Improvements in a 3D target shooting training glasses and target. The 3D target, shooting glasses and training system that allows starting shooters and experienced shooters to improve their skills and accuracy. The paper targets are printed with offset colors that create a 3D image when viewed through 3D glasses. The offset is typically filtered for a red color and a blue color to provide a depth to the image. Shooting glasses are used with each lens providing a color filter to allow a 3D printed target depth perception and sighting training through a dominant eye. The 3D target shooting training glasses and target to provide a training system that allows a user to identify a dominant eye and use the glasses and 3D printed image to aim using the dominant eye on the target while maintaining peripheral vision.

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.

An optical device 10 comprises an objective lens 11 defining a focal plane FP and an eyepiece 12 spaced apart therefrom, defining an optical axis OA therethrough. The optical device 10 comprises an optical member 13 having a first planar face 14, arranged on the optical axis OA proximal the focal plane FP, wherein the first planar face 14 is arranged to oppose the objective lens 11. The optical device 10 comprises a filter assembly 100 comprising a first notch filter 101 arranged to attenuate transmission of electromagnetic radiation having a first wavelength .sub.1, wherein the first notch filter 101 is arranged in front of the optical member 13. The first notch filter 101 is arranged at a first oblique angle .sub.1 to the optical axis OA whereby, in use, incident electromagnetic radiation having a predetermined wavelength .sub.i propagating along the optical axis is reflected by the first notch filter 101 away therefrom, wherein the first wavelength .sub.1 and the predetermined wavelength .sub.i are different. In this way, retro-reflection of the incident electromagnetic radiation towards a source thereof is reduced, thereby better detection of the optical device 10.

Imaging systems that automatically calculate, in real time, relative locations of acquired targets relative to datum targets. In some embodiments, an imaging system of this disclosure can be instantiated as a handheld imaging device having a live-view imaging system or a thermal imaging system, or both. Some embodiments include a ranging system that fires upon the release of a hard button to minimize movement of the imaging system during target acquisition. Some embodiments include speed estimating and/or time of arrival estimating features. Some embodiments can communicate with an external device, such as a central controller device. A central controller device of this disclosure may include triangulation, speed estimating, and/or time of arrival estimating features. Some embodiments of a central control device may allow users to set up and make mission assignments. Some embodiments allow sharing of data among devices, in some cases only on a mission-by-mission basis.

Implementations of an adapter plate system for mounting optical sights on a pistol are provided. In general, the adapter plate system comprises an adapter plate configured so that an optical sight can be mounted thereon and a pistol slide having an adapter interface configured to receive the adapter plate. The adapter plate can be rotated into position between end walls of the adaper interface. An example adapter interface may include a pivot boss that extends up from the bottom surface thereof. The pivot boss is positioned to be received within a pivot bore located in the underside of an example adapter plate.

There are provided a reticle, a reticle unit, and an optical apparatus, such as a rifle scope, each having a novel configuration that allows formation of a desired pattern. In a reticle 30A.sub.1 on which a pattern that serves as an indicator when an object under observation is visually recognized is formed, the pattern is formed of protruding sections 33a and 33b provided on a pattern formation surface 31a of a plate-shaped optical member 31. The protruding sections 33a and 33b are each formed of a plurality of protruding ridges 133 (structural elements) extending in the lengthwise direction of a line that forms the pattern in parallel to the widthwise direction of the line. The protruding ridges 133 each have an inclining surface 140 inclining with respect to the optical path of an observation optical path, and the inclination angle of the inclining surface with respect to the optical axis Z is so set at an angle that causes light incident via an objective lens to be deflected to exit out of the observation optical path.

An optical aiming device including a first multi-faceted optical element lying on an axis and a second multi-faceted optical element juxtaposed to the first multi-faceted optical element and angled with respect thereto, the first and second optical elements each being characterized by a refractive index and a critical angle defining at least one total internal reflection plane formed by at least one facet of each one of the first and second optical elements, the at least one facet having an optical interference coating formed thereon, each one of the first and second optical elements causing light impinging on the at least one total internal reflection plane at an angle greater than or equal to the critical angle to be totally reflected and light impinging on the at least one total internal reflection plane at an angle less than the critical angle to be partially reflected and partially refracted, the totally reflected light illuminating a first region, the partially reflected light partially illuminating a second region, a demarcation being defined between the first and second regions, the first and second optical elements being oriented such that the demarcations of the first and second optical elements intersect at a point lying substantially along the axis.

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.