DE1974899U - MICROSCOPE WITH LENS REVOLVER. - Google Patents

Description

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DR. WETZEL 85 NDRNBERGI.

PATENT ADVOCATE

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BANK ACCOUNTS: pr / fr IEUTSCHE BANK A. G .. NUREMBERG BRANCH NO. 368944 AND STADTSPARKASSE NÜRNBERG NO. 30940 POST CHECK: NUREMBERG NO. 3854 TELEPHONE: 204081-83 TELEGRAM ADDRESS: PATWETZEL TELEX: PATWETZEL NBG NO. 06/22327

P 22 175 / 42h G-bm company O. Proebster jun. Microscope with nosepiece

Microscopes, apart from very simple student microscopes, are also included several lenses equipped for different magnifications in a nosepiece are housed and can be brought into the position of use by turning the revolver. In the In its simplest form, the revolver is designed so that the objective axis coincides with the optical axis (Austrian patents 163 379 and 162 850). Microscopes of this type are inconvenient for the viewer Bend over the microscope. Used for higher demands, especially for long-term work on the microscope you therefore have a structure with an obliquely arranged tube, so that the objective axis with the optical axis of the device forms an angle. From such a design, the! Inflation is based and deals with the task of Training of the turret body in a simpler and more convenient way than before.

In the known microscopes of this type, the objectives are installed radially in a spherical shell around a pin is rotatable. The pin can be in the optical axis

lie (Austrian patent specification 144 732) or off-center (ÜS patent specification 1 985 073). Types of this type are complex and require a high level of precision, since the setting of the Kugelsohale is absolutely precise arrives to the optical axis, which can only be ensured by fine machining «

Difficulties of this type are avoided by training according to the innovation. The innovation is

that the revolver body is a cylinder body which is attached to the lens head in a cylindrical bore The carrier is rotatable and fixable. The fit required here is a cylinder fit that is common with Workshop means can be produced with high accuracy without significant expense. The fixation can be done in produce a simple way, for example by radialwitkende detents.

Of N _e is used for the lenses adjustment by rotation of the turret in a particular embodiment Acidification through a projecting through the support body protrusion.

In order to simplify the structure even further, in a further development of the innovation, the lenses are tubular, in cylindrical bores of the turret body

sets and fixes in it.

Radially acting fasteners are expediently used for fixing agent.

line another useful embodiment of the innovation is that the support body and the volver body with radially acting detents for the lens adjustment are provided.

An exemplary embodiment is shown in the figures.

Show it:

Pig. 1 shows a longitudinal section through the microscope head with a longitudinal section through the objective carrier cylinder according to the line I-I of Fig. 3,

Fig. 2 shows a further longitudinal section through the lens carrier cylinder along the line II-II of Fig. 3,

3 shows the view of the lens carrier cylinder from the direction of the arrow III of Fig.2 and

4 is a view of the microscope.

In FIGS. 1 to 4, the individual parts have matching numbering.

On the stand 1 of the microscope there is a feature of the innovation that is cut along a cone surface line Attachment 2. Attachment 2 is attached to stand 1 with two eccentrically arranged screws. Approach 2 is intended to accommodate the cylindrical lens mount 3. In the lens carrier 3 are offset from one another by 120 °, the three lenses 4, 5 and 6 built in. The

Objective 4 with the longest tube is visible at the bottom The end is marked with three rings 10 and gives the greatest magnification. The lenses are accordingly with lower magnification, 5 marked with two rings 11 and 6 with one ring 12. For rotating the lens mount 3 There is a knurled ring 7 at the upper end »There are three marks 9 on this knurled ring corresponding to the three lenses provided, of which the lens 4 corresponding to the de and consisting of three lines mark is shown in FIG. In the working position, i.e. when the objective 4 is in the optical axis of the microscope, this mark 9 coincides with an am Tripod firmly attached brand 8 together. The lens carrier 3 is held in the attachment 2 of the stand 1 by a groove 16 into which a ball 15 is pressed by a spring 14 and a grub screw 13. In the ring-shaped Grooves 16 are Einrastsohlitze, whereby a determination of the three lenses in their working positions, which coincide with the coincidence of marks 8 and 9, is made possible. The objectives 4, 5 and 6 are set by grub screws 17 held in the lens carrier .Figur 3 shows a view from the direction of arrow III of Figure 2 of the lens carrier. It is dash-dotted and denoted by 18, the outer surface of the approach 2 is drawn, with the protruding from the approach 2 part of the knurled ring 7 can be seen. For fine readjustment of the lens table 19 serves the drive wheel 20, with which you can raise and lower the lens table 19 in a known manner.

Claims (4)

Protection claims: 1. Objective with an objective nosepiece, its objectives are arranged coaxially with one another and in which the revolver body is centric to the objective axes and is rotatably mounted to the optical axis eccentric axis, characterized in that the turret body (3) is a cylinder body which is in a cylindrical bore of a carrier body attached to the lens head (l) (2) is rotatable and fixable 2. Device according to claim 1, characterized in that that on the turret body (3) an adjusting projection (7) is attached, which protrudes through the support body (2). 3 · Device according to claim 1 or 2, characterized in that the objectives in the carrier body by essentially radially engaging fastening means (17) are held. 4. Device according to one or more of the preceding claims, characterized ^ that the objectives (4,5,6) are tubular formed, inserted into cylindrical bores of the revolver body (3) and fixed therein after adjustment are. 5, device according to one or more of the preceding claims, characterized in that the carrier body (2) and the turret body (3) with radially acting detents (13 ... 16) for lens adjustment.