SU832518A1 - Stereoscope for observing panoramic photographs - Google Patents

Description

(54) STEREOSCOPE FOR OBSERVING PANORAMIC

IMAGES

The invention relates to stereoscopy, namely to devices for the visual analysis of panoramic images. A stereoscope is known that contains an observation system with one pair of mirrors deployed at an angle of 45 ° to the observer and images located in the plane of the illuminator glass 1. However, the design of the above device does not allow for stereoscopic analysis of panoramic images, since in these stereoscopes the image holders have a flat shape . A stereoscope for viewing panoramic images is known, containing two identical channels including a system of mirrors, an illuminator and a photo holder with a light-transmitting substrate made in the form of a cylindrical surface 2. A disadvantage of the known device is that it can perform a visual analysis of panoramic images whose radius of curvature equal to the radius of curvature of the snapshot. The purpose of the invention is to expand the operational capabilities of the stereoscope. This goal is achieved by the fact that in a stereoscope the light-transmitting substrate is made of flexible material and is connected with the upper and lower guides of magnetic rubber, having vertical grooves located at the same distance from the substrate along the entire length of the frame. FIG. 1 shows the construction of a stereoscope; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows the compass design to simulate the curvature of the surface of the snapshot holder. The stereoscope has two identical optical channels for observing the left and right panoramic images, each of which contains a mirror 1, between which and the observer are installed a hood 2 fixed to the bracket 3. The panoramic image 4 is pressed against the concave surface of the light-transmitting substrate 5 and fixed along the edges by means of four identical clips 6. Substrate 5, acting as a snapshot holder; It has a matte finish and is made of flexible material, for example

plexiglass. The substrate 5 is fixed between mutually parallel steel ground plates 7 and 8 by means of two axes 9 and 10 and two guides 11 and 12. The bottom 9 and top 10 axes are rigidly fixed at the midpoint on the end face of the substrate 5 and pass through the holes 13 and 14 in lower and upper 8 steel plates. The bottom 11 and top 12 guides are fixed at the ends of the substrate 5 and made of magnetic rubber. In the body of the guides 11 and 12 there is a vertical groove 15 and 16 extending at the same distance from the substrate of the image holder 5. This groove is intended to simulate the curvature of the surface of the light transmitting substrate 5.

Steel plates 7 and 8 are rigidly fixed on the reflector 17 of the illuminator of the image and are mutually parallel to each other. Three fluorescent lamps 18 are installed between the reflector 17 and the light-transmitting substrate 5, providing uniform illumination of the image 4. The image illuminator is mounted on a horizontal carriage 19, which can move along the guides 20 by rotating the handle 21 connected via a gear to a comb 22. Guides 20 mounted on the stand 23 of the stereoscope. In the stand 23, a sleeve 24 is pressed in to fix the compasses with which the imaging surface is brought to the proper radius of curvature.

The compass has an axis 25, in the upper part of which there is a guide 26, along which the ruler 27 can move. The ruler position is fixed by means of a screw 28. At the end of the ruler 27, the tube 29 is rigidly fixed, on the ends of which spring-loaded fingers 30 and 31 are mounted. 32 and 33, the fingers 30 and 31 can be recessed into the tube 29. On the ruler 27 between the tube 29 and the axis 25 there is a carriage 34, in the lower part of which there is a support bearing 35, and in the upper part - a handle 36 with a locking screw 37. On the upper the surface of the ruler 27 is millimeter trova scale 38, a place which is zero on the vertical axis passing through the centers of the fingers 30 and 31. The guide 26 has a window 39 in the center of which there is an index wire 40, and on which is set a predetermined value of the radius R of curvature.

The device works as follows.

Prior to observation on a stereoscope, it is adjusted in order to bring

to the radius of curvature equal to the radius R of the curvature of the panoramic images.

For this, the carriage 19 is maximally removed from the mirrors 1, and the axis of the compass 25 is inserted into the sleeve 24. The ruler of the compass 27 moves to a count equal to the radius R of the curvature of the panoramic picture, and fixed with a screw 28. Next, the carriage 19 comes to the compass tube 29 in this way so that the grooves 15 and 16 were located on

one vertical axis with fingers 30 and 31. In this case, the sliders 32 and 33 are compressed and the fingers 30 and 31 are recessed into the tube 29. After releasing the sliders 32 and 33, the fingers 30 And 31 enter into the slots 15 and 16. Next, using

handles 36 compasses turn to the left and right of the center position so that the fingers 30 and 31 move along the entire length of the groove 15 and 16. At the same time, the guides 11 and 12, made of magnetic rubber, and the substrate 5 are turned along

radius R and are fixed in this position. The adjustment of the right snapshot holder is performed similarly.

Thereafter, the panoramic images 4 are fixed on the substrate 5 and the carriages 19 are mounted at a proper distance from the viewer's eyes.

The proposed stereoscope allows analyzing images of various curvatures, for example, panoramic X-rays of cylindrical blanks, the radius of curvature of which depends on the size of the product.

Claims (2)

1.Feoktistov V.I. X-ray image, its metric properties and their use in the clinic. L., 1966, p. 168. 2.Kohnle N. Rontgenstereo verfahren. - “Handbuch der Medizinischen Radiologie Berlin, 1967, Bd. 3,310. h tv. NI to s