Patent Number: 047553499
Section: claims

1. In a nuclear reactor having a pump and a dome, an improved anti-seismic connection between a base of the pump and the dome, said connection being characterized in that it includes a socket closed by a fixedly attached cover and axially slidably disposed within a cylindrical portion of said dome, said pump base has an exterior flange received within said socket with relatively large radial play and relatively small axial play, radial damping means is provided between said flange and said socket to freely permit relatively slow radial movements of said flange with respect to said socket due to effects such as differential thermal expansion between elements of the reactor but to block relatively rapid radial displacements of said flange with respect to said socket due to effects such as earthquakes, a lower end of said socket has a collar provided with a metallic journal axially slidable within a cylindrical bearing solidly fixed to an internal lateral wall of said dome, and calibrated passages are arranged at the periphery of said socket to permit controlled circulation of heat-carrying fluid of the reactor between said pump base and said dome. 2. A connection according to claim 1, characterized in that said radial damping means comprises a damper ring surrounding said flange within said socket, said damper ring is movable in a radial direction within said socket, and said flange is movable in a radial direction within said damper ring. 3. A connection according to claim 2, characterized in that said damper ring has angularly spaced projections each bearing on a corresponding surface of the periphery of said flange or an inner peripheral wall of said socket, said projections delimiting damping fluid chambers. 4. A connection according to claim 3, characterized in that each projection has a flat end surface which bears on the said corresponding surface, said corresponding surface also being flat. 5. A connection according to claim 4, characterized in that said projections are alternately disposed interiorly and exteriorly around the circumference of said damper ring. 6. A connection according to claim 5, characterized in that there are four of said projections disposed at 90.degree. angles about the circumference of said damper ring. 7. A connection according to claim 1, characterized in that said radial damping means comprises a plurality of dashpots angularly spaced around said flange, each dashpot having one end acting on said socket and another end acting on said flange. 8. A connection according to claim 7, characterized in that there are four of said dashpots disposed at 90.degree. angles about said flange. 9. A connection according to claim 7, characterized in that said dashpots have respective cylinders at least partially disposed in cavities in said flange. 10. In a nuclear reactor having a pump and a dome, an anti-seismic connection between a base of said pump and said dome having, in combination, an external flange provided upon said pump base seated with relatively small axial play and with relatively large radial play within a socket closed by a fixedly attached cover and capable of sliding axially within a reinforced cylindrical portion of said dome, and radial damping means disposed between said flange and said socket for permitting relatively slow radial displacements between said flange and said socket due to effects such as differential thermal expansion between elements of the reactor and for blocking relatively abrupt radial displacements therebetween due to seismic disturbances, the lower end of said pump base being surrounded by a collar having a journal axially slidable within a bearing solidly fixed to an internal wall of said dome. 11. A connection according to claim 10, characterized in that said radial damping means comprises a damper ring disposed between said flange and said socket, with respective damping fluid chambers being interposed between portions of said ring and said socket and between portions of said flange and said ring. 12. A connection according to claim 10, characterized in that said radial damping means includes a plurality of angularly spaced dashpots acting radially upon said flange and said socket. 13. In a nuclear reactor having a pump and a dome, an anti-seismic connection between a base of said pump and said dome, said connection comprising socket means axially slidable within a portion of said dome, an external flange of said pump base received within said socket means axially movable with said socket means within said portion of said dome and radially movable within said socket means, radial fluid damping means between said flange and said socket means for permitting substantially unconstrained relatively slow radial movements of said flange within said socket means due to effects such as differential thermal expanision between elements of said reactor and for blocking relatively rapid radial movements of said flange within said socket means due to seismic disturbances, and axial fluid damping means including fluid passages formed in said socket means for permitting substantially unconstrained relatively slow axial movements of said socket means within said portion of said dome due to said effects such as differential thermal expansion and for blocking relatively rapid axial movements of said socket means within said portion of said dome due to said seismic disturbances. 14. A connection according to claim 13, characterized in that said socket means includes a circumferential collar surrounding said pump base and axially slidable within a circumferential bearing surface solidly fixed to said dome. 15. A connection according to claim 14, characterized in that said collar has a peripheral journal slidably disposed against said bearing surface. 16. A connection according to claim 15, characterized in that said fluid passages include passages formed in said journal and in an outer peripheral portion of said socket means in which said flange is received. 17. A connection according to claim 13, characterized in that said radial damping means includes a damper ring surrounding said flange within said socket means, said damper ring is radially movable within said socket means, and said flange is radially movable within said damper ring. 18. A connection according to claim 17, characterized in that said damper ring has diametrically opposed external first projection means slidably engaging diametrically opposite internal flats of said socket means, said flange has diametrically opposed external second projection means oriented substantially at 90.degree. to said first projection means and slidably engaging internal peripheral flats of said damper ring, said first projection means delimit diametrically opposed fluid chambers between said damper ring and said socket means, and said second projection means delimit diametrically opposed fluid chambers between said damper ring and said flange. 19. A connection according to claim 18, characterized in that said first and second projection means have flat surfaces slidably engaging the corresponding flats of said socket means and said damper ring. 20. A connection according to claim 13, characterized in that said radial damping means includes a plurality of dashpots acting radially upon said flange and said socket means.