Optical: systems and elements – Lens – With viewed object support
Reexamination Certificate
2001-01-19
2002-10-15
Epps, Georgia (Department: 2873)
Optical: systems and elements
Lens
With viewed object support
C359S811000
Reexamination Certificate
active
06466381
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
This invention claims priority of a German patent application DE 100 03 391.1 filed Jan. 26, 2000 which is incorporated by reference herein.
BACKGROUND OF THE INVENTION
The invention concerns an apparatus for positioning an optical component in a beam path, preferably in the beam path of a microscope, in particular of a confocal scanning microscope, multiple optical components being arranged in aligned fashion in a mount.
Apparatuses of the generic type have been known in practical use for some time. In this context, there are many applications in which it is necessary to interchange multiple optical elements, for example mirrors or beam splitters, without great effort. In practical use, however, the effort associated therewith is considerable, since each optical element that is introduced must be realigned.
Generic apparatuses are known in the form of turreted mounts or magazine mounts in which multiple optical elements, for example mirrors or beam splitters, are prealigned. With these known apparatuses, however, it is necessary to align each optical element (of the turret or magazine) individually (i.e. considered of itself) in the respective working position, especially since even the slightest angular errors or angular inaccuracies result in imaging errors. In addition, it is not possible to exchange the entire revolving turret or magazine if the situation affecting the beam path involves stringent reproducibility requirements. For these reasons, the generic apparatuses, for example turrets or magazine mounts, are usually permanently built in, so that only individual optical elements are replaceable—with the necessity for laborious alignment each time.
In an application in scanning microscopy, in the case of the beam splitter used therein it is very particularly important to achieve absolute angular accuracies of <0.1 mrad, and the beam splitters located in the beam path should be exchangeable during operation. It has not hitherto been possible to exchange individual optical elements without alignment. Exchanging the entire turret is conceivable, but each individual beam splitter must be aligned again afterward. This is not acceptable because of the enormous expenditure of time, and moreover requires the use of trained personnel which increases operating costs.
BRIEF SUMMARY OF THE INVENTION
It is therefore the object of the present invention to configure and develop an apparatus for positioning an optical component in a beam path in such a way that optical elements can be exchanged easily, quickly, and precisely. The need to align the optical components each time is to be eliminated to a very large extent.
The above object is achieved by an apparatus for positioning an optical component in a beam path comprising:
a mount for holding a plurality of optical components in aligned fashion, wherein the mount is configured as a magazine carriage;
a guide block having an opening for the beam path and wherein the guide block defines a guidance surface; and
an optically active surface of the optical component lies in a plane which is parallel to the guidance surface of the mount.
It is an other object of the invention to provide a confocal scanning microscope which allows an easy, quick, and precise positioning of at least one optical component in the beam path.
The object is achieved by a confocal scanning microscope defining a beam path, wherein the confocal scanning microscope comprises:
an apparatus for positioning an optical component in the beam path;
a mount for holding a plurality of optical components in aligned fashion, wherein the mount is configured as a magazine carriage;
a guide block having an opening for the beam path and wherein the guide block defines a guidance surface; and
an optically active surface of the optical component lies in a plane which is parallel to the guidance surface of the mount.
What has been recognized according to the present invention is that the technology hitherto implemented can be retained inasmuch as multiple optical components, of the same or different types, are arranged in aligned fashion in a mount. This mount serves, according to the present invention, as a magazine, and is guided in a guide block positioned permanently in the beam path. This guide block has an opening for the beam path, so that the beam path extends through the guide block. The magazine can be displaced in the guide block, as a result of which the optical components arranged therein can be brought—individually, in accurately positioned fashion, and aligned in the mount or magazine—into the beam path. The magazine is calibrated or aligned with respect to the guide block and thus with respect to the beam path.
In the interest of alignment-free exchange of the optical components located in the mount or magazine, it is very particularly advantageous if the optically active surface of the component lies in a plane parallel to the guidance plane of the magazine. Once the optical components have been aligned and a mount or magazine has been aligned in the guide block, loss of alignment during operation or upon displacement of the magazine is to a very large extent ruled out because of the concrete arrangement. It is also conceivable for the optically active surface of the component, for example a mirror surface or the effective surface of a prism, to lie at least largely in the guidance plane of the magazine. Angular inaccuracies are thereby effectively eliminated; this is ultimately attributable to the arrangement of the optical components in the mount or magazine, and the aligned or calibrated arrangement of the magazine in the guide block.
In additionally advantageous fashion, the magazine is displaceable in the guide block without tilting errors. Any desired actions can be taken for that purpose; easy exchange of the magazine must be guaranteed. In this context it is necessary in any case to be able to remove the magazine from the guide block from above.
For reliable guidance of the magazine in the guide block, it is advantageous if the guide carriage can run almost freely linearly, but is retained on it in its running direction. For that purpose, a preferably constant applied pressure, which changes not at all or only insignificantly even during displacement of the magazine, acts on the magazine. In this context it is very particularly important that the magazine be displaceable at least largely with a constant applied pressure acting on the guidance surface, specifically in order to be able to guarantee homogeneous displacement.
The displacement of the magazine by way of which the respective optical components can be brought into their positions associated with the beam path can, in the simplest case, be accomplished manually. It is also possible to drive the magazine with a precisely operating motor, or to displace it with a motor. Electric motors suitable for precision positioning can be used in any desired configuration.
As already mentioned above, the magazine serves on the one hand to receive the optical components and on the other hand for displacement in the guide block. For that purpose, the magazine could be configured similarly to a frame. It is also conceivable, however, to configure the magazine as a plate having passthroughs; that plate can have two parallel surfaces (upper side and lower side). The surface facing toward the guide block is then used for guidance. In other words, the plate lies with its lower surface on a corresponding surface of the guide block.
In the context of a somewhat more complex embodiment, the plate of the magazine could have, on the side facing toward the guide block, a guide region for linear guidance which engages into a corresponding recess of the guide block. The result of this design is that guidance without tilting errors is provided simultaneously by multiple surfaces, namely on the one hand the underside that is directly in contact on the guide block, and on the other hand lateral surfaces that engage into the recess of the guide block. This guarantees linear positive guidan
Leica Microsystems Heidelberg GmbH
Seyrafi Saeed
Simpson & Simpson PLLC
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