Patent Number: 043081010
Section: claims

1. In combination with a substantially cylindrical nuclear reactor pressure vessel and a concrete support wall surrounding said pressure vessel, an attachment assembly for fixedly mounting said pressure vessel comprising: a support member having a first end portion attached to said pressure vessel and having a second, opposite end portion positioned proximate to a support surface of said support wall;  a foot ring fixedly attached to said second end portion of said support member, with said foot ring overlapping and contacting a portion of said support surface of said support wall;  a plurality of elongated prestressed tensile force transmitting members each including a first end portion fixedly positioned in a vertically lower end portion of said support wall and each elongated tensile force transmitting member further including a second, opposite end portion extending beyond said support surface of said support wall;  a plurality of separate yoke assemblies positioned adjacent said support surface with each yoke assembly enclosing the second end portion of at least one of said elongated, prestressed tensile force transmitting members;  attachment plate means mounted within each of said yoke assemblies for fixedly attaching said second end portion of said at least one tensile force transmitting member to said respective yoke assembly whereby said tensile force transmitting members draw said yoke assemblies toward said support surface;  each yoke assembly having a radially outer force-transmitting surface contacting said support surface at a location radially outside said foot ring, and  clamping means in force transmitting relationship with said elongated prestressed tensile force transmitting members and said foot ring for pressing said foot ring against said support surface.  and a plurality of spaced block members are each fixedly attached to said bearing plates, with said blocking members each partially extending into one of the recesses formed in said foot ring to limit movement of said foot ring along the support surface in a direction radially away from said pressure vessel.  with each bundle of prestressed rods spaced from one another and each bundle of prestressed rods partially enclosed by a separate yoke assembly.  each of said apertures positioned to receive one of said prestressed rods extending therethrough.  and a further quantity of said corrosion protecting compound is positioned within each of said thin walled tubular passageways.  a plurality of elongated prestressed tensile force transmitting members each including a first end portion fixedly positioned in a vertically lower end portion of said support wall;  a plurality of yokes each supported on said support surface, each yoke having a radially-outer surface in force transmitting connection with said support surface and a radially-inner surface in force transmitting connection with a portion of said foot ring, each yoke further having a mid-portion joining said radial outer and inner surfaces and mechanically connected to an upper end of at least one of said tensile force transmitting members; and,  said fixing means further comprising blocking means fixed to the support wall and projecting from the portion of said support surface adjacent a radially outwardly facing surface of said foot ring for limiting moving of said foot ring along said support surface in a direction away from said nuclear reactor pressure vessel. 2. The combination according to claim 1, wherein said support member has a substantially truncated cone configuration and is formed of a sheet metal material. 3. The combination according to claim 1, wherein said foot ring is substantially cylindrical in cross-sectional configuration and includes a radial outward edge surface facing away from said pressure vessel. 4. The combination according to claim 3, wherein a plurality of separate metallic bearing plates are each embedded within the support surface of said support wall, with portions of each of the bearing plates contacting the overlapping portion of said foot ring to provide support therefor. 5. The combination according to claim 4, wherein said radial outward edge surface of said foot ring includes a plurality of recesses extending through portions thereof, with said recesses circumferentially spaced about the outward edge surface of said foot ring, 6. The combination according to claim 1, wherein a cooling conduit is fixedly mounted on the second end portion of said support member adjacent to said foot ring. 7. The combination according to claim 1, wherein said plurality of elongated tensile force transmitting members each comprises a prestressed steel rod. 8. The combination according to claim 7, wherein a plurality of said prestressed rods are grouped into a plurality of bundles with each bundle extending through a thin-walled substantially vertically extending tubular passageway formed through said support wall, 9. The combination according to claim 8, wherein said attachment plate means comprises a separate attachment plate fixedly mounted within each of said yoke assemblies, with each attachment plate having a plurality of apertures extending therethrough, and 10. The combination according to claim 8, wherein a hollow cap member surrounds an end portion of each yoke assembly and a corrosion protecting compound fills the space formed between said cap and said yoke assembly to protect the second end portions of said tensile transmitting members enclosed within said plurality of yoke assemblies, 11. The combination according to claim 1, wherein a side wall of said foot ring includes a surface portion curved away from a confronting portion of said support surface of said support wall to allow said foot ring to pivot relative to said support surface. 12. The combination according to claim 11, wherein said curved surface portion of said foot ring is positioned vertically beneath said force transmitting means. 13. In combination with a substantially cylindrically shaped nuclear reactor vessel, and a support wall surrounding said reactor vessel, an attachment assembly for positioning said nuclear reactor vessel within said support wall, said attachment assembly comprising a support surface on said support wall, a foot ring rigidly connected to the circumference of said reactor vessel and in contact with said support surface, and fixing means, said fixing means comprising: 14. An attachment assembly according to claim 13, wherein said blocking means comprises a plurality of separate blocking members extending from said support surface at predetermined locations adjacent said outwardly facing surface of said foot ring, with a plurality of said blocking members initially contacting said foot ring prior to operation of said nuclear reactor vessel. 15. The combination according to claim 13, wherein a plurality of elongated prestressed tensile force transmitting members are arranged in a plurality of channels each extending in a substantially vertical direction through said support wall. 16. The combination according to claim 15 wherein a corrosion protecting compound is introduced into each of said channels for protecting the elongated prestressed tensile force transmitting members extending through said channels, wherein said tensile force transmitting members and said compound fill said channels. 17. The combination according to claim 13, wherein said elongated prestressed tensile force transmitting members each comprises a prestressed steel rod. 18. The combination according to claim 13, wherein a swivelling caster is clamped between the radially inner surface of each yoke assembly and a portion of said foot ring for pressing said foot ring against said support surface while allowing thermal expansion of said foot ring. 19. The combination according to claim 1, wherein said clamping means comprises a plurality of separate swivelling casters, with each caster having a circular-cylindrical contact surface contacting both a radially inner surface of one of said yoke members and a portion of said foot ring.