Patent Number: 047145854
Section: claims

1. A spacer grid assembly for supporting a plurality of nuclear fuel pins in a closely-spaced array, comprising: (a) a first grid strip comprising a plurality of segments, disposed at an angle to each other with alternate segments being substantially parallel to each other, each of said segments carrying at least one dimple for contacting said fuel pins;  (b) a second grid strip comprising a plurality of segments disposed at an angle to each other with alternate segments being substantially parallel to each other, each alternate segment of said second strip carrying a resilient contact for contacting said fuel pins;  (c) a third grid strip comprising a plurality of segments disposed at an angle to each other with alternate segments being substantially parallel to each other, each of said segments of said third strip carrying at least one dimple for contacting said fuel pins; and  (d) interlocking means formed on said grid strips for interlocking said first and third grid strips with said second grid strip to form an array of grid cells having a hexagonal cross section and said segments of said first and third grid strips are substantially coplanar, and wherein said interlocking means includes first tabs positioned on alternate segments of said first and third grid strips for interlocking with first slots formed on other alternate segments of said second grid strips that do not carry said resilient contacts.  (a) a first grid strip comprising a plurality of segments, disposed at an angle to each other with alternate segments being substantially parallel to each other, each of said segments carrying at least one dimple for contacting said fuel pins;  (b) a second grid strip comprising a plurality of segments disposed at an angle to each other with alternate segments being substantially parallel to each other, each alternate segment of said second strip carrying a resilient contact for contacting said fuel pins;  (c) a third grid strip comprising a plurality of segments disposed at an angle to each other with alternate segments being substantially parallel to each other, each of said segments of said third strip carrying at least one dimple for contacting said fuel pins; and  (d) interlocking means formed on said grid strips for interlocking said first and third grid strips with said second grid strip to form an array of grid cells having a hexagonal cross section and said segments of said first and third grid strips are substantially coplanar, and wherein said interlocking means further includes second slots formed at a vertex of said angles of said first and third strips and wherein each of said alternate segments of said second strip carries second tabs for interlocking with said second slots.  (a) a first grid strip comprising a plurality of segments, disposed at an angle to each other with alternate segments being substantially parallel to each other, each of said segments carrying at least one dimple for contacting said fuel pins;  (b) a second grid strip comprising a plurality of segments disposed at an angle to each other with alternate segments being substantially parallel to each other, each alternate segment of said second strip carrying a resilient contact for contacting said fuel pins;  (c) a third grid strip comprising a plurality of segments disposed at an angle to each other with alternate segments being substantially parallel to each other, each of said segments of said third strip carrying at least one dimple for contacting said fuel pins; and  (d) interlocking means formed on said grid strips for interlocking said first and third grid strips with said second grid strip to form an array of hexagonal grid cells, said interlocking means includes first tabs positioned on alternate segments of said first and third grid strips for interlocking with first slots formed on other alternate segments of said second grid strips that do not carry said resilient contacts, said interlocking means further includes second slots formed at a vertex of said angles of said first and third grid strips and wherein each of said alternate segments of said second strip carries second tabs for interlocking with said second slots, and wherein the alternate segments of the first and third grid strips, when assembled, are coplanar with each other and form at least a portion of a wall of a grid cell.  an elongated first grid strip comprising a plurality of segments in which the adjacent segments are arranged at obtuse angles with each other, said first grid strip having a first longitudinal edge and a second longitudinal edge;  an elongated second grid strip comprising a plurality of segments in which the adjacent segments are arranged at obtuse angles with each other, said second grid strip having a first longitudinal edge and a second longitudinal edge, a plurality or spaced first flanges extending from said first longitudinal edge and a plurality of spaced second flanges extending from said second longitudinal edge;  an elongated third grid strip comprising a plurality of segments in which the adjacent segments are arranged at obtuse angles with each other, said third grid strip having a first longitudinal edge and a second longitudinal edge; and  interlocking means formed on said grid strips for interlocking said first and third grid strips with said second grid strip to form an array of grid cells having hexagonal cross sections so that said first and third grid strips are coplanar and so that portions of said second longitudinal edge of said first grid strip abut portions of said first longitudinal edge of said second grid strip, and portions of said first longitudinal edge of said third grid strip abut portions of said second longitudinal edge of said second grid strip. 2. The spacer grid assembly of claim 1, wherein said first slots comprise S-shaped bends formed along edges of said other alternate segments. 3. The spacer grid assembly of claim 1, wherein said interlocking means further includes second slots formed at a vertex of said angles of said first and third strips and wherein each of said alternate segments of said second strip carries second tabs for interlocking with said second slots. 4. The spacer grid assembly of claim 3, wherein said peripheral boundary strip, together with said grid strip, forms a series of peripheral grid cells, at least some of which are pentagonal. 5. The spacer grid assembly of claim 3, in which said peripheral boundary strip comprises third slots and said grid strips terminate in third tabs, wherein said third tabs are positioned in said third slots. 6. The spacer grid assembly of claim 5, wherein segments of said second strip means carrying said resilient contacts substantially form a wall of a grid cell. 7. The spacer grid assembly of claim 5, wherein each cell wall comprises only a single thickness of grid strip material. 8. A spacer grid assembly for supporting a plurality of nuclear fuel pins in a closely-spaced array, comprising: 9. The spacer grid assembly of claim 8 further including a peripheral boundary strip at which said grid strips terminate. 10. A spacer grid assembly for supporting a plurality of nuclear fuel pins in a closely-spaced array, comprising: 11. A spacer grid assembly for supporting a plurality of nuclear fuel pins in a closely-spaced array, comprising: 12. The spacer grid assembly of claim 11, wherein said first and second flanges extend in opposite directions and said interlocking means further includes tabs formed on said first and second flanges of said second grid strip and slots formed in said first and third strips, said tabs engage said slots when said first, second, and third grid strips are interlocked.