Patent Number: 040627233
Section: claims

1. An improved nuclear reactor arrangement of the type having a reactor vessel housing a nuclear core comprised of a plurality of elongated hexagonally shaped assemblies nested in a close fitting array, some of the said assemblies being fuel assemblies and others of said assemblies being control assemblies, said vessel having an opening in the top thereof; a reactor vessel head for said opening in the top of said vessel, said vessel head comprising a large rotatable cover having a lateral dimension at least as great as the lateral dimension of said core and having a plurality of circular openings through said cover positioned about the surface thereof; a plurality of small plugs for said openings in said large rotatable cover, said plugs effectively sealing off the interior of said vessel through said openings; a plurality of upwardly extending nozzles mounted on the upper surface of said large rotatable cover and said small plugs, some of said nozzles being in close proximity to the boundary of said openings in said large rotatable cover, the interior of each of said nozzles communicating with the interior of said reactor vessel through said vessel head for supporting and providing access through the head for servicing apparatus; upwardly extending skirts mounted on said large rotatable cover about the periphery of said circular openings therein, said upwardly extending skirts effectively passing between adjacent nozzles on said large rotatable cover and on said small plugs so as not to interfere with the penetrations therethrough, some of said nozzles on said large rotatable cover and said plugs being in close proximity to said skirts; drive mechanisms mounted on the top of some of said nozzles on said vessel head and having means associated therewith to be operatively connected to said core servicing apparatus within said nozzle for effectively controlling and operating said core servicing apparatus within said core, the elevation of said drive mechanisms mounted on some of said nozzles extending substantially above the elevation of said skirts about the boundary of said openings in said vessel head; the improvement comprising a skirt extension and a refueling plug for each of said openings in said rotatable cover for providing access to said core over each of said assemblies therein, said skirt extension being mountable in sealing relationship to said upwardly extending skirt when said nozzle supporting plug is removed from said opening in said large rotatable cover, said skirt extension extending upwardly above the upper elevation of said nozzles on said large rotatable cover from which said drive mechanisms have been removed, said skirt extension having a laterally extending lip extending laterally outward therefrom, a portion of which overlies and is above the said nozzles in close proximity to said upwardly extending skirt on said reactor vessel head, and said skirt extension including bearing means mounted on said lateral extending lip thereof for rotatably supporting said refueling plug in said opening in said large rotatable cover; and said refueling plug including an opening therethrough through which said assemblies may pass, said opening in said refueling plugs providing direct access in line over each of said assemblies of said core upon rotation of said refueling plug and said large rotatable cover. 2. The arrangement of claim 1 wherein there are a plurality of potential control clusters defined by pluralities of said hexagonally shaped assemblies in a portion of said core, each of said potential control clusters being defined by a regular pattern of seven assemblies in which one assembly is surrounded by an contiguous with the six other assemblies of said regular pattern, said plurality of potential control clusters being defined to provide an interfitting arrangement thereof so that every assembly in said portion of said core forms a part of one and only one potential control cluster; wherein each of said upwardly extending nozzles on said large rotatable cover and said small plug overlies and is in alignment with the central assembly of a potential control cluster of assemblies when said large rotatable cover is in a first position; and wherein said upwardly extending skirt about the boundary of said openings and said large rotatable cover is between said upwardly extending nozzles which are in alignment with and overlie adjacent interfitting potential control clusters. 3. The improved nuclear reactor arrangement of claim 2 wherein the lateral dimension of at least one of said small plugs is such as to include within its boundary said upwardly extending nozzles overlying and in alignment with a group of seven interfitting potential control clusters in which there is one central potential control cluster and six surrounding potential control clusters. 4. The improved nuclear reactor arrangement of claim 3 wherein said upwardly extending skirts have laterally extending portions extending radially outward from said opening, said laterally extending portions being circumferentially located between adjacent upwardly extending nozzles mounted on said large rotatable cover about the periphery of said opening therein; and wherein said extension skirt has complementary lateral extending portions below said lateral extending lip thereof; and wherein fastening means are provided for fastening together said lateral extending portions on said skirt and said extension skirt between adjacent upwardly extending nozzles about the periphery of said opening about the boundary of which said skirt is positioned. 5. The improved nuclear reactor arrangement of claim 4 wherein said refueling plug comprises two stacked plugs, one of said plugs being fully positionable within said opening below the upper elevation of said upwardly extending skirt and wherein said other plug is supported by said rotational bearings at the upper end of said skirt extension when supported in said opening in said rotatable cover, said second plug being attachable to said first plug to raise said first plug to permit rotation thereof. 6. A method for facilitating access to each of the assemblies of a nuclear reactor of the type having a reactor vessel housing a nuclear core comprised of a plurality of elongated hexagonally shaped assemblies some of which are fuel assemblies and some of which are control assemblies, said vessel having an opening in the top thereof; a reactor vessel head for said opening in the top of said vessel, said head comprising a large rotatable cover having a lateral dimension at least as great as the lateral dimension of said core, said large rotatable cover having a plurality of circular openings therethrough, and upwardly extending skirts about the boundary of said openings, and a plurality of small plugs for said openings mounted on said upwardly extending skirts, and said vessel head further having a plurality of upwardly extending nozzles mounted on said large rotatable cover and said small plugs in close proximity to, but free of interference with said skirts, the interior of said nozzles each communicating with the interior of said vessel through said vessel head; a plurality of devices mounted on some of said upwardly extending nozzles which extend down into and through said nozzles and said vessel head, said devices being removable from said nozzles and said devices extending above the elevation of said skirts above said vessel head; the method comprising: removing said devices from the top of said nozzles; removing said small plugs from said holes in said large rotatable cover; mounting an extension skirt on the top of each of said upwardly extending skirts, said extension skirt having a laterally extending lip portion extending laterally outward about the periphery of said opening in said rotatable cover, and having supporting bearings positioned on and supported by said laterally extending lip portion of said extension skirt, said laterally extending lip and said bearing supported thereon being located above the elevation of said nozzles with said devices removed therefrom and portions of said laterally extending lips overlying directly at least a portion of said upwardly extending nozzles in close proximity to said upwardly extending skirts; mounting a refueling plug on said bearings, said rotational supporting bearings supporting said refueling plugs for rotational movement relative to said extension skirt, said refueling plug having a closable access opening therethrough for providing access through each of said assemblies of said nuclear core upon rotation of said large rotatable cover and said refueling plugs. 7. The improved method of claim 6 in which said refueling plug is comprised of two stacked plugs, wherein the step of mounting said refueling plug on said rotational bearings supported on said laterally extending lip of said extension skirt comprises first placing one of said plugs into the opening in said large rotatable cover and allowing it to rest and be supported by said upwardly extending skirt, mounting said second plug in said opening above said first plug to be supported by said rotational support bearings, operatively coupling said second plug to said first plug and raising said first plug off said support by said upwardly extending skirt, whereby said two stacked plugs may rotate relative to said extension skirt and said upwardly extending skirt within said opening provided in said large rotatable cover.