Patent Number: 053655567
Section: claims

1. A storage cell for storing elongated objects, comprising: a straight storage channel having a substantially U-shaped cross section and having first and second side walls separated by an opening running otherwise along said channel, said opening having a width sufficient to allow passage of an elongated object therethrough;  means for supporting said storage channel in an inclined position relative to a vertical plane;  means for supporting said elongated object in said storage channel, said means being arranged at a bottom end of said storage channel; and  means for blocking passage of said stored elongated object through said open front of said storage channel, said blocking means being movable from a non-blocking position to a blocking position in response to displacement of said elongated object from a first object position whereat said object supporting means does not support said object to a second object position whereat said object supporting means supports said object, said blocking means being mounted on said storage channel and comprising a rotatable latch which rotates between a first latch position whereat said latch blocks passage of said elongated object through said open side of said storage channel and a second latch position whereat said latch does not block passage of said elongated object through said open side of said storage channel, a rotatable lever which rotates in response to displacement of said elongated object from said first object position to said second object position, and a rigid actuation rod pivotably coupled to said lever and to said latch for causing rotation of said latch in response to rotation of said lever.  first and second rows of storage cells, each of said storage cells comprising a storage channel having an open side of width sufficient to allow passage of a elongated object therethrough, means for supporting said elongated object in said storage channel, and means for blocking passage of said stored elongated object through said open side of said storage channel in response to displacement of said elongated object from a first object position whereat said object supporting means does not support said object to a second object position whereat said object supporting means supports said object, said blocking means being mounted on said storage channel; and  means for supporting said first row of storage cells in a first inclined position and said second row of storage cells in a second inclined position, said first and second inclined positions forming an A-shaped configuration. 2. The storage cell as defined in claim 1, wherein said blocking means further comprises a contact plate with a concavity for receiving an end of said elongated object when said object is in said second object position, said contact plate being pivotably coupled to said lever. 3. The storage cell as defined in claim 1, wherein the weight distribution of said blocking means is such that said latch is rotated from said first latch position to said second latch position under the force of gravity alone in response to displacement of said elongated object from said second object position to said first object position. 4. The storage cell as defined in claim 3, wherein said actuation rod is made of stainless steel, and said storage channel, said latch and said lever are made of aluminum. 5. The storage cell as defined in claim 3, wherein said object supporting means comprises a support plate welded inside said storage channel, said support plate having a chamfered aperture for seating a seated portion of said elongated object, said aperture having a size which enables a lowermost portion of said elongated object to extend through said aperture when said seated portion of said object is seated thereon. 6. The storage cell as defined in claim 3, wherein said blocking means further comprises a slotted lock block welded to said storage channel, said lock block being positioned to receive said latch in said slot when said latch is in said first latch position. 7. A storage rack for storing elongated objects, comprising: 8. The storage rack as defined in claim 7, wherein said blocking means comprises a rotatable latch which rotates between a first latch position whereat said latch blocks passage of said elongated object through said open side of said storage channel and a second latch position whereat said latch does not block passage of said elongated object through said open side of said storage channel. 9. The storage rack as defined in claim 8, wherein said blocking means further comprises a rotatable lever which rotates in response to displacement of said elongated object from said first object position to said second object position, and a rigid actuation rod pivotably coupled to said lever and to said latch for causing rotation of said latch in response to rotation of said lever. 10. The storage rack as defined in claim 9, wherein said blocking means further comprises a contact plate with a concavity for receiving an end of said elongated object when said object is in said second object position, said contact plate being pivotably coupled to said lever. 11. The storage rack as defined in claim 9, wherein the weight distribution of said blocking means is such that said latch is rotated from said first latch position to said second latch position under the force of gravity alone in response to displacement of said elongated object from said second object position to said first object position. 12. The storage rack as defined in claim 11, wherein said actuation rod is made of stainless steel, and said storage channel, said latch and said lever are made of aluminum. 13. The storage rack as defined in claim 7, wherein said object supporting means comprises a support plate welded inside said storage channel, said support plate having a chamfered aperture for seating a seated portion of said elongated object, said aperture having a size which enables a lowermost portion of said elongated object to extend through said aperture when said seated portion of said object is seated thereon. 14. The storage rack as defined in claim 8, wherein said blocking means further comprises a slotted lock block welded to said channel, said lock block being positioned to receive said latch in said slot when said latch is in said first latch position. 15. A fuel storage pool for storing fuel bundle assemblies underwater, comprising a plurality of fuel storage racks separated by aisles, each of said racks having first and second rows of storage cells and means for supporting said first row of storage cells in a first inclined position and said second row of storage cells in a second inclined position, said first and second inclined positions forming an A-shaped configuration, wherein each of said storage cells comprises a storage channel having an open side of width sufficient to allow passage of a fuel bundle assembly therethrough, means for supporting said fuel bundle assembly in said storage channel, and means for blocking passage of said stored fuel bundle assembly through said open side of said storage channel in response to displacement of said fuel bundle assembly from a first position whereat said fuel bundle assembly supporting means does not support said fuel bundle assembly to a second position whereat said fuel bundle assembly supporting means supports said fuel bundle assembly, said blocking means being mounted on said storage channel and said open side of said storage channel facing one of said aisles. 16. The fuel storage pool as defined in claim 15 wherein said blocking means comprises a rotatable latch which rotates between a first latch position whereat said latch blocks passage of said fuel bundle assembly through said open side of said storage channel and a second latch position whereat said latch does not block passage of said fuel bundle assembly through said open side of said storage channel. 17. The fuel storage pool as defined in claim 16, wherein said blocking means further comprises a rotatable lever which rotates in response to displacement of said fuel bundle assembly from said first position to said second position, and a rigid actuation rod pivotably coupled to said lever and to said latch for causing rotation of said latch in response to rotation of said lever. 18. The fuel storage pool as defined in claim 16, wherein the weight distribution of said blocking means is such that said latch is rotated from said first latch position to said second latch position under the force of gravity alone in response to displacement of said fuel bundle assembly from said second position to said first position.