Patent Number: 042808758
Section: claims

1. Safety device for preventing unscrewing of cylinder head screws fastening two structural members together, one of the structural members having receiving bores formed therein, the screws having heads disposed in said receiving bores and being formed with inner polygonal cutouts, the screws extending through and braced behind the one structural member and being tensioned against and anchored in the other structural member, comprising circular grooves cut into the one structural member at the receiving bores forming plastically deformable ring collars of said one structural member disposed adjacent to the circular grooves and spaced from and surrounding the screw heads so as to form annular gaps therebetween, at least two arcuate recesses formed at equal distances from one another about the periphery of the screw heads, said ring collars having a first set of rotation-preventing wall portions thereof surrounding the screw heads and being pushable into the arcuate recesses in tightened condition of the screws. 2. Safety device according to claim 1, wherein said first set of wall portions of said ring collars are reformable and repeatedly reusable for rotation-preventing deformations after being pushed into the arcuate recesses, said walls of said ring collars having a thickness, as compared to the shape of the arcuate recesses, whereby the loosening torque of the screw is at least equal to the tightening torque thereof. 3. Safety device according to claim 2, including additional sets of previously undeformed portions of said walls of said ring collars pushable into the arcuate recesses after reformation of said first set of wall portions, the screw heads having a plurality of pairs of arcuate recesses formed at different locations about the periphery thereof in alignment with said ring collar wall portions. 4. Safety device according to claim 2, including additional sets of screws each having at least one pair of arcuate recesses formed at different predetermined locations about the periphery of the screw head relative to the placement of said first-mentioned arcuate recesses, for further deformations. 5. Safety device according to claim 1, wherein the maximum width of the arcuate recesses, in radial direction of the screws, is substantially 2 to 4 times the thickness of the ring collars. 6. Safety device according to claim 1, wherein the depth of the arcuate recess is less than the tickness of the screw head, in axial direction of the screw forming unweakened stop flanges integral with the screw head below the arcuate recesses, in axial direction of the screws. 7. Safety device according to claim 1, wherein the safety device is used for securing a core structure hold-down system of a nuclear reactor pressure vessel having a cover and an inner surface, wherein the one structural part is in the form of a hold-down plate, the other structural member is in the form of a ring flange holding an upper part of the core structure against a support flange disposed on the inner surface of the pressure vessel, and said rotation-preventing screws hold said plate and ring flange together, and including pretensioned cup springs disposed between said hold-down plates and said ring flanges, a flange on the pressure vessel cover disposed above said hold-down plates for finally securing said upper core structure, and t-shaped clamping studs partially extending above the hold-down plates through a hole formed therein for pushing the cup springs downward through the weight of said pressure vessel cover flange. 8. Safety device according to claim 1, including a substantially cylindrical deforming punch having a lower surface, a springloaded axially retractable centering pin protruding from the lower surface of the deforming punch, said centering pin being centrally receivable in the inner polygonal cutouts of the screw heads, and two deforming plugs protruding from diametrically opposite locations of the lower surface of the deforming punch, said deforming plugs having deformation profiles for deforming said ring collars. 9. Safety device according to claim 8, wherein said deforming plugs are provided with downwardly and outwardly extending rounded edges. 10. Safety device according to claim 8, wherein said centering pin is slideably received in a blind guide hole formed in the lower end of said deforming punch, and including a compression spring disposed between the closed end of the blind guide hole and an end of said centering pin, said centering pin having an elongated slot formed therein and a crosswise pin extending in radial direction of said centering pin through the elongated slot so as to prevent said centering pin from falling out of said deforming punch.