Contactless visualization system for a surgical microscope for eye surgery

The invention claimed is: 1. A contactless visualization system for a surgical microscope for eye surgery, the contactless visualization system comprising: an ophthalmic loupe configured to be positionable in front of a patient's eye and to supply a real and vertically and laterally inverted image of an eye fundus of the patient's eye in an intermediate image plane that is observable by the surgical microscope; said ophthalmic loupe including a first lens element and a second lens element, wherein, in a state positioned in front of the patient's eye, said first lens element is closer to the patient's eye than said second lens element; a wall extending from said first lens element to said second lens element, said wall having a free end in a form of a mount in which said second lens element is held; and, said mount including at least one cutout in which an edge of said second lens element is exposed in order to give a surgeon operating space. 2. The contactless visualization system of claim 1 , wherein said wall is uninterrupted in a circumferential direction. 3. The contactless visualization system of claim 1 , wherein: said ophthalmic loupe includes a holder connector via which said ophthalmic loupe is mechanically connectable to the surgical microscope; and, said holder connector is connected to said mount at a connection site and a center of said at least one cutout is spaced apart from a center of said connection site in a circumferential direction by 90° to 150° in a circumferential direction. 4. The contactless visualization system of claim 1 , wherein said at least one cutout includes two cutouts which are formed in said mount and said two cutouts each have centers which are spaced apart from one another by 60° to 180° in a circumferential direction. 5. The contactless visualization system of claim 1 , wherein at said free end, said at least one cutout extends through 20° to 70° in a circumferential direction. 6. The contactless visualization system of claim 1 , wherein said at least one cutout extends in said wall from said free end in a direction of said first lens element such that said at least one cutout ends above said first lens element and a predetermined height of the wall is still present below said at least one cutout. 7. The contactless visualization system of claim 1 , wherein said wall is formed as a one-piece part together with said first lens element. 8. The contactless visualization system of claim 1 , wherein said wall defines at least one passage opening in order to be able to remove liquid possibly present in an intermediate space between said first lens element and said second lens element. 9. The contactless visualization system of claim 8 , wherein said at least one passage opening is formed closer to said first lens element than said second lens element. 10. The contactless visualization system of claim 8 , wherein a plurality of passage openings are formed in said wall and mutually spaced apart in a circumferential direction. 11. The contactless visualization system of claim 8 , wherein said first lens element includes a boundary surface facing said second lens element and has a curved form; and, said at least one passage opening includes a lower edge which borders on said boundary surface of said first lens element. 12. The contactless visualization system of claim 8 , wherein said at least one passage opening is offset with respect to at least one cutout arranged in a circumferential direction. 13. The contactless visualization system of claim 1 , wherein said mount is an elastic clamping holder. 14. The contactless visualization system of claim 1 further comprising: an ophthalmic loupe support; said ophthalmic loupe being mechanically connected to said ophthalmic loupe support; and, said ophthalmic loupe support being configured to position said ophthalmic loupe in front of the patient's eye. 15. The contactless visualization system of claim 14 , wherein said ophthalmic loupe is detachably connected to said ophthalmic loupe support. 16. A surgical microscope for eye surgery, the surgical microscope comprising: a contactless visualization system having an ophthalmic loupe and a wall; said ophthalmic loupe configured to be positionable in front of a patient's eye and to supply a real and vertically and laterally inverted image of an eye fundus of the patient's eye in an intermediate image plane that is observable by the surgical microscope; said ophthalmic loupe including a first lens element and a second lens element, wherein, in a state positioned in front of the patient's eye, said first lens element is closer to the patient's eye than said second lens element; said wall extending from said first lens element to said second lens element, said wall having a free end in a form of a mount in which said second lens element is held; and, said mount including at least one cutout in which an edge of said second lens element is exposed in order to give a surgeon operating space.