초록 ▼

An apparatus comprises an outer shell, a gauge ring, and a spring. The gauge ring is configured to rotate to a first position as a nut passes through an opening of the outer shell and contacts a bottom surface of the gauge ring, the first position permitting the nut to pass through the gauge ring an

An apparatus comprises an outer shell, a gauge ring, and a spring. The gauge ring is configured to rotate to a first position as a nut passes through an opening of the outer shell and contacts a bottom surface of the gauge ring, the first position permitting the nut to pass through the gauge ring and into a socket by aligning one or more gauge ring lobe slits with one or more outer shell lobe slits and one or more deformable lobes of the nut. The spring is configured to rotate the gauge ring to the second position after the nut passes through the gauge ring and into the socket, the second position preventing the nut from exiting the socket by preventing alignment of the one or more gauge ring lobe slits with the one or more outer shell lobe slits.

대표청구항 ▼

1. A system for verifying nut swaging, comprising: a fastening system; anda nut swaging verification apparatus, comprising: an outer shell comprising an opening comprising one or more outer shell lobe slits, the opening configured to allow a nut comprising one or more deformable lobes to pass throug

1. A system for verifying nut swaging, comprising: a fastening system; anda nut swaging verification apparatus, comprising: an outer shell comprising an opening comprising one or more outer shell lobe slits, the opening configured to allow a nut comprising one or more deformable lobes to pass through the opening and into an interior portion of the outer shell;a gauge ring configured to be placed inside the interior portion of the outer shell, the gauge ring comprising: a bottom surface configured to face the first opening;a top surface opposite the bottom surface; anda keyhole comprising one or more gauge ring lobe slits and a sloped entry; anda spring configured to be coupled to the gauge ring and configured to cause the gauge ring to rotate from a first position to a second position;wherein the gauge ring is configured to rotate to the first position as the nut passes through the opening of the outer shell and contacts the sloped entry of the gauge ring, the first position permitting the nut to pass through the gauge ring and into a socket by aligning the one or more gauge ring lobe slits with the one or more outer shell lobe slits and the one or more deformable lobes of the nut;wherein the spring is configured to rotate the gauge ring to the second position after the nut passes through the gauge ring and into the socket, the second position preventing the nut from exiting the socket by preventing alignment of the one or more gauge ring lobe slits with the one or more outer shell lobe slits; andwherein the gauge ring, while in either the first or second position, is configured to permit the nut to exit the socket after the one or more deformable lobes of the nut have been deformed by the socket. 2. The system of claim 1, wherein the sloped entry comprises an angle of approximately thirty-seven degrees. 3. The system of claim 1, wherein the gauge ring is further configured to rotate to the first position as the nut moves along the sloped entry. 4. The system of claim 1, wherein the outer shell further comprises a manual override opening and the gauge ring further comprises a manual override tab positioned in the manual override opening of the outer shell. 5. The system of claim 4, wherein, when pressure is applied to the manual override tab, the nut can be removed before the one or more deformable lobes of the nut have been deformed. 6. The system of claim 1, wherein the socket is configured to deform the one or more deformable lobes of the nut during fastening. 7. The system of claim 1, wherein at least a portion of the torsional spring is located between an outer wall of the outer shell and a boundary wall located in the interior of the outer shell. 8. An apparatus, comprising: an outer shell comprising an opening comprising one or more outer shell lobe slits, the opening configured to allow a nut comprising one or more deformable lobes to pass through the opening and into an interior portion of the outer shell;a gauge ring configured to be placed inside the interior portion of the outer shell, the gauge ring comprising: a bottom surface configured to face the opening of the outer shell;a top surface opposite the bottom surface; anda keyhole comprising one or more gauge ring lobe slits and a sloped entry; anda spring configured to be coupled to the gauge ring and configured to cause the gauge ring to rotate from a first position to a second position;wherein the gauge ring is configured to rotate to the first position as the nut passes through the opening of the outer shell and contacts the sloped entry of the gauge ring, the first position permitting the nut to pass through the gauge ring and into a socket by aligning the one or more gauge ring lobe slits with the one or more outer shell lobe slits and the one or more deformable lobes of the nut;wherein the spring is configured to rotate the gauge ring to the second position after the nut passes through the gauge ring and into the socket, the second position preventing the nut from exiting the socket by preventing alignment of the one or more gauge ring lobe slits with the one or more outer shell lobe slits. 9. The apparatus of claim 8, wherein the gauge ring, while in either the first or second position, is configured to permit the nut to exit the socket after the one or more deformable lobes of the nut have been deformed by the socket. 10. The apparatus of claim 8, wherein the sloped entry comprises an angle of approximately thirty-seven degrees. 11. The apparatus of claim 8, wherein the gauge ring is further configured to rotate to the first position as the nut moves along the sloped entry. 12. The apparatus of claim 8, wherein the outer shell further comprises a manual override opening and the gauge ring further comprises a manual override tab positioned in the manual override opening of the outer shell, such that when pressure is applied to the manual override tab, the nut can be removed before the one or more deformable lobes of the nut have been deformed. 13. The apparatus of claim 8, wherein the socket is configured to deform the one or more deformable lobes of the nut during fastening. 14. The apparatus of claim 1, wherein at least a portion of the torsional spring is located between an outer wall of the outer shell and a boundary wall located in the interior of the outer shell. 15. A method for verifying nut swaging, comprising: positioning a nut swaging verification apparatus on a nut comprising one or more deformable lobes;fastening the nut to a bolt using a fastening system, the fastening system coupled to the nut swaging verification apparatus by a socket, wherein the socket is configured to deform the one or more deformable lobes of the nut during fastening; anddetermining whether the nut was properly swaged based at least in part on whether the nut swaging verification apparatus can be removed from the nut. 16. The method of claim 15, further comprising one of: determining that the one or more deformable lobes of the nut were deformed when the nut swaging verification apparatus can be removed from the nut; anddetermining that the one or more deformable lobes of the nut were not deformed when the nut swaging verification apparatus cannot be removed from the nut. 17. The method of claim 15, wherein the nut swaging verification apparatus comprises: an outer shell comprising an opening comprising one or more outer shell lobe slits, the opening configured to allow a nut having one or more deformable lobes to pass through the opening and into an interior portion of the outer shell;a gauge ring configured to be placed inside the interior portion of the outer shell, the gauge ring comprising: a bottom surface configured to face the opening of the outer shell;a top surface opposite the bottom surface; anda keyhole comprising one or more gauge ring lobe slits and a sloped entry; anda spring configured to be coupled to the gauge ring and configured to cause the gauge ring to rotate from a first position to a second position;wherein the gauge ring is configured to rotate to the first position as the nut passes through the opening of the outer shell and contacts the sloped entry of the gauge ring, the first position permitting the nut to pass through the gauge ring and into the socket by aligning the one or more gauge ring lobe slits with the one or more outer shell lobe slits and the one or more deformable lobes of the nut;wherein the spring is configured to rotate the gauge ring to the second position after the nut passes through the gauge ring and into the socket, the second position preventing the nut from exiting the socket by preventing alignment of the one or more gauge ring lobe slits with the one or more outer shell lobe slits. 18. The method of claim 17, wherein the gauge ring is further configured to rotate to the first position as the nut moves along the sloped entry. 19. The method of claim 17, wherein the gauge ring, while in either the first or second position, is configured to permit the nut to exit the socket after the one or more deformable lobes of the nut have been deformed by the socket. 20. The method of claim 17, wherein: the outer shell further comprises a manual override opening and the gauge ring further comprises a manual override tab positioned in the manual override opening of the outer shell; andthe method further comprises applying pressure to the manual override tab to remove the nut swaging verification apparatus upon a determination that the one or more deformable lobes of the nut have not been properly deformed.