SU567955A1 - All-purpose stereophotogrammetry instrument - Google Patents

Description

(54) UNIVERSAL STEREO PHOTOGRAPHIC MEASURING

DEVICE by the system 1. Coordinator 18 is connected with the system 1. Additional carriages 7 WG 8 are rigidly connected to the lenses of system 9, recording devices 10 and 11 are connected to carriages 3 and 4 of photographs, with the centers of recording devices combined with the corresponding measuring marks of the observing system 9, Optical branches of optical-mechanical units, including translucent surfaces 14 and 15 and reflective surfaces; pages 16 and 17, are connected with carriages 7 and 8 and with system 9. The stereophotogrammetric instrument works as follows. With the help of systems 1 and 2, the stereopair photographs mounted on carriages 3 and 4 of photographs and illuminated illuminators 5 n 6 are constructed measuring stereo terrain. Then, combining the measuring mark of the observation system on the surface of the stereo model at a given height, the horizontal of the relief is tracked, the trace of which is (L in the orthogonal projection is fixed by means of the coordinate system). 9, their movements are repeated. The recording devices 10 and 11, the centers of which are combined with the images of the corresponding measuring marks, are associated with the carriages of 3 and 4 photographs, repeat the movements of these carriages and register on the mat. The series (plastic, paper or other material) installed on additional carriages 7 and 8 is a trace of mutual movements of each of the branches of the optical observing system relative to the corresponding photo carriage. With the above rigid connections between the lenses of the system 9 of the device and the carriages 7 and 8, as well as between the devices 10 and 11 and the carriages 3 and 4 of the photographs recorded on the additional carriage, the epedes represent the central projections of the horizontals corresponding to l & right and right pictures of a stereo pair. The images of these horizontals are illuminated by illuminators 12 and 13 and using the translucent surfaces 14 and 15 and against the 1-piece surfaces 16 and 17 of optical optical optical-mechanical blocks, the instrument system 9 is introduced. As a result, in the process of tracking horizontals, the operator can simultaneously observe the stereoscopic stereo model of the terrain and the horizontals aligned with it, This allows the telescope models to control the accuracy and correctness of the horizontal contours, to perform their generalization, placement and coordination both between themselves and with hydrography and the contour part, which reduces the time aatrates for the creation of the original map original and improves the accuracy and correctness of the display of geomorphological features th mappable area. The formula was invented and the Universal stereographic photogrammetric device, containing two photographic carriages and an observation system with two identical optical branches with lenses and measuring marks, characterized in that, in order to ensure the possibility of joint stereoscopic observation of the stereomodel, terrain and contour horizons, two identical optical-mechanical units each of which contains an additional carriage, a drawing device and an illuminator with a beam-splitting surface, moreover, in each optomechanical block an additional carriage is rigidly connected with the lens of the corresponding observation system and installed in parallel to the image carriage with which the drawing device is in contact with the plane of the additional carriage, and D each of the branches of the observing system is inserted into a beam splitter , optically connected with the plane of the auxiliary carriage, while the center of the drawing device is aligned with the image of the measuring mark. Sources of information taken in vnnmaniya during examination: 1. Bobir N. Ya. And others. Photogrammetry, M., ed. Nedra, 1974, pp. 294-324.

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