Patent Number: 052727416
Section: claims

1. A nuclear fuel assembly comprising: a plurality of fuel rods;  a polygonal channel box surrounding said fuel rods;  a plurality of round cell type spacers disposed in several stages in a longitudinal direction within said channel box, each of said spacers having a plurality of cylindrical cells for holding respective ones of said plurality of fuel rods therein and for keeping said fuel rods spaced from each other; and  a plurality of vanes each extending along an outer cylindrical surface of each cylindrical cell in the longitudinal direction with an inclination to the longitudinal direction and disposed only in a corner region at and around a corner, within said channel box, farthest from a corner facing a control rod disposed adjacent to said channel box for imparting swirling motion to fluid flowing along said fuel rods in said region.  a plurality of fuel rods;  a channel box surrounding said fuel rods; and  a plurality of spacers disposed in a plurality of stages in a longitudinal direction of said fuel rods within said channel box for keeping said fuel rods spaced from each other;  wherein at least one of said spacers have a plurality of vane-formed cylindrical cells each having at least one vane on an outer cylindrical surface thereof extending along the outer cylindrical surface in the longitudinal direction for generating swirling fluid flows and disposed at a farther region from a control rod and smooth surface cylindrical cells each without vanes on an outer cylindrical surface thereof and disposed in a closer region to the control rod than the farther region. 2. The nuclear fuel assembly according to claim 1, wherein said vanes generate such swirling flows as direct liquid drops to said fuel rods, in spaces defined by opposite adjacent fuel rods, in spaces defined by said channel box and said fuel rods facing said channel box, in said corner region. 3. The nuclear fuel assembly according to claim 2, wherein and at least one of said round cell type spacers disposed in an upper region of said fuel rods is provided with said vanes formed in said outer cylindrical surfaces of said cylindrical cells in said corner region. 4. The nuclear fuel assembly according to claim 3, wherein said vanes are provided on said round cell spacers of a second upper stage and a third upper stage of said several stages, a first upper stage and other stages of said several stages having cylindrical cells without said vanes. 5. The nuclear fuel assembly according to claim 2, wherein said corner region is defined by adjacent two sides of said round type cell spacer within said channel box and said vanes are provided on said cylindrical cells for fuel rods in first and second rows each of said two sides. 6. The nuclear fuel assembly according to claim 5, wherein said vanes each are provided so as to project substantially normally to said outer cylindrical surface of each cell in said corner region and with an inclination to the axial direction. 7. The nuclear fuel assembly according to claim 2, wherein said cylindrical cells are surrounded and tied by a side band, and said vanes are provided on said side band. 8. The nuclear fuel assembly according to claim 7, wherein said side band with said vanes is provided on each of second and third upper stages of said round cell spacer of said several stages, a first upper stage and other stages of said several stages having a side band without said vanes. 9. The nuclear fuel assembly according to claim 2, wherein said vanes are provided on inner sides of said channel box defining said corner region so as to incline against the longitudinal direction. 10. The nuclear fuel assembly comprising: 11. The nuclear fuel assembly according to claim 10, wherein said channel box is polygonal in cross-section, and said farther region is a corner and an adjacent region to the corner, said corner being defined by two sides of said channel box and farthest from said control rod adjacent to said channel box. 12. The nuclear fuel assembly according to claim 11, wherein said second and third upper stages of said plurality of stages of said spacers have said vane-formed cylindrical cells each having a vane on said outer surface thereof for generating swirling fluid flows in said corner region and smooth surface cylindrical cells having no vane thereon in said closer region other than said corner region, a first upper stage and other states of said plurality of stages of said spaces having smooth surface cylindrical cells. 13. The nuclear fuel assembly according to claim 11, wherein said vanes each are formed on the outer surface of said cell to project therefrom, extend axially and be inclined against a plane on which an axis of said cylindrical cell lie. 14. The nuclear fuel assembly according to claim 11, wherein the number of said vanes is at most 15. 15. The nuclear fuel assembly according to claim 11, wherein said cylindrical walls have rectangular cut out portions extending axially at cylindrical walls thereof, are inverted alternatively and are joined to adjacent cylindrical cells so that the cut out portions receive a part of said cylindrical wall and the assembled two cylindrical cells are partially overlapped axially and laterally. 16. The nuclear fuel assembly according to claim 1, wherein said control rod is disposed at least at a center position among a grouping of four adjacent ones of the nuclear fuel assembly. 17. The nuclear fuel assembly according to claim 10, wherein said control rod is disposed at least at a center position among a grouping of four adjacent ones of the nuclear fuel assembly.