DE551992C - Measuring device for pairs of measuring images - Google Patents

Description

Measuring device for pairs of measuring images There are already measuring devices for measuring image pairs known, in which each measurement image has a lens and an all-round rotatable and adjustable Mirror is upstream. The aim of the invention is to provide adjustment options for such a device to increase and make this work easier.

For this purpose, according to the invention, the effective distance is for each measurement image the focal length of the lens located between one of two adjustable Mirrors existing mirror system stored and expedient on all sides, i.e. in the cone space, movable.

The pivoting of the lenses can be done with the corresponding mirrors - expediently only the front - can be coupled with the help of triangular slides, which automatically set a sine condition that occurs here. To make things easier A somewhat desirable retention of the recording locations can be targeted in the lenses To apply marks. The invention also relates to such designs Device.

The arrangement of the individual parts is shown schematically in Fig. I.

Fig. 2 shows the triangular slide omitted in Fig. I.

For example, two recordings are merged. That for each of the common to be measured recordings provided lens i is in a known manner around his rear main point 2 pivotable. With 2 "is its mirror image in relation to the Mirror 6 denotes. At 4. the picture holder (measuring frame) is indicated. The middle-point of the film or plate is assumed at 5. The mirror body 6 and 7 can are in a position which corresponds to the direction of the outgoing from the measurement image Rays does not change (vertical view or horizontal view). The picture holder 4 can be rotated around the image axis, line 2 'to 5, in a known manner. Around this line can at least approximately also the mirror 6 or that from the mirrors 6, 7 and the lens i existing system can be rotated. Or you can also use the mirror 7 make rotatable about an axis which is perpendicular to that of the mirror 6, ie the optical continuation of this axis is without this condition being precisely met would have to. Can the mirror too? still in a limited area by a second be pivotable about the axis parallel to the mirror plane. The mirror image 3 'of the dem Measurement images 5 facing away from the front main point (exit pupil) 3 of the objective i in relation to the mirror 7 represents the location of the recording for the measurement. A mark is attached to this main point 3. At 8 is the intersection of two for example, shown corresponding rays drawn by the Pixels 81 and 82 go out; here is z. B. a brand stand or the pen to assume, by its movement over the drawing surface 9, the mapping of the recorded Terrain or object. If by projecting the Recordings want to determine the ray sections, advantageously in a known manner by means of anaglyphs or by flashing, can in a known manner behind the measurement images 5 light sources can be arranged. In Fig. I there is a mirror stereoscope for this io indicated. Is z. B. in mark point 8 a suitable light source, so you could z. B. determine whether through the lens z rays running according to the images hit them at identical points. These stereoscopes can in a known way to scissors telescopes with changing magnification and Image erecting means are exposed; but this is generally unnecessary.

In Fig. 2 the triangular slide is in the shape of a joint triangle shown. Two rods i i and 12 have fixed lengths that correspond to the focal length and the image distance are proportional to the intake. They are connected to one another by the joint 13, through the joints 14 and 15, however, with sliding bodies 16 and 17, which are on the rail 18 slide. This rail is firmly connected to the lens carrier i. By rolling or tape transfer becomes the corresponding inclination when the mirror 6 or 7 is rotated of the rod i i set against the rail 18, whereby the rod 12 by itself gets the correct angle, which is transferred accordingly to the lens i. Here, for one of the points 13, 1q., 15, the shift in the direction of the rail 18 to prevent.

For the purpose of evaluating the recordings, two or more are combined. By Rotation of the mirrors and the recordings as well as by shifting from the mirrors 6, 7 and the lens existing systems or the mirror is known, systematic Wise, such an attitude gained that the images are with each other and with cover the movable mark. By hand or with the help of the joint triangle to give the Obl ektiv en i the necessary swings without which a simultaneous sharp image would not be possible. With a full overview and without any movement of oriented parts, the recordings are then evaluated by scanning corresponding points by means of the mark 8 or the pen.

Claims (5)

PATENT CLAIMS: i. Measuring device for pairs of measuring images with movable mirror bodies, those in the vicinity of the measuring images at a distance of the focal length of the picture Lenses are attached, characterized in that the j e in one of the Effective distances appropriate to the focal length of the shooting, expediently on all sides pivotable lenses (i), wide-angle lenses or the like, between two adjustable Mirror bodies (6, 7) are located. 2. Device according to claim i, characterized in that that each of the two each consists of mirror bodies (6) or mirror bodies (6, 7) and lens (i) existing systems both as a whole and also some of its parts (1, 6, 7) each individually adjustable, rotatable, slidable or the like. 3. Device after the Claims i and 2, characterized by a triangular slide (Fig.2), which by Coupling with the mirror body (7) and the lens (i) automatically leads to the sharp The required inclination of the lens. q .. Device according to claim i and 2, characterized in that a mark in the picture (5) facing away Main points (3) of the lens (i) mounted between the mirror bodies (6, 7) is appropriate. 5. Device according to claims i and 2 with double viewing glass, Mirror stereoscope o. The like., Characterized in that the stereoscope (io) on the the lenses (i) attached between the rotatable mirror body pairs (6, 7) facing away from the measurement images (5) is stored.