A scope magnification adjustment apparatus for use with an optical scope. A scope mount is mounted to a optical scope by means of scope rings. A series of gears is used to rotate a twist ring on the scope to increase or decrease magnification of the optical scope. A mount gear positioned on the mount may be rotated using a lever, power drive, or worm drive mechanism. The rotation of the mount gear rotates a scope gear positioned around the scope and connected to the twist ring on the scope. As the gears rotate, the twist ring rotates and manipulates the magnification.

An imaging apparatus includes: an imaging unit configured to receive light collected from an object area through an imaging optical system provided at a front side facing an object, and to generate image data; a body unit including the imaging unit; an optical sight unit including a light source unit for emitting luminous flux, and a reflecting optical element for allowing light from the object area to transmit and reflecting the luminous flux toward a back side opposite to the front in order to produce a virtual image of the luminous flux in the object area or near the object area; and a leg unit that holds at least the reflecting optical element in a movable manner in a direction away from the body unit and in a direction perpendicular to an optical axis of the imaging optical system, at startup of the optical sight unit.

A far-optical device comprising a reversal system and an adjustable optical magnification means with more than fourfold magnification, wherein the far-optical device has an optical beam deflection means which at all magnifications ensures a subjective field of view of the far-optical device of at least 22 at least for light of a wavelength of about 550 nm.

The present invention provides an improved variable magnification device. The improved variable magnification device includes: a rotation bunch disposed around the outer side of lens barrel of a telescopic sight and moving a magnification lens mounted in the telescopic sight by turning around the outer side; a clamp unit covering the outer side of the rotation bunch and turning with the rotation bunch; and a handle disposed on the clamp unit and provided as a handle for a user to turn the rotation bunch, in which the clamp unit is detachably coupled to the rotation bunch.

A surveying apparatus comprises an observation optical system having an image sensor for outputting a digital image signal and a zoom optical system, a reference-pattern projection optical system for making a reference pattern enter the observation optical system in an infinity state and for forming an image on the image sensor, a rotation mechanism capable of rotating in two directions, a horizontal angle detector and a vertical angle detector for detecting a horizontal angle and a vertical angle of rotation in the two directions of the rotation mechanism, and an arithmetic control unit. The arithmetic control unit measures the horizontal angle and the vertical angle of a sighting point based on detection results of the horizontal angle detector and the vertical angle detector and based on a difference between the reference pattern on the image sensor and the sighting point of the observation optical system.

A digital adaptive optics encoder module includes an input mounting flange, a collimating lens, a bandpass filter, digital adaptive optic elements, refocusing lens, an output mounting flange, and a housing. The input mounting flange is capable of attaching to a telescope. The collimating lens is capable of expanding light from a target to fill a plurality of primary apertures. The bandpass filter has a bandwidth ranging from about 40 nm to about 100 nm. The digital adaptive optic elements include the plurality of primary apertures, an optical spreader, a focusing optic, and a detector. The refocusing lens is capable of refocusing an output from the digital adaptive optic elements onto a sensor plane. The output mounting flange is capable of attaching to an output connection. The housing encloses all of the interior components of the digital adaptive optics encoder module.

An optical sighting device includes an eyepiece positioned to receive optical radiation along an optical axis to produce a real exit pupil located remote from the eyepiece. The real exit pupil is positioned at an eye relief distance from the eyepiece along the optical axis. A digital signal processor determines an axial distance from the eyepiece to an eye positioned proximate the real exit pupil along the optical axis. An aperture stop is centered along the optical axis to direct the optical radiation in a direction of the eyepiece. The eye relief distance is based at least in part on a position of the aperture stop along the optical axis. The optical sighting device further includes an eye relief actuator to translate the aperture stop along the optical axis to null a spatial offset between the eye relief distance and the axial distance to the eye.

The technology relates to a long-range optical device for a firearm with an objective and an eyepiece, through which an observation beam path is formed for aiming at a target, the long-range optical device further comprising an opto-electronic display device, wherein the display device comprises an LCoS display for displaying variable data or a target mark, wherein a display beam path of the display device runs at least partly in the observation beam path for displaying the remote object.

A telescopic sight for firearms including: magnifying elements disposed along a user optical path between an objective lens assembly and an ocular lens; an imaging system including an imaging sensor and an image processor; a digital optical augmentation (DOA) system disposed outside of the user optical path; at least one optical element adapted to: redirect a spectrum of incoming light from the objective lens assembly to the imaging sensor along a video optical path, redirect/reflect digital markings projected from the DOA system into the user optical path and disallow the projected digital markings from reaching the imaging sensor, and wherein the imaging system is adapted to capture and process imagery from the incoming light to provide image processing data.

An optical apparatus includes a first optical member and a first holding member configured to hold the first optical member and a second optical member located on an inner side of the first optical member that are sealed with a first sealing member A space between the first optical member and the second optical member is sealed.