DE2622743A1 - Microscope tripod for holding binocular telescope - has optical system consisting of objective and four reflecting faces - Google Patents

Abstract

In the direction of light beams coming from the object there is an objective which makes the incident divergent beam parallel. Behind the objective there is an optical beam splitter which has two reflecting faces. It halves the parallel beam and separates the part beams. For each part beam there is a further reflecting face which steers the part beam into the appropriate binocular telescope tube. The tripod is connected elastically to the binocular instrument and it can have a fixed distance to the objective, the spacing of the individual tubes of the instrument being variable.

Description

Microscopic stand for recording

a double telescope it The invention relates to a microscopic Tripod for holding a binocular telescope.

By combining a microscope stand with a The double telescope can be used as a stereo microscope. The combination device is of particular interest to the amateur interested in natural history who comes with With the aid of the microscopic tripod, convert his binoculars into a complete stereo microscope can transform.

The telescope / microscope combination is known for monocular telescopes that can be converted into monocular microscopy with additional components. With these monocular telescopes. However, it is not possible to obtain a three-dimensional image that is particularly fascinating for natural history examinations. The object of the invention is to create a microscopic stand for a binocular telescope, with the help of which the binocular telescope can be converted into a full-fledged stereo microscope. The small, collapsible pocket telescopes with a flat connecting bridge between the two individual telescopes, which have been on the market for a number of years, are particularly suitable for such a combination device. Their outer shape leads to a handy solution for the combination device and to a good use of the light intensity of the telescope for the stereo microscope.

The object is achieved according to the invention in that the microscopic Tripod contains an optical system that consists of at least one lens and four There are reflective surfaces. Such an optical system allows the combinatorial Manufacture of a stereo microscope by inserting a binocular telescope into the Microscope stand. With an 8x telescope magnification, for the stereo microscope gain a 10-20x magnification.

In an advantageous embodiment of the invention is in the direction the light rays coming from the object in the microscope stand first an objective is arranged, which directs the incident diverging light beam parallel, and behind An optical beam splitter with two reflection surfaces is arranged on the lens, which halves the parallel light beam and deflects the partial beams apart, a further reflection surface is then provided for each partial beam which directs him into the telescope tube assigned to him.

Another embodiment of the invention looks in the direction of the dated Light rays coming from the object first use an optical beam splitter with two reflective surfaces before, which halves and deflects the diverging light beam coming from the object, and then a further reflection surface for each partial beam, which directs the partial beam in the direction of the telescope tube assigned to it, with between This last reflective surface and the telescope tubes each have an objective is.

For coupling the microscopic tripod to the binoculars advantageously an elastic means is provided.

To adjust the distance of the eyepieces to the interpupillary distance of the It is useful for the microscopic stand to have a fixed objective distance and the distance between the individual telescopes and with it the lenses of the double telescope is variable.

From the fixed lens distance of the microscope stand and the variable Objective distance of the telescope results in a parallel offset of the two optics penetrating rays of light. This parallel offset is because of the parallel Beam path between telescope and microscope attachment harmless, in particular, when the microscope objectives have smaller diameters than the telescope objectives.

Because of the practically parallel beam path between the telescope and The microscope attachment is also insensitive to the asymmetrical position of the two devices against each other. Balancing is sufficient when combining both devices by a mere eye.

The advantages achieved with the invention are in particular: that in the combinatorial production of a stereo microscope from a binocular telescope and a microscopic tripod, the optical effort is much less than with two corresponding separate devices.

The fact that an amateur cannot use the telescope and at the same time has the stereomicroscope available is not disturbing for him.

Embodiments of the invention are shown in the drawing and are described in more detail below. 1 shows a front view a combinatorial combination of a microscope stand and a binocular telescope according to the invention manufactured stereo microscope; FIG. 2 is a side view of that shown in FIG Stereo microscope; Fig. 3 shows an embodiment of an optical system for the microscopic stand according to the invention; 4 shows an embodiment an optical system for the microscopic stand of the present invention; Fig. 5 a Embodiment of an optical system for the microscopic according to the invention Tripod; Fig. 6 shows an embodiment of an optical system for the inventive microscopic tripod.

In the figures, 1 denotes the binoculars used and with 2 the microscopic stand according to the invention.

The elastic means for coupling the microscopic stand with the double telescope is labeled 3. The tripod base on which an object table is located is denoted by 4.

With the help of focusing drives 5a and 5b, the microscope stand can be adjusted in height on the rail 6. The single telescopes of the double telescope 1 are designed to adapt to the user's eye relief from one another by their in the triangular attachments 7a, 7b and 8a and 8b pivoted joints. In FIGS. 3 to 6, 9 denotes an object point. In the one shown in FIG optical system, the prism 10 divides the beam coming from the object and directs the Teilbünael to the plane mirrors 11 and 12. Of the plane mirrors 11 and 12, the partial beams of rays into the objectives 13 and 14 of the one not shown here Steered microscope stands and then get into the double telescope 1. Da the objectives 13, 14 of the microscope stand have a smaller diameter than the objectives of the telescope have, their openings remain despite the displacement of the telescope objectives when setting to the user's eye relief, always within the tuft cross-section the telescope lenses.

In the optical system shown in FIG. 4, the beam splitting occurs and deflection in rhombic prisms 15, 16 which have two mirrored surfaces.

The optical systems shown in FIGS. 5 and 6 differ differs from those of FIGS. 3 and 4 in that both telescopes have a common Microscope objective 17 is provided instead of the individual microscope objectives 13, 14.

L e r s e i t e

Claims (5)

Claims 1. Microscopic stand for holding a binocular telescope, characterized in that the stand (2) contains an optical system which consists of at least one objective (17,13,14) and four reflective surfaces. 2. Microscopic stand according to claim 1, characterized in that that in the direction of the light rays coming from the object first an objective (17) is arranged, which directs the impinging diverging light beam parallel, that behind the lens (17) an optical beam splitter (10,15,16) with two reflection pools (iOa, iOb, 15a, 16a) is arranged, which halves the parallel light beam and deflects the partial beams and then one for each partial beam further reflection surface (11,12,15b, 16b) is provided, which the partial beam in steers the telescope tube assigned to him. D. microscopic stand according to claim 1, characterized in that that in the direction of the light rays coming from the object first an optical beam splitter (10,15,16) is arranged with two reflection surfaces (10a, 10b, 15a, 16a), which the diverging light beam coming from the object halves and deflects it apart, that then for each partial beam a further reflection surface - (11,12,15b, 16b) is provided, which the partial beam in the direction of the telescope tube assigned to it steers and that between this last reflection surface (11,12,15b, 16b) and the telescope tube an objective (13, 14) is arranged in each case. 4. Microscopic stand according to claim 1 and one of the claims 2 or 3, characterized in that for coupling the microscopic stand (2) an elastic means ()) is provided with the binoculars (1). 5. Microscopic stand according to claim 1, and one of the claims 2 or 3 and claim 4, characterized in that the microscopic stand has a has a fixed objective distance and that the distance between the individual telescopes of the binoculars (1) is variable.