Patent Number: 
Section: claims

1. A shipping container system for a first nuclear fuel product comprising:an elongated tubular container having an axis extending along an elongated dimension of the container, the container being designed to receive and support the first nuclear fuel product therein, an exterior of the tubular container having at least two substantially flat, movable walls and at least two substantially flat, stationary walls with a circumferential end of the at least two stationary walls connected together along the elongated dimension and another circumferential end of at least one of the stationary walls having a hinged interface with one circumferential end of at least one of the at least two movable walls, another circumferential end of the at least one of the at least two movable walls being connected to one circumferential end of another of the at least two movable walls with the another circumferential end of the another of the at least two movable walls connectable to another circumferential end of another of the at least two stationary walls, with each of the stationary walls and the movable walls having an upper and lower end and the stationary walls having at least one of either a bar or groove on an interior side of at least two of the stationary walls, proximate the upper end, that extend along at least a portion of the corresponding stationary walls substantially in a direction orthogonal to the axis, the elongated tubular container having a top plate that closes off a top of the elongated tubular container, with the top plate having at least two peripheral sides having the other of the one of a bar or groove extending substantially along at least a portion of an outer edge with the other of the one of the bar or groove sized and oriented to mate with the one of the bar or groove and an anchoring mechanism for supporting a side of the top plate against an abutting side of the one or the another of the at least two stationary walls, the top plate having at least one wall that extends parallel to the one or the another of the at least two stationary walls with the anchoring mechanism having an elongated dimension with one end extending through the wall in the top plate and into the at least one or the another of the two stationary walls that the wall in the top plate is parallel to, the anchoring mechanism being anchored within the at least one or the another of the two stationary walls that the wall in the top plate is parallel to and restrained within the at least one or the another of the two stationary walls that the wall in the top plate is parallel to, in a direction along the elongated dimension of the anchoring mechanism;an elongated, tubular overpack having an axial dimension at least as long as the tubular container, an internal cross-section larger than the tubular container and an interior tubular channel having an axially extending lower support section supporting a plurality of shock mounts, with at least one of said plurality of shock mounts positioned on either radial side of the lower support section, the shock mounts support at least one of the flat walls of the tubular container in spaced relationship with the lower support section when the overpack is supported in a horizontal position, with at least one circumferential end of the lower support section having a clamped interface substantially along the axial dimension thereof to provide access to the interior of the overpack; anda stand configured to support the overpack in a horizontal position. 2. The shipping container system of claim 1 wherein the anchoring mechanism is a placement rod having one end with a male locking contour which extends through the wall in the top plate and into an abutting opening in the one or the another of the at least two stationary walls, that has a complimentary female locking mechanism. 3. The shipping container system of claim 2 wherein the male locking contour is a male threaded end of the placement rod and the complimentary female locking mechanism is a female thread on an interior surface of the abutting opening. 4. The shipping container system of claim 3 wherein a hole in the wall in the top plate through which the placement rod extends includes a female thread that mates with the male thread on the placement rod. 5. The shipping container system of claim 3 wherein the male threaded end of the placement rod is tapered. 6. The shipping container system of claim 1 wherein the one of the bars or grooves extend substantially across a full width of each of the walls and the another of the bars or grooves on the edge of the top plate extends substantially around the entire edge. 7. The shipping container system of claim 1 wherein the top plate includes at least two spaced openings extending through the top plate and through which push rods extend from above the top plate to an upper surface of the first nuclear fuel product, wherein an axial length of the push rods within an interior of the elongated tubular container is adjustable from above the top plate on an exterior of the elongated tubular container. 8. The shipping container of claim 7 wherein the adjustment includes a nut supported above the top plate on each push rod and retained on the push rods by locking pins. 9. The shipping container system of claim 7 wherein the spaced openings have female threads that mate with male threads on the push rods. 10. The shipping container system of claim 7 including a third spaced opening in the top plate. 11. The shipping container system of claim 10 wherein the top plate has diametrically opposed corners and the two spaced openings are located proximate the diametrically opposed corners and the third spaced opening is located substantially in the center of the top plate. 12. The shipping container system of claim 7 wherein the top plate has diametrically opposed corners and the two spaced openings are located proximate the diametrically opposed corners. 13. The shipping container system of claim 1 including motion detectors for recording the extent of excessive motion of the elongated tubular container, wherein the extent of excessive motion can be read from an outside of the elongated tubular container without opening any of the walls. 14. The shipping container system of claim 13 wherein the motion detectors are secured to an upper side of the top plate. 15. The shipping container system of claim 1 wherein the first nuclear fuel product includes a nuclear fuel assembly and a control rod spider assembly. 16. The shipping container system of claim 1 wherein the one of either the bar or groove is a bar and the another of the bar or groove is a groove. 17. An elongated tubular shipping container having an axis extending along an elongated dimension of the container, the container being designed to receive and support a first nuclear fuel product therein, comprising:an exterior of the tubular container having at least two substantially flat, movable walls and at least two substantially flat, stationary walls with a circumferential end of the at least two stationary walls connected together along the elongated dimension and another circumferential end of at least one of the stationary walls having a hinged interface with one circumferential end of at least one of the at least two movable walls, another circumferential end of the at least one of the at least two movable walls being connected to one circumferential end of another of the at least two movable walls with the another circumferential end of the another of the at least two movable walls connectable to another circumferential end of another of the at least two stationary walls, with each of the stationary walls and the movable walls having an upper and lower end and the stationary walls having at least one of either a bar or groove on an interior side of at least two of the stationary walls, proximate the upper end, that extend along at least a portion of the corresponding stationary walls substantially in a direction orthogonal to the axis; andthe elongated tubular container having a top plate that closes off a top of the elongated tubular container, with the top plate having at least two peripheral sides having the other of the one of a bar or groove extending substantially along at least at least a portion of an outer edge with the other of the one of the bar or groove sized and oriented to mate with the one of the bar or grooves and an anchoring mechanism for supporting a side of the top plate against an abutting side of the one or the another of the at least two stationary walls, the top plate having at least one wall that extends parallel to the one or the another of the at least two stationary walls with the anchoring mechanism having an elongated dimension with one end extending through the wall in the top plate and into the at least one or the another of the two stationary walls that the wall in the top plate is parallel to, the anchoring mechanism being anchored within the at least one or the another of the two stationary walls that the wall in the top plate is parallel to and restrained within the at least one or the another of the two stationary walls that the wall in the top plate is parallel to, in a direction along the elongated dimension of the anchoring mechanism.