Patent Number: 042784980
Section: claims

1. Earthquake-proof mounting support for control rod drives of nuclear reactors having a generally cylindrical reactor pressure vessel formed with a convex wall at least at one end thereof and including control rods with control rod drive shafts coupled thereto and mounted so as to be movable in axial direction thereof within tubular drive housings extending pressure-tightly through the end convex wall and sealed against the outside, the control rod drive shafts having free ends, and means for connecting the free ends of the control rod drive shafts to one another, the tubular drive housings comprising tube members forming respective feed-through passageways for the control rod drive shafts, said tube members having respective portions thereof extending with respectively varying lengths outside and beyond the convex wall to a given horizontal plane, the connecting means comprising a support grid formed of a plurality of grid bars articulatingly connecting said tube members at respective free ends thereof outside the convex wall, respectively, to one another. 2. Mounting support according to claim 1 wherein the convex wall is formed in a cover of the pressure vessel located at the top thereof, said tube members being formed of control rod drive stub tubes extending upwardly out of said cover and pressure tubes sealingly connected at one end thereof, respectively, to said stub tubes, said respective portions of said tube members being said control rod drive stub tubes, said horizontal plane extending through respective locations at which said pressure tubes are sealingly connected at said one end thereof to said stub tubes. 3. Mounting support according to claim 2 wherein said support grid is formed of at least two subgrids spaced from one another and disposed in respective upper and lower grid planes. 4. Mounting support according to claim 3 wherein the grid bars in one of said grid planes are disposed in rotated relationship to the direction of the grid bars in the other of said grid planes. 5. Mounting support according to claim 3 wherein one of said subgrids is in the form of a rectangular screen, and the other of said subgrids is formed of diagonal rods, the articulatingly connected grid bars having joints disposed approximately in a projection of the corners of said one subgrid onto said other subgrid. 6. Mounting support according to claim 2 wherein said grid bars are formed with respective ball-shaped ends, and including crossheads fastened to the respective upper ends of said pressure tubes, said grid bars being articulatingly mounted, respectively, in said crossheads. 7. Mounting support according to claim 6, said grid bars being articulatingly mounted at respective grid joints formed of two superimposed crosshead plates respectively formed with bores for receiving the ball-shaped ends of said grid bars therein and with feed-through slots for said grid bars as well as a central throughbore for a threaded fastener. 8. Mounting support according to claim 7 including a base plate for closing off said bores and slots formed in said crosshead plates at the bottom of the respective joint and a cover plate for closing off the bores and slots at the top of said joint, said end of said pressure tube being of solid construction and being formed with a planar supporting surface as well as with a central threaded bore for threadedly receiving said threaded fastener therein, said crosshead plates together with said base plate and cover plate being penetrated by said threaded fastener and tightened thereby against said planar supporting surface. 9. Mounting support according to claim 8 including respective means for preventing unscrewing operatively engaging said threaded fastener. 10. Mounting support according to claim 2 wherein said grid bars are respectively divided into grid bar halves, and including respective turnbuckle means for connecting the halves of the respective grid bars to one another. 11. Mounting support according to claim 10 wherein said turnbuckle means comprise an internally threaded bushing formed both with a right-hand thread that is threadedly engaged with an externally threaded shaft of one of said grid bar halves, and with a left-hand thread that is threadedly engaged with an externally threaded shaft of the other of said grid bar halves. 12. Mounting support according to claim 1 wherein the convex wall is formed at the bottom of the pressure vessel, and said tube members are formed of pressure tubes extending downwardly out of said bottom of said pressure vessel, said tubular drive housings each having a free axial length extending out of said pressure vessel that is substantially equal to one another, said free ends of said pressure tubes being the lower ends thereof in vicinity of which they are articulatingly connected at respective joints in said given horizontal plane by said grid bars of said support grid so that said free axial lengths of said tubular drive housings, as measured from the outside of said bottom convex wall to said joints, varies over the cross section of said support grid.