Video endoscope with sideways viewing direction and method for mounting a video endoscope

What is claimed is: 1. A video endoscope with a sideways viewing direction, the video endoscope comprising: an endoscope shaft having a jacket tube; an entry window joined hermetically to the jacket tube at a distal end of the jacket tube; a sideways viewing optical subassembly including a sensor module, the sensor module having an optical sensor, the sensor module being disposed on a distal side of a longitudinally extended sensor module carrier that is rotatably mounted with respect to the jacket tube; wherein the sideways viewing optical subassembly is configured as an attachment, which can be or is plugged distally onto the sensor module and/or the sensor module carrier and which is rotatably mounted with respect to the sensor module and/or the sensor module carrier; and the attachment includes at least one locking means which interacts with at least one corresponding locking means on the jacket tube such that the attachment is rotationally fixed with respect to the jacket tub, wherein the sensor module carrier is configured as one of a rigid signal line carrier or as an inner tube, and wherein at least one of the sensor module carrier and the sensor module is rotatably mounted with respect to the jacket tube via two slide bearings, one of which is arranged proximally relative to the other, wherein the proximally arranged slide bearing has at least one of a fluid seal or is configured in a water-tight manner. 2. The video endoscope according to claim 1 , wherein the at least one locking means and at least one corresponding locking means are configured in cross-section essentially in one or more of a form-locking and/or force-locking manner. 3. The video endoscope according to claim 2 , wherein the at least one locking means and at least one corresponding locking means are configured as a tongue and groove or a groove and spring-preloaded spring. 4. The video endoscope according to claim 1 , wherein the locking means on the jacket tube extends over a part of a longitudinal extension of the jacket tube. 5. The video endoscope according to claim 1 , wherein one of the two slide bearings is arranged between the sensor module and the attachment. 6. The video endoscope according to claim 5 , wherein the attachment is configured to receive the sensor module and the one of the two slide bearings on its proximal side, further comprising a retention structure for one or more of a form-locking and force-locking coupling with a corresponding structure of the sensor module or of the sensor module carrier on a proximal edge for holding the sensor module in an axial direction. 7. The video endoscope according to claim 1 , wherein the entry window is disposed obliquely with respect to a longitudinal axis of the jacket tube. 8. A method for mounting a video endoscope, the endoscope comprising: an endoscope shaft having a jacket tube; an entry window joined hermetically to the jacket tube at a distal end of the jacket tube; a sideways viewing optical subassembly including a sensor module, the sensor module having an optical sensor, the sensor module being disposed on a distal side of a longitudinally extended sensor module carrier that is rotatably mounted with respect to the jacket tube; wherein the sideways viewing optical subassembly is configured as an attachment, which can be or is plugged distally onto the sensor module and/or the sensor module carrier and which is rotatably mounted with respect to the sensor module and/or the sensor module carrier; and the attachment includes at least one locking means which interacts with at least one corresponding locking means on the jacket tube such that the attachment is rotationally fixed with respect to the jacket tube, wherein the sensor module carrier is configured as one of a rigid signal line carrier or as an inner tube, and wherein at least one of the sensor module carrier and the sensor module is rotatably mounted with respect to the jacket tube via two slide bearings, one of which is arranged proximally relative to the other, wherein the proximally arranged slide bearing has at least one of a fluid seal or is configured in a water-tight manner, the method comprising: hermetically connecting an entry window with the jacket tube and furthermore establishing a slide-in group by connecting the sensor module in a rotationally fixed manner with the sensor module carrier and connecting the attachment rotatably with the sensor module, wherein the slide-in group is inserted into the jacket tube, wherein the at least one locking means on the attachment engages with the at least one locking means on the jacket tube during the pushing in. 9. The method according to claim 8 , wherein the entry window and/or the jacket tube are freed of impurities from the hermetic connection of the entry window with the jacket tube before the slide-in group is pushed into the jacket tube. 10. The method according to claim 8 , characterized in that an optics of the attachment and/or an optics of the sensor module is focused before the slide-in group is pushed into the jacket tube and before and/or after attachment is connected with the sensor module.