DE2542731A1 - PHOTOMETER FOR MICROSCOPES - Google Patents

Description

KRNST LKITZ GJVlBH UmerZeichMt A2o16 / B 2874 «33 Wetzlar, September 23, 1975

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Photometer for microscopes

Xn the German patent 2 o29 850 a photometer for microscopes is described in which the photometer device is arranged on or in an intermediate tube, which at or near its one end of the underside has a coupling device for attaching it to the stand and on the opposite side has a coupling device for attaching an eyepiece. Details of the Coupling of the photoraetera to the beam path of the microscope as well as structural details are the subject of the claims of the aforementioned property right.

The present invention is based on the object of redesigning or supplementing devices of the above-mentioned type in such a way that that their possible applications, especially in the direction of microspectral or scanning photometry, are expanded and they can also be used for these areas of work.

This object is achieved in devices of the type mentioned at the outset in that the photometer is housed in at least two separate housings that can be attached to one another, one of which contains the photoelectric receiver and a light source, firmly attached to the intermediate tube of the Microscope is connected, while the or the other housing is easily exchangeable and optionally lockable in the beam path between the first-mentioned housing and the intermediate tube is or are mounted. In one this housing can be fitted with an orifice plate in addition to imaging optics. In addition, in the same or in a different

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teren housing at least one mirror must be available. In addition, it can be in the same or in another Housing an image-rotating prism or an image-rotating assembly consisting of prism and concave mirror be. Mix advantage is a scanning device alone or together with other assemblies in a housing intended. For mechanical adaptation, a dummy housing, if necessary with a transmitting and / or adapting Optics be provided. A monochromator can be provided, preferably mounted in its own housing. The monochromator can be an interchangeable dispersant Have component and a plane mirror that can be used in its place can be provided.

The new stepped construction of the photometer allows this for a wide variety of tasks, including microspectral or scanning photometry, without having to resort to expensive and voluminous constructions.

The invention is explained below in the schematic figures on the basis of exemplary embodiments. Show it;

Fig. 1 the photometer, as it is in the patent mentioned above is shown and described,

2 shows the physical structure of the photometer from FIG.

3 shows a photometer made up of interchangeable assemblies with monochromator,

Fig. H shows a photometer built up from assemblies with oscillating mirror scanner,

Fig. Ka housing with imaging optics for integral measurements,

5a, b housing with arrangement for rotating the light sensor bundle.

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In Fig. 1, the photometer 4 from Fig. 1 of the above-mentioned patent is shown. As can be seen, this assembly contains a photoelectric receiver 44, a light source 45 _f and a switchable mirror 43 with which the receiver 44 and light source 45 can be optionally connected to the beam path, and an imaging optics 41 and a measuring diaphragm 42.

The same components can be found in Fig. 2, only here they are in separate, mutually attachable housings 5o, housed. To deflect the beam path in the direction of the intermediate tube 2, a housing 52 is mounted Deflecting mirror 6o is provided, and one provided with optics 61 The dummy housing 53 forms the connection to the intermediate tube 2 of the microscope.

3 shows the same arrangement of the housings 50> 51 »53. The housing 52 from FIG. 1 is here replaced by a housing 54 in which a monochromator is accommodated. The latter consists of a deflecting mirror 62, a fixedly mounted concave mirror 631 a rotatably mounted grating 64 as a dispersing component of an optical system 65 and an entrance slit 66, a one Monoehrο-mators and its operation is known per se and therefore need not be described, such a construction here to become.

If the pivotable grid 64 is replaced by a stationary one mounted mirror 64 », the light coming from the object is not spectrally broken down and the entire luminous flux stands for the measurement available. If you swivel this mirror, the light beam makes a corresponding scanning movement.

The housing 54 is replaced by a housing 55 in FIG. 4 which a vibrating mirror scanner is housed. In its simplest embodiment, this consists of a rotatable mounted concave mirror 67, which by means of a not with

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drive shown in indicated by double arrow 67 ' oscillating movements can be offset, which affect the beam path as a scanning movement. Am Deflection mirror 68 establishes the optical connection between mirror 67 and Hessfeld diaphragm 42.

In all of the construction examples described so far, the housing 53 is present, which only serves to close the connection between the last puncture assembly and the intermediate tube 2 of the microscope. Of course, another housing can also be used in place of this housing, which contains not only conductive components but also components that act on the beam path. Examples of this are shown in FIGS. 5a and 5b. 5a shows a housing 56 in which an Abbe-Koenig prism 69 is mounted. When this is rotated, the beam path passing through it also experiences a rotation. With its help it is possible, for example, when the measuring diaphragm 42 is designed as a slit diaphragm, to assign its direction to any desired direction in the object image, which has all proven to be advantageous.

Fig. 5b shows a housing 571 in which a prism 7ο in Combination with a concave mirror 71 is mounted. By rotating this combination around the optical axis of the structure a rotation of the beam path passing through is also achieved. In addition, however, it is possible to go through a change in the relative assignment of prism and concave mirror a change in the spatial position of what has passed To reach the beam. With this arrangement leaves thus not only a rotation of the image of a slotted measuring diaphragm 42 can be achieved, but also a spatial offset this image in the observation field. So you can practically do this Assign the aperture to any point of the observation field. If the mirror 71 is allowed to oscillate, one takes place Sc & nning movement of the bundle of rays.

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If one wants to finally integral Measurements over the entire object field, as occurs if the ± m housing 51 housed orifice plate 42 is not at full opening variable or removably, to the point of the housing 51, a housing 53 corresponding, of in its dimensions with those of Housing 51 matching housing 58 (Fig. 4a).

With what has been described so far, you have it in your hand to adapt the photometer exactly to the respective task and thus to carry out the desired measurements.

Although the individual functional assemblies are each housed in a separate housing in the examples, it is also possible to combine functional assemblies in one »housing. For example, the assemblies of the housing 55 and 56 can be combined in one housing if the desired measuring functions permit.

In the device according to patent 2,029,850, the measuring orifice is 42 visible in the eyepiece 32 of the microscope together with the image of the object. The same applies to the one shown here Arrangement, with the particular advantage that - as said above - the angular position of the measuring diaphragm image and can adapt its extent to object image details under visual observation. It also appears when used of the monochromator the aperture image exactly in the color that corresponds to the currently set wavelength of the monochromator, so that one can already estimate visually, whether there is sufficient contrast available for a measurement.

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Claims (8)

Expectations { Λ J Photometer for microscopes in which the photometer device is arranged on or in an intermediate tube, which on or near its one end of the underside has a coupling device for attaching to the stand and on the opposite side a coupling device for attaching an eyepiece the photometer being switched into the beam path of the intermediate tube via a beam splitter, a * downstream triple mirror and an eyepiece, according to patent 2 029 850, characterized in that the photometer is housed in at least two separate housings (50 to 58) that can be attached to one another is, of which one (5 °), which contains the photoelectric receiver (44) and a light source (45), is firmly connected to the intermediate tube (2) of the microscope, while the other housing (s) can be easily replaced and, if necessary, locked in the The beam path is mounted between the first-mentioned housing (5 <>) and the intermediate tube (2) b are between. 2. Photometer according to claim 1, characterized in that in one of the housing (51) apart from an imaging optics (4i) a measuring orifice (42) is mounted. 3. Photometer according to claim 1 or 2, characterized in that in addition in the sliding or in a further housing (52, 54, 55, 57) at least one mirror (60; 62, 63; 67, 68; 7 ^) is present. - 7 " 7 0 9 8 1 3/0 U 3 A 2oi6 / B 2874 Pat.n »obte.'lune 23. 9 ^ U> 71 4. Photometer according to claim 2 or 3 »characterized in that in addition in the same or in a different housing }, an image-rotating prism (69) or one made of prism (70) and concave mirror (71) existing image-rotating assembly is stored. 5. Photometer according to one of the preceding claims 1, characterized in that a solar device (67, 68} 70, 71) is provided in a housing (55 »57) alone or together with other assemblies. 6. Photometer according to one of the preceding claims, characterized in that a dummy housing for mechanical adjustment (53) »if necessary with transmitting and / or adapting optics (61). 7. Photometer according to one of the preceding claims, characterized in that a monochromator (62 to 66) is provided, preferably mounted in its own housing (54). 8. Photometer according to claim 7 »characterized in that the monochromator has an exchangeable dispersing component (64) and that a plane mirror (64 *) which can be used in its place is provided. 709813 / 0U3 ORIGINAL INSPECTED