A cowitness sight configured to mount on a red dot sight, including a base, where two rear tubes are mounted to the top of the base, the base is secured to the red dot sight, the base further includes at least one bore hole housing, and the base is secured to the red dot sight using at least one elongated fastener passing through the at least one bore hole housing. A method of installing a cowitness sight on a red dot sight, including placing the cowitness sight with two rear tubes on a red dot sight, and securing the cowitness sight to the red dot sight using at least one elongated fastener.

Flip sight systems having multiple configurations for use with firearms in accordance with various embodiments of the invention are disclosed. In one embodiment, a flip sight system is provided, comprising: a front sight assembly comprising: a front base, a front pivot joint; and a front sight; a rear sight assembly comprising: a rear base, a rear pivot joint, and a rear sight; wherein the flip sight system includes a first deployed configuration where the front sight and the rear sight are offset to the attached optics such that the flip sight system operates as primary sights for close range targets, a second deployed configuration where the front sight and the rear sight are in-line with the attached optics such that the flip sight system operates as co-witness or backup sights to the attached optics, a first collapsed configuration for storage, and a second collapsed configuration for storage.

Flip sight systems having multiple configurations for use with firearms in accordance with various embodiments of the invention are disclosed. In one embodiment, a flip sight system is provided, comprising: a front sight assembly comprising: a front base, a front pivot joint; and a front sight; a rear sight assembly comprising: a rear base, a rear pivot joint, and a rear sight; wherein the flip sight system includes a first deployed configuration where the front sight and the rear sight are offset to the attached optics such that the flip sight system operates as primary sights for close range targets, a second deployed configuration where the front sight and the rear sight are in-line with the attached optics such that the flip sight system operates as co-witness or backup sights to the attached optics, a first collapsed configuration for storage, and a second collapsed configuration for storage.

Provided is a dot sighting device with large caliber for binocular vision in which sighting can be performed rapidly and accurately by minimizing parallax. The dot sighting device is attached to and detached from a mount for a heavy machine gun. In addition, by using the dot sighting device with large caliber, a user can rapidly and accurately sight and fire a target by taking into consideration types and characteristics of the target and a distance to the target.

A multi-function gunsight for aiming a firearm comprises a body and a sight arm pivotally coupled to the body for rotation between a stowed orientation and a deployed orientation. The body defining a laser cavity, a starboard cavity, and a port cavity. A laser housing is disposed inside the laser cavity defined by the body. The laser housing supports a semiconductor chip that emits laser light and a collimating lens that collimates the laser light emitted by the semiconductor chip. A forward end of the laser housing is coupled to a spherical bearing. The spherical bearing constrains movement of the laser housing in three translation degrees of freedom corresponding to translation along x, y, and z axes of an x-y-z coordinate system. The spherical bearing allows rotation of the laser housing about at least the x and y axes of the x-y-z coordinate system.

A multi-function gunsight for aiming a firearm comprises a body and a sight arm pivotally coupled to the body for rotation between a stowed orientation and a deployed orientation. The body defining a laser cavity, a starboard cavity, and a port cavity. A laser housing is disposed inside the laser cavity defined by the body. The laser housing supports a semiconductor chip that emits laser light and a collimating lens that collimates the laser light emitted by the semiconductor chip. A forward end of the laser housing is coupled to a spherical bearing. The spherical bearing constrains movement of the laser housing in three translation degrees of freedom corresponding to translation along x, y, and z axes of an x-y-z coordinate system. The spherical bearing allows rotation of the laser housing about at least the x and y axes of the x-y-z coordinate system.

A gun/rifle sight for tracking a moving object is provided. The gun sight may have a generally elongated frame secured at a distal end of a barrel of a gun in a perpendicular manner with respect to the barrel. In a first embodiment, the gun sight has plurality of pegs which independently and selectively move from a downward orientation to an upward orientation so as to allow a user to gauge the lead time for firing the gun at the moving object. In a second embodiment, a plurality of stationary pegs is secured in a staggered manner around a rotating cylindrical cover. When the cylindrical cover is rotated around the elongated stationary frame, only a single stationary peg may be moved to an upward orientation at a given time.

A gun/rifle sight for tracking a moving object is provided. The gun sight may have a generally elongated frame secured at a distal end of a barrel of a gun in a perpendicular manner with respect to the barrel. In a first embodiment, the gun sight has plurality of pegs which independently and selectively move from a downward orientation to an upward orientation so as to allow a user to gauge the lead time for firing the gun at the moving object. In a second embodiment, a plurality of stationary pegs is secured in a staggered manner around a rotating cylindrical cover. When the cylindrical cover is rotated around the elongated stationary frame, only a single stationary peg may be moved to an upward orientation at a given time.

The invention relates to a sighting device having an optical reversing system (12) and a target mark as well as a ballistics computer for computing data that is relevant in terms of ballistics, the reversing system (12) being adjustable mechanically and the target mark being adjustable electronically and at least one adjusting device (13) being provided for adjusting the reversing system (12) and the target mark.

The invention relates to a sighting device having an optical reversing system (12) and a target mark as well as a ballistics computer for computing data that is relevant in terms of ballistics, the reversing system (12) being adjustable mechanically and the target mark being adjustable electronically and at least one adjusting device (13) being provided for adjusting the reversing system (12) and the target mark.