Patent Number: 
Section: claims

1. A tie plate for use in a nuclear fuel bundle, comprising:a plurality of annular bosses positioned in a first tier and a second tier in a lattice, each boss being a cylindrical tube configured to receive an end of a nuclear fuel rod,the first tier of bosses, at a first axial displacement, being a center tier of bosses positioned in rows that are uniform such that bosses from a different axial displacement other than the first axial displacement are not located within the first tier rows,the second tier of bosses, at a second axial displacement that is different from the first axial displacement, being positioned in rows circumscribing the first tier of bosses, the rows of second tier bosses being uniform such that bosses from a different axial displacement other than the second axial displacement are not located within the second tier rows. 2. The tie plate of claim 1, wherein the first tier of bosses is patterned to be one of a square and a non-square rectangular cross-sectional shape. 3. The tie plate of claim 1, wherein the tie plate is configured to be used as an upper tie plate. 4. The tie plate of claim 3, further comprising:a handle attached to the plurality of bosses, the handle configured to permit handling and movement of the tie plate. 5. The tie plate of claim 1, further comprising:axial supports connecting the first tier of bosses to the second tier of bosses, each axial support extending from the second tier to the first tier with a first end connected to a first boss of the first tier of bosses and a second end connected to a second boss of the second tier of bosses. 6. The tie plate of claim 5, wherein,the axial supports are plate-shaped,the first end of each axial support is connected along an entire longitudinal length of the first boss and the second end of each axial support is connected along an entire longitudinal length of the second boss. 7. The tie plate of claim 6, wherein,each axial support has a parallelogram cross-sectional shape,each axial support extends diagonally, relative to a horizontal cross section of the tie plate, from the first tier to the second tier, the horizontal cross section existing in a plane that is perpendicular to a fluid flow through the tie plate when the tie plate is in operation in the nuclear fuel bundle. 8. The tie plate of claim 1, further comprising:a body connected to the first and second tiers of bosses; andan inlet extending from the body in an axial direction, the inlet configured to permit fluid flow into the body,the bosses, the axial supports and the lateral supports defining spaces between the bosses configured to permit the fluid flow through the body. 9. The tie plate of claim 8, further comprising:additional tiers of annular bosses, at additional axial displacements that are different from the first and second axial displacements, being positioned in rows circumscribing the second tier of bosses. 10. The tie plate of claim 8, further comprising:a plurality of third tier annular bosses, at a third axial displacement, embedded in the body,the third axial displacement being at an axial displacement that is different from the first axial displacement, the second axial displacement and the additional axial displacements. 11. The tie plate of claim 5, further comprising:a plurality of first lateral supports, each of the first tier bosses being connected to at least two lateral supports, each of the first lateral supports connected to two of the first tier bosses;a plurality of second lateral supports, each of the second tier bosses being connected to at least two lateral supports, each of the second lateral supports being connected to two of the second tier bosses. 12. A tie plate for use in a nuclear fuel bundle, comprising:a plurality of annular bosses positioned in two tiers in a lattice, each boss being a cylindrical tube configured to receive an end of a nuclear fuel rod,the first tier of bosses having a first axial displacement,the second tier of bosses having a second axial displacement that is different from the first axial displacement; andaxial supports connecting the first tier of bosses to the second tier of bosses, each axial support extending downward from the second tier to the first tier with a first end connected along an entire longitudinal length of a first boss of the first tier of bosses and a second end connected along an entire longitudinal length of a second boss of the second tier of bosses. 13. The tie plate of claim 12, wherein the axial supports are plate-shaped. 14. The tie plate of claim 13, wherein,each axial support has a parallelogram cross-sectional shape,each axial support extends diagonally, relative to a horizontal cross section of the tie plate, from the first tier to the second tier, the horizontal cross section existing in a plane that is perpendicular to a fluid flow through the tie plate when the tie plate is in operation in the nuclear fuel bundle. 15. The tie plate of claim 12, wherein,the first tier of bosses is a center tier of bosses positioned in rows that form one of a square and a rectangular cross-sectional shape,the second tier of bosses are positioned in rows circumscribing the first tier of bosses. 16. The tie plate of claim 15, further comprising:additional tiers of annular bosses, at additional axial displacements that are different from the first and second axial displacements, being positioned in rows circumscribing the second tier of bosses. 17. A tie plate for use in a nuclear fuel bundle, comprising:a plurality of annular bosses positioned in two tiers in a lattice, each boss being a cylindrical tube configured to receive an end of a nuclear fuel rod,the first tier of bosses, at a first axial displacement, being a center tier of bosses positioned in rows,a plurality of first lateral supports, each of the first tier bosses being connected to at least two lateral supports, each of the first lateral supports connected to two of the first tier bosses;the second tier of bosses, at a second axial displacement that is different from the first axial displacement, being positioned in rows circumscribing the first tier of bosses;a plurality of second lateral supports, each of the second tier bosses being connected to at least two lateral supports, each of the second lateral supports being connected to two of the second tier bosses. 18. The tie plate of claim 17, wherein the lateral supports are plate-shaped with a first and second end each connected to an entire longitudinal length of a respective annular boss. 19. The tie plate of claim 18, further comprising:axial supports connecting the first tier of bosses to the second tier of bosses, each axial support extending downward from the second tier to the first tier with a first end connected to an entire longitudinal length of a first boss of the first tier of bosses and a second end connected to an entire longitudinal length of a second boss of the second tier of bosses. 20. The tie plate of claim 19, further comprising:additional tiers of annular bosses, at additional axial displacements that are different from the first and second axial displacements, being positioned in rows circumscribing the second tier of bosses. 21. The tie plate of claim 1, wherein the rows of the first and second tiers of bosses are linear rows.