Patent Number: 047598980
Section: claims

1. A liquid metal-cooled fast neutron nuclear reactor comprising: a vessel, a horizontal slab closing said vessel; a core cover plug suspended from said slab and having a vertically axed external ferrule surrounding control rod guidance sleeves and also vertically axed liquid metal sampling tubes; said ferrule supporting a horizontal core cover plate traversed by said sleeves and tubes; said core cover plug also comprising: at least one grid located below the core cover plate; each grid having a horizontal, annular, peripheral plate connected in fixed manner to the core cover plate and also having a plurality of horizontal modular plates separate from said peripheral plate, each of said modular plates being fixed to at least one of the sleeves and/or tubes, said modular plates and said peripheral plate defining therebetween passages for the liquid metal, wherein the modular plates of the same grid are vertically downwardly displaced on moving away from the said ferrule axis. 2. A liquid metal-cooled fast neutron nuclear reactor comprising: a vessel, a horizontal slab closing said vessel; a core cover plug suspended from said slab and having a vertically axed external ferrule surrounding control rod guidance sleeves and also vertically axed liquid metal sampling tubes; said ferrule supporting a horizontal core cover plate traversed by said sleeves and tubes; said core cover plug also comprising: at least one grid located below the core cover plate; each grid having a horizontal, annular, peripheral plate connected in fixed manner to the core cover plate and also having a plurality of horizontal modular plates separate from said peripheral plate, each of said modular plates being fixed to at least one of the sleeves and/or tubes, said modular plates and said peripheral plate defining therebetween passages for the liquid metal, the modular plates of the same grid being vertically upwardly displaced on moving away from said ferrule axis. 3. A reactor according to claim 2, wherein edges of adjacent modular plates and the peripheral plate of the same grid form therebetween clearances in a horizontal direction. 4. A reactor according to claim 2, wherein edges of adjacent modular plates and the peripheral plate of the same grid are vertically aligned. 5. A reactor according to claim 2, wherein edges of adjacent modular plates and the peripheral plate of the same grid partly overlap in a horizontal direction. 6. A reactor according to claim 2, wherein said ferrule is fixed to the peripheral plate and has perforations below the core cover plate. 7. A reactor according to claim 2, wherein the lower end of the ferrule is fixed to the core cover plate, the peripheral plate being suspended on the core cover plate by tie bolts. 8. A reactor according to claim 7, wherein the external diameters of the core cover plate and the peripheral plate slightly exceed the external diameter of the ferrule, a break being provided on the periphery of the peripheral plate for the passage of handling means. 9. A reactor according to claim 2, wherein the core cover plug comprises a deflecting grid located in the vicinity of lower ends of the sleeves and tubes and a grid forming a heat shield located between the deflecting grid and the core cover plate.