Patent Number: 041636902
Section: claims

1. A nuclear reactor fuel assembly spacer grid for supporting and spacing a plurality of elongated fuel elements with their longitudinal axes in parallel comprising: at least two generally rectangular first plates, second plates, and a plurality of substantially flat rectangular third plates, each having lengthwise edges disposed transversely with respect to the longitudinal axes of the fuel elements and widthwise edges disposed generally parallel to the longitudinal axes of the fuel elements, and oppositely disposed faces bound perimetrically by said lengthwise and widthwise edges; a peripheral band circumscribing the spacer grid; said peripheral band having an inner face and an outer face; said lengthwise edges of said first and second plates transversely cut by slots each along a respective lengthwise edge thereof for mutually interlocking said first and second plates as a pair with said third plates; one of said first and one of said second plates being generally disposed in longitudinally spaced and inverted relation with respect to each other so that said slots on said respective first and second plates are oriented in opposite directions to form a first set of paired plates each having spaced cantilevered panels traversing the longitudinal space such that a portion of each panel is in transverse contact with the opposing plate of the pair; other first and second plates being relatively longidudinally spaced and inverted to form a second set of paired plates similar to said first set of paired plates; said first and second sets of paired plates being further disposed to perpendicularly intersect each other set and the third plates to mutually interlock therewith; said widthwise edges of the first, second, and third plates being in communication with the inner face of the peripheral band to form a plurality of cells having a substantially open cross-section through which the fuel elements protrude; a plurality of protrusions extending into the cells from one face of the first and second plates, from the inner face of the peripheral band, and from both faces of the third plates; said protrusions of the first and second plates being resilient; said protrusions of the inner face of the prripheral band being rigid; and said protrusions on one face of the third plate being rigid and the protrusions on the opposite face of the third plates being resilient. 2. A fuel assembly spacer grid according to claim 1 wherein a first plurality of said third plates is disposed parallel to and on either side of said first set of paired plates so that the rigid protrusions of the plates of said first plurality of third plates are orientated toward said first set of paired plates; a second plurality of third plates is disposed parallel to and on either side of said second set of paired plates so that the rigid protrusion of the plates of said second plurality of third plates are orientated toward said second set of paired plates; and said second plurality of third plates being inverted and perpendicularly disposed with respect to said first plurality of third plates. 3. A fuel assembly spacer grid according to claim 2 wherein said protrusions of said first, second, and third plates, of said peripheral band include at least one aperture. 4. A fuel assembly spacer grid according to claim 3 wherein said first, second, and third plates, and said peripheral band are disposed so that said cells each has two adjacent sides with resilient protrusions projecting into said cell opposite two adjacent sides with rigid protrusions projecting into said cell. 5. A spacer grid for supporting and spacing fuel elements comprising: a pair of slotted first plates generally disposed in longitudinally spaced and inverted relation having spaced cantilevered panels traversing said longitudinal space such that a portion of each panel is in transverse contact with the opposing plate of the pair; a pair of slotted second plates generally disposed in longitudinally spaced and inverted relation having spaced cantilevered panels traversing said longitudinal space such that a portion of each panel is in transverse contact with the opposing plate of the pair; a plurality of third plates; a peripheral band; said pair of slotted first plates and said pair of slotted second plates being disposed to perpendicularly intersect each other and said third plates to mutually interlock therewith; said peripheral band being in communication with said mutually interlocked plates to form a plurality of cells through which the fuel elements protrude. 6. A spacer grid as defined in claim 5 wherein said cantilevered panels of the first plates and the second plates include resilient protrusions projecting a portion of said panels; said third plates include a plurality of resilient protrusions projecting one face and rigid protrusions projecting the opposite face; said peripheral band includes rigid protrusions projecting the face of the cells side of the band; and said first; second and third plates being disposed so that each of said cells has two adjacent sides with resilient protrusions projecting into said cell opposite two adjacent sides with rigid protrusions projecting into said cells. 7. A spacer grid as defined in claim 6 wherein said peripheral band includes a spring like member formed on the face of the peripheral band opposite said cells. 8. A spacer grid as defined in claim 7 wherein said cantilevered panels are arcuate.