Patent Number: 039390390
Section: claims

1. For use in a nuclear reactor having a core, a clamping device for clamping a plurality of core elements together in forming the core, comprising: projection means being movably mounted on a core element for movement between a withdrawn position and a position projecting outwardly from a core element toward another core element when the core elements are arranged within the core of a nuclear reactor; operating means for moving said projection means from its withdrawn position to its projected position a predetermined length to clamp the core element in cooperation with other core elements of the nuclear reactor core; a wrapper tube forming the exterior of the core element mounting with its longitudinal axis extending generally vertical in the reactor core and being of hexagonal shape in horizontal cross section; said projection means being provided adjacent the upper portion of said wrapper tube; said operating means being mounted within said wrapper tube for vertical movement; said wrapper tube having a hole within one of its side walls for said projection means; said projection means moving generally horizontally from within said wrapper tube in its withdrawn position horizontally through its hole to project horizontally beyond said hole and outside of said wrapper tube in its projected position; and separate lock means for locking said vertically moving operating means and said wrapper tube against relative movement in one of said projection means positions. 2. The apparatus of claim 1, wherein a separate one of said projection means is provided in each of the side walls of said hexagonal wrapper tube. 3. The apparatus of claim 2, wherein said operating means simultaneously moves all of said projection means. 4. The apparatus of claim 2, wherein a plurality of core elements are arranged with their axes parallel with respect to each other in the core of the nuclear reactor with six core elements surrounding a clamping core element respectively adjacent the six walls of the hexagonal clamping core element, further wherein only the central clamping core element of the seven core elements is provided with said projection means and said operating means, and further wherein said pattern of seven core elements is repeated throughout the reactor core. 5. The apparatus of claim 1, wherein a first set of said projection means respectively for all of said hexagonal wrapper tube side walls is provided generally adjacent the upper end of said wrapper tube, and further including a second set of said projection means for all of said hexagonal wrapper tube side walls being provided generally adjacent the middle portion of said wrapper tube. 6. The apparatus of claim 5, wherein said operating means simultaneously moves all of said projection means. 7. For use in a nuclear reactor having a core, a clamping device for clamping a plurality of core elements together in forming the core, comprising: projection means being movably mounted on a core element for movement between a withdrawn position and a position projecting outwardly from the core element toward another core element when the core elements are arranged within the core of a nuclear reactor; operating means for moving said projection means from its withdrawn position to its projected position a predetermined length to clamp the core element in cooperation with other core elements of the nuclear reactor core; a wrapper tube having a longitudinal axis to be parallel with the longitudinal axes of other wrapper tubes when mounted within the nuclear reactor core and having a hexagonal shape in cross section transverse to said longitudinal axis; said projection means including a plurality of pawls pivotally connected to said wrapper tube, and each pawl having a configured cam slot spaced from said pivotal connection; said operating means including an operating tube mounted within said wrapper tube for axial longitudinal movement with respect to said wrapper tube, and said operating tube having a plurality of arms mounting a plurality of pins each in engagement within a corresponding curved configured cam slot of said pawls; said wrapper tube having a hole in its side walls immediately adjacent each of said pawls; and said operating means projecting said pawls through their respective wrapper tube holes by movement of said operating tube axially with respect to said wrapper tube to correspondingly move said pins in the same direction relative to said cam slots for camming said pawls about their pivotal connections through their respective holes. 8. The apparatus of claim 7, including a plurality of guide blocks fixedly mounted on the interior of said wrapper tube for guidingly engaging said operating tube with axial sliding contact; each of said plurality of pawls being pivotally connected respectively to each of said guide blocks. 9. The apparatus of claim 7, wherein the upper portion of said operating tube is provided with operating head means for engagement with a gripper to move said operating tube axially with respect to said wrapper tube. 10. The apparatus of claim 7, further including lock means for selectively locking said operating tube and said wrapper tube against axial movement in one of the positions of said projection means, said lock means comprising a plurality of rods axially mounted within bores in the upper portion of said operating tube, first spring means for biasing said rods axially in one direction, a lock operating plate drivingly connected to said rods for moving said rods axially in the opposite axial direction against the spring bias, a plurality of lock pins slidably mounted within bores of said operating tube for movement transversely with respect to the movement of said rods, a plurality of apertures in the side wall of said wrapper tube being aligned with said lock pins in said one position of said projection means, second spring means for biasing said lock pins transversely into engagement with said apertures, respectively, and means provided on each of said rods and each of said lock pins for converting the axial movement of each of said rods into the transverse movement of said lock pins so that movement of said rod operating plate in said opposite direction will correspondingly move all of said rods in their direction against their spring force, to correspondingly move all of said lock pins against their spring bias in the direction to withdraw them from the apertures in said wrapper tube, respectively. 11. The apparatus of claim 10, including a plurality of guide blocks fixedly mounted on the interior of said wrapper tube for guidingly engaging said operating tube with axial sliding contact; each of said plurality of pawls being pivotally connected respectively to each of said guide blocks. 12. The apparatus of claim 7, wherein said wrapper tube is hexagonal; a projection means pawl is provided for each of the side walls of said hexagonal wrapper tube for respectively extending therethrough adjacent one longitudinal end. 13. The apparatus of claim 12, including a second set of pawls generally identical to said previously mentioned pawls and provided for each of the wrapper tube side walls generally adjacent the middle portion of said wrapper tube. 14. The apparatus of claim 12, wherein a plurality of said core elements are mounted with their wrapper tubes and operating tubes generally axially parallel with respect to each other, and further wherein said pawls project transversely from their respective wrapper tube side walls approximately one-half the gap distance between the associated adjacent wrapper tube walls.