SU1760511A1 - Device for obtaining magnified image of object - Google Patents

Abstract

Use: observation of objects in the light in medicine, biology, flaw detection, and people who do not have a crystal eye. SUMMARY OF THE INVENTION: The device comprises a point light source, an object table mounted for movement along an axis, and a positive lens positioned between the light source and the object table, while the exit pupil of the device is behind the point optically conjugated through the lens to a point light source. 1 hp f-ly, 2 ill.

Description

The invention relates to optics, more specifically, to lens devices for examining objects in light.

A device for obtaining an enlarged image of an object is known, which contains a plane-convex lens and an object table for the object under study.

The known device is used as a magnifying glass in observing objects in reflected light and is not intended for working in the light, which is its disadvantage.

Closest to the claimed object is a device comprising a illuminator, a stage and a magnifying glass (positive lens).

This device is selected as a prototype.

The disadvantage of the prototype is that its design does not allow an enlarged image to be seen by persons who lack the lens of the eye.

The purpose of the invention is to expand the functionality of the device by providing the possibility of observation by people who lack the lens of the eye.

This goal is achieved by the fact that in a device for obtaining an enlarged image of an object containing an illuminator, an object stage and a positive lens, a point source of light is used as an illuminator, and a lens is placed between the light source and the object stage, optically conjugated through a lens with a point light source; in addition, the stage is mounted for movement along the optical axis.

FIG. Figures 1 and 2 schematically show the main components of the proposed device and show the principle of forming an enlarged image.

A device for acquiring an enlarged image of an object contains a point light source 1, which includes an incandescent lamp 2, a light filter 3 of milky light, a capacitor 4, and a diaphragm 5 with a circular dotted hole.

The light flux generated by a point light source 1, by a diverging beam 6, illuminates the positive lens 7. For simplicity, the positive lens 7 is shown in the form of a plane-convex lens. In a real device, it is advisable to use a complex optical system made of several lenses with different refractive index and radius of curvature of the spherical surface, which makes it possible to significantly correct the chromatic and spherical aberrations. After refraction in the lens 7, the light wave passes through the object of study 8 and is partially obscured by it, with the result that the real shadow image 11 of the object 8 is formed on the retina 9 of the eye of the observer 10. This image is perceived by the observer at a distance of the best view. does not require strain on the eye muscle. The image 12, perceived by the observer, is inverted relative to the shadow image on the retina 11.

The object of study 8 is fixed on the stage 13, which can move along the optical axis of the lens 7 when the screw 14 is rotated.

To obtain an enlarged image of the object 8, the stage 13 with the object 8 must be moved along the optical axis of the lens 7 towards the vanishing point S of the light beam, as shown in Fig. 2. The increase results from the goy, in which case the boundaries of the object 8 are illuminated by by the rays 15 of the gathering beam, which enter the eye 10 of the observer at a large aperture angle. In the first case, when object 8 was closer to lens 7 (Figs. 1 and 2), the boundaries of object 8 were illuminated by the central part of beam 16. These rays get into the eye 10 watch ate at an angle with. Since / 3 and the dimensions of the image 17 are larger than 11. Naturally, therefore, the image 18 visible by the observer will be greater than 12. The magnification depends on the optical power of the lens 7. The greater the optical power of the lens 7, the greater the magnification can be obtained with adequate moving the stage 13,

The proposed device for obtaining an enlarged image of an object is intended primarily for individuals with severe vision loss due to a defect in the lens of the eye or its absence.

Claims (2)

1. A device for acquiring an enlarged image of an object containing an illuminator, a stage and a positive lens, characterized in that, in order to enhance the functionality by providing observation by people who do not have an eye lens, a point light source is used as an illuminator. and a lens is installed between the light source and the stage, while the exit pupil of the device is located behind the point optically conjugated through the lens to a point light source. 2. The device according to claim 1, characterized in that the stage is mounted for movement along the optical axis. 2 J 4