Patent Number: 
Section: claims

1. A nuclear reactor, comprising:a vessel;a core housed in the vessel and including a bundle of fuel elements immersed in a primary cooling fluid of the core, each fuel element of the bundle of fuel elements including a head;an anchoring structure including a plurality of slots;wherein:each fuel element of the bundle of fuel elements extends along a longitudinal axis parallel to the longitudinal axes of other fuel elements of the bundle of fuel elements;the head of each fuel element of the bundle of fuel elements is mechanically secured to the head of one or more adjacent heads of fuel elements in the bundle of fuel elements; andthe bundle of fuel elements are secured to the anchoring structure by support devices securing adjacent fuel elements of the bundle of fuel elements and securing fuel elements of the bundle of fuel elements situated on a periphery of the core to the anchoring structure, the support devices including at least vertical support devices and horizontal support devices, each vertical support device of the vertical support devices including at least a body extending at least partially into the head and defining a longitudinal axis parallel to the longitudinal axis of the fuel element to which the vertical support device is secured, each of the horizontal support devices including:a cylindrical body extending at least partially into the head of the fuel element to which the horizontal support device is secured and defining a longitudinal axis parallel to the longitudinal axis of the fuel element to which the horizontal support device is secured; anda plurality of cams including an end distal to the cylindrical body of the horizontal support device and rotatable about the longitudinal axis defined by the cylindrical body of the horizontal support device between a closed position and an open position, the end being (1) in the closed position when the end is contained within a periphery of the head of the fuel element to which the cam is secured, and (2) in the open position when the end is at least one of protruding from the periphery of the head of the fuel element to which the cam is secured to contact the head of one or more adjacent fuel elements of the bundle of fuel elements or contact the anchoring structure. 2. The nuclear reactor of claim 1, wherein the vertical support devices each include a latch rotatably secured to the cylindrical body and having a tip distal to the cylindrical body that is rotatable about longitudinal axis of the cylindrical body between a closed position and an open position, the tip being (1) in the closed position when the tip is positioned over the head of the fuel element to which the vertical support is secured in the closed position, and (2) in the open position when the tip is at least one of positioned over the head of an adjacent fuel element of the bundle of fuel elements or inside a slot of the plurality of slots on the anchoring structure. 3. The nuclear reactor of claim 2, wherein when the vertical support devices secured to a fuel element of the bundle of the fuel elements are in a closed position and the horizontal support devices secured to the fuel element of the bundle of the fuel elements are in a closed position, the fuel element is extractable from the reactor for a fuel replacement operation. 4. The nuclear reactor of claim 3, wherein each fuel element of the bundle of fuel elements is configured, during the fuel replacement operation, to include at least one tip that extends over and rests on the head of an adjacent fuel element of the bundle of fuel elements when the vertical support devices on the fuel element is in an open position. 5. The nuclear reactor of claim 1, wherein the fuel element includes a flexible shaft that has an upper portion inserted in an empty cylindrical volume inside the head of the fuel element and mechanically coupled to the head by a spherical coupling. 6. The nuclear reactor of claim 1, further comprising a hydraulic separation structure having an inner rim defining an opening in its lower part, wherein each of the fuel elements of the bundle of fuel elements include feet and the feet of adjacent ones of the fuel elements are in contact with each other, wherein the bundle of fuel elements are constrained by contact between the feet of at least some of the fuel elements of the bundle of fuel elements and the inner rim of the opening in the lower part. 7. The nuclear reactor of claim 1, wherein each fuel element of the bundle of fuel elements includes a shaft and a plurality of expanders positioned on the shaft to expand the core when a predetermined temperature is exceeded. 8. The nuclear reactor of claim 7, wherein the plurality of expanders include alternately positioned low thermal expansion elements and high thermal expansion elements, the low thermal expansion elements being made of a first material having a first thermal expansion coefficient and the high thermal expansion elements being made of a second material having a second thermal expansion coefficient greater than the first thermal expansion coefficient. 9. The nuclear reactor of claim 6, wherein the core expands responsive to at least one of:rotation of the feet of the fuel elements about radial constraints, the radial constraints including points of contact with at least one of (1) the feet of adjacent fuel elements of the bundle of fuel elements or (2) the inner rim of the opening;rotation of the shaft of the fuel element with respect to the head by the spherical coupling; andflexure of the shaft. 10. The nuclear reactor of claim 5, further comprising a tubular structure hydraulically connected at the bottom end of the shaft and extending for the an active part of each fuel element of the bundle of fuel elements;wherein the shaft is hollow with a tubular shape and includes a bottom end distal to the head; andwherein the tubular structure is hydraulically sealed at a bottom end of the tubular structure and includes a plurality of holes along a length corresponding to the active part of the fuel element. 11. The nuclear reactor of claim 10, wherein:the tubular structure includes a bottom end having a shoulder and a reduced diameter at the shoulder; andthe nuclear reactor includes a plug that closes the bottom end of the tubular structure and, together with the shoulder, form a locking system of a lower grid of each fuel element of the bundle of fuel elements. 12. The nuclear reactor of claim 1, wherein each of the vertical support devices includes a latch secured to a cylindrical body and rotatable about the longitudinal axis defined by the cylindrical body. 13. The nuclear reactor of claim 1, wherein the support devices further include horizontal support devices, each of the horizontal support devices including a cylindrical body extending at least partially into the head of the fuel element to which the horizontal support device is secured and defining a longitudinal axis parallel to the longitudinal axis of the fuel element to which the horizontal support device is secured. 14. The nuclear react of claim 13, wherein each of the horizontal support devices includes one or more cams having an end distal to the cylindrical body of the horizontal support device and being rotatable about the longitudinal axis defined by the cylindrical body of the horizontal support device.