A firearm with dual-acting safety mechanism in one embodiment includes a slide movably carried by a frame, hammer, sear operable to hold the hammer in and release it from a cocked position, and firing mechanism including a trigger and trigger bar which collectively operate to actuate the sear to release the hammer. The safety mechanism includes right and left actuator levers coupled together and cooperating with a safety rocker. The safety rocker is operably interfaced with the trigger bar and pivotably movable between two positions. Moving either actuation lever to activate the safety mechanism rotates the safety rocker which simultaneously both blocks the trigger bar from movement and displaces the trigger bar to disengage the sear which can no longer be actuated via a trigger pull. In one embodiment, the safety mechanism is further operable to lock the slide in the closed breech position when the safety is activated.

Firearm covers are disclosed. A firearm cover includes a body defining a partially enclosed region sized and shaped to receive a firearm receiver of a firearm. The body includes a first side wall having a first lip and a second side wall opposite the first side wall and having a second lip. The first lip and the second lip define a longitudinal opening to the partially enclosed region. The first side wall and the second side wall define a forward opening to the partially enclosed region and a rear opening to the partially enclosed region such that, when the firearm receiver is operatively received in the partially enclosed region, the firearm extends through the forward opening and the rear opening. The firearm cover further includes structure for restricting the firearm from being fired when the firearm receiver is operatively received in the partially enclosed region.

Firearm covers are disclosed. A firearm cover includes a body defining a partially enclosed region sized and shaped to receive a firearm receiver of a firearm. The body includes a first side wall having a first lip and a second side wall opposite the first side wall and having a second lip. The first lip and the second lip define a longitudinal opening to the partially enclosed region. The first side wall and the second side wall define a forward opening to the partially enclosed region and a rear opening to the partially enclosed region such that, when the firearm receiver is operatively received in the partially enclosed region, the firearm extends through the forward opening and the rear opening. The firearm cover further includes structure for restricting the firearm from being fired when the firearm receiver is operatively received in the partially enclosed region.

Firearm safing assemblies and firearms including the same are disclosed. In embodiments firearm safing assemblies include a safing sector with a track surface and a receiver door track. The receiver door track may couple to a receiver of a rotatable firearm, wherein the receiver includes a bolt track and at least a portion of the receiver extends coaxially about a first axis. The safing sector is configured to be at least partially disposed within the receiver door track and to move between a safe position and an armed position. In the safe position the track surface is out of alignment with and does not form part of the bolt track, whereas in the armed position it is aligned with and forms part of the bolt track.

Firearm safing assemblies and firearms including the same are disclosed. In embodiments firearm safing assemblies include a safing sector with a track surface and a receiver door track. The receiver door track may couple to a receiver of a rotatable firearm, wherein the receiver includes a bolt track and at least a portion of the receiver extends coaxially about a first axis. The safing sector is configured to be at least partially disposed within the receiver door track and to move between a safe position and an armed position. In the safe position the track surface is out of alignment with and does not form part of the bolt track, whereas in the armed position it is aligned with and forms part of the bolt track.

A firearm with dual-acting safety mechanism in one embodiment includes a slide movably carried by a frame, hammer, sear operable to hold the hammer in and release it from a cocked position, and firing mechanism including a trigger and trigger bar which collectively operate to actuate the sear to release the hammer. The safety mechanism includes right and left actuator levers coupled together and cooperating with a safety rocker. The safety rocker is operably interfaced with the trigger bar and pivotably movable between two positions. Moving either actuation lever to activate the safety mechanism rotates the safety rocker which simultaneously both blocks the trigger bar from movement and displaces the trigger bar to disengage the sear which can no longer be actuated via a trigger pull. In one embodiment, the safety mechanism is further operable to lock the slide in the closed breech position when the safety is activated.

Firearm safing assemblies and firearms including the same are disclosed. In embodiments firearm safing assemblies include a safing sector with a track surface and a receiver door track. The receiver door track may couple to a receiver of a rotatable firearm, wherein the receiver includes a bolt track and at least a portion of the receiver extends coaxially about a first axis. The safing sector is configured to be at least partially disposed within the receiver door track and to move between a safe position and an armed position. In the safe position the track surface is out of alignment with and does not form part of the bolt track, whereas in the armed position it is aligned with and forms part of the bolt track.

Firearm safing assemblies and firearms including the same are disclosed. In embodiments firearm safing assemblies include a safing sector with a track surface and a receiver door track. The receiver door track may couple to a receiver of a rotatable firearm, wherein the receiver includes a bolt track and at least a portion of the receiver extends coaxially about a first axis. The safing sector is configured to be at least partially disposed within the receiver door track and to move between a safe position and an armed position. In the safe position the track surface is out of alignment with and does not form part of the bolt track, whereas in the armed position it is aligned with and forms part of the bolt track.

Trigger-cycled firearms have a frame, a barrel, a bolt assembly connected to the frame in registration with the barrel and operable to reciprocate between a retracted position and a forward battery position, a trigger lever connected to the frame and operable to move between a forward rest position and a rearward actuated position, and the trigger lever operably connected to the bolt to move the bolt from the forward battery position to the retracted position and to release the bolt to the forward battery position and discharge the firearm in response to movement of the trigger lever from the forward rest position to the rearward actuated position when the bolt is in the forward position. There may be a connector bar pivotally connected to the frame and operably engaged to the bolt assembly and to the trigger lever. The connector bar may be slidably connected to the bolt assembly.

Firearm safing assemblies and firearms including the same are disclosed. In embodiments firearm safing assemblies include a safing sector with a track surface and a receiver door track. The receiver door track may couple to a receiver of a rotatable firearm, wherein the receiver includes a bolt track and at least a portion of the receiver extends coaxially about a first axis. The safing sector is configured to be at least partially disposed within the receiver door track and to move between a safe position and an armed position. In the safe position the track surface is out of alignment with and does not form part of the bolt track, whereas in the armed position it is aligned with and forms part of the bolt track.