Optical: systems and elements – Compound lens system – Microscope
Reexamination Certificate
2001-11-09
2004-10-26
Nguyen, Thong Q (Department: 2872)
Optical: systems and elements
Compound lens system
Microscope
C359S368000, C359S388000
Reexamination Certificate
active
06809860
ABSTRACT:
CROSS REFERENCE TO RELATED APPLICATIONS
This invention claims priority of the German patent application 100 55 534.9-42 which is incorporated by reference herein.
FIELD OF THE INVENTION
The invention concerns a microscope having a stand and having a revolving nosepiece rotatably articulated on the stand, the revolving nosepiece having at least two receptacles for one objective each, and an objective being deliverable into a beam path of the microscope by the rotation of the revolving nosepiece.
BACKGROUND OF THE INVENTION
A microscope of the kind cited initially is known, for example, from U.S. Pat. No. 5,737,134. The microscope according to this example comprises a stand and a revolving nosepiece rotatably articulated on the stand. The revolving nosepiece comprises five receptacles each for one objective. By rotation of the revolving nosepiece, one respective objective is deliverable into the beam path of the microscope.
In the known microscopes, rotation of the revolving nosepiece and thus also delivery of the desired objective into the beam path are accomplished by means of an electrical drive. With this kind of automated microscope, in particular, it is important that no association errors occur upon this delivery of the objectives into the beam path. Care must be taken that exactly the desired objective is delivered into the beam path. For example, the adjustment of the illuminating light intensity and the positioning of a specimen stage may depend on this exact association.
In the known microscopes, the rotational position of the revolving nosepiece can be ascertained by way of a magnetic code, each ascertained rotational position of the revolving nosepiece corresponding to a specific objective in the beam path of the microscope. For that purpose, the revolving nosepiece comprises specific receptacles for specific objectives, so that in general it is possible to detect which objective is presently located in the beam path.
Since, in the known microscopes, not only must the revolving nosepiece comprise a magnetic code but also the receptacles of the revolving nosepiece must be specifically configured for different objectives, detecting or ascertaining the objective that has been or is to be delivered into the beam path is extraordinarily complex.
SUMMARY OF THE INVENTION
An object of the present invention is to configure and further develop a microscope of the kind cited initially in such a way as to make possible easy association between an objective and its position in the beam path of the microscope.
In one embodiment of the present invention, there is a microscope having a stand and having a revolving nosepiece rotatable articulated on the stand, the revolving nosepiece having at least two receptacles for one objective each, and an objective being deliverable into a beam path of the microscope by the rotation of the revolving nosepiece, wherein a transponder is respectively associated with at least one objective and a reading device for communication with the transponder is associated with the stand.
According to an embodiment of the present invention, the microscope of the kind cited initially is configured in such a way that one transponder each is associated with the objective or objectives, and a reading device for communication with the transponder is associated with the stand.
What has been recognized according to the present invention is that the use of a transponder associated with the objective or objectives, in combination with a reading device associated with the stand, achieves the above object in surprisingly simple fashion. All that is necessary in this context is to associate a transponder with the objective and a reading device with the stand. The revolving nosepiece no longer needs to be equipped with a code or with special, objective-specific receptacles. By way of a suitable arrangement of the reading device, it is easy to ascertain whether the desired objective is present in the position defined by the location of the reading device.
The microscope according to the present invention consequently describes a microscope in which easy association of an objective with its position in the beam path of the microscope is made possible.
In a concrete embodiment, the transponder could be arranged on the barrel of the objective or objectives. The arrangement of the transponder on the barrel of the objective or objectives is to be selected in such a way that when the objective is installed in the revolving nosepiece, reliable communication with the reading device can occur.
Practical experience has shown that it is particularly favorable to arrange the transponder on the upper side of the baffle plate of the objective or objectives. Any interference with use of the objective by the transponder is thereby avoided, and secure arrangement of the transponder is at the same time achieved.
In the interest of particularly secure arrangement of the transponder, the baffle plate could comprise a preferably lateral cutout. A cutout of this kind could be constituted, in particularly simple fashion, by a milled recess. After the objective is threaded into the revolving nosepiece, there is created between the cutout and the revolving nosepiece a kind of pocket that could receive the transponder.
In the interest of reliable communication with the reading device, the transponder could comprise an antenna or antenna coil. Concretely, the antenna or antenna coil could be arranged on the screw ring of the objective or objectives.
The antenna or antenna coil could moreover be attached directly to the transponder. The transponder could be bonded or soldered onto the antenna or antenna coil. A greater degree of miniaturization could be achieved by the bonding between transponder and antenna.
Alternatively or in addition thereto, the transponder and the antenna or antenna coil could be arranged in a common housing. The transponder could be embodied as a simple read transponder or as a combined read-write transponder. In this context, it would be conceivable for the transponder to emit predefined code data or to be capable of being loaded with code data that it can emit after corresponding loading and after activation.
In the interest of reliable activation of the transponder by the reading device, an excitation coil could be associated with the reading device. The transponder could draw its transmission energy from the transmission energy of the reading device. In that case a separate power supply for the transponder would not be necessary.
In particularly simple fashion, the reading device could be attached to the stand at a suitable point. In particularly effective fashion, the reading device could be arranged in the revolving nosepiece. Particularly reliable communication between the transponder and the reading device would thereby be implemented.
Concretely, the reading device could comprise a read antenna and an electronic readout system. At least the read antenna could be attached to the stand and/or arranged in the revolving nosepiece. Concretely, an arrangement of the read antenna around the optical axis of the microscope has proven particularly favorable.
The electronic readout system could be arranged in the revolving nosepiece or integrated into the revolving nosepiece. As an alternative to this, the electronic readout system could also be arranged remotely from the revolving nosepiece and, if applicable, separately from the microscope.
In the interest of particularly versatile utilization of the arrangement of transponder and reading device, the reading device could additionally comprise a writing unit. The reading device would thus be a more or less combined read-write unit. A wide variety of data could thereby be stored in and read out from the transponder.
Concretely, the magnification and/or type of the particular objective could be stored in the transponder. Alternatively or in addition thereto, the degree of correction of the objective or objectives, the equalization length, and/or the color profile could be stored in the transponder. Also alternatively or addit
Foley & Lardner LLP
Leica Microsystems Wetzlar GmbH
Nguyen Thong Q
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