The invention describes a long-range optical device with two observation parts and a first observation beam path and a measurement beam path, in which the two observation parts are arranged essentially parallel next to each other and spaced a predefinable distance apart via at least one connection e
The invention describes a long-range optical device with two observation parts and a first observation beam path and a measurement beam path, in which the two observation parts are arranged essentially parallel next to each other and spaced a predefinable distance apart via at least one connection element. In a plan view of the device 1 with respect to a plane, in which the longitudinal axes of the observation parts are arranged, the sub-regions of the observation parts facing each other lie directly opposite each other over a length aligned parallel to the longitudinal axis of the observation parts of 20% to 90%, preferably 30% to 80% of a length of the observation parts. In addition, the observation beam path and the measurement beam path are arranged outside the sub-regions of the observation parts.
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1. A long-range optical device comprising: first and second observation parts and optical components arranged therein forming respective first and second observation beam paths, each of the observation parts including objective and ocular ends;a laser range finder forming a measurement beam path wit
1. A long-range optical device comprising: first and second observation parts and optical components arranged therein forming respective first and second observation beam paths, each of the observation parts including objective and ocular ends;a laser range finder forming a measurement beam path with a transmitter beam path and a receiver beam path, the measurement beam path at least partially overlapping with one of the observation beam paths; andtwo connection elements arranged between the objective and ocular ends of the first and second observation parts and longitudinally spaced from each other, and defining a free space between the observation parts extending along at least a portion of the distance between the objective and ocular ends thereof, each of the connection elements comprises a hinge having a pivot axis, the free space having a length of 20%-90% of the length of the observation parts, and being configured such that a user's fingers can protrude unhindered between the two observation parts, and wherein the transmitter beam path is arranged separate from the observation beam paths as a third beam path. 2. The long-range optical device of claim 1, wherein each of the first and second observation parts has a longitudinal axis, the free space extends over a length extending parallel to the longitudinal axis of the observation parts of 30%-80% of the length of the observation parts. 3. The long-range optical device of claim 1, wherein the free space extends between the two connection elements over a length of more than 30 mm. 4. The long-range optical device of claim 1, wherein the transmitter beam path is provided on the connection element at the objective end. 5. The long-range optical device of claim 1, wherein the transmitter beam path is located in the region of the pivot axis of the hinge. 6. The long-range optical device of claim 1, wherein each of the first and second observation parts has a longitudinal axis, the free space has a length of 50 mm to 120 mm along longitudinal axes of the observation parts. 7. The long-range optical device of claim 1 further comprising an opto-electronic display element arranged in at least one of the two observation parts. 8. The long-range optical device of claim 1, wherein at least one of the optical components is arranged to feed the receiver beam path into the first observation beam path. 9. The long-range optical device of claim 1, comprising a first focusing device to focus the two observation beam paths and the receiver beam path. 10. The long-range optical device of claim 1, comprising a device for determining propagation time connected to the measurement beam path of the laser range finder. 11. The long-range optical device of claim 7, comprising a control and analysis unit, and a switching device for displaying different symbols or data, the switching device is arranged between the opto-electronic display element and the control and analysis unit. 12. The long-range optical device of claim 7, wherein the opto-electronic display element is connected to a switching device for optionally feeding in the beam paths for displaying a target mark and/or a measurement in at least one of the observation beam paths. 13. The long-range optical device of claim 1, wherein the observation parts comprise at least one tubular housing. 14. The long-range optical device of claim 13, wherein the at least one tubular housing comprises a material selected from the group consisting of magnesium, magnesium alloy, and fiber-reinforced plastic. 15. The long-range optical device of claim 1, wherein each of the first and second observation parts has a longitudinal axis, the spacing between the longitudinal axes of the first and second observation parts in a plane extending through them is between 50 mm and 70 mm. 16. The long-range optical device of claim 1, wherein each of the first and second observation parts has a longitudinal axis, the pivot axis of the hinge is centrally arranged between the longitudinal axes of the first and second observation parts. 17. The long-range optical device of claim 1, further comprising at least one focusing device and an adjustment drive connected to the at least one of the focusing device. 18. The long-range optical device of claim 17, comprising a control and analysis unit connected to the adjustment drive. 19. The long-range optical device of claim 1, comprising electrical components arranged in the two observation parts, the optical and electrical components are arranged symmetrically with respect to the pivot axis. 20. The long-range optical device of claim 1, wherein each of the first and second observation parts has a longitudinal axis, the sum of the widths of the two connection elements along the longitudinal axes is less than 100 mm. 21. The long-range optical device of claim 1, wherein the laser range finder is adapted to be connected to a storage device.
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