IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0554372
(2009-09-04)
|
등록번호 |
US-8091392
(2012-01-10)
|
발명자
/ 주소 |
- Miller, J. Clayton
- Cooke, Jr., Donald P.
- Harvey, Michael P.
|
출원인 / 주소 |
|
대리인 / 주소 |
Wood, Herron & Evans, L.L.P.
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
66 |
초록
▼
A high security lock includes a lock bolt movable between extended and retracted positions, a bolt retraction gear coupled to the lock bolt, and a manually-driven gear train. When a controller verifies that user-input information is correct for unlocking the lock, the bolt retraction gear and manual
A high security lock includes a lock bolt movable between extended and retracted positions, a bolt retraction gear coupled to the lock bolt, and a manually-driven gear train. When a controller verifies that user-input information is correct for unlocking the lock, the bolt retraction gear and manually-driven gear train are operatively coupled such that the gear train can drive the lock bolt from the extended position to the retracted position.
대표청구항
▼
1. A locking mechanism comprising: a lock bolt movable between extended and retracted positions;a bolt retraction gear operatively coupled to the lock bolt and movable between engagement and disengagement positions, the bolt retraction gear being biased towards the engagement position;a manually-dri
1. A locking mechanism comprising: a lock bolt movable between extended and retracted positions;a bolt retraction gear operatively coupled to the lock bolt and movable between engagement and disengagement positions, the bolt retraction gear being biased towards the engagement position;a manually-driven gear train adapted to engage the bolt retraction gear in the engagement position and drive the lock bolt between the extended and retracted positions;a user input device adapted to receive user input information;a controller adapted to store authorization information and verify user input information; andan actuator having a rotatable output element, the rotatable output element blocking movement of the bolt retraction gear towards the engagement position until the controller verifies that the user input information matches the stored authorization information. 2. The locking mechanism of claim 1, wherein the user input device is a rotatable lock dial and the authorization information is a numerical combination. 3. The locking mechanism of claim 2, further comprising a spindle shaft coupling the rotatable lock dial to the manually-driven gear train, wherein the lock dial is rotated to enter user input information and to move the lock bolt from the extended position to the retracted position when the user input information is verified. 4. The locking mechanism of claim 1, wherein the manually-driven gear train comprises a manually driven-spindle gear and a drive gear. 5. The locking mechanism of claim 4, wherein the drive gear comprises a first drive gear portion engaged with the spindle gear and an opposing second drive gear portion adapted to be engaged with the bolt retraction gear in the engagement position. 6. The locking mechanism of claim 1, wherein the bolt retraction gear further comprises a slot and the rotatable output element further comprises a blocking pin, the blocking pin disposed in the slot of the bolt retraction gear in the disengagement position to block movement of the bolt retraction gear. 7. The locking mechanism of claim 6, wherein the rotating output element slides the blocking pin out of the slot in the bolt retraction gear as the actuator moves the bolt retraction gear from the disengagement position to the engagement position. 8. The locking mechanism of claim 7, wherein the actuator is a servo motor. 9. The locking mechanism of claim 1, wherein the lock bolt further comprises a slot and the bolt retraction gear further comprises a pivot and a retraction pin, the retraction pin sliding along the slot in the lock bolt as the bolt retraction gear rotates about the pivot to retract and extend the lock bolt. 10. The locking mechanism of claim 1, further comprising a lock casing surrounding the actuator, controller, manually-driven gear train, and the bolt retraction gear, the lock bolt flush with the lock casing in the retracted position. 11. The locking mechanism of claim 10, further comprising a lock bolt extension coupled to the lock bolt, the combined lock bolt and extension projecting beyond the lock casing in the retracted position. 12. The locking mechanism of claim 10, wherein the lock casing is at least partially translucent to reveal evidence of unauthorized drilling into the lock bolt casing. 13. The locking mechanism of claim 12, wherein the controller further comprises a circuit board, the lock casing further comprises a spindle sleeve adjacent to the circuit board, the manually-driven gear train further comprises a spindle shaft extending through the spindle sleeve outside the lock casing, and the locking mechanism further comprises: a circuit breaker device adjacent to the spindle sleeve and wired into the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the controller inoperative. 14. The locking mechanism of claim 13, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 15. The locking mechanism of claim 10, wherein the controller further comprises a circuit board, the lock casing further comprises a spindle sleeve adjacent to the circuit board, the manually-driven gear train further comprises a spindle shaft extending through the spindle sleeve outside the lock casing, and the locking mechanism further comprises: a circuit breaker device adjacent to the spindle sleeve and wired into the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the controller inoperative. 16. The locking mechanism of claim 15, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 17. The locking mechanism of claim 10, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 18. A locking mechanism comprising: a lock bolt movable between extended and retracted positions;a bolt retraction gear operatively coupled to the lock bolt;a manually-driven gear train including a spindle gear and a drive gear engaged with the bolt retraction gear, the drive gear including a relief portion and movable between an engagement position with the spindle gear and a disengagement position where the relief portion faces the spindle gear, the drive gear being biased towards the engagement position by the bolt retraction gear;a user input device adapted to receive user input information;a controller adapted to store authorization information and verify user input information; andan actuator having a rotatable output element, the rotatable output element blocking movement of the bolt retraction gear and thereby preventing rotation of the drive gear from the disengagement position to the engagement position until the controller verifies that the user input information matches the stored authorization information. 19. The locking mechanism of claim 18, wherein the user input device is a rotatable lock dial and the authorization information is a numerical combination. 20. The locking mechanism of claim 19, further comprising a spindle shaft coupling the rotatable lock dial to the manually-driven gear train, wherein the lock dial is rotated to enter user input information and to move the lock bolt from the extended position to the retracted position when the user input information is verified. 21. The locking mechanism of claim 18, wherein the spindle gear includes a relief portion, and the actuator is adapted to move the bolt retraction gear to rotate the drive gear from the disengagement position to the engagement position only when the relief portion on the spindle gear faces the drive gear. 22. The locking mechanism of claim 18, wherein the drive gear comprises a first drive gear portion adapted to be engaged with the spindle gear and an opposing second drive gear portion engaged with the bolt retraction gear in the engagement position. 23. The locking mechanism of claim 18, wherein the bolt retraction gear further comprises a slot and the rotatable output element further comprises a blocking pin, the blocking pin disposed in the slot of the bolt retraction gear in the disengagement position to block movement of the bolt retraction gear. 24. The locking mechanism of claim 23, wherein the rotating output element slides the blocking pin out of the slot in the bolt retraction gear as the actuator moves the bolt retraction gear to rotate the drive gear from the disengagement position to the engagement position. 25. The locking mechanism of claim 24, wherein the actuator is a servo motor. 26. The locking mechanism of claim 18, wherein the lock bolt further comprises a slot and the bolt retraction gear further comprises a pivot and a retraction pin, the retraction pin sliding along the slot in the lock bolt as the bolt retraction gear rotates about the pivot to retract and extend the lock bolt. 27. The locking mechanism of claim 18, further comprising a lock casing surrounding the actuator, controller, manually-driven gear train, and the bolt retraction gear, the lock bolt flush with the lock casing in the retracted position. 28. The locking mechanism of claim 27, further comprising a lock bolt extension coupled to the lock bolt, the combined lock bolt and extension projecting beyond the lock casing in the retracted position. 29. The locking mechanism of claim 27, wherein the lock casing is at least partially translucent to reveal evidence of unauthorized drilling into the lock bolt casing. 30. The locking mechanism of claim 29, wherein the controller further comprises a circuit board, the lock casing further comprises a spindle sleeve adjacent to the circuit board, the manually-driven gear train further comprises a spindle shaft extending through the spindle sleeve outside the lock casing, and the locking mechanism further comprises: a circuit breaker device adjacent to the spindle sleeve and wired into the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the controller inoperative. 31. The locking mechanism of claim 30, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 32. The locking mechanism of claim 27, wherein the controller further comprises a circuit board, the lock casing further comprises a spindle sleeve adjacent to the circuit board, the manually-driven gear train further comprises a spindle shaft extending through the spindle sleeve outside the lock casing, and the locking mechanism further comprises: a circuit breaker device adjacent to the spindle sleeve and wired into the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the controller inoperative. 33. The locking mechanism of claim 32, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 34. The locking mechanism of claim 27, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 35. A locking mechanism comprising: a lock bolt movable between extended and retracted positions;a bolt retraction gear operatively coupled to the lock bolt;a manually-driven spindle gear;a drive gear mounted on a drive shaft and including first and second relief portions, the drive gear being movable between an engagement position where the drive gear engages both the spindle gear and the bolt retraction gear and a disengagement position where the first relief portion faces the spindle gear and the second relief portion faces the bolt retraction gear;a user input device adapted to receive user input information;a controller adapted to store authorization information and verify user input information;an actuator coupled to the drive shaft and adapted to move the drive gear from the disengagement position to the engagement position such that the spindle gear can drive the lock bolt between the extended and retracted positions when the controller verifies that the user input information matches the stored authorization information;a lock casing surrounding the actuator, controller, spindle gear, drive gear, and the bolt retraction gear, the lock bolt flush with the lock casing in the retracted position; anda lock bolt extension coupled to the lock bolt, the combined lock bolt and extension projecting beyond the lock casing in the retracted position. 36. The locking mechanism of claim 35, wherein the user input device is a rotatable lock dial and the authorization information is a numerical combination. 37. The locking mechanism of claim 36, further comprising a spindle shaft coupling the rotatable lock dial to the manually-driven gear train, wherein the lock dial is rotated to enter user input information and to move the lock bolt from the extended position to the retracted position when the user input information is verified. 38. The locking mechanism of claim 35, wherein the spindle gear includes a relief portion, and the actuator is adapted to move the drive gear from the disengagement position to the engagement position only when the relief portion on the spindle gear faces the drive gear. 39. The locking mechanism of claim 35, wherein the drive gear comprises a first drive gear portion including the first relief portion and adapted to be engaged with the spindle gear, and an opposing second drive gear portion including the second relief portion and engaged with the bolt retraction gear in the engagement position. 40. The locking mechanism of claim 35, wherein the lock bolt further comprises a slot and the bolt retraction gear further comprises a pivot and a retraction pin, the retraction pin sliding along the slot in the lock bolt as the bolt retraction gear rotates about the pivot to retract and extend the lock bolt. 41. The locking mechanism of claim 35, wherein the lock casing is at least partially translucent to reveal evidence of unauthorized drilling into the lock bolt casing. 42. The locking mechanism of claim 41, wherein the controller further comprises a circuit board, the lock casing further comprises a spindle sleeve adjacent to the circuit board, the manually-driven gear train further comprises a spindle shaft extending through the spindle sleeve outside the lock casing, and the locking mechanism further comprises: a circuit breaker device adjacent to the spindle sleeve and wired into the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the controller inoperative. 43. The locking mechanism of claim 42, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 44. The locking mechanism of claim 35, wherein the controller further comprises a circuit board, the lock casing further comprises a spindle sleeve adjacent to the circuit board, the manually-driven gear train further comprises a spindle shaft extending through the spindle sleeve outside the lock casing, and the locking mechanism further comprises: a circuit breaker device adjacent to the spindle sleeve and wired into the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the controller inoperative. 45. The locking mechanism of claim 44, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 46. The locking mechanism of claim 35, wherein the lock casing further comprises a mounting bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 47. A locking mechanism comprising: a lock casing having a front surface and a spindle sleeve extending inwardly from the front surface;a lock bolt disposed at least partially within the lock casing and movable between extended and retracted positions;a manually-driven gear train adapted to be operatively coupled to the lock bolt, the gear train including a spindle shaft extending through the spindle sleeve and outside the lock casing;a controller including a circuit board adjacent to the front surface of the lock casing and having operational circuits controlling the coupling of the manually-driven gear train to the lock bolt; anda circuit breaker device adjacent to the spindle sleeve and wired into the operational circuits of the controller, wherein drilling through the spindle sleeve will break the circuit breaker device and render the operational circuits of the locking mechanism inoperative. 48. The locking mechanism of claim 47, wherein the spindle sleeve includes an outer surface, and the circuit breaker device comprises at least one wire positioned on the outer surface of the spindle sleeve. 49. The locking mechanism of claim 48, wherein the circuit breaker device comprises a coil of wire positioned on the outer surface of the spindle sleeve. 50. The locking mechanism of claim 49, wherein the circuit breaker device is disposed around the spindle sleeve. 51. The locking mechanism of claim 48, wherein the circuit breaker device comprises a plurality of wires positioned on the outer surface of the spindle sleeve. 52. The locking mechanism of claim 47, wherein the lock casing is at least partially translucent to reveal evidence of unauthorized drilling into the lock bolt casing. 53. The locking mechanism of claim 52, wherein the lock casing has at least one mounting bolt disposed in a bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 54. The locking mechanism of claim 47, wherein the lock casing has at least one mounting bolt disposed in a bolt receptacle, the lock bolt includes a recess, and the locking mechanism further comprises: a retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 55. A locking mechanism comprising: a lock casing having at least one mounting bolt disposed in a bolt receptacle;a lock bolt including a recess and disposed at least partially within the lock casing, the lock bolt movable between extended and retracted positions; anda retracting bolt shield including a first member coupled to a blocking member, the blocking member movable between a blocking position over the mounting bolt in the bolt receptacle to a non-blocking position outside of the bolt receptacle, the first member disposed within the lock bolt recess and adapted to drive the blocking member from the blocking position to the non-blocking position as the lock bolt moves from the extended position to the retracted position. 56. The locking mechanism of claim 55, wherein the retracting bolt shield further comprises a drive rod coupled to the first member and the blocking member. 57. The locking mechanism of claim 56, wherein the drive rod translates motion of the first member to motion of the blocking member as the lock bolt moves from the extended position to the retracted position. 58. The locking mechanism of claim 57, wherein the first member and the blocking member rotate about the drive rod. 59. The locking mechanism of claim 55, wherein the lock casing includes a first mounting bolt disposed in a first bolt receptacle and a second mounting bolt disposed in a second bolt receptacle, and the retracting bolt shield includes a second blocking member coupled to the first member, the second blocking member movable between a blocking position over the second mounting bolt in the second bolt receptacle to a non-blocking position outside of the second bolt receptacle, the first member adapted to drive the second blocking member from the blocking position to the non-blocking position as the lock bolt moves from the retracted position to the extended position. 60. The locking mechanism of claim 55, wherein the lock casing is at least partially translucent to reveal evidence of unauthorized drilling into the lock bolt casing. 61. A method of operating a lock including a user input device, a manually-driven gear train, a bolt retraction gear biased towards engagement with the manually-driven gear train, a lock bolt engaged with the bolt retraction gear, a blocking member, and a controller, the method comprising: blocking the bolt retraction gear with the blocking member to prevent engagement of the bolt retraction gear with the manually-driven gear train;recording user input information from the user input device;verifying that the user input information matches authorization information stored in the controller;disengaging the blocking member from the bolt retraction gear to permit engagement of the bolt retraction gear with the manually-driven gear train after the user input information has been verified; anddriving the lock bolt to a retracted position by manually driving the gear train and the bolt retraction gear. 62. The method of claim 61, wherein the lock further includes a retractable bolt shield and at least one mounting bolt in a bolt receptacle, the method further comprising: driving the lock bolt to an extended position by manually driving the gear train and the bolt retraction gear; andsliding the retractable bolt shield over the mounting bolt in the bolt receptacle as the lock bolt moves from the retracted position to the extended position. 63. The method of claim 62, wherein the lock includes a light-emitting diode (LED), and the method further comprises: activating a single red LED to blink once every ten seconds while the lock bolt is in the retracted position. 64. The method of claim 63, further comprising: storing a parameter related to the number of unsuccessful authorization attempts by the controller since the last successful authorization; andactivating a single red LED to blink a number of times equal to the stored parameter prior to recording user input information from the user input device. 65. The method of claim 64, wherein the lock further comprises a change key, and the method further comprises: inserting the change key into the lock to activate a configuration mode;recording a first set of user input information from the user input device;recording a second set of user input information from the user input device;averaging the first set and second set of user input information together; andreplacing the authorization information stored in the controller with the averaged user input information. 66. A method of operating a lock including manually-driven gear train, a lock bolt operatively coupled to the gear train, a retractable bolt shield, and at least one mounting bolt in a bolt receptacle, the method comprising: driving the lock bolt from a retracted position to an extended position by manually driving the gear train; andsliding the retractable bolt shield over the mounting bolt in the bolt receptacle as the lock bolt moves from the retracted position to the extended position. 67. The method of claim 66, wherein the lock includes a light-emitting diode (LED), and the method further comprises: activating a single red LED to blink once every ten seconds while the lock bolt is in the retracted position. 68. The method of claim 67, wherein the lock includes a user input device and a controller, the method further comprising: recording user input information from the user input device;verifying that the user input information matches authorization information stored in the controller;storing a parameter related to the number of unsuccessful authorization attempts by the controller since the last successful authorization; andactivating a single red LED to blink a number of times equal to the stored parameter prior to recording user input information from the user input device. 69. The method of claim 68, wherein the lock further comprises a change key, and the method further comprises: inserting the change key into the lock to activate a configuration mode;recording a first set of user input information from the user input device;recording a second set of user input information from the user input device;averaging the first set and second set of user input information together; andreplacing the authorization information stored in the controller with the averaged user input information. 70. A method of operating a lock including a light-emitting diode (LED), a user input device, and a controller, the method further comprising: recording first user input information from the user input device;verifying that the first user input information matches authorization information stored in the controller;storing a parameter related to the number of unsuccessful authorization attempts by the controller since the last successful authorization; andactivating a single red LED to blink a number of times equal to the stored parameter prior to recording second user input information from the user input device. 71. The method of claim 70 further comprising: activating a single red LED to blink a number of times equal to the stored parameter prior to recording user input information from the user input device. 72. The method of claim 70, wherein the lock further comprises a change key, and the method further comprises: inserting the change key into the lock to activate a configuration mode;recording a first set of user input information from the user input device;recording a second set of user input information from the user input device;averaging the first set and second set of user input information together; andreplacing the authorization information stored in the controller with the averaged user input information. 73. A method of operating a lock including a user input device, a controller, and a change key, the method further comprises: inserting the change key into the lock to activate a configuration mode;recording a first set of user input information from the user input device;recording a second set of user input information from the user input device;averaging the first set and second set of user input information together; andreplacing authorization information stored in the controller with the averaged user input information. 74. The method of claim 73, wherein the lock further comprises a light-emitting diode (LED), and the method further comprises: activating a single red LED to blink once every ten seconds while the lock bolt is in the retracted position.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.