Patent Number: 043449140
Section: claims

1. A retrievable and reinsertable nuclear reactor fuel pin having an end member for fastening said fuel pin to a transversely extending rail wherein said end member has a pair of blades having outer ends and facing surfaces defining a longitudinally extending slot therebetween for receiving said rail, said end member being formed at least in part of resilient material and having a configuration which requires wedging apart of said blades by said rail when said fuel pin is pulled away from said rail, the facing surfaces of said blades which define a first region of said slot are spaced apart a distance smaller than the spacing of the facing surfaces of said blades which define a second region of said slot, said first region of said slot being located closer to the outer ends of said blades than said second region of said slot, said facing surfaces of said blades defining a third region of said slot, said third region of said slot having a spacing of substantially constant distance between said facing surfaces and greater than the distance between said facing surfaces of said first region and being located closer to the outer ends of said blades than said first region. 2. A fuel pin as set forth in claim 1 wherein the facing surfaces of said blades additionally define an outer end region of said slot in which the facing surfaces are angled relative to each other to cause said outer end region of said slot to be of progressively greater width towards the ends of said blades. 3. A fuel pin as set forth in claim 2 wherein said ends of said blades are pointed. 4. A fuel pin as set forth in claim 1 wherein said end member has an end plug portion secured to said fuel pin and forming an end closure thereof and wherein said pair of blades extend from said end plug portion. 5. A fuel pin as set forth in claim 4 wherein said end member including said end plug portion and said pair of blades are a single integral element formed of said resilient material. 6. A fuel pin as set forth in claim 1 wherein said rail has a rounded surface of predetermined diameter which is received in said slot and wherein the facing surfaces of said blades which define said slot have a configuration and spacing which causes said first region of said slot to have a width smaller than said predetermined diameter and which causes said second region of said slot to have a wider curved profile substantially conforming to said rounded surface of said rail. 7. A fuel pin as set forth in claim 6 wherein said facing surfaces further define an inner region of said slot that is of less width than said predetermined diameter. 8. A fuel pin as set forth in claim 1 wherein said resilient material is formed to establish spring forces which prevent withdrawal of said fuel pin from said rail except by an axial force on said fuel pin which exceeds a pedetermined magnitude, said axial force of predetermined magnitude being greater than the maximum axial forces which may be exerted on said fuel pin during operation of said reactor. 9. A fuel pin as set forth in claim 1 wherein said second region of said slot defines a seat region in which said rail seats, and wherein said first region of said slot defines a land region of lesser width than said seat region, said blades being proportioned to cause release of spring tension from said resilient material when said rail seats in said seat region of said slot. 10. An end member for a nuclear reactor fuel pin which enables fastening of said fuel pin to a transverse attachment rail and withdrawal of said fuel pin from said rail by axial forces of greater than a predetermined magnitude, said end member having an end plug portion shaped to form an end closure for said fuel pin and further having a pair of spaced apart blade portions extending from said end plug portion and having facing surfaces forming a slot for receiving said rail, said facing surfaces in a land region thereof being spaced apart a distance less than the thickness of said rail, said facing surfaces in a subsequent rail receiving region which is closer to said end plug portion being spaced apart a greater distance than said land region, said facing surfaces in an outer end region which is further from said end plug portion than said land region being spaced apart over a non-tapering distance substantially equal to the spaced distance of the rail receiving region, at least said blades being formed of resilient material. 11. An end member for a nuclear reactor fuel pin as set forth in claim 10 wherein said end member including said end plug portion and said blades are formed as a single integral element of resilient metal. 12. An end member for a nuclear reactor fuel pin as set forth in claim 10 wherein said blade portions which are remote from said end plug portion include pointed tips and wherein said facing surfaces of said blade portions are divergent in the region of said tips.