DE86530C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 42: Instruments.

Patented in the German Empire on January 27, 1895.

The subject of the present invention is a mechanism by means of which, in telescopes with variable magnification, the two optical systems in question can be moved relative to one another with respect to a fixed point. Two optical systems X and Y, which are centered on one axis, always project a real or virtual image of a very distant object in a fixed focal plane, which we shall call F. According to the laws of optics, it is now always possible for X and Y to move towards one another in such a way that the image in the plane F is preserved and only changes its size. If this enlargement of the images is to take place in a continuous manner, a means must be found to displace both systems simultaneously on the axis with reference to the focal plane F ', which is regarded as fixed, in a lawful manner.

Here it is necessary that both movements are achieved by a common drive will; two cases are possible, namely that either directly from the Propulsion from the movements take place separately, or else the first movement both systems moved as a single solid and within this solid system now the second movement is going on; one of the two movements can always follow an arbitrary law, but the second must then be precisely defined, but constantly changing coordinates in relation to the said arbitrary Movement take place.

In the present case, a nut, which moves a screw spindle, serves as the drive sets, producing the first voluntary movement. A cylinder is firmly connected to the nut into which a groove corresponding to the variable coordinates is cut. These serves the rotation of the cylinder in an exactly corresponding to the optical laws Convert movement along the optical axis by passing through said Nuth a Pin is moved, which has straight guide in a slot and on the other hand firmly with the the parts supporting the optical system are connected.

When applied to an earth telescope, the mechanism described is intended to be achieved become so that an observer, without having to take the instrument from his eye, of from weaker to stronger enlargements and in this way to increase able to judge the respective external atmospheric circumstances, and on the other hand, that the field of vision can be made arbitrarily large and small.

Illustrated in the accompanying drawing:

Fig. Ι the movement mechanism in connection with a simple telescope in Vertical section,

Fig. 2 the same telescope in top view,
3 shows a somewhat modified form of the movement mechanism in connection with a simple telescope,

Fig. 4 is a view of the moving mechanism applied to a binocular telescope, in partial section.

Figures 5 to 11 show details.

In the in Figure ι. Illustrated arrangement moves the the Concavsystem supporting tube b in the Objectivtubus α and receives its drive from the d provided with a screw flight steel pipe c, which in turn is a Inappropriate Cordelmutter e rotated by the head of the Objectivtubus. In the screw thread d of the steel tube c engages a screw g let into the tube b , the head of which is guided in a slot h made in the objective tube α. When the telescope is completed, the slot h is covered by the company sign i (Fig. 2) so that it is not externally visible.

In the modification shown in FIG. 3, the screw g engaging in the worm thread d of the steel tube c is not passed through a slot in the objective tube α , but in the slot k of a special tube / screwed into the objective tube. The lens system, which brings about the change in the focal length of the objective, is contained in a pipe socket m guided in the tube /.

Both in the mechanism shown in FIG. 1 and in FIG the ocular of the instrument through one located on the outer surface of the ocular tube Spindle moved by the cord nut.

7 shows the steel tube c carrying the worm thread d in a special view.

In the double telescope shown in FIG. 4, the movement mechanism is mounted in a special tube η which is combined with the webs connecting the two objective tubes. Here, too, the cord nut 0 moves a steel tube ρ that is firmly connected to the same and into which the already mentioned worm threads are cut. A third tube r is attached between the tube η and the steel tube ρ and is connected to the housing f surrounding the cord nut 0. The tube r in this case (FIG. 9) has a slot guide s for the screw t which is let into the tube η and engages in the worm thread of the tube ρ. The pipe ρ is shown separately in FIG.

When the gauze nut 0 is turned, the rotating tube ρ is moved out with the tube r , whereby the system B is carried along, while at the same time the ocular C is moved in, and more slowly than the system B, so that the entire instrument is lengthened .

In all of the described movement mechanisms, the hand-turned one directs Cordelnut the movement of a pipe that has a worm gear that makes the optical Laws are cut, provided, and which in turn is the focal length of the objective changing system opposite the ocular, which is moved by a simple spindle at accelerated speed drives.

Claims (4)

Patent Claims: 1. Movement mechanism for the simultaneous generation of two movements on two optical systems with respect to a fixed point (point of intersection of the focal plane with the optical axis) by a screw nut or a corresponding screw element, through whose Rotation by means of a screw spindle the first movement is generated, and which Nut is firmly attached to a cylinder, the one with respect to the first arbitrary Movement precisely defined worm gear with variable pitch has to lead to a rectilinear pin to which the second optical system is connected. 2. An embodiment of the under 1. marked Bewegungsmechamsmus consisting of c provided with the screw flight tube, which in the pipe b g moved screw in while the head of the latter in the slot h of the rectilinear guide Objectivtubus α place. 3. A modification of the mechanism listed under 2. so that the straight guide k for the screw is laid in a special tube / '(Fig. 3). 4. An embodiment of the movement mechanism for binoculars, characterized by a tube r sliding in the outer tube η , provided with a straight guide s for the screw t and connected to the cord nut housing f , in which the steel tube ρ moved by the cord nut ο with the above-mentioned Screw thread slides (Fig. 4 and 9 to 11). 1 sheet of drawings.