DE20320981U1 - Filter holder for an optical examination instrument, especially a microscope, comprises a circular support with a multiplicity of filter mountings, each of which has its own clamping arrangement - Google Patents

Abstract

Filter holder has a multiplicity of filter mountings (5) for different optical filters (7) which are to be placed in the illumination beam of an optical examination instrument. Each filter mounting has an associated clamping arrangement (15) which holds the associated filter in a defined position in its mounting.

Description

The The invention relates to a filter holder having a number of radial Distance to an axis arranged filter receptacles, for example in the manner of a filter wheel, over the extent of which a plurality of filter receptacles are distributed. The Filter recordings serve to accommodate different optical Filter and enthaften positioning surfaces for the filter, wherein the filter holder rotatable about its axis in an optical beam path, e.g. in the Beam path of a lighting arrangement, preferably for an optical Monitoring equipment (possibly microscope), or in the beam path (if necessary, illumination beam path or detection or observation beam path) of an optical examination device (possibly Microscope), is positioned or positioned such that Rotation of the filter holder optionally one of the optical filters in Beam path can be arranged.

such Filter holder - the For example, the form of filter wheels with up to about 8 filter recordings can take - serve for quick change of the located in the beam path of the examination device optical filter. But there are also filter holders with less Filter recordings conceivable, for example, with only two shots, formed in a respective support arm of the filter holder are.

Under optical filters are here understood to mean all translucent elements, which affect or change the lighting properties in any way, such as for example, chromatic filters for wavelength selection, gray filters, Polarizing filters or other uses, such as for dark field or phase contrast microscopy. In particular, thought of fluorescence microscopy, wherein by rapid change of filters excited different dyes or can be detected in the event of emission.

Traditional are the filters are insoluble in operation attached to the respective filter holder. To an even greater number to provide various optical filters, one could increase the number of filter recordings accordingly, which is often the case Space problems (such as in the examination device or in the lighting arrangement) not possible is. Because of the limited number of filters per filter must therefore the entire filter holder frequently be replaced.

task The invention is therefore a filter holder of the above. To provide kind with the without space problems and without much effort an even larger number optical filter optionally in an optical beam path, for example to arrange the addressed kind.

to solution The task is suggested that the filter shots each a tensioning device is assigned, which is the respectively used optical Filter in the position defined by the positioning surfaces the filter holder operationally releasably holds.

The Clamping device allows, with built-filter holder each Filter separately manually - or by means of a tool - against to exchange another. proven has a purely manual replacement with the example with a glove (to avoid contamination of the filter) armed hand. About that In addition, the clamping device ensures that the filter used not only against falling out is secured, but also against the positioning surfaces the filter holder stretched and thereby in the predetermined position in the optical path of the device is positioned.

Concerning the filter holders, the respective clamping device and for the arrangement Filters provided in the filter receptacles are primarily thought of that the respective filter is held directly in the filter holder is, without separate holding frame or holding elements, the engagement between the respective optical filter on the one hand and the filter holder or the tensioning device on the other mediate. At the filters These may be filters that are solely of an optical nature Substrate are formed, as well as in the filter, which with a the respective optical substrate are formed on a substrate edge holding holding frame, the is to be foreseen as an integral part of the respective filter. Both types of filters are common in the art.

Around The filter is easy to use and to be able to seize proposed that the filter receptacles are each open radially outward. Should be circular Filters can be used can -in the axial direction of the filter holder considered - the respective Filter recording a circular arc Having inner contour, wherein the imagining the inner contour imaginary Circle and thus the optical filter used - radially over the outer circumference of the filter holder protrudes. The filter can be on this preceding edge then - even without the assistance of Tools - without a problem take.

In general, it is proposed that the filter receptacles for receiving a filter - viewed in the axial direction of the filter holder - have an inner contour circumscribing the filter at least partially, a closed line defining the inner contour and the inserted optical filter projecting radially beyond an outer circumference of the filter holder. It will also be the first achieved mentioned advantages.

Around a radial outward movement of the optical filter used to prevent, for example rapid rotational movements of the filter holder, it is proposed that the radially outward opening of the Filter receptacles is narrowed in the circumferential direction of the filter holder.

Around for one unique in relation to the optical geometry of the examination device Positioning the filters is suggested that the positioning surfaces the filter mounts at least one achsnormale support surface for Positioning of the inserted filter in one of the axial directions and at least one axially extending support surface for positioning the used filter in the radial and circumferential direction of the filter holder include. Here, the filter on the achsnormalen support surface plan rest while the radial positioning can certainly be done with play to the To change the filter easier. The achsnormalen support surfaces may appropriate in one common plane.

It does not appear completely unavoidable to provide a filter holder in which the positioning surfaces only at least one achsnormale support surface for Positioning of the inserted filter in one of the axial directions or only at least one axially extending support surface for Positioning of the inserted filter in radial and circumferential direction of the filter, optionally in combination with other means for Positioning of the inserted filter in radial and circumferential direction of the filter holder or for positioning the filter used in one of the axial directions.

If the achsnormale support surface and the radially extending support surface a circulating in the filter holder, towards the other axial side open, stepped Make paragraph is - at impeccable Positioning of the filter - the usable free filter diameter of the filter is not or only insignificantly limited. This applies in particular even if the clamping device engagement sections having, in the circumferential direction of the filter holder opposite Sections of the axis normal support surface of positioning surfaces overlap in the axial direction and engageable with the inserted filter, and in particular the tensioning device between their engagement portions of the inner contour the filter receptacle essentially forked below recessed is.

The Filter receptacles can advantageously each have a further clamping device be assigned, which are the respective optical filter used presses against the or at least one axially extending support surface. By This measure can be easily avoided in operation, so When turning and re-braking the filter holder, rattling noises occur.

A particularly preferred embodiment In this context, it is characterized by the fact that the other Clamping the respective filter against two in the circumferential direction the filter holder spaced apart, axially extending Pressing support surfaces. It Above all, it is thought that the further clamping device the respective filter substantially in the radial direction, preferably radially outward, suppressed.

filter different thickness can be stably fixed when the engaging portions Have lugs or edges, which to the opposite support surface sections protrude and for selective intervention with the respective filter serve. It is thought of optical filters that alone from the respective optical substrate are formed, as well as to filters, the holding frame holding the optical substrate at the edge accomplished are, but which is an integral part of the respective filter. Separate retaining frame or retaining elements which engage between the filter or optical substrate on the one hand and the filter holder according to the invention on the other hand, are not required.

Prefers The support surfaces contain the noses or edges opposite lying recesses, in the unloaded state of the clamping device the noses or edges protrude. This achieves a relative high preload of the clamping device also in one in the axial direction relatively thin Filter. When here from "punctual Intervention "with the filter is mentioned, so this includes quite a linear Intervention, for example by a respective edge or edge-shaped nose, or a small area Intervention by an engagement surface the respective nose.

Around the filters radially inward be able to use quickly without having to open the clamping device with a special handle have to, It is suggested that the engaging portions of the clamping device are extended radially outwardly to axially projecting from the filter holder insertion bevels, to engage when inserting a filter with its edge and the engagement portions away from the positioning surfaces to move.

In order to be able to easily remove a respective filter, it is proposed to be particularly preferred that the engagement sections are designed such that the lugs or edges lie radially inward relative to a radial center of the respective filter receptacle such that the lugs or channels th on an inserted filter at locations attack, which are offset relative to a center of the filter in the direction radially inwardly relative to the filter holder. It is then possible to swing the filter particularly easily out of a holding plane defined by the filter holder, if necessary against the above-mentioned insertion bevels. The training proposal is particularly advantageous in connection with the above-mentioned further tensioning device, which can serve as "ejection device" and in this case preferably by the above-mentioned pivoting out of the respective filter from the holding plane can be activated.

A simple and easy execution the clamping device receives one, when the tensioning device at least one near the axis of Filter holder on this fixed leaf spring, the spring tongue forms the engagement portions of the clamping device. Also the others Clamping device can at least one fixed to the filter holder leaf spring have, the spring tongue engages the filter used and press this against an abutment. in principle are also other versions the clamping device or further clamping device conceivable as long they are the purpose defined or intended in the task fulfill.

The axial thickness of the filter holder remains low when the clamping devices the respective filter receptacles on a common axial side of the Filter holder in the circumferential direction next to each other, without overlapping each other, are arranged so that without space problems existing filter holder with insoluble fix fixed filters easily against filter holder according to the invention.

Of the Filter holder can on the optical beam path having device by hand be rotatably mounted, for example, with one of the respective filter position associated latching, or by an electric motor, for Example stepper motor, be driven in rotation.

The The invention further relates to an optical filter device, with a filter holder according to the invention and a rotatably supporting rotating base, which preferably has a Motor, optionally stepper motor, and, if desired, with a rotational position detection arrangement.

The The invention further relates to a lighting arrangement for an optical Monitoring equipment (if necessary microscope) as well as an optical examination device (if necessary Microscope).

following A preferred embodiment of the invention will be described with reference to FIG on the attached Drawings described.

1 shows an axial plan view of a filter holder;

2 shows an axis-containing section 1 along line II-II;

3 shows a similar cut as 2 but with the blade spring removed and an optical filter to be inserted;

4 shows a plan view of such a leaf spring;

5 shows an axial plan view of a further embodiment of a filter holder according to the invention;

6 shows an axis-containing section through 5 along line VI-VI added to another filter when inserted into the filter holder or when removing it from the filter;

7 shows schematically a possible embodiment for a force acting in the radial direction of the filter holder in the filter holder used clamping device which presses the filter against radial effective abutment to avoid rattling noises;

8th shows a preferred embodiment of an axially acting on the filter leaf spring with respect to the also formed by a leaf spring clamping device of 7 ,

The in the 1 to 3 illustrated filter holder 1 has generally the shape of a flat disc, which can be assigned to an optical beam path rotatably about its axis AA manually or by means of a stepping motor (not shown), for example on an optical examination device, for example a microscope, also not shown, or in an illumination arrangement (for example for an optical examination device). about microscope), attachable. A center hole 1a of the filter holder 1 is of several torque transmission holes 1b surrounded by the filter holder 1 is rotatable by means of a drive motor, not shown.

The filter holder 1 contains about its outer circumference 3 distributes a plurality of - here eight - filter images 5 , in the different circular-shaped filter 7 can be used. In 1 is only in one of the shots 5 a filter 7 used. The filter holder 1 is in the optical path having device, for example, in the examination device or in the illumination arrangement, arranged or arranged such that by rotation of the filter holder 1 around its axis AA optionally one of the optical filters 7 in the beam path, for example in a light tion beam path of the examination device, - that is, between the light source and the object to be examined - or in an illumination beam path of the illumination arrangement to arrange. For some arrangements, the filter holder could also be arranged or arranged correspondingly in a detection or observation beam path of the examination apparatus, for instance between the object and a detection arrangement.

Each of the filter shots 5 forms one of the outer circumference 3 of the filter holder 1 radially inward circular sector-shaped recess with a radially outward opening 5a , The opening angle α of the filter holder 5 from the circular sector center M to the outer circumference 3 of the filter holder 1 is less than 180 °, here for example about 100 °, so that the filter can be easily grabbed from the outside radially, but does not accidentally fall out in the inserted state. The peripheral edge of the filter holder 5 is arranged so that his observer closed circle K - and thus the filter used 7 - radially over the outer circumference 3 of the filter holder 1 protruding to make it easier to grasp the filter. The peripheral edge of each filter holder 5 forms a stepped step 9 , This paragraph 9 has one in the disc plane of the filter holder 1 lying achsnormale first support surface 11 and an adjoining axial second support surface 13 on. The first supporting surfaces 17 all filter holders of the filter holder 1 lie according to the embodiment shown in a common plane EE.

In the filter shots 5 is in each case a diameter-matching optical filter 7 so used that the edge of its lower, first flat side on the first support surface 11 rests, while its outer peripheral surface - possibly with play - through the second support surface 13 is positioned and - to facilitate gripping the filter - radially over the outer circumference 3 of the filter holder 1 protrudes.

To drop the filter 7 from the filter holder 1 - For example, with rapid rotation of the filter holder - to avoid, is every filter holder 5 a separate clamping device 15 - here in the form of a leaf spring 15 - assigned. Every leaf spring 15 is in plan view in approximately circular sector-shaped, is at its axis AA near the end 17 on the filter holder 1 fixed, for example caulked, and contains at its off-axis outer area a circular sector-shaped recess 19 , the angular extent and diameter of the angular extent α and the free inner diameter of the filter holder 5 corresponds and thereby - viewed in the axial direction AA - with opposite sections 11a . 11b the first support surface 11 the filter holder 5 overlaps. The clamping device 15 thus limits the usable free diameter of the filter 7 not or only insignificantly.

The both sides of the recess 19 remaining leaf spring material forms two spring tongues 21 and 23 ,

The spring tongues 21 . 23 are - viewed in achsenthaltenden section - to form a retaining lug 25 to the filter holder 5 Kinked. The retaining lugs 25 have a distance from the axis AA, which is substantially equal to the distance of the axis AA from the circle center M of each filter holder 5 is. Under the noses 25 contain the axis normal support surface sections 11a . 11b recesses 27 into which the noses 25 in the relaxed state of the leaf spring 15 protrude if no filter 7 is used. This ensures a relatively high bias of the leaf spring 15 also on a relatively thin filter in the axial direction 7 , In 2 are several positions of a leaf spring 15 shown for different thickness filters.

From the nose 25 radially outward, the tongues extend 21 . 23 obliquely axially from the filter holder 1 away, forming a respective insertion bevel 29 to the radial insertion of the filter 13 to facilitate without having to raise the leaf spring previously with a separate handle.

Of the Filter change can optionally by turning the filter holder or by replacing one or more filters.

Another embodiment of a filter holder according to the invention in the form of a filter is shown in FIG 5 and 6 shown. It will be for the filter holder of 5 and 6 the same reference numerals as in the 1 to 4 used, respectively, around the number 100 increased. Here only the differences, as far as here of interest, opposite to the example of the 1 to 4 Explained and otherwise expressly to the preceding, referring to the 1 to 4 referenced description.

The filter holder 101 has eight filter slots 105 on, according to 5 a filter 107 is inserted into one of these recordings and according to 6 another filter 107 ' straight into one to the filter 107 diametrically opposed filter holders 105 is used or - according to another approach - just taken from this recording. As in the embodiment of 1 to 4 is every shot 105 a leaf spring 115 assigned, as in 6 to see, by one on the actual filter holder 101 bolted retaining ring 102 are fixed in their desired position.

Every filter holder 105 is additionally a further clamping device 116 - here in the form of a leaf spring 116 - assigned, from the inside radially engages the outer circumference of a filter used in each case and this pushes radially outward against axial support surface sections 113a to the achsnormale first support surface 111 subsequent axial second support surface 113 , Serving as an abutment for the radially outwardly depressed filter supporting surface section 113a extend slightly further in the axial direction than the rest of the axial second support surface 113 , as in 6 to recognize.

By pressing the respective filter against serving as an abutment support surfaces 113a In itself, it is not necessary that the second axial support surface 113 extends circumferentially around the filter. In principle, the two abutment support surfaces are sufficient 113a in conjunction with the radial spring 116 to keep the filter defined in the filter holder.

The 7 and 8th schematically show a further embodiment for a respective filter holder of the filter holder. Again, the same reference numerals as in FIGS 1 to 4 on the one hand and 5 and 6 used on the other hand, in each case increased by 200 with respect to the reference numerals of 1 to 4 or increasingly around 100 with respect to the reference numerals of 5 and 6 , Again, only the differences from the above-mentioned embodiments will be explained and otherwise expressly referred to the preceding explanations.

The anchorage 218 the filter holder anchored, designed as a leaf spring radial spring 216 the other clamping device presses the optical filter 207 radially outward with respect to the axis of rotation of the filter holder against two axially projecting webs 214 serving as an abutment and a respective abutment support surface 213a provide. The bridges 214 could also be made shorter in the tangential direction to the circumference of the filter.

8th which is a partially sectioned view of the arrangement of the 7 corresponds in the viewing direction VIII, shows an expedient embodiment of the filter 207 against the surface of the filter holder 201 pressing axial spring 215 , The of a kink of the leaf spring 215 educated nose 225 is opposite to a center axis B of the filter 207 radially inward, towards the radial spring 216 , offset. You can then use the filter 207 simply from the respective filter receptacle that you can see radially on the outside of the filter 207 attacks, this opposite the plane E of the filter holder 201 pans away, as in 8th represented by the arrow S, so that the outer periphery of the filter on the support surface portions 113a is raised and accordingly no longer as an abutment against the elastic spring force of the leaf spring 216 is effective. This can now, with appropriate design, act as ejection spring and press the filter in question further radially outward or at least support manual removal. As in 6 in terms of the filter 107 ' shown, the filter can 207 while at the radially outer spring sections 229 slide off the axial spring.

The arrangement of the nose 225 radially within the radial position defined by the axis B with respect to the filter holder 201 is not mandatory in this context, but in so far advantageous as that a larger lever arm for applying the Wegschwenkkraft on the filter 207 is available, based on the by the axial spring 215 on the nose 225 forces exerted on the filter in the axial direction, which counteract this pivoting. As based on 8th recognizable, the filter can 207 considered as a one-armed lever, wherein for the of the axial spring 215 applied contact forces a smaller lever arm length is effective than for the manually (or possibly also mechanically) exercised Wegschwenkkräfte.

Once the filter is enough far enough away from the plane E pivoted away that the abutment support surface sections 213a are no longer effective, the filter preferably slides on the one hand on the radially outer leaf spring portions 229 and on the other hand - if one of a construction accordingly 5 and 6 goes out - with a peripheral edge on a achsnormale support surface 111 limiting edge of the filter holder.

As in the embodiment of 1 to 4 takes place in the embodiments of the 5 to 8th an optional filter change by turning the filter holder and / or by replacing one or more filters.

It It should be noted that also different types the filter holder according to the invention come into consideration, for example, with several, each at least a filter holder having retaining arms.

Around a filter holder having a plurality of filter holders for different contains optical filters, to install the example in the illumination beam path of an optical examination device are to provide, with which without space problems about the device and without huge Expense an even greater number Optionally use optical filter, it is proposed that the filter holders of the filter holder in each case a clamping device is assigned, which is the particular optical filter used in a defined position in the filter holder operatively releasably holds.

Claims (33)

Filter holder, comprising a plurality of spaced radially from an axis (AA) filter receptacles ( 5 ; 105 ; 205 ) for receiving different optical filters ( 7 ; 107 ; 207 ) and positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) for the filters ( 7 ; 107 ; 207 ), the filter holder ( 1 ; 101 ; 201 ) is rotatable about its axis (AA) in an optical beam path, in particular in the beam path of a lighting arrangement, preferably for an optical examination device, possibly a microscope, or in the beam path of an optical examination device, possibly a microscope, positioned or positionable such that by rotation of the Filter holder ( 1 ; 101 ; 201 ) optionally one of the optical filters ( 7 ; 107 ; 207 ) can be arranged in the beam path, characterized in that the filter recordings ( 5 ; 105 ; 205 ) in each case a tensioning device ( 15 ; 115 ; 215 ) associated with the particular optical filter ( 7 ; 107 ; 207 ) in the through the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) defined position in the filter holder ( 5 ; 105 ; 205 ) Operationally releasably holds. Filter holder according to claim 1, characterized in that the filter holders ( 5 ; 105 ; 205 ) are each radially outwardly open. Filter holder according to claim 1 or 2, characterized in that the filter holders ( 5 ; 105 ) for receiving a circular filter ( 7 ; 107 ) - in the axial direction of the filter holder ( 1 ; 101 ) - have a circular arc-shaped inner contour, wherein the inner contour defining the imaginary circle (K) and thus the optical filter used ( 7 ; 107 ) - radially over an outer circumference ( 3 ; 103 ) of the filter holder ( 1 ; 101 ) protrudes. Filter holder according to claim 1 or 2, characterized in that the filter holders ( 5 ; 105 ; 205 ) for receiving a filter ( 7 ; 107 ; 207 ) - in the axial direction of the filter holder ( 1 ; 101 ; 201 ) - one filter ( 7 ; 107 ; 207 ) at least partially circumscribing inner contour, wherein a the inner contour defining the closed line (K) and the optical filter used ( 7 ; 107 ; 207 ) radially over an outer circumference ( 3 ; 103 ) of the filter holder ( 1 ; 101 ; 201 ) protrudes. Filter holder according to one of claims 2 to 4, characterized in that the radially outward opening ( 5a ) of the filter recordings ( 5 ; 105 ; 205 ) in the circumferential direction of the filter holder ( 1 ; 101 ; 201 ) is narrowed to a radial outward movement of the optical filter used ( 7 ; 107 ; 207 ) to prevent. Filter holder according to one of the preceding claims, characterized in that the positioning surfaces ( 11 . 13 ; 111 . 113; 211, 213a ) of the filter recordings ( 5 ; 105 ; 205 ) at least one achsnormale support surface ( 11 ; 111 ; 211 ) for positioning the filter used ( 7 ; 107 ; 207 ) in one of the axial directions and / or at least one axially extending support surface ( 13 ; 113 ; 213 ) for positioning the filter used ( 7 ; 107 ; 207 ) in the radial and circumferential direction of the filter holder ( 1 ; 101 ; 201 ). Filter according to claim 6, characterized in that achsnormalen support surfaces ( 11 ; 111 ; 211 ) lie in a common plane (EE). Filter holder according to claim 6 or 7, characterized in that the achsnormale support surface ( 11 ; 111 ) and the axially extending support surface ( 13 ; 113 ) one in the filter holder ( 5 ; 105 ) circumferential, towards the other axial direction open, stepped shoulder ( 9 ) form. Filter holder according to one of claims 6 to 8, characterized in that the filter holders ( 105 ; 205 ) each have a further clamping device ( 115 ; 215 ) associated with the particular optical filter ( 107 ; 207 ) against the or at least one axially extending support surface ( 113a ; 213a ). Filter holder according to claim 9, characterized in that the further clamping device ( 115 ; 215 ) the respective filter ( 107 ; 207 ) against two in the circumferential direction of the filter holder ( 101 ; 201 ) spaced apart, axially extending support surfaces ( 113a ; 213a ). Filter holder according to claim 9 or 10, characterized in that the further tensioning device ( 115 ; 215 ) the respective filter ( 107 ; 207 ) substantially in the radial direction, preferably radially outward. Filter holder according to one of the preceding claims, characterized in that the clamping device ( 15 ; 115 ; 215 ) in the axial direction of the filter holder ( 1 ; 101 ; 201 ) is biased so that they in the filter holder ( 5 ; 105 ; 205 ) filter ( 7 ; 107 ; 207 ) in the axial direction on the associated positioning surface ( 11 ; 111 ; 211 ) presses. Filter holder according to one of the preceding claims, characterized in that the clamping device ( 15 ; 115 ; 215 ) Engaging sections ( 21 . 23 . 25 ), in the circumferential direction of the filter holder opposite portions ( 11a, b ) of the achsnormalen support surface ( 11 ; 111 ; 211 ) of the positioning surfaces in the axial direction (AA) overlap and with the filter ( 7 ; 107 ; 207 ) are engageable. Filter holder according to claim 13, characterized in that the clamping device ( 15 ; 115 ) between their engaging portions ( 21 . 23 . 25 ) of the inner contour of the filter holder ( 5 ; 105 ) is substantially forked recessed. Filter holder according to claim 13 or 14, characterized in that the engaging portions ( 21 . 23 . 25 ) Edges or noses ( 25 ; 225 ) facing the opposing support surface portions ( 11a, b ; 211 ) and for selective or linear or small-scale engagement with the respective filter ( 7 ; 207 ) serve. Filter holder according to claim 15, characterized in that the support surfaces ( 11 ) the edges or noses ( 25 ) opposite recesses ( 27 ), in the unloaded state of the clamping device ( 15 ) the edges or noses ( 25 protrude. Filter holder according to one of claims 13 to 16, characterized in that the engaging portions ( 21 . 23 . 25 ) of the tensioning device ( 15 ; 115 ; 215 ) to axially from the filter holder ( 1 ; 101 ; 201 ) projecting bevels ( 29 ; 229 ) are extended radially outwardly to allow for insertion of a filter ( 7 ; 107 ; 207 ) to engage with its edge and the engaging portions ( 21 . 23 . 25 ; 225 ) from the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) to move away. Filter holder according to one of claims 15 to 17, characterized in that the engaging portions ( 225 ) are designed such that the noses or edges ( 225 ) are located radially further inwards relative to a radial center of the respective filter receptacle, such that the lugs or edges on an inserted filter ( 207 ) engage at points which, in relation to a center (B) of the filter, are directed radially inwards relative to the filter holder (FIG. 201 ) are offset. Filter holder according to one of claims 13 to 17, characterized in that the clamping device ( 15 ; 115 ; 215 ) at least one near the axis (AA) of the filter holder ( 1 ; 101 ; 201 ) on this fixed leaf spring ( 15 ; 115 ; 215 ), whose spring tongue the engaging portions ( 21 . 23 . 25 ; 225 ) forms the clamping device. Filter holder according to one of the preceding claims, characterized in that the clamping devices ( 15 ; 115 ; 215 ) of the respective filter recordings ( 5 ; 105 ; 205 ) on a common axial side of the filter holder ( 1 ; 101 ; 201 ) are arranged side by side in the circumferential direction without overlapping each other. Filter holder according to one of the preceding claims, characterized in that it comprises at least one torque entrainment element ( 1b ) for rotating drive by a motor, possibly stepper motor has. Filter holder, comprising a plurality of spaced radially from an axis (AA) filter receptacles ( 5 ; 105 ; 205 ) for receiving different optical filters ( 7 ; 107 ; 207 ) and positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) with at least one achsnormalen support surface ( 11 ; 111 ; 211 ) for positioning the filter used ( 7 ; 107 ; 207 ) in one of the axial directions, the filter holder ( 1 ; 101 ; 201 ) is rotatable about its axis (AA) in an optical beam path, in particular in the beam path of a lighting arrangement, preferably for an optical examination device, possibly a microscope, or in the beam path of an optical examination device, possibly a microscope, positioned or positionable such that by rotation of the Filter holder ( 1 ; 101 ; 201 ) optionally one of the optical filters ( 7 ; 107 ; 207 ) can be arranged in the beam path, wherein the filter recordings ( 5 ; 105 ; 205 ) in each case a tensioning device ( 15 ; 115 ; 215 ) associated with the particular optical filter ( 7 ; 107 ; 207 ) in the through the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) defined position in the filter holder ( 5 ; 105 ; 205 ) releasably for selective replacement, and wherein the tensioning device ( 15 ; 115 ; 215 ) Engaging sections ( 21 . 23 . 25 ), in the circumferential direction of the filter holder opposite portions ( 11a, b ) of the achsnormalen support surface ( 11 ; 111 ; 211 ) of the positioning surfaces in the axial direction (AA) overlap and with the filter ( 7 ; 107 ; 207 ) are engageable to this in the axial direction against the achsnormale support surface ( 11 . 111 . 211 ) and the engagement sections ( 21 . 23 . 25 ) of the tensioning device ( 15 ; 115 ; 215 ) to axially from the filter holder ( 1 ; 101 ; 201 ) projecting bevels ( 29 ; 229 ) are extended radially outwardly to allow for insertion of a filter ( 7 ; 107 ; 207 ) to engage with its edge and the engaging portions ( 21 . 23 . 25 ; 225 ) from the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) to move away. Filter holder according to claim 22, characterized in that the engaging portions ( 21 . 23 . 25 ) Edges or noses ( 25 ; 225 ) facing the opposing support surface portions ( 11a, b ; 211 ) and for selective or linear or small-scale engagement with the respective filter ( 7 ; 207 ) serve. Filter holder according to claim 23, characterized in that the support surfaces ( 11 ) the edges or noses ( 25 ) opposite recesses ( 27 ) in which, in the unloaded state, the Clamping device ( 15 ) the edges or noses ( 25 ) protrude. Filter according to one of claims 23 or 24, characterized in that the engaging portions ( 225 ) are designed such that the noses or edges ( 225 ) are located radially further inwards relative to a radial center of the respective filter receptacle, such that the lugs or edges on an inserted filter ( 207 ) engage at points which, in relation to a center (B) of the filter, are directed radially inwards relative to the filter holder (FIG. 201 ) are offset. Filter holder, comprising a plurality of spaced radially from an axis (AA) filter receptacles ( 5 ; 105 ; 205 ) for receiving different optical filters ( 7 ; 107 ; 207 ) and positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) for the filters ( 7 ; 107 ; 207 ), the filter holder ( 1 ; 101 ; 201 ) is rotatable about its axis (AA) in an optical beam path, in particular in the beam path of a lighting arrangement, preferably for an optical examination device, possibly a microscope, or in the beam path of an optical examination device, possibly a microscope, positioned or positionable such that by rotation of the Filter holder ( 1 ; 101 ; 201 ) optionally one of the optical filters ( 7 ; 107 ; 207 ) can be arranged in the beam path, wherein the filter recordings ( 5 ; 105 ; 205 ) in each case a tensioning device ( 15 ; 115 ; 215 ) associated with the particular optical filter ( 7 ; 107 ; 207 ) in the through the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) defined position in the filter holder ( 5 ; 105 ; 205 ) operationally releasable and wherein the filter mounts ( 5 ; 105 ) for receiving a circular filter ( 7 ; 107 ) - in the axial direction of the filter holder ( 1 ; 101 ) - have a circular arc-shaped inner contour, wherein the inner contour defining the imaginary circle (K) and thus the optical filter used ( 7 ; 107 ) - radially over an outer circumference ( 3 ; 103 ) of the filter holder ( 1 ; 101 ) protrudes. Filter holder, comprising a plurality of spaced radially from an axis (AA) filter receptacles ( 5 ; 105 ; 205 ) for receiving different optical filters ( 7 ; 107 ; 207 ) and positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) for the filters ( 7 ; 107 ; 207 ), the filter holder ( 1 ; 101 ; 201 ) is rotatable about its axis (AA) in an optical beam path, in particular in the beam path of a lighting arrangement, preferably for an optical examination device, possibly a microscope, or in the beam path of an optical examination device, possibly a microscope, positioned or positionable such that by rotation of the Filter holder ( 1 ; 101 ; 201 ) optionally one of the optical filters ( 7 ; 107 ; 207 ) can be arranged in the beam path, wherein the filter recordings ( 5 ; 105 ; 205 ) in each case a tensioning device ( 15 ; 115 ; 215 ) associated with the particular optical filter ( 7 ; 107 ; 207 ) in the through the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) defined position in the filter holder ( 5 ; 105 ; 205 ) operationally releasable and wherein the filter mounts ( 5 ; 105 ; 205 ) for receiving a filter ( 7 ; 107 ; 207 ) - in the axial direction of the filter holder ( 1 ; 101 ; 201 ) - one filter ( 7 ; 107 ; 207 ) at least partially circumscribing inner contour, wherein a the inner contour defining the closed line (K) and the optical filter used ( 7 ; 107 ; 207 ) radially over an outer circumference ( 3 ; 103 ) of the filter holder ( 1 ; 101 ; 201 ) protrudes. Filter holder, comprising a plurality of spaced radially from an axis (AA) filter receptacles ( 5 ; 105 ; 205 ) for receiving different optical filters ( 7 ; 107 ; 207 ) and positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) for the filters ( 7 ; 107 ; 207 ), the filter holder ( 1 ; 101 ; 201 ) is rotatable about its axis (AA) in an optical beam path, in particular in the beam path of a lighting arrangement, preferably for an optical examination device, possibly a microscope, or in the beam path of an optical examination device, possibly a microscope, positioned or positionable such that by rotation of the Filter holder ( 1 ; 101 ; 201 ) optionally one of the optical filters ( 7 ; 107 ; 207 ) can be arranged in the beam path, wherein the filter recordings ( 5 ; 105 ; 205 ) in each case a tensioning device ( 15 ; 115 ; 215 ) associated with the particular optical filter ( 7 ; 107 ; 207 ) in the through the positioning surfaces ( 11 . 13 ; 111 . 113 ; 211 . 213a ) defined position in the filter holder ( 5 ; 105 ; 205 ) operationally releasable and wherein the filter receptacles ( 105 ; 205 ) each have a further clamping device ( 115 ; 215 ) associated with the particular optical filter ( 107 ; 207 ) against the or at least one axially extending support surface ( 113a ; 213a ), wherein the further tensioning device ( 115 ; 215 ) the respective filter ( 107 ; 207 ) against two in the circumferential direction of the filter holder ( 101 ; 201 ) spaced apart, axially extending support surfaces ( 113a ; 213a ) and / or the respective filter ( 107 ; 207 ) substantially in the radial direction, preferably radially outward. Filter holder according to one of claims 22 to 28, characterized by at least one further feature of one or more several of the claims 1 to 21. An optical filter device comprising a filter holder according to one of the preceding claims and a rotatable this holding lathe base. Filter device according to claim 30, characterized in that that the rotary base a motor, possibly stepper motor, for rotary drive having the filter holder. Illumination arrangement for an optical examination apparatus, in particular a microscope, with a filter holder ( 1 ; 101 ; 201 ) or a filter device according to any one of the preceding claims. Optical examination apparatus, in particular a microscope, in whose illumination beam path or detection or observation beam path a filter holder ( 1 ; 101 ; 201 ) or a filter device according to one of claims 1 to 31 is arranged.