DE107591C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 42: Instruments.

MAGNUS ANTON MÜLLER in ULM. Rangefinder.

Patented in the German Empire on October 16, 1898.

The rangefinder which is the subject of the present invention constitutes an inexpensive one mechanical aid for approximate estimation of relatively short distances. In contrast to the related range finder patented under No. 103010 by Hövelmann. in Barmefi here is the use a telescope avoided. just as freely lying parts, in that all parts are here attached are inevitably led to each other. As a result, the special compilation of the Instrument away, which is very desirable, especially for military purposes.

The rangefinder is based on the well-known principle that one can measure the distance of a The goal of a given line of measurement can be found by determining the distance between the points where two drawn at different angles from the target to the line Cut straight lines. The distances indicated empirically on the measurement line then indicate the distance of the point in question at the same angle of vision.

The instrument essentially consists of a visor bar with a rear sight and front sight, which is rotatably attached to a shoe, with this on a vertical one, too rotatable rod can be moved. Here it engages with a guide pin one provided on the rod, composed of a straight and an arcuate part Leadership, so that it moves from its first position into one inclined to this Situation passes.

Illustrate in the accompanying drawings:

Fig. 1 to 3 views of the apparatus; 4 and 5 show the visor bar together with the shoe alone; Figures 6 to 10 show the vertical guide rod; in FIG. 11 the sliding shoe is shown in a vertical section according to \ -% (FIG. 5); Fig. 12 shows the lever mechanism for the slide shoe. Finally, FIG. 13 schematically shows the structure of the apparatus.

On the stand S , the Mefs- and guide rod 1 with the pin 2 engaging in the bearing 16 is rotatably attached about its vertical axis and at the same time rotatable with this bearing about the bolt 17 seated in the stand S in a vertical plane. In this plane it can be set at any inclination by clamping the bearing 16 of the guide rod in the stand S by means of the wing screw 3. On the rod 1, the sliding shoe 4 can be pushed up and off, to which the visor rod 8 provided with the rear sight 6 and front sight 7 is articulated by the pin 5. With a pin 9 fastened by nut 18, the visor rod 8 engages in a guide groove of the rod 1 composed of a straight and a curved line. An empirical scale 12 (FIG. 6) is attached to the latter, from which the distances to be measured can be read off directly.

To compensate for the weight of the sliding shoe 4 together with the visor rod 8, an under acts Influence of the spring 19 (Fig. 12) standing lever 11, which strives to make the shoe resistant to press up. In addition, the rod 1 still has resilient inserts 13, 14 (Fig. 8, 9 and 10), by virtue of the the friction generated by them cancel the effect of the compressive force of the resilient lever 11, so that the sliding shoe together with the visor rod is fixed at any point on the guide rod. In order to reverse this finding, if necessary, one is resilient Attachment 13 a small thumb lever 15 attached, which, as soon as you move it, presses the relevant supplement into its bearing on the rod 1 with your thumb. Around corners to avoid on the guide rod, the slide shoe, as shown in Fig. 11, is useful inside rounded at the points where it. comes into contact with the side dishes.

The guide groove 10 (FIGS. 7 and 10) bends ^{so sharply at the top at 10 1} that the visor rod 8 can easily be placed parallel to the rod 1 for the purpose of convenient collapsing of the whole.

The measurement process in this simple instrument is as shown in FIG. 13 following:

Should z. If, for example, the distance of a point A is determined, the baseline Aa is first set, with the visor rod 8 having to assume its lowest position on the guide rod 1 (as in FIG. 1). By rotating the guide rod 1 in its two planes of rotation and visors over the rear sight and front sight of the rod 8, point A is targeted.

If you then move the visor rod 8 upwards in the same position of the guide rod secured by tightening the clamping screws, the guide pin 9 of the visor rod 8 causes a slight rotation of the visor rod about its pivot 5 on the shoe 4 by virtue of the lower bend of the guide groove 10, which Position in the straight part of the guide groove is maintained, so that here the visor rod shifts parallel to itself until the targeted point A is seen through the rear sight for the second time, whereupon one only needs to read the distance on the height scale 12 .

For more distant points, B and C e.g. B., the result is the same measurement process, only that in this case the height displacement of the visor rod is greater.

Claims (1)

Patent claim: Rangefinder, in which the measurement of the distance to a point by means of a Visor device happens, which is guided with the help of a curve in the vertical direction in this way becomes that the sighting device is initially a small turn. about a certain Angle, then receives parallel displacement, characterized in that the sighting device consists of a visor rod (8) equipped with a front sight and rear sight, which is middle Slide shoe (4) on an adjustable pivot pin around two intersecting pivots, provided with a scale Guide rod is displaceable and engages with a pin in the guide groove (10) of the guide rod in such a way that all parts close are inevitably led to each other and a special composition of the instrument no longer applies. 1 sheet of drawings.