Apparatus and method for transmitted light illumination for light microscopes and microscope system

The invention claimed is: 1. A transmitted light illumination apparatus for a light microscope with a changing effective entrance pupil of an objective, the apparatus comprising: a light source for emitting an illuminating light bundle, a holding device for holding a sample to be examined, and at least two diaphragm edges to trim the illuminating light bundle, wherein said two diaphragm edges can be moved relative to each other, wherein the diaphragm edges are arranged between the holding device and the light source, wherein the diaphragm edges extend transversely to an optical axis of the light microscope, which can be positioned in an operating state on the transmitted light illumination apparatus, wherein an optical path of the illuminating light between the diaphragm edges and a sample held by the holding device is free of beam-focusing components, a mechanical variable positioning device for variably positioning the diaphragm edges in a direction transverse to the optical axis, a control device configured to position the diaphragm edges in the direction transverse to the optical axis in dependence upon a selected objective, a position of the selected objective, a type of zoom system used, and a zoom magnification of the zoom system via the mechanical variable positioning device for variably positioning the diaphragm edges in a direction transverse to the optical axis, and a mechanical variable positioning system for positioning the diaphragm edges in a direction of the optical axis, wherein said control device is configured to position said diaphragm edges in the direction of the optical axis in dependence upon the selected objective, the position of the selected objective, the type of zoom system used, and the zoom magnification of the zoom system, and wherein positions of the diaphragm edges in the direction of the optical axis are variable irrespectively of positions of the diaphragm edges transversely to the optical axis, and wherein the diaphragm edges are freely adjustable between an object plane and the light source. 2. The apparatus as defined in claim 1 , wherein the control device is configured to realize different position settings of the diaphragm edges at least for the following microscope types: stereo microscope with one channel to be illuminated, stereo microscope with two channels to be illuminated, stereo microscope with one channel to be illuminated and one excitation channel for fluorescence excitation, stereo microscope with two channels to be illuminated and one excitation channel for fluorescence excitation and macroscope with one channel to be illuminated. 3. The apparatus as defined in claim 1 , wherein for contrast adjustment, the control device is configured to position the diaphragm edges with the mechanical variable positioning device for variably positioning the diaphragm edges in a direction transversely to the optical axis. 4. The apparatus as defined in claim 1 , further comprising an electrical interface for determining the type of zoom system, the selected objective, the position of the selected objective and the zoom magnification of the zoom system. 5. The apparatus as defined in claim 1 , wherein an LCD array is configured to form the diaphragm edge. 6. The apparatus as defined in claim 1 , wherein at least one of the two diaphragm edges is formed by an iris diaphragm. 7. The apparatus as defined in claim 1 , wherein the control device has a storage device, in which position settings of the at least two diaphragm edges are stored for positioning the at least two diaphragm edges in dependence upon at least one of a microscope setting and a microscope configuration. 8. The apparatus as defined in claim 7 , wherein the storage device stores position data concerning a set position of the at least two diaphragm edges. 9. The apparatus as defined in claim 1 , wherein a motorised aperture diaphragm for setting an observation aperture is provided in an imaging optical path of the light microscope and the control device is configured to position the aperture diaphragm in dependence upon positions of the at least two diaphragm edges. 10. A transmitted light illumination method for a light microscope with changing effective entrance pupil of an objective, in which a sample held by a holding device is subjected to illuminating light from a light source and in which an illuminating light bundle emitted from the light source is trimmed by at least two diaphragm edges arranged between the holding device and the light source, wherein a selected objective, a position of the selected objective, a type of zoom system used, and a zoom magnification of the zoom system is determined, and the diaphragm edges extend transversely to an optical axis and are positioned in a direction transverse to the optical axis in dependence upon the selected objective, the position of the selected objective, the type of zoom system used, and the zoom magnification of the zoom system, wherein positions of the at least two diaphragm edges in the direction of the optical axis can be varied irrespectively of positions of the diaphragm edges transversely to the optical axis, wherein said diaphragm edges are positioned in the direction of the optical axis in dependence upon the selected objective, the position of the selected objective, the type of zoom system used, and the zoom magnification of the zoom system, wherein the diaphragm edges are freely adjustable between an object plane and the light source, and wherein an optical path of the illuminating light between the diaphragm edges and a sample held by the holding device is free of beam-focusing components. 11. The method as defined in claim 10 , wherein different position settings of the diaphragm edges are offered to a user, wherein each of the different position settings is optimised having regard to a respective illumination parameter, wherein the illumination parameters are a measure for at least one of: an intensity gradient of a microscope image in a direction transversely to the diaphragm edge, an image contrast of the microscope image, a contrast range, image homogeneity and a shadow in the microscope image. 12. The method as defined in claim 10 , wherein the diaphragm edges are positioned along the direction of the optical axis depending upon the position of the effective entrance pupil of the objective.