DE1928432A1 - Arrangement for stabilizing the focus of the objective of an optical instrument - Google Patents

Description

PstentonwMto Wpl.-Ing. R. Bsetz U.

4.6.1969

Commissariat dl I ¹ Energie Atomique> Paris (France)

Arrangement for stabilizing the focusing of the objective of an optical instrument

The invention relates to an arrangement for stabilizing the focus setting of the objective of an optical instrument, in particular a microscope, and more precisely to an arrangement) which automatically adjusts the focus of the objective to an image of the observed object for the purpose of compensating either for displacements of the object itself or of Irregularities of the surface of the base plate or of the object or of still other mechanical imperfections during the scanning movement or, finally, of thermal expansion observations during long-term observations. ■ [- "■■ ■; ■; ■ _.. ■ . .-. '.;."'. ■

The inventive arrangement to stabilize the sum Focusing the lens an «optical instrument has a device that allows this ·» Objecti * Trane- ■ 1ation movements along an optical axis ■ can impress a substantially parallel direction, and

«HO (B 269 ^ -3> -Df-r (?) 609850/0918

ORIGINAL INSPECTED

means for detecting changes in focus compared to a fixed image plane, which in turn provides the facility to restore the Control focus, and is mainly through it characterized in that it is an organ which imposes an aberration on the image rays emerging from the lens, which when the focus is changed, depending on its purpose, results in an increase or decrease in the brightness of the beam, and a photosensitive detector system contains, which receives the image beams fed and converts them into a control current for the focusing device implements.

Further advantages and features of the invention can be seen from the following description that treats but illustrative purposes only, the invention but not limiting example, to be regarded embodiment of an inventive arrangement for focusing de · Lens "an optical instrument with reference to the drawing"

The only figure of the drawing illustrates how the procedure according to the invention is carried out in order to keep the focus of a microscope upright during observation, the lens and the base plate of which are indicated schematically in the drawing and with the reference numerals 1 and

2 are designated * The lens 1 is in a thin plate

3 screwed, which forms the bottom of a container ^. The plate 3 is perforated in the middle of an annular opening into which a deformable membrane 5 made of soft iron is inserted Close up more or less and thus vary the distance that separates the objective 1 from the base plate 2.

90985Ö / 0918

_ 3 _ 1 9 2 8 A 3

The excitation winding of the electromagnet 6 is supplied with stabilized direct current from a generator 7, and there are two potentiometers in the excitation circuit 8 and 9 inserted in series with a fuse 10. The potentiometer 9 is used to regulate the sensitivity for the movement of the membrane 5 »by setting the permissible Excitation current for the excitation winding of the electromagnet 6 is limited. The potentiometer 8 controls the movement of the membrane 5 in that it excites the electromagnet 6 to a greater or lesser extent.

The deformation of the membrane 5 is not a linear function of the excitation of the electromagnet 6 and therefore the control potentiometer 8 is wound so * that it in turn ensures the desired linearity.

The image designed by the lens 1 is through a at 11 arranged binocular split into two partial images. One of these partial images is either used for direct observation, as shown in the drawing or the recording of photographic or kinetic images Images, while the second sub-image for the detection of changes in focus and whose automatic compensation is intended by moving the lens 1, for which purpose there is an effect on the Exciting current for the electromagnet 6 has the consequence.

For this purpose there is a variator at 12 in the beam path of the image not intended for observation for spherical aberration added to the image impresses strong spherical aberration. Under these conditions results after pressing the potentiometer 8 the focus has been made »for a middle position selected by the observer of the indicated schematically in the drawing at 13 on the base plate 2 Subject to a change in this focus setting

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to a change in the contrast in the details of the Picture, in turn, depending on the meaning of the deviation noticeable from the focus by a lightening or a darkening of the observed zone power · It is therefore sufficient to determine these changes in the luminous flux and to convert them into electrical signals and to feed these signals into the solenoid feed circuit to correct the focus.

Any photosensitive can be used for this purpose Detector, for example a photocell or a photoresistor, which is inserted into this feed circuit and receives the image light affected by the spherical aberration supplied. The one in the drawing However, the circuit shown not only ensures that the focus setting is recognized, but also causes it in addition, an automatic compensation for parasitic changes in the brightness of the image field in such a way that that it responds only to changes in image contrast due to changes in focus. This circuit consists essentially of a photocell 14 and a photoresistor 15, of over which each of a dissecting microscope located at 16 Lenses 17 and 18 a deformed image of the object 13 receives fed. The position of the lens 18 is chosen so that the photoresistor 15 extends through the face. The luminous flux passing through the field is fed to the plane selected by the observer for focusing receives. The position of the lens 17, however, is chosen so that the photocell 14 the corresponding luminous flux from the same field of view, but outside of the fine focus level integrated.

The photo cell 1.4 and the Pboto resistor 15 are in Series to each other in the supply circuit for the electromagnetic

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th 6 between the generator 7 and the fuse 10 inserted. In this way, be means of judicious choice the parameters for the photoresistor 15 and the photocell 14 and after correct setting of the current in the excitation circuit using the control potentiometer 8 the changes in the excitation current for the electromagnet 6 caused only by changes in the contrast, which in turn go back to changes in the focus of the lens 1.

If, for example, an increase in either the brightness of the field of view or the opacity of the observed preparation occurs in the course of the observation, then so it comes at the location of the photoresistor 15 to a Increase Δ r of the resistance in the excitation circuit for the electromagnet 6, which "in turn leads to a reduction Δι of the corresponding excitation current, while that of the photocell 15 in the excitation circuit fed-in current an enlargement ^.! learns which the parasitic change ^ r in the resistance in the excitation circuit just compensated.

The other hand, there occurs a reduction in the illumination of the visual field or the opacity of the observed specimen, which leads to an increase of the current οwiderstand by the Phot 15, these magnification of the exciting current automatically by a reduction of of the photocell lh in the exciting current circuit for the Electromagnet 6 fed current, compensated.

Since in this way any parasitic change in the current in the excitation circuit for the electromagnet 6 is automatically switched off by the action of the photocell i4, a change in focus of the lens 1 leads to a reduction in the distance between the lens 1 and the observed object 13th

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as a result of defocusing or the presence of a spherical aberration leads to a reduction in the luminous flux captured by the photoresistor 15 for the electromagnet 6 thus experiences an enlargement, which in turn has the consequence that the lens Ί is moved away from the base plate 2 and thus the focus is restored. In the same way, a Change the focus of lens 1 in direction an enlargement of the distance between the objective 1 and the object 1.3 to an enlargement of the Photoresistor 15 captured luminous flux, the excitation current for the electromagnet 6 experiences accordingly a reduction, and this in turn results in the lens 1 approaching the base plate 2, as a result of which focus is also restored will ο

It goes without saying that the invention is not restricted to the only embodiment described above for the sake of explanation and illustrated in the drawing, but rather: that it also applies to all variants of this embodiment or parts thereof which remain in the range of equivalents, and extends to all possible uses for such arrangements the photocell integrates the corresponding light flow through the same field of view, but outside the focal plane, the arrangement and the task of the photocell and resistor can just as well be reversed.

ORIGINAL INSPECTED qn9850 / 0918

Claims (1)

_ 1928A32 Claims 1. Arrangement for stabilizing the focus of the objective of an optical instrument with a device for recognizing deviations in the focus setting from a predetermined image plane and one of this Device controlled device for moving the lens along a parallel to its optical axis Direction, characterized that they have an organ (12) which imposes an aberration on the image rays emerging from the lens (i), when changing the focus, depending on the purpose, an enlargement or reduction of the Beam brightness results in j and contains a photosensitive detector system (photocell 14, photoresistor 15), which receives the image rays and converts them into a control current for the focusing device (soft iron membrane 5t electromagnet 6). 2. Arrangement according to claim 1, characterized in that the photosensitive detector system is a photoresistor (15) is. 3. Arrangement according to claim 1, characterized in that the photosensitive detector system is a photocell (14) is h »arrangement according to claim, t characterized in that the system 1st photοempfindliche a circuit for the purpose of automatic compensation of parasitic variations in the background brightness of the image rays in series to each other, a photocell (14) and a Photοwiderstand (15), one of which contains the entire luminous flux through the field of view captured by the lens (1) in 909850/0918 gets fed to the focusing plane while the other the corresponding light flux fed through the same field of view, but outside the plane of focus receives or vice versa. 5. Arrangement according to one of Claims 4 to k, characterized in that the focusing device is a magnetic device. 6. Arrangement according to claim 5 »characterized in that the magnetic device has an electromagnet (6), a supply source (7) for the electromagnet (6) and a thin metal plate carrying the lens (1) in its center (3), which is arranged opposite the electromagnet (6) and deformed by its action, is bar, with a change in the intensity of the excitation current for the electromagnet (6) a shift in the Objective (i) along its optical axis results in » 9 0 9 8 5 0 / ^: (Τ9Ύ8-