A method for supporting a user aiming at an object with a telescope includes determining and storing a first object position of the object relative to the telescope when a user aims at the object with the telescope and the telescope is located at a first telescope position, and supporting a user when aiming at the object again with the same telescope based on the stored first object position relative to the telescope.

A method for supporting a user aiming at an object with a telescope includes determining and storing a first object position of the object relative to the telescope when a user aims at the object with the telescope and the telescope is located at a first telescope position, and supporting a user when aiming at the object again with the same telescope based on the stored first object position relative to the telescope.

The invention relates to an attachment device for at least one objective lens and/or at least one eyepiece of a long-range optical device, in particular in the form of a riflescope, a telescope or a binocular, wherein the attachment device comprises at least one window, which is transparent at least in a visible spectral range, as well as at least one electrical heating device for the window.

An optical mirror assembly includes a crystalline face sheet and a carbon fiber sandwich. The crystalline face sheet has a first surface configured to reflect light and a second surface coupled to the carbon fiber sandwich by a layer of epoxy. The carbon fiber sandwich is configured to structurally support the crystalline face sheet. The carbon fiber sandwich includes a first carbon fiber layer, a second carbon fiber layer and a substrate positioned between the first carbon fiber layer and the second carbon fiber layer.

An optical mirror assembly includes a crystalline face sheet and a carbon fiber sandwich. The crystalline face sheet has a first surface configured to reflect light and a second surface coupled to the carbon fiber sandwich by a layer of epoxy. The carbon fiber sandwich is configured to structurally support the crystalline face sheet. The carbon fiber sandwich includes a first carbon fiber layer, a second carbon fiber layer and a substrate positioned between the first carbon fiber layer and the second carbon fiber layer.

A flip-to-side mount of the present disclosure includes a main shaft arranged in a left-right direction; a first frame body sleeved on the main shaft which is adapted to move left and right relative to the first frame body and to rotate synchronously with the first frame body; a second frame body rotatably arranged on an end of the main shaft, an end of the second frame body being provided with a plurality of clamping grooves along a circumferential direction; a first pin arranged on the main shaft and accommodated in corresponding ones of the clamping grooves, rotation of the second frame body driving the first pin to move towards right and out of the corresponding ones; and an elastic member adapted to drive the main shaft to move towards the first frame body. The present disclosure also provides a magnifier optic.

A flip-to-side mount of the present disclosure includes a main shaft arranged in a left-right direction; a first frame body sleeved on the main shaft which is adapted to move left and right relative to the first frame body and to rotate synchronously with the first frame body; a second frame body rotatably arranged on an end of the main shaft, an end of the second frame body being provided with a plurality of clamping grooves along a circumferential direction; a first pin arranged on the main shaft and accommodated in corresponding ones of the clamping grooves, rotation of the second frame body driving the first pin to move towards right and out of the corresponding ones; and an elastic member adapted to drive the main shaft to move towards the first frame body. The present disclosure also provides a magnifier optic.

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.

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.

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.