SU484818A1 - Fibrous image converter - Google Patents

Description

 one

The invention relates to devices for anamorphic image conversion.

True fiber image converters containing two fiber blocks, the ends of which are inclined to the axes of the fibers.

The proposed transducer differs from the known ones in that the second transducer inserted into the device is rotatable around an axis perpendicular to this end, the second transducer whose fiber blocks are symmetrical to the first transducer

t "glno same end.

Such differences provide affine transformation of images of flat figures with the preservation of their areas.

FIG. 1 shows the described device in section and view along arrow A; in fig. 2 - the cross section of the first converter; Fig. 3 shows examples of converting a square into a figure of equal size with the aid of prioor (with coefficients deformations of anamorphots equal to two),

The converter consists of a ring 1 with a rigidly mounted in it, using an epoxy resin with hardeners 2 fiber-optic anamorphic 3. The cradle 1 can freely rotate in the holder 4, in which the fiber-optic anamorphite 5 is installed in the same way. the surface of the hoist 1 has a risk of 6, a graduation is applied to the holder 4, which allows to record the angle of rotation of the anamorphic 3 relative to the anamorphic 5.

Anamorphic 5 consists of two glued prisms (FIG. 2), made each in the form of a fiber unit with parallelly laid fibers. The shading direction in FIG. 2 shows the direction of the fiber axes in the prisms. When anamorphic 5 is overlaid with a lower base on the image of a flat figure at the output of this anamorphic, it is compressed in the direction of the arrow B in K a / times. Butt ends vshokon in glued from prisms lnamorfote

have Kocosi, which significantly reduces the light transmission of the entire device. For increased image illumination, the top and bottom edges of an / morphots can be matted, and the refractive index of the adhesive composition is equal to the coefficient of refraction of the material of the fiber.

Anamorphic 3 (Fig. 1) is an inverted acororphic 5.

The principle of operation of the device is that the unphrophote compresses the image of a flat figure by K times, and the anamorphot 3 stretches it K times so that the area of the transformed figure remains equal to the area of the original 7. When the ring 1 is rotated relative to the holder 4, the transformation character . its affinity is changed, and the rotation of the holder 4 relative to the original. 7, the direction of the transformation axis changes.

To obtain photographs of the transformed image, the original 7 is put on the glass 8, under which the light source 9 is placed. The original 7 is placed on the device and the required angle between the ring 1 and the clip 4 is set depending on the required conversion nature. At the same time, 3, a transformed isobray appears, which allows to control the result of the transformation visually. Then photographic paper is applied to the device.

and conventional contact printing of photographs is performed.

The visible transformed image at the upper end of the anamorphot 3 allows one to photograph it with a camera or to obtain photocopies from it.

If necessary, (; and getting the transformed image on drawing paper, it is applied to the device, and the image visible on it is outlined with pencil or ink.

If the upper anamorphot 3 is inverted, then the areas of the transformed figures relative to the area of the original will be reduced by K times.

F

formula of invention

20 Fiber image converter containing two fiber blocks, the ends of which are inclined to the axes of the fibers, characterized in that, in order to affinely convert the image of the Research Institute of Planar Figures with the Preservation of Their Areas, contact is placed with the end of one of the blocks: the possibility of rotation around an axis perpendicular to this end, the second

30 the maker, the Koq-opoi-o fiber blocks are symmetrical to the blocks of the first converter with respect to the same end.

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