A gun includes a receiver assembly, a magazine, a trigger assembly, a sear assembly, a blowback assembly and a reciprocating slide. When the trigger rotates, the first connecting member is capable of pulling the trigger slide to move linearly, and driving the second connecting member, the sear assembly and the force-storing slide to move linearly towards the same direction. Moreover, the force-storing slide compresses the blowback spring, and the blowback slide receives a restoring force of the blowback spring to drive the reciprocating slide to move backward. The gun could achieve a simulation effect of rotating actions of the trigger, as well as a simulation effect of blowback actions of the reciprocating slide.

A gun includes a receiver assembly, a magazine, a trigger assembly, a sear assembly, a blowback assembly and a reciprocating slide. When the trigger rotates, the first connecting member is capable of pulling the trigger slide to move linearly, and driving the second connecting member, the sear assembly and the force-storing slide to move linearly towards the same direction. Moreover, the force-storing slide compresses the blowback spring, and the blowback slide receives a restoring force of the blowback spring to drive the reciprocating slide to move backward. The gun could achieve a simulation effect of rotating actions of the trigger, as well as a simulation effect of blowback actions of the reciprocating slide.

A trigger mechanism that can be used in AR-pattern firearms has a hammer, a trigger member, a disconnector, a locking member, and a “three position” safety selector having safe, standard semi-automatic, and forced reset semi-automatic positions. In the standard semi-automatic position, rearward movement of the bolt carrier causes rearward pivoting of the hammer such that the disconnector hook catches the hammer hook, at which time a user must manually release the trigger member to free the hammer from the disconnector to permit the hammer and trigger member to pivot to the set positions so that the user can pull the trigger member to fire the firearm. In the forced reset semi-automatic position, rearward movement of the bolt carrier causes rearward pivoting of the hammer causing the trigger member to be forced to the set position, the safety selector preventing the disconnector hook from catching the hammer hook, and thereafter when the bolt carrier reaches the substantially in-battery position the user can pull the trigger member to fire the firearm without manually releasing the trigger member. The locking member is pivotable between a first position at which the locking member mechanically blocks the trigger member from moving to the released position and a second position at which the locking member does not mechanically block the trigger member allowing the trigger member to be moved to the released position. The locking member is spring biased toward the first position and moved against the spring bias to the second position by contact from the bolt carrier during forward movement of the bolt carrier as the bolt carrier reaches a substantially in-battery position.

A trigger mechanism that can be used in AR-pattern firearms has a hammer, a trigger member, a disconnector, a locking member, and a “three position” safety selector having safe, standard semi-automatic, and forced reset semi-automatic positions. In the standard semi-automatic position, rearward movement of the bolt carrier causes rearward pivoting of the hammer such that the disconnector hook catches the hammer hook, at which time a user must manually release the trigger member to free the hammer from the disconnector to permit the hammer and trigger member to pivot to the set positions so that the user can pull the trigger member to fire the firearm. In the forced reset semi-automatic position, rearward movement of the bolt carrier causes rearward pivoting of the hammer causing the trigger member to be forced to the set position, the safety selector preventing the disconnector hook from catching the hammer hook, and thereafter when the bolt carrier reaches the substantially in-battery position the user can pull the trigger member to fire the firearm without manually releasing the trigger member. The locking member is pivotable between a first position at which the locking member mechanically blocks the trigger member from moving to the released position and a second position at which the locking member does not mechanically block the trigger member allowing the trigger member to be moved to the released position. The locking member is spring biased toward the first position and moved against the spring bias to the second position by contact from the bolt carrier during forward movement of the bolt carrier as the bolt carrier reaches a substantially in-battery position.

A crossbow with a movable trigger latch block. The crossbow has a trigger latch block slidingly connected to the flight track. The trigger latch block is configured to engage and retain the bowstring. A cocking mechanism is configured to draw the trigger latch block with the bowstring from an initial position near a forward end of the flight track to a cocked position. A one-way retention mechanism is configured to immobilize the trigger latch block against linear movement in a forward direction along the flight track. A trigger-traverse mechanism is configured to slide the trigger latch block in a forward direction to its initial position after the bowstring is released.

A crossbow with a movable trigger latch block. The crossbow has a trigger latch block slidingly connected to the flight track. The trigger latch block is configured to engage and retain the bowstring. A cocking mechanism is configured to draw the trigger latch block with the bowstring from an initial position near a forward end of the flight track to a cocked position. A one-way retention mechanism is configured to immobilize the trigger latch block against linear movement in a forward direction along the flight track. A trigger-traverse mechanism is configured to slide the trigger latch block in a forward direction to its initial position after the bowstring is released.

A pocket pistol having at least one barrel in alignment with at least one associated chamber for receiving a firearm cartridge; a barrel release trigger; a double-action firing trigger; and a frame carrying the at least one barrel, the barrel release trigger, and the firing trigger, and defining a cavity within the frame carrying a hammer set and a firing pin.

A pocket pistol having at least one barrel in alignment with at least one associated chamber for receiving a firearm cartridge; a barrel release trigger; a double-action firing trigger; and a frame carrying the at least one barrel, the barrel release trigger, and the firing trigger, and defining a cavity within the frame carrying a hammer set and a firing pin.

Disclosed are implementations of an accessory mount for a machine gun spade grip. An example accessory mount is configured for attachment to a firearm spade grip and comprises: a bridge member having a top and a bottom, the top of the bridge member includes a mounting interface and the bottom of the bridge member includes a cutout adapted to receive a portion of the firearm spade grip therein; a clamp member removably attached to the bottom of the bridge member; an actuator arm having a base and a distal end, the base of the actuator arm is attached to the top of the bridge member; and a paddle actuator rotatably connected to the distal end of the actuator arm. Some implementations of the accessory mount include a cross-bolt safety axially displaceable between an active position, whereby rotational movement of the paddle actuator is prevented, and an inactive position.

Disclosed are implementations of an accessory mount for a machine gun spade grip. An example accessory mount is configured for attachment to a firearm spade grip and comprises: a bridge member having a top and a bottom, the top of the bridge member includes a mounting interface and the bottom of the bridge member includes a cutout adapted to receive a portion of the firearm spade grip therein; a clamp member removably attached to the bottom of the bridge member; an actuator arm having a base and a distal end, the base of the actuator arm is attached to the top of the bridge member; and a paddle actuator rotatably connected to the distal end of the actuator arm. Some implementations of the accessory mount include a cross-bolt safety axially displaceable between an active position, whereby rotational movement of the paddle actuator is prevented, and an inactive position.