A locking mechanism for a rotating cylindrical assembly in a weapons storage system. The locking mechanism includes a shaft fixed to a base. A sear hub is concentrically fixed to the shaft and has a notch on a peripheral surface. A stop rotates on the rotating cylindrical assembly between a first lo
A locking mechanism for a rotating cylindrical assembly in a weapons storage system. The locking mechanism includes a shaft fixed to a base. A sear hub is concentrically fixed to the shaft and has a notch on a peripheral surface. A stop rotates on the rotating cylindrical assembly between a first locked position and a second unlocked position. A stop plate is concentrically fixed to the shaft that has a first arm that engages the stop shaft in the first locked position, and a second arm that engages the stop shaft in the second unlocked position. A sear lock is provided that pivots into and out of the notch in the sear hub. A lock body is provided that pivotally attached to the sear lock. When the lock body is actuated, the projection of the sear lock is thrust into a notched indentation in the sear hub thereby blocking the sear hub from being rotated.
대표청구항▼
1. A locking mechanism for a rotating cylindrical assembly, comprising: a main shaft connected to a lower base that is fixed;a sear hub having a notched indentation about its peripheral surface, the sear hub being concentrically fixed to the main shaft;a stop shaft that rotates on the rotating cylin
1. A locking mechanism for a rotating cylindrical assembly, comprising: a main shaft connected to a lower base that is fixed;a sear hub having a notched indentation about its peripheral surface, the sear hub being concentrically fixed to the main shaft;a stop shaft that rotates on the rotating cylindrical assembly between a first locked position and a second unlocked position;a stop plate concentrically fixed to the main shaft that has a first arm that engages the stop shaft in the first locked position, and a second arm that engages the stop shaft in the second unlocked position;a sear lock having a nose end that pivots into and out of the notched indentation in the sear hub; anda lock body attached to the sear lock that engages and disengages the end of the sear lock into and out of the notched indentation in the sear hub. 2. The locking mechanism recited in claim 1, wherein when the nose end of the sear lock is engaged by the lock body to engage the notched indentation in the sear hub, the rotating cylindrical assembly is prevented from rotating relative to the lower base. 3. The locking mechanism recited in claim 1, wherein the locking mechanism has a guard having an exterior wall that surrounds the perimeter of the locking mechanism and a cover plate that is attached to a top of the guard. 4. The locking mechanism recited in claim 1, wherein the sear lock pivots about a sear pivot located at a central portion, a first end of the sear lock is connected to a lock nose extending from the lock body and a second end of the sear lock includes the nose end that pivots into and out of the notched indentation in the sear hub in response to the lock body being actuated to extend and contract the lock nose into an extended locked position and a retracted unlocked position in which the rotating cylindrical assembly is permitted to rotate. 5. The locking mechanism recited in claim 1, wherein the locking mechanism is sealed in a lower assembly within the cylindrical assembly, the locking mechanism being bounded by a lower door plate and a lower floor plate provided at a bottom of the cylindrical assembly. 6. The locking mechanism recited in claim 1, wherein the lock body is an electronic actuated lock that is controlled by a keypad. 7. The locking mechanism recited in claim 1, wherein the rotating cylindrical assembly is a cylindrical housing in a weapons storage system, the weapons storage system comprising: an outer housing comprising: an elongated housing having a curved inner structure;a cylindrical housing door is rotatably secured adjacent to the curved inner structure, the cylindrical housing door rotates between the first locked position to prevent access to an internal compartment within the elongated housing, and a second unlocked position to permit access to the internal compartment in which an opening providing access into the internal compartment is approximately 180 degrees; andthe locking mechanism is provided in the elongated housing to unlock and lock the rotation of the cylindrical housing door, where in the first locked position the cylindrical housing door is prevented from rotating into the second unlocked position. 8. The locking mechanism recited in claim 7, wherein the weapons storage system further comprises a removable cassette having a quick disconnect mounting assembly adapted to secure the removable cassette within the elongated housing. 9. A locking mechanism for a rotating cylindrical assembly, comprising: a shaft fixed to a base;a sear hub concentrically fixed to the shaft and having a notch on a peripheral surface;a stop shaft that rotates on the rotating cylindrical assembly between a first locked position and a second unlocked position;a stop plate concentrically fixed to the shaft that has a first arm that engages the stop shaft in the first locked position, and a second arm that engages the stop shaft in the second unlocked position;a sear lock having a projection that pivots into and out of the notch in the sear hub; anda lock body pivotally attached to the sear lock that causes the projection of the sear lock to engage and disengage into and out of the notch in the sear hub. 10. The locking mechanism recited in claim 9, wherein when the projection of the sear lock is engaged by the lock body into the notch in the sear hub, the rotating cylindrical assembly is rotationally locked and blocked from rotating relative to the base. 11. The locking mechanism recited in claim 9, wherein the locking mechanism is sealed in at least one of: a upper top assembly, ora lower assembly within the cylindrical assembly, the locking mechanism being bounded by a lower door plate and a lower floor plate provided at a bottom of the cylindrical assembly. 12. The locking mechanism recited in claim 9, wherein the lock body is an electronic actuated lock that is controlled by a keypad. 13. The locking mechanism recited in claim 12, wherein the keypad is at least one of a wired or wireless actuated key. 14. The locking mechanism recited in claim 9, wherein the locking mechanism has a guard with an exterior wall that surrounds the perimeter of the locking mechanism. 15. The locking mechanism recited in claim 9, wherein the sear lock pivots about a sear pivot located at a central portion, a first end of the sear lock is connected to a lock nose extending from the lock body and a second end of the sear lock includes a nose end that pivots into and out of a notched indentation in the sear hub in response to the lock body being actuated to extend and contract the lock nose into an extended locked position and a retracted unlocked position in which the rotating cylindrical assembly is permitted to rotate. 16. The locking mechanism recited in claim 9, wherein the rotating cylindrical assembly is a cylindrical housing in a weapons storage system, the weapons storage system comprising: an outer housing comprising: an elongated housing having a curved inner structure;a cylindrical housing door is rotatably secured adjacent to the curved inner structure, the cylindrical housing door rotates between the first locked position to prevent access to an internal compartment within the elongated housing, and a second unlocked position to provide an opening of approximately 180 degrees access to the internal compartment within the elongated housing; andthe locking mechanism is provided in the elongated housing to unlock and lock the rotation of the cylindrical housing door, where, in the first locked position the cylindrical housing door is blocked from rotating into the second unlocked position. 17. The locking mechanism recited in claim 16, wherein the weapons storage system further comprises a removable cassette having a quick disconnect mounting assembly adapted to secure the removable cassette within the cylindrical housing. 18. A locking mechanism for a rotating cylindrical assembly, comprising: a housing having an upper wall, a lower wall and a side wall;a main shaft fixed through the lower wall to a base;a sear hub having a notched indentation about a peripheral surface, the sear hub being concentrically fixed to the main shaft;a stop shaft that rotates on the rotating cylindrical assembly between a first locked position and a second unlocked position;a stop plate concentrically fixed to the main shaft that has a first arm that engages the stop shaft in the first locked position, and a second arm that engages the stop shaft in the second unlocked position;a sear lock having a projection that pivots into and out of the notched indentation in the sear hub; anda lock body attached to the sear lock that engages and disengages the projection of the sear lock into and out of the notched indentation in the sear hub,wherein when the projection of the sear lock is actuated by the lock body to engage the notched indentation in the sear hub, the rotating cylindrical assembly is blocked from rotating relative to the base. 19. The locking mechanism recited in claim 18, wherein the rotating cylindrical assembly is a cylindrical housing in a weapons storage system, the weapons storage system comprising: an outer housing comprising: an elongated housing having a curved inner structure;a cylindrical housing door is rotatably secured adjacent to the curved inner structure, the cylindrical housing door rotates between the first locked position to prevent access to an internal compartment within the elongated housing, and the second unlocked position to provide access to an opening of approximately 180 degrees into the internal compartment within the elongated housing; andthe locking mechanism is provided in the elongated housing to unlock and lock the rotation of the cylindrical housing door, where, in the first locked position the cylindrical housing door is blocked from rotating into the second unlocked position. 20. The locking mechanism recited in claim 19, wherein the weapons storage system further comprises a removable cassette having a quick disconnect mounting assembly adapted to secure the removable cassette within the cylindrical housing.
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