Claims
- 1. Microscope with autofocusing comprising an illumination source (2), an optical imaging device (3) by means of which light from the illumination source (2) is directed onto a point on an observed object (4), a reception device (6) which receives the light influenced by the observed object (4) in the form of an image field, and an adjusting device (14) for changing the distance between the imaging device (3) and the observed object (4), characterized in that a device (9) for structuring the light is arranged in the beam path between the illumination source (2) and the imaging device (3) or in a position optically conjugate thereto, the device (9) for structuring the illumination light has a plurality of diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) which are arranged one behind the other in the direction of the beam path, wherein at least a first diaphragm (10; 10′; 20; 20′; 20″) and at least a second diaphragm (11; 11′; 21; 21′; 21″) are positioned in such a way with respect to a field diaphragm plane (L) that the field diaphragm plane (L) is focused on the reception device (6) at the same time as the observed object (4), and in that an evaluating device (13) cooperating with the reception device (6) is provided for the light intensities of the portion of the image field influenced by the diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″), wherein, depending on the determined light intensity, the evaluating device (13) generates an actuating signal (s) for actuating the adjusting device (14) and accordingly for focusing.
- 2. Microscope according to claim 1, characterized in that the diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) are constructed and arranged in such a way that a high-contrast light structure is formed on the point at the observed object (4) to be imaged when one of the diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) is optically conjugate to the point at the observed object (4) to be imaged.
- 3. Microscope according to claim 1 or 2, characterized in that the diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) are offset relative to one another vertical to the beam path, so that a separate portion of the image field is allocated to every diaphragm (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″).
- 4. Microscope according to claim 1 or 2, characterized in that the diaphragms (10′, 11′) overlap one another in the direction of the beam path, the diaphragms (10′, 11′) are formed so as to be partly transparent to light and have divergent optical structuring patterns.
- 5. Microscope according to one of claims 1 to 4, characterized in that the diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) are provided with grating structures, and the grating lines of two diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) intersect and/or are differently spaced relative to one another.
- 6. Microscope according to one of claims 1 to 5, characterized in that the evaluating device (13) is designed for generating a comparison value from the detected light intensity values or from contrast values derived from the latter with respect to a stored reference value, and the adjustment direction for the adjusting device (14) is derived from the comparison value.
- 7. Microscope according to claim 6, characterized in that the comparison value is generated by subtracting intensity values and/or contrast values and/or by dividing intensity values and/or contrast values.
- 8. Microscope according to one of claims 1 to 7, characterized in that a third diaphragm (12) is arranged between a first diaphragm (10) and a second diaphragm (11) in such a way that the imaging of the third diaphragm (12) is focused in the image field on the reception device (6) at the same time as the imaging of the observed object (4) in a reference position.
- 9. Microscope according to one of claims 1 to 8, characterized in that the first diaphragm (20; 20′; 20″) and the second diaphragm (21; 21′; 21″) have a large number of individual pinhole diaphragms (22, 23) which are arranged in such a way that their images on the reception device (6) are separate from one another, wherein a separate, light-sensitive area of the reception device (6) is allocated to every image.
- 10. Microscope according to one of claims 1 to 8, characterized in that the first diaphragm (20′) and the second diaphragm (21′) each have a plurality of stripe-shaped individual diaphragm apertures (22′, 23′) whose longitudinal extension directions intersect at a common point lying on the optical axis of the optical imaging device (3), and in that the stripe-shaped individual diaphragm apertures (22′, 23′) are arranged in such a way that their images on the reception device (6) are separate from one another, each image having a separate light-sensitive area of the reception device (6) associated with it.
- 11. Microscope according to claim 9 or 10, characterized in that the light intensity at the separate light-sensitive areas is selectively chosen.
- 12. Microscope according to one of claims 9 to 11, characterized in that devices are provided for moving the observed object (4) transverse to the optical axis of the imaging device (3), and structuring patterns formed at the diaphragms (10, 11, 12; 10′, 11′; 20, 21; 20′, 21′; 20″, 21″) are repeated in the movement direction (B), so that the light intensity of one and the same observed point can be measured repeatedly in the course of the movement of the observed object (4) through the structuring patterns.
- 13. Microscope according to claim 12, characterized in that the structuring patterns in the movement direction of the observed object (4) are arranged so as to be repeated n times, and the reception device (6) is constructed as a TDI camera for continuous measurement of the light intensities which sums the intensity values of n successive measurements at one and the same point on an observed object.
- 14. Microscope according to claim 12 or 13, characterized in that the structuring patterns are formed by n successive individual diaphragm apertures in the movement direction.
- 15. Microscope according to claim 14, characterized in that n is an even number and n/2 successive individual diaphragm apertures in the movement direction are formed as inverted patterns with respect to light transparency.
Priority Claims (1)
Number |
Date |
Country |
Kind |
101 12 639.5 |
Mar 2001 |
DE |
|
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority of PCT Application Serial No. PCT-EP02/02878 filed Mar. 15, 2002 and German Application No. 101 12 639.5 filed Mar. 16, 2001, the complete disclosures of which are hereby incorporated by reference.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/EP02/02878 |
3/15/2002 |
WO |
|