Patent Number: 047626615
Section: claims

1. In a pressurized water reactor having a core consisting of upstanding fuel assemblies, an upper core plate above said core and clusters of control elements vertically movable into and out some at least of said fuel assemblies, nuclear fuel assembly comprising: an upper end piece comprising a structural element,  a lower end piece, and  a plurality of guide tubes arranged for receiving at least one cluster of control elements and mechanically connecting said structural element and lower end piece,  wherein said upper end piece further comprises:  a support member vertically movable with respect to said structural element, arranged for abutting connection with said cluster upon fall of the latter,  means for slidably guiding said support member parallel to the axis of the guide tubes, and  resilient means contained within said upper end piece, located between said structural element and said support member and exerting on said support member an upwardly directed force biasing said support member away from said structural element into abutment with said upper core plate and exerting a fall damping force on said cluster at the end of the fall thereof, and  wherein said resilient means comprises at least one spring located about mutually slidable guide means located along a longitudinal axis of the fuel assembly.  an upper end piece comprising a structural element,  a lower end piece, said upper end piece forming a block independent of the rest of the fuel assembly and being provided for connection to an upper perforated table permanently fixed to the guide tubes and removably connected to said structural element of the upper end piece, and  a plurality of guide tubes arranged for receiving at least one cluster of control elements and mechanically connecting said structural element and lower end piece,  wherein said upper end piece further comprises:  a support member vertically movable with respect to said structural element, arranged for abutting connection with said cluster upon fall of the latter,  means for slidably guiding said support member parallel to the axis of the guide tubes, and  resilient means contained within said upper end piece, located between said structural element and said support member and exerting on said support member an upwardly directed force biasing said support member into abutment with said upper core plate and exerting a fall damping force on said cluster at the end of the fall thereof.  an upper end piece comprising a structural element,  a lower end piece, and  a plurality of guide tubes including first guide tubes arranged for receiving one of said first clusters and second guide tubes arranged to receive one of said second clusters, said guides tubes mechanically connecting said structural element and lower end piece,  wherein said upper end piece further comprises:  a support member vertically movable with respect to said structural element, arranged for abutting connection with said first cluster upon fall of said first cluster,  an abutting element arranged for abutting connection with said second cluster upon fall of said second cluster,  means for slidably guiding said support member and said abutting element parallel to the axis of the guide tubes, and  first and second resilient means contained within said upper end and in abutting connection with said structural element, said first resilient means being located between said structural element and said support member and exerting on said support member an upwardly directed force biasing said support member into abutment with said upper core plate while said second resilient means are located between said structural element and said abutting element. 2. A nuclear fuel assembly according to claim 1, wherein said guiding means further comprise mutually slidable elements located in close proximity to some at least of corners of said fuel assembly. 3. A nuclear fuel assembly according to claim 2, wherein some at least of said sliding means are each surrounded by a spring which is compressed between the structural element and the support member. 4. A nuclear fuel assembly according to claim 2, wherein the guiding means comprise abutting elements mutually cooperating for limiting the spacing apart of the structural element and support member under the action of the resilient means to a predetermined distance. 5. A nuclear fuel assembly according to claim 1, wherein the structural element comprises a base plate arranged for connection to the guide tubes and vertical plates for defining with said base plate an internal space for protection of the guiding means and resilient means. 6. In a pressurized water nuclear reactor having a core consisting of upstanding fuel assemblies, an upper core plate above said core and clusters of control elements vertically movable into and out some at least of said fuel assemblies, a nuclear fuel assembly comprising: 7. In a spectral shift pressurized water nuclear reactor having a core consisting of upstanding fuel assemblies, an upper core plate above said core, first clusters of neutron absorbing control rods vertically movable into and out of some at least of said fuel assemblies, second clusters of rods vertically movable into and out of some at least of said fuel assemblies for modifying the moderation rate by forcing out water contained in said fuel assemblies when inserted in said fuel assemblies, a nuclear fuel assembly comprising: 8. A nuclear fuel assembly according to claim 7, wherein said first and second resilient means respectively consist of a first spring and a second spring so located that one only of the two springs is forcibly compressed upon fall of one of said clusters while said two springs are compressed and fulfil a braking function upon fall of the other said clusters.