Patent Number: 053575474
Section: claims

1. In a nuclear reactor pressure vessel having a plurality of fuel assemblies disposed therein and having liquid coolant flowing through the pressure vessel, a vibration dampener for dampening flow-induced vibration of an instrumentation tube adapted to extend into an associated one of the fuel assemblies and adapted to slidably receive a flux measuring instrument therein for measuring the flux in the fuel assembly, the instrumentation tube defining a longitudinal axis therethrough and sized to be received in a tubular conduit capable of guiding the instrumentation tube into the fuel assembly, the tubular conduit having an inside surface for surrounding the instrumentation tube, comprising: (a) a sleeve coaxially alignable with the instrumentation tube and connectable to the inside surface of the conduit and sized to be interposed between the conduit and the instrumentation tube, said sleeve defining a longitudinal axis therethrough, said sleeve having an interior surface for surrounding the instrumentation tube and an exterior surface for matingly engaging the inside surface of the conduit, the interior surface and the exterior surface of said sleeve defining an annular wall therebetween;  (b) a pair of coaxially-aligned inwardly-directed dimples integrally attached to the interior surface of said sleeve for supporting the instrumentation tube; and  (c) an elongate inwardly-directed flexible spring member disposed radially opposite said dimples and formed from a pair of parallel slots cut through the wall of said sleeve and interposed between the slots for biasing the instrumentation tube into abutting engagement with said dimples, said spring member being disposed at an angle of approximately 180.degree. with respect to said dimples, said spring member including:  whereby as flow-induced vibration causes the instrumentation tube to radially outwardly translate out of coaxial alignment with said sleeve to further engage said spring member and disengage said dimples, said spring member radially outwardly flexes a predetermined distance after which the spring member radially inwardly flexes to bias the instrumentation tube into abutting relationship with said dimples so that the instrumentation tube is brought into coaxial alignment with said sleeve; and  whereby as said sleeve and the instrumentation tube are brought into coaxial alignment, the vibration of the instrumentation tube is dampened.  (a) a second pair of dimples disposed at an angle of approximately 90.degree. with respect to said first pair of dimples; and  (b) a second pair of slots and a second spring member interposed therebetween, the second pair of slots and said second spring member disposed at an angle of approximately 180.degree. with respect to said second pair of dimples.  (a) wherein the slots are cut longitudinally through the wall of said sleeve; and  (b) wherein said spring member is interposed between the slots extends longitudinally in the wall of said sleeve. 2. The dampener of claim 1, further comprising: 3. The dampener of claim 1, 4. The dampener of claim 1, wherein the slots and said spring member interposed therebetween extend circumferentially in the wall of said sleeve.