DE305128C - - Google Patents

Description

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ISSUED ON JUNE 14! 1919

One method for taking oriented angles directly from photograms is known to have been given by Koppe. Koppe resets the photogram (a remote recording) after its development the camera and then brings it in exactly the same position to the horizontal plane that the Camera at the moment of recording. Then he sets an angle measuring instrument

ίο (theodolite) in front of the lens of the camera, that the focused telescope through the lens of the (which was also focused, d. H. can observe through the camera set uriendlfch.

The theodolite then gets exact horizontal and vertical angles from the photogram can be seen when the intersection of the vertical rotation and the horizontal Tilt axis is located exactly in the front main point of the camera lens.

Since strict adherence to this condition is absolutely necessary, the Koppeschen instrument recordings of different chambers cannot be measured.

The Koppean method therefore requires a special one for each recording camera, the relevant camera precisely adapted measuring device.

This fact has led to the general introduction of the Koppean method in the

• Prevents practice, especially of course where there is a large number of cameras different focal length is worked at the same time.

In contrast to Koppe's method, the one given below uses the Taking lens not. Rather, it brings the developed plate (or a positive of it) in the orientation corresponding to the recording in front of an angle measuring instrument (Theodolites) that the vertical distance of the plate from the intersection of the vertical and tilt axis of the theodolite can be made exactly the same by coarse and fine movement of the image range of the receiving chamber Adjustment of any image point on the plate by means of the (no longer focused) . Theodolite telescope can then directly horizontal and vertical angles with any Accuracy can be measured.

In contrast to other well-known institutions (e.g. Goerz's pictorial artist or anagraphs) the adjustment device is used here (with Goer ζ, by the way, a Viewing hole) not for the fixation of target rays and their graphic use, but for the precise measurement of angle differences in degree niasses, in such a way that recordings with any cameras (with lenses of any focal length) without further use can find.

In the accompanying drawings, there is an embodiment of the subject matter of the invention shown. It shows

Fig. Ι the image measuring theodolite in side view,

Fig. 2 the same in front view,

Fig. 3 the same in plan view.

The theodolite essentially consists of two main parts, the image carrier B , which is supported by itself, and the toothed circle theodolite Z. The image carrier B is rotatably mounted in the stands α about the horizontal axis xx '. Its respective angle of inclination to the horizontal plane can be read from a height circle b. The image carrier B is held in place in every position by the clamp c. The one to be measured

ίο Photo L (negative or slide) is on the support d, which consists of two cross slides m and η at right angles to one another. The upper slide m. Is provided with a toothed disk S, which can be rotated through 360 ° by means of a drive. With this device, the light image L can be adjusted on all sides. The lower part U carries the toothed circle theodolite Z between the two uprights α . It can be rotated 360 ° around the vertical axis yy ' and consists essentially of the horizontal circle i , the height circle i and the telescope g. With the latter, the individual pixels are targeted. The horizontal angles are then read from the circle / and the measuring drum p and the elevation angles in the same way from the circle i and the drum k . The tilt axis h is at the same height as the horizontal axis xx 'of the image carrier B. The telescope g is located at the axis intersection f. The distance of the measurement image L on the support d from the. Tilting axis. * · * 'Corresponds exactly to the focal length or image distance of the photographic recording apparatus, whereupon the support d can be adjusted'. For this purpose, the rear plate of the image carrier B is in its middle part as a cylinder r. educated. In this cylindrical extension r , the support d can be displaced in the axial direction by means of a special drive device t.

Claims (1)

Patent claim: Bildmeß-theodolite for the direct evaluation of photograms, which are recorded with cameras of any image distance, characterized in that an image carrier [B) with a support (d) serving to record the photogram is arranged on an underframe (U) , which support (d) is arranged for the purpose of orienting the Photogrammes is set up in the same position as in the photographic recording so that the photogram can be moved in parallel on a cross slide (m, n) and rotated through 360 ° and can be set to certain distances from the tilt axis (h) corresponding to the image width, as well as a Toothed circle theodolite (Z), the tilting axis (h) of which lies in the horizontal axis of rotation (* - * ') of the image carrier (B) , so that after the orientation of the photogram in the image carrier (B) and setting any image point with the aid of the theodolite the horizontal and vertical angles of this pixel can be read directly from the partial circles (i and I). 1 sheet of drawings.