Disclosed is an apparatus for multi-correcting a trajectory, the apparatus comprising a trajectory correcting unit in which a polygonal cam comprising a plurality of surfaces different in distance from a rotary center is rotatably installed between a dot sight or an optical signal and a firearm to adjust an angle between an optical axis of the dot sight or optical sight and a gun barrel axis of the firearm, wherein the trajectory correcting unit is installed to be movable in an axis direction, and coaxially provided with two or more polygonal cams to respectively set trajectory correcting angles corresponding to distances in accordance with calibers of a bullet and the kinds of bullet. With this, one dot sight or optical sight can be mounted to firearms using bullets different in the trajectory or firearms different in a caliber from one another, thereby enhancing equipment use efficiency.

An apparatus includes a first gunsight and a second gunsight, where both the first and the second sights are configured to be positioned on a forward portion of a barrel of a firearm. According to an embodiment, a third gunsight may be configured to be positioned on the forward portion of the barrel. The gunsight may be interchangeable with different gunsights.

The present disclosure relates to a firearm which may include a frame with a first outer wall, and a second outer wall opposite the first outer wall. A laser module may be disposed between the first and second outer walls. An alignment pin may be in communication with the first outer wall and may be configured to move the laser module relative to the frame.

The present disclosure relates to a firearm which may include a frame with a first outer wall, and a second outer wall opposite the first outer wall. A laser module may be disposed between the first and second outer walls. An alignment pin may be in communication with the first outer wall and may be configured to move the laser module relative to the frame.

A novel flashlight assembly that includes an interface integrated into the housing thereof to facilitate mounting of the flashlight to the dovetail rail on a modern combat weapon. The outer body of the flashlight includes a head mounted to a flashlight body at one end and a tapered tail extending outwardly at the other end of the body. Further, the flashlight includes a clamping interface that is a seamless and integrated feature of the outer housing of the flashlight itself for interfacing the flashlight with a firearm. The operational modes of the flashlight are controlled by a single push button and a selector switch. To facilitate a highly compact design the flashlight employs two circuitry arrangements positioned remote from one another and in communication with one another via a single conductive trace to operate at a first signal frequency or a second signal frequency.

Disclosed herein are embodiments of a sighting device, and methods of making and using such a sighting device, whereby the sighting device comprises a chamber coupled to the sighting device; and a light-emitting element contained within the chamber; wherein the chamber contains only non-radioactive material; and wherein the light-emitting element emits a first amount of visible light to provide a viewable aiming indicium in low light conditions.

An accessory mounting interface for a firearm, and a related method, are disclosed. The interface has a firearm accessory, a first elongated fastener, and a second fastener rotationally mated to the first elongated fastener. The first elongated fastener has right-handed threading and is arranged through a through hole in the firearm accessory with a first end extending below first and second halves of a first slot protrusion of the firearm accessory. The second fastener has a length greater than a width, the length measured along a longitudinal axis of the second fastener, the second fastener having a plurality of straight edges. At least one of the plurality of straight edges prevents the second fastener from rotating further than a closed position when the at least one of the straight edges abuts a sidewall of an elongated slot in the firearm.

An accessory mounting interface for a firearm, and a related method, are disclosed. The interface has a firearm accessory, a first elongated fastener, and a second fastener rotationally mated to the first elongated fastener. The first elongated fastener has right-handed threading and is arranged through a through hole in the firearm accessory with a first end extending below first and second halves of a first slot protrusion of the firearm accessory. The second fastener has a length greater than a width, the length measured along a longitudinal axis of the second fastener, the second fastener having a plurality of straight edges. At least one of the plurality of straight edges prevents the second fastener from rotating further than a closed position when the at least one of the straight edges abuts a sidewall of an elongated slot in the firearm.

A firearm system can include a modular mono-block shotgun system and a standardizing sighting system. The modular mono-block shotgun system can have multiple interchangeable barrels of different gauges for assembling a single shotgun. Each barrel can include an inherent low-rail sight longitudinally along its top surface. The standardizing sighting system can be installed upon the low-rail sight of each barrel of the modular mono-block system. The height of each barrel with its corresponding component of the standardizing sighting system can be substantially equal to the height of a largest gauge barrel with its corresponding component. After changing barrels, a need to make adjustments to the shotgun to account for changes in sighting and impact spread can be eliminated.

A firearm system can include a modular mono-block shotgun system and a standardizing sighting system. The modular mono-block shotgun system can have multiple interchangeable barrels of different gauges for assembling a single shotgun. Each barrel can include an inherent low-rail sight longitudinally along its top surface. The standardizing sighting system can be installed upon the low-rail sight of each barrel of the modular mono-block system. The height of each barrel with its corresponding component of the standardizing sighting system can be substantially equal to the height of a largest gauge barrel with its corresponding component. After changing barrels, a need to make adjustments to the shotgun to account for changes in sighting and impact spread can be eliminated.