An aiming device is provided including an illumination device and an optical element wherein the illumination device projects a primary dot and at least one secondary alignment dot distal from the primary dot to aid a user in obtaining a view of the primary dot when the aiming device is in an aligned mode, the primary dot is visible within a field of view of the user, but the secondary alignment dot is not visible. When the aiming device is in a misaligned mode, the secondary alignment dot is visible to the user, but the primary dot is not. The secondary alignment dot provides instruction to the user to realign the aiming device relative to the field of view of the user so that the aiming device transitions to the aligned mode. A related method of operation is provided.

An optical Boresight alignment device that leverages creation of an opto-mechanical reference to the rifle barrel so that the riflescope can be used to directly measure the axis of the rifle barrel and thereby offer the necessary feedback to precisely boresight the riflescope. An illumination multiplexer module (IMM) allows the riflescope to function as an illuminated precision autocollimator with which to optically measure the barrel angle. The present invention leverages the two most accurate rifle components: the barrel and the riflescope themselves to directly measure the axes of each device, the optical (riflescope) and the mechanical (barrel). This is an improvement over existing methods by successfully using the external surface of the rifle barrel as a kinematic mechanical reference.

A reticle leveling system can include a firearm mount having a base mount, track, scope saddle, and light projector. The system can further include a tripod and an alignment grid. The firearm mount can attach to an elongated portion of a firearm, such as a barrel or picatinny rail. The base mount and track can secure the firearm mount to the elongated portion of the firearm, and the scope saddle can align on top of the scope, thereby creating connection points on both the elongated portion and the scope. The light projector can shine light through the front of the scope, thereby causing scope reticle to project out of the eyepiece. The projected image of the reticle can be shown on the alignment grid, which can be attached to the top of the tripod, and the alignment grid can include cross-hatching to illustrate whether the reticle is properly aligned.

A boresighting system may include a laser boresight device and a parallax mitigation device. The laser boresight device may include a casing for loading into a chamber of a firearm in place of a bolt carrier group, where the casing accepts a laser device for generating a laser beam within an interior cavity of the casing. The parallax mitigation device may include a housing for securing to an optical sight and a central position indicator providing a visual indication of a central position of the optical sight. Boresighting may be provided by adjusting an eye position to view a laser spot on a target associated with the laser beam at the central position of the optical sight based on the central position indicator and adjusting the optical sight to overlap an alignment reference provided by the optical sight with the laser spot at the central position of the optical sight.

Systems and methods for calibrating, operating, and setting the magnitude of the power of light provided by a laser diode in a conducted electrical weapon (“CEW”). The light of the laser diode assists in targeting by providing a visible indication of the projected point of impact of the tethered electrode of the CEW. The calibration process enables laser diode of a CEW to operate within regional guidelines of the maximum output power of light permitted by a laser. The method further permits the magnitude of the power of the light provided by a laser diode to be set and operated in changing environmental conditions in the field.

A variable range compensating device, including at least some of a housing having an optical cavity defined at least partially within the housing, wherein the optical cavity extends from an incoming image aperture to an outgoing image aperture; and two or more reflective optical elements, wherein each reflective optical element is adjustably positioned within at least a portion of the optical cavity, and wherein adjustment of at least one of the reflective optical elements adjusts the reflective optical elements such that a target image entering the incoming image aperture is reflected by the reflective optical elements, so as to exit the outgoing image aperture at a determined offset.

An optic tool used for adjusting sights. The optic tool has several features, at least one of which can be used to adjust windage, elevation, and other variables on a sight. The optic tool is a single integrally made piece, which provides decreased manufacturing cost, decreased complexity, and decreased opportunity to malfunction. The option tool has a box wrench, two nubs, and a flat-head.

An angle adjustment mechanism includes a hollow cylindrical fine adjustment seat (1), a hollow cavity of the fine adjustment seat (1) are provided with a tapered fine adjustment screw (3) and a mounting seat (2) having a tapered surface (201), the tapered fine adjustment screw (3) and the mounting seat (2) are opposed to each other along the axial direction, the tapered surface (201) of the mounting seat (2) is provided with four strip-shaped planes (202) evenly spaced in the circumferential direction, two adjacent strip-shaped planes (202) are overlapped with the tapered surfaces of two tapered fine adjustment screws (3) respectively, the tapered fine adjustment screw (3) can move forward or backward in a cavity formed by an inner wall of the fine adjustment seat (1) and the tapered surface (201) of the mounting seat (2) along a strip-shaped plane (202) that coincides with the tapered fine adjustment screw (3).

A leveling jack for a gun sight (or ‘scope’) of a gun or rifle is provided. The leveling jack is movable between at least a first and a second position and is secured to a gun or rifle. The leveling jack has a bottom edge which may be secured to, for example, the picatinny rail of the top of the gun or rifle and an extended bar which contacts and levels the gun sight. The leveling jack may also be secured directly to the gun or rifle without utilizing a picatinny rail. The leveling jack is especially suitable for leveling the gun sight of the gun or rifle in a quick and efficient manner.

A compensating mechanism includes a base, an adjusting unit, an adjusting cover and a stop unit. The adjusting unit is disposed in the base. The adjusting cover connects to the adjusting unit and includes a curved groove. The stop unit is disposed between the adjusting unit and the base and includes a pin. When the adjusting cover is rotated, the adjusting unit is only rotated with respect to the base and the stop unit is axially moved with respect to the base so that the pin enters or leaves the curved groove.