Patent Number: 046831029
Section: claims

1. In a spectral shift pressurized water reactor comprising: (a) a vessel,  (b) a core comprising a plurality of nuclear fuel assemblies, each containing a plurality of first vertical guide tubes and a plurality of second vertical guide tubes,  (c) a plurality of sets of control rods for controlling the power of the reactor having control rods movable within and along respective ones of the first guide tubes between a predetermined lower position and a predetermined upper position,  (d) a plurality of clusters of spectral shift elements for changing the neutron energy spectrum of the reactor, each of said cluster being associated to a set of control rods, having elements movable within and along respective ones of the second guide tubes of the corresponding assembly of said set of control rods and being arranged to be maintained in one of two fixed positions including a low position of maximum insertion of the elements in the core and a high position of complete withdrawal of the elements from said core,  operating means for operating said set of control rods and said clusters of spectral shift elements comprising:  first operating means for operating sets of control rods up and down comprising a plurality of first vertical control shafts movable vertically between a second predetermined lower position and a second predetermined upper position and arranged to go further when forced to a higher overtopped position situated above said second predetermined upper position, each of said first vertical control shafts having a cylindrical tubular shape having a bottom end connected respectively to a corresponding set of control rods and having over the greatest portion of its length a part of a first internal diameter and over a small portion of its length a part of a second internal diameter, said second internal diameter being substantially smaller than said first internal diameter and being situated near the bottom end of said first shaft,  second operating means for operating clusters of spectral shift elements comprising a plurality of second vertical control shafts each respectively mounted coaxially inside the corresponding first shaft of the associated set of control rods, respectively connected to each cluster and movable in the internal cylindrical space of corresponding first shaft, each of said second shafts having a widened cylindrical part along a small portion of its length, said small portion constituting a piston situated near the upper part of the said second shaft and coming into position around the internal part of substantially smaller diameter of the corresponding first shaft when said first shaft has raised to is higher overtopped position,  said piston comprising at its periphery at least one solid joint, radially expandable to a certain extent under a predetermined pressure and which diameter in rest condition is substantially smaller than the first internal diameter of the first control shaft and substantially similar to the second internal diameter of said first control shaft and when sollicited by pressure is similar to said first internal diameter,  said operating means further comprising pressure reduction means arranged to be connected to the internal cylindrical space of each of the first control shafts when said first shaft has raised to its higher overtopped position,  and capable of moving in the high position of complete withdrawal of the elements of the cluster the corresponding second control shaft connected to said cluster of spectral shift elements under the effect of a predetermined pressure reduction created in the internal space of the first control shaft above the piston.  a first actuating ring arranged to slide around said piston and having an upper part and two bores, a first bore with a first internal diameter and a second bore with a second internal diameter, said bores respectively corresponding to said sections and being arranged such that the second bore is in fluidtight contact with the lower section, the second internal diameter of said second bore being smaller than the first external diameter of the upper section and the first internal diameter of the first bore is arranged to fit with said upper section in a non fluidtight manner, said actuating ring further comprising a first conical part arranged to support the full solid expandable joint,  a second actuating ring mounted to slide around the upper section of said part of the piston in a non fluidtight manner comprising a second frusto-conical part facing the first frusto-conical part of the first actuating ring and arranged to seat against said expandable joint,  a cylindrical spring having a third internal diameter bigger than the second external diameter of the upper section of the piston and seated on said second frusto-conical part,  a third actuating ring mounted to slide around the upper section of said part of the piston in a non fluidtight manner, arranged to seat on said cylindrical spring and comprising a third frusto-conical part facing the opposite side of the spring,  a second solid radially expandable joint seating on said third frusto-conical part on one side and applied on the top section in frusto-conical shape of the piston on the other. 2. The combination according to claim 1 wherein the piston has a part comprising three sections, a top section in a frusto-conical shape, an upper section with a first external diameter and a lower section with a second external diameter smaller than said first external diameter, said operating device further comprising: 3. The combination according to claim 1, wherein the solid radially expandable joint consists of at least one ring, with a rectangular cross-section, said joint being interrupted on a part of its length. 4. The combination according to claim 3, wherein the solid radially expandable joint consists of an assembly of two rings, each of said rings being interrupted with a cut on part of the length of said rings, said cut of one of the rings being substantially disposed on the diametrally opposed side of the cut of the other ring. 5. The combination according to claim 3, wherein the solid radially expandable joint consists of three rings arranged coaxially, respectively interrupted with a cut on a part of their length, two of the rings being superposed and the third ring being arranged inside of said superposed rings over the entire height of said superposed rings, the three cuts being respectively arranged at approximatively 120.degree. from each other. 6. The combination according to claim 4, wherein the solid radially expandable joint is arranged inside a groove having a lower face, machined in the piston and coaxial with this piston and wherein a spring is inserted between the lower face of said groove and a lower face of the joint. 7. The combination according to claim 4, wherein the solid radially expandable joint consists of two rings, an inner ring and an outer ring, said inner ring being arranged coaxially inside said outer ring, each of said rings consisting in at least three identical annular parts separated by cuts of a small length and held jointly by an assembly of two annular springs, one of said springs being arranged inside the inner ring and applying forces directed toward the outside of said inner ring, and the other spring being arranged against the outer surface of the outer ring and applying forces directed toward the inside of said outer ring, the cuts of the inner ring and the cuts of the outer ring being arranged at constant angular distances. 8. The combination according to claim 1, wherein the solid radially expandable joint consists of a profiled toric ring whose meridian cross-section has a U-shape or a V-shape having two elastic branches capable of separating or approaching each other under the effect of external stresses. 9. The combination according to claim 1, wherein the solid radially expandable joint is of a material belonging to the following group: carbon, graphite, cobalt alloy, nickel alloy, chromized segment cast iron, hard-chromium plated segment cast iron, chromized elastic steel, hard chromium plated segment elastic steel and chemically nickel plated elastic steel. 10. The combination according to claim 1, wherein the piston comprises, at its peripherical part, a stiff projecting protection ring whose outer diameter is greater than the outer diameter of the joint in the unstressed state and smaller than the diameter of the first zone of the inner space of the first control shaft. 11. The combination according to claim 1, wherein the second zone of the inner cylindrical space of the first control shaft has a diameter which is smaller by between five tenths of a millimeter and three millimeters than the inner diameter of the first zone of the internal space of said first control shaft. 12. The combination according to claim 1, wherein the second zone of the inner cylindrical space of the first control shaft is from ten to fifteen centimeters in length.