Video endoscope and video endoscope system

What is claimed is: 1. A video endoscope comprising: a longitudinally extended endoscope shaft; a hermetically enclosed video-optical unit arranged in the endoscope shaft, wherein the video-optical unit comprises an enclosure, the enclosure including a hermetically sealed housing having a distally arranged entry window, an objective lens, an image sensor unit, and one or more signal lines, the housing being connected to an outer jacket tube of the endoscope shaft in a rotationally fixed manner, wherein the image sensor unit is mounted in the housing rotatably about a longitudinal axis of the endoscope shaft and comprises at least one image sensor, wherein, in order to rotate the image sensor unit, a magnetic coupling with one of an outer ring magnet or an outer magnet ring and one of an inner ring magnet or an inner magnet ring that is operationally connected to the outer ring magnet or magnet ring in a magnetic manner, is arranged in the area of the distal tip of the endoscope shaft; and the inner ring magnet or inner magnet ring is arranged in the interior of the enclosure and connected to the image sensor unit, and the outer ring magnet or outer magnet ring is arranged outside of the enclosure, and is connected to a torsionally stiff carrier tube arranged outside of the enclosure, said carrier tube being mounted rotatably relative to the outer jacket tube and connected at a proximal end to a rotational device. 2. The video endoscope according to claim 1 , wherein the rotational device is configured as a magnetic coupling. 3. The video endoscope according to claim 1 , wherein the video-optical unit is arranged in a region of a distal tip of the endoscope shaft, wherein the housing of the video-optical unit at the proximal end thereof has a feed through hermetically sealing the housing, through which the signal lines are led into the endoscope shaft. 4. The video endoscope according to claim 3 , wherein the proximal hermetic feed through of the housing is produced from one of a high temperature multilayer ceramic, a pressure mold, a hermetic mold, a soldered planar glass, a solder connection or a weld connection. 5. The video endoscope according to claim 1 , wherein the video-optical unit has one of a 0° viewing direction, a fixed sideways viewing direction or a sideways viewing direction adjustable in steps or steplessly adjustable. 6. The video endoscope according to claim 5 , further comprising a deflection prism with one of a fixed or adjustable viewing direction arranged in the video-optical unit. 7. The video endoscope according to claim 5 , wherein the magnetic coupling is configured for adjusting a polar angle of a sideways viewing direction of the video-optical unit, wherein the inner ring magnet or inner magnet ring is connected to an adjustable part of a retainer of a sideways viewing optical assembly of the video-optical unit. 8. The video endoscope according to claim 7 , wherein the inner ring magnet or inner magnet ring is mounted movable in the axial direction of the endoscope shaft. 9. The video endoscope according to claim 1 , wherein the housing of the video-optical unit is adapted at an outside thereof to be inserted and retained in the endoscope shaft by one of form-locking or force-locking with a retaining means of the endoscope shaft. 10. The video endoscope according to claim 1 , wherein the video-optical unit has a viewing direction of 0° , and the endoscope shaft is bendable at least in a distal region. 11. The video endoscope according to claim 10 , wherein the carrier tube is bendable at least in sections. 12. The video endoscope according to claim 1 , wherein the housing is substantially cylindrical. 13. A video endoscope system having at least one video-optical unit of the video endoscope according to claim 1 and one or more endoscopes with rigid and/or bendable endoscope shafts, in which the at least one video-optical unit is inserted for producing the video endoscope of claim 1 .