with respect to each other, such that downward-facing wave crests of the transverse blades are directly above corresponding upward-facing wave crests of the longitudinal blades. 2. The bottom nozzle according to claim 1, wherein lower ends of the transverse blades are connected to upper ends of the longitudinal blades. 3. The bottom nozzle according to claim 1, wherein the support blocks are located at intersections of the grids. 4. The bottom nozzle according to claim 1, wherein the support blocks, the transverse blades and the longitudinal blades are in an integrated structure. 5. The bottom nozzle according to claim 1, wherein projections of the transverse blades and longitudinal blades in a level plane are orthogonal. 6. The bottom nozzle according to claim 1, wherein an enhanced strip is connected between each support block and its adjacent transverse thin strip, or between each support block and its adjacent longitudinal thin strip. 7. The bottom nozzle according to claim 1, wherein the support blocks are provided with connecting holes which are capable of receiving guide thimbles of a light-water reactor fuel assembly, and the connecting holes are stepped holes each of which has a narrow top and a wider bottom. 8. A light-water reactor fuel assembly, comprising a bottom nozzle, a top nozzle, spacer grids, guide thimbles and fuel rods, the fuel rods and the guide thimbles being inserted into the spacer grids respectively, the spacer grids having upper ends connected and mating with the top nozzle and lower ends connected and mating with the bottom nozzle, and the bottom nozzle comprising a skirt, support blocks, transverse blades and longitudinal blades, wherein the skirt is a hollow structure and a bottom thereof is provided with corner legs which are protruded downwards, a cavity is defined in the hollow structure, the transverse blades are equidistantly and uniformly configured in the cavity to form a transverse thin strip layer, the longitudinal blades are equidistantly and uniformly configured in the cavity to form a longitudinal thin strip layer, both ends of the transverse blades and longitudinal blades are connected with the skirt, the transverse blades are located above longitudinal blades, projections of the transverse blades and the longitudinal blades in a level plane are intersectant to form interleaved grids, and the support blocks run through and are fixed on the transverse blades and the longitudinal blades, wherein a gap is formed between lower ends of the transverse blades and upper ends of the longitudinal blades to form a water passage subdivision layer, and wherein the transverse blades and the longitudinal blades are in wave structures, and the transverse blades and the longitudinal blades are flipped in orientation vertically 180 degrees with respect to each other, such that downward-facing wave crests of the transverse blades are directly above corresponding upward-facing wave crests of the longitudinal blades. 9. The light-water reactor fuel assembly according to claim 8, wherein lower ends of the transverse blades are connected to upper ends of the longitudinal blades. 10. The light-water reactor fuel assembly according to claim 8, wherein the support blocks are located at intersections of the grids. 11. The light-water reactor fuel assembly according to claim 8, wherein the support blocks, the transverse blades and the longitudinal blades are in an integrated structure. 12. The light-water reactor fuel assembly according to claim 8, wherein projections of the transverse blades and longitudinal blades in a level plane are orthogonal. 13. The light-water reactor fuel assembly according to claim 8, wherein an enhanced strip is connected between each support block and its adjacent transverse thin strip, or between each support block and its adjacent longitudinal thin strip. 14. The light-water reactor fuel assembly according to claim 8, wherein the support blocks are provided with connecting holes which are capable of receiving guide thimbles of a light-water reactor fuel assembly, and the connecting holes are stepped holes each of which has a narrow top and a wider bottom.