The invention relates to a binocular observation device, in particular binoculars, having two visual beam paths and a laser range finder with a laser transmitter and a laser receiver and with an opto-electronic display element. A part of one of the beam paths of the laser transmitter is integrated i
The invention relates to a binocular observation device, in particular binoculars, having two visual beam paths and a laser range finder with a laser transmitter and a laser receiver and with an opto-electronic display element. A part of one of the beam paths of the laser transmitter is integrated into a first visual beam path, wherein a part of one beam path of the laser receiver is furthermore also integrated into the first visual beam path.
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1. A long-range optical device having a visual beam path comprising a reversing system formed by a prism system having a deflection prism between an objective and an ocular, with a laser range finder with a control and analysis unit, and with a laser transmitter and a laser receiver, a part of one b
1. A long-range optical device having a visual beam path comprising a reversing system formed by a prism system having a deflection prism between an objective and an ocular, with a laser range finder with a control and analysis unit, and with a laser transmitter and a laser receiver, a part of one beam path of said laser transmitter extending in the visual beam path, and having an opto-electronic display element with a system of display optics and regions of the intersection of the beam paths of the laser transmitter and/or the opto-electronic display element localized on the reversing system, wherein the regions of the intersection of the beam path of the laser transmitter and/or the laser receiver and of the opto-electronic display element into the visual beam path are localized on a single surface of one and the same deflection prism of the reversing system. 2. The long-range optical device according to claim 1 having a focusing device for focusing the visual beam path and the beam path of the laser transmitter wherein the focusing device is arranged between an optical component for the transition of the beam path of the laser transmitter into the visual beam path and the objective. 3. The binocular observation device according to claim 1 having two visual beam paths with an objective and an ocular and having a laser range finder with a laser transmitter and a laser receiver, a part of one beam path of the laser transmitter and the laser receiver being integrated into a first visual beam path, which paths extend through the objective, and with a focusing device for focusing the first visual beam path and the beam path of the laser transmitter is arranged between an optical component for the transition of the beam path of the laser transmitter into the visual beam path and the objective, wherein a part of one beam path of the laser receiver is integrated into a second visual beam path extending through the objective or into a third beam path, and can be focused with a focusing device in the second visual beam path, or into a third beam path isolated from the beam paths, and with a control and analysis unit with an opto-electronic display element. 4. The long-range optical device according to claim 1, wherein the region of the intersection is arranged between an observer-side focal point of the objective and the focusing device or the objective. 5. The long-range optical device according to claim 3, wherein at least a part of one beam path of the display optics or of the display element is integrated into one of the two visual beam paths. 6. The long-range optical device according to claim 3, wherein at least one display element for displaying a target mark and/or a measurement reading from the laser range finder is constructed in at least one of the two visual beam paths. 7. The long-range optical device according to claim 1, wherein remote transmission means is arranged for wireless transmission of a distance determined by the laser range finder or for the transmission of at least one of an enlargement factor or brightness or temperature value to an opto-electronic display element or to the control and analysis unit. 8. The long-range optical device according to claim 1, wherein a further display element is arranged on the outside of the observation device. 9. The long-range optical device according to claim 1, wherein the control and analysis unit is wirelessly connected via remote transmission means to an external display element independent of the observation device. 10. The long-range optical device according to claim 1, wherein the opto-electrical display element is in the form of an LED or LCD display with individual control capability of single image-forming pixels. 11. The long-range optical device according to claim 2, wherein the focusing device comprises an adjustment motor. 12. The long-range optical device according to claim 11, wherein the control and analysis unit is connected to the adjustment motor. 13. The long-range optical device according to claim 2, wherein two observation parts are arranged, which are connected to each other via two connection devices, spaced apart from each other in the direction of the beam path, e.g. a hinged bridge or a telescopic guide, such that they can be adjusted in their relative position to each other. 14. The long-range optical device according to claim 13, wherein both of the observation parts are adjustably connected via two connection devices, spaced apart from each other in the direction of the beam path along the observation direction, to two separate hinged axes, between which a free space is present that is bounded at the side by the observation parts. 15. The long-range optical device according to claim 13, wherein the connection element includes end regions facing the two observation parts, and is connected via a hinge at each of the end regions to each of the two observation parts, the pivot axes of which extend parallel to the longitudinal axes of both observation parts. 16. The long-range optical device according to claim 15, wherein one or more hinged bridges are arranged as the connecting element. 17. The long-range optical device according to claim 13, wherein a keel-shaped housing extension is formed on at least one of the observation parts. 18. The long-range optical device according to claim 1, wherein the housing extension comprises an inner accommodation area for the control and analysis unit. 19. The long-range optical device according to claim 13, wherein at least one of the two observation parts is constructed as a self-contained long-range optical device. 20. The long-range optical device according to claim 2, wherein the optical component or components for the transition of the beam path of the laser transmitter and/or the laser receiver are formed by the components of a reversing system. 21. A binocular observation device with two visual beam paths and with a laser range finder with a laser transmitter and a laser receiver, a part of one beam path of the laser transmitter or of the laser receiver being integrated into a first visual beam path, and the other respective beam path of the laser receiver or the laser transmitter being arranged as a third beam path isolated from the visual beam paths, and having an opto-electronic display element, and a control and analysis unit wherein the third beam path comprises an adjustable focusing device interactively coupled to a focusing device of both visual beam paths to focus on a remote object. 22. The long-range optical device according to claim 1, wherein the control and analysis unit is connected to the opto-electronic display element for displaying a target mark or a measurement reading from the laser range finder in the visual beam path.
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