The present invention relates to a gun sighting telescope according to the preamble of claim 1.

It is the object of the invention to provide a gun sighting telescope of the type referred to, in which a change of the magnification factor is auto¬ matically accompanied by a change of the elevation adjustment of the sighting telescope.

A further object of the invention is to provide a gun sighting telescope in which a point on the reticle or like sighting mark of the telescope covers an unvary¬ ingly large area of a specific target, irrespective of the distance to the target, if the target is magni¬ fied in the sighting telescope by adjustment of the magnification factor to an image size which, to the eye, appears to be essentially the same. A specific object of the invention is to provide an arrangement which, in a gun sighting instrument of the type here concerned, automatically changes the elevation adjustment of the telescope with due regard to the distance to the target to compensate for the drop of a bullet following a specific, known trajectory.

These objects have now been achieved by imparting to the gun sigthing telescope according to the in¬ vention the characteristic features stated in the claims.

The invention will be described in more detail below, reference being had to the accompanying drawing which is a schematic and fragmentary axial section of a gun sighting telescope designed in accordance with the invention.

The main components of the gun sigthing tele¬ scope illustrated, such as the telescope barrel, i.e. the outer tube 1 with the objective lens 2, the ocular lens 3 and a reticle 4 in the image plane of the ocular

lens, two relatively and axially adjustable holders, in this instance two telescopically displaceable inner tubes 5, with the associated inner lens system 6 and the adjusting device 7 for changing the magnification factor, are of per se known design and arranged in conventional manner.

A cam follower means 10 is mounted in the outer tube 1, and one of the inner tubes 5 is connected with a cam means 11, the cam surface 11' of which is engaged by the cam follower means 10. The cam means 11 preferably is resilient or spring-biased such that the two means 10, 11 will always be in contact with one another.

In the embodiment illustrated, the cam follower means 10 preferably is the elevation adjustment screw of the telescope, although the screw here acts upon the inner tube 15 via the cam means 11. Upon displace¬ ment of the two inner tubes 5, 5' by means of the adjusting device 7 for changing the distance between the lenses of the inner lens system, and thus the magnification factor, the cam means 11 is moved in an essentially straight axial path together with the corresponding inner tube 5 and thus in relation to the cam follower 10, the angle of elevation adjustment of the two inner tubes 5 within the outer tube 1 being changed in dependence upon the cam surface profile. As already mentioned, the reticle 4 in the em¬ bodiment illustrated lies in the image plane of the ocular lens 3, and the image is not magnified by the reticle, at least not to any appreciable degree, if the magnification factor of the sighting telescope is increased.

This is important because in this manner a point, for example the crossing point, on the reticle will always cover an unvaryingly large area of a target which is located at varying distances from the sighting telescope but which, if the magnification factor of

the telescope is changed, causes the marksman to see in the telescope an image which has not changed its size.

This in turn means that, if the marksman is aiming at a target, for example the head of a hare, and if the marksman by reticle selection has found that the above-mentioned point exactly covers the hare's head at a target distance of, for example 100 meters at a certain magnification factor, the point will cover the hare's head also at a distance of, for example,

500 meters, if the magnification factor is increased, so that the hare's head in both cases appears to the marksman's eye to be of unvarying size. Moreover, this means that, if the magnification factor of the sighting telescope is adjusted such that the point in question covers the head of a hare, the magnification of the sighting telescope has been essentially correctly adjusted, irrespective of the distance to the hare, or any hare, because the heads of different hares are not much different in size, at least from a practi¬ cal point of view.

However, different ranges require compensation of the elevation of the sighting telescope in dependence on the trajectory. Bullets from cartridges of a given cartridge type (charge, weight of bullet, etc.) follow essentially the same trajectory when fired from a given type of bullet-firing firearm. The marksman who has knowledge of the trajectory selects such a cam profile for the cam means 11 that adjustment of the magnification factor of the sighting telescope is automatically accompanied by a correction of the elevation adjustment to compensate for the bullet drop along the trajectory. In the assumed case, the hare's head will therefore be hit by a sure marksman irrespective of the range within reasonable limits, say from 50 to 600 meters, provided that the above- mentioned point covers the hare's head, neither more nor less.

If the relative adjustment of the movable and the stationary components of the gun sighting telescope is graduated in meters instead of in the magnification factor, the marksman, if he so desires, obtains infor- mation of the range.

If the trajectory is a different one, it is of course necessary to use a different cam. It is possible to use a rotatable disk (not shown) or the like with different cams 11' for a limited number of different trajectories. If the cam means is mounted inside the outer tube 1, and if the cam follower is mounted on the outer side of the inner tube, such a disk etc. with different cams can be easily rotated or displaced by means of an adjusting member accessible on the outer side of the tube 1.

Instead of adjusting the sighting telescope such that a part of the recticle or like sighting mark covers an area corresponding to the head of a hare, it is of course possible to use a dot, a circle or any sighting mark whatsoever for covering areas which are fairly equal in size on any target whatsoever, for example the bull's-eye of a target or the head of a cardboard silhouette during field firing at differ¬ ent ranges, for which last-mentioned use the gun sight- ing telescope according to the invention is especially serviceable.

Naturally, the invention is not limited to gun sighting telescopes of the type illustrated in the drawing, but may be used with any sighting telescopes whatsoever, within the scope of the appended claims. Furthermore, the cam means and the cam follower may be designed differently and mounted in different po¬ sitions than in the drawing, and of course also within the scope of the appended claims. In particular, it should be noted that the important feature is that either one of the cam follower/cam means is displaced together with one of two lens arrangements relatively

and axially adjustable for varying the magnification factor and, in collaboration with the other of said cam follower/cam means, controls the angle between the optical axis of the inner lens system, i.e. the common center line of the inner lens arrangements 6', 6' ¹ , in relation to the common center line of the objective lens and the occular lens, such that the elevation adjustment of the sighting telescope is changed in dependence on the change of the magnifi- cation factor, in the manner described.