Patent Number: 042382912
Section: claims

1. For coupling pipelines in a nuclear reactor pressure vessel with a core flood line formed of a first line section extending sealingly through a housing wall of the reactor pressure vessel and secured thereto, and a second line section disposed in the interior of the pressure vessel and couplable sealingly to the first line section, the second line section extending through a cover of a core container and terminating in the core container, a device comprising means for forming the second line section and the core container cover into a structural unit so that the second line section together with the core container cover is liftable out of and insertable into the pressure vessel upon opening the latter for selectively inspecting, servicing and both inspecting and servicing the same, the first and second line sections having a mutual coupling location, means defining coaxial sealing surfaces disposed at said mutual coupling location for holding the first and second line sections in mutual engagement, said coaxial sealing surfaces having a contact pressure therebetween deriving from weight per se and bracing forces of the core container cover oriented in axial direction of the pressure vessel, the first and the second line sections being in mutual spring-biased engagement at said mutual coupling location thereof, the second line section having a guidance collar integral therewith at said mutual coupling location, and including a one-piece counter-support member formed as a pipe bushing carried by said guidance collar, said counter-support member being mounted with spring bias and displaceable longitudinally on said guidance collar, said spring bias being afforded by compression spring means carried by said pipe bushing and disposed intermediate said pipe bushing and said guidance collar. 2. Device according to claim 1 wherein said coaxial sealing surfaces are engageable at a ball-and-socket seat. 3. Device according to claim 2 wherein the first line section has an upwardly directed ball seat-mouthpiece forming the ball of said ball-and-socket seat, and said counter-support member comprising a downwardly directed cone seat forming the socket of said ball-and-socket seat. 4. Device according to claim 3 including axially normal, inwardly directed pins mounted on said counter-support member and guided, in axial direction of said counter-support member, in longitudinal grooves formed in said guidance collar, said longitudinal grooves having end flanks for limiting displacement of said counter-support member in opposite axial directions. 5. Device according to claim 3 including opposing end flanges formed, respectively, on said guidance collar and on said counter-support member and disposed in mutual alignment, said compression spring means comprising at least one helical compression spring mounted between said end flanges. 6. Device according to claim 3 including a pipe apron disposed at said mutual coupling location radially inwardly of said compression spring means for shielding said compression spring means from the interior of the first and second line sections. 7. Device according to claim 1 including means for introducing an initial flow of flood water to the core flood line forming the first and second line sections, the second line section at said mutual coupling location having surfaces subjectible to application of interior pressure from the pressure vessel and pressure of the flood water, the area of said surfaces having a mutual ratio effecting an increase in contact pressure applied between said coaxial sealing surfaces upon introduction of the initial flow of flood water. 8. Device according to claim 1 wherein steam separators in the reactor pressure vessel overlie and are connected to the interior of the core container through the cover thereof, and including means for incorporating the steam separators into said structural unit formed of the second line section and the core container cover.