A sight adjustment assembly has a frame with a clamping mechanism for receiving and clamping a handgun slide with an attached stationary sight and an adjustment mechanism for engaging and adjusting the sight in a lateral position with respect to the slide. The sight adjustment mechanism and the clamping mechanism are contained within an outer periphery of the frame during storage and use to thereby provide a compact device that can conveniently accompany a user for sight adjustments in the field.

A firearm system includes a firearm and a computer. Electronics in the firearm determine data that includes a pathway between different points of aim of the firearm as the firearm moves. The computer receives this data and builds an image of the pathway between the different points of aim of the firearm.

A firearm system includes a firearm and a computer. Electronics in the firearm determine data that includes a pathway between different points of aim of the firearm as the firearm moves. The computer receives this data and builds an image of the pathway between the different points of aim of the firearm.

A boresighting device to equip a turret provided with a barrel and one or several sight system(s) each with an optical system includes: a deflection target intended to be positioned outside the barrel, at a muzzle brake of the barrel; a housing intended to be positioned outside the barrel, at a shaft of the barrel. The housing includes: a first optics system provided with a deflection camera, the first optics system being used to determine a parallelism error between a firing line from the shaft and that from the muzzle brake; and a second optics system provided with a boresighting camera, the second optics system being used to determine a parallelism error between the firing line from the shaft and an optics line from the sight system(s). The deflection target integrates a geometric figure serving as a reference point for the first optics system.

A boresighting device to equip a turret provided with a barrel and one or several sight system(s) each with an optical system includes: a deflection target intended to be positioned outside the barrel, at a muzzle brake of the barrel; a housing intended to be positioned outside the barrel, at a shaft of the barrel. The housing includes: a first optics system provided with a deflection camera, the first optics system being used to determine a parallelism error between a firing line from the shaft and that from the muzzle brake; and a second optics system provided with a boresighting camera, the second optics system being used to determine a parallelism error between the firing line from the shaft and an optics line from the sight system(s). The deflection target integrates a geometric figure serving as a reference point for the first optics system.

A universal marksmanship training system is disclosed herein configured to utilize a display device comprising a graphic display. A software application may also be provided. The software application is often configured to display a virtual target on the graphic display. A chamber insert may be utilized, the chamber insert configured to be positioned with the firing chamber of a firearm to be zeroed, wherein the chamber insert interacts with the software application to determine alignment of a bore of the firearm to a bore alignment point on the graphic display. In one form, the display device displays a sight target on the graphic display wherein the sight target is visually perceived by a marksman and is offset from the bore alignment point by an offset distance. In one form, the software application calculates the sight target relative to the bore alignment point of the firearm given a set of condition variables.

A surveillance system comprising a housing dimensioned to enclose a plurality of cameras and one or more viewing windows to allow light to pass through the housing. A wife transmitting module sends and receives wireless data via an antenna and a mounting rail is attached to the housing to mount the housing to a firearm.

Systems for leveling a firearm receiver and aligning a scope to the receiver are precisely fabricated and assembled to maximize accuracy, including high sensitivity spirit levels. A bar assembly with a high sensitivity spirit level is received in the receiver with the bar in direct contact with the receiver rails. The bar may directly contact the full length of the receiver rails. A plate assembly includes a lower plate for connection to a bench rest, an upper plate for connection to the receiver, and a mechanism to pivot the upper plate relative to the lower plate about a pivot axis for windage adjustment. Methods of use are disclosed.

A boresight alignment system for an aiming device that aligns the bore of the weapon to the optics, in this case the reticle, by incorporating the use of a HUD to produce the reticle in an aiming device, thus allowing electronic adjustment of the reticle that can be stored in the aiming devices memory and eliminating the necessity for manual adjustments of azimuth and elevation settings is disclosed.

In one aspect, a sight with a momentary switch to control a laser beam on the sight may include a momentary sensor, a plurality of locking screw to lock the sight onto a firearm, a laser sight, a push button switch, a charging socket, and a laser adjustment screw. When in use, the user can press the push button switch to turn on the sight. In one embodiment, the momentary sensor can emit infrared light and if the infrared light is deflected, the laser beam will be turned off. So, if the user wants to turn off the laser beam, the user can simply move the finger toward the momentary sensor to somewhat covers the momentary sensor to deflect the infrared light emitting therein.