SU678450A1 - Lens condensor system - Google Patents

Description

(54) LENSAGES CONDENSING SYSTEM.

Claims (2)

The invention relates to technical physics, namely to optics, in particular, to lighting devices of projection devices. Known condenser systems containing two components 1. The closest to the invention in its technical nature is a condenser containing two components, the second of which consists of two single positive lenses 2. A disadvantage of the known devices is that the illumination in the projection plane of the illuminated object ( on the screen) is unevenly distributed. The purpose of the invention is to improve the uniformity of illumination in the projection plane (on the screen) of the illuminated frame. This goal is achieved by the fact that in a lens condensing system that contains two components, the second of which is of one of two single positive lenses, the first component is made in the form of a convexity to the radiation source of a spheroelliptical meniscus, the center of curvature of the spherical surface of which is aligned with the radiation source and with the second focus of the convex ellipsoidal surface, the eccentricity of which is equal to the reciprocal of the refractive index of the lens material. The drawing shows an optical encoder circuit. The condenser consists of two components 1 and 2. Component 1 is made in the form of a concavity facing the radiation source (not shown) of a sphero-elliptical meniscus whose center of curvature of the spherical surface is aligned with the radiation source and with the second focus of the convex ellipsoidal surface 3 whose eccentricity equal to the reciprocal of the refractive index of the lens material. Component 2 consists of two single positive lenses 4 and 5. Lens 5 is made in the form of a meniscus with a concavity facing the image. . Component 1 transforms the object (radiation source), located at its focus, to infinity. Two-pin component 2 transfers the image of the object from infinity to its focal plane. The illuminated object may be located in the course of rays passing through the condenser. The sphero-elliptical meniscus 1, whose center of curvature of the concave spherical surface coincides with the second focus of the ellipsoidal surface, and its eccentricity is equal to the reciprocal of the refractive index of the lens material, is a particular case of a non-abrasive or Cartesian lens. The uniformity of illumination changes due to the property of spheroelliptic meniscus 1 to redistribute the light flux from the center to the edges of the frame, or vice versa, depending on its location relative to the light source and whether it is convex or concave with respect to the latter. This property of the sphero-elliptical meniscus 1 is due to the large deviation from the condition of the sinuses, it is: it depends on the refractive index of the lens material n and equals -. for the aperture ray bounded by the minor axis of the ellipse. The difference in linear magnification of the spherical-aberration free condenser for the aperture and paraxial rays is also equal to -r-Cg-This is the change in the linear increase in the aperture and determines the distribution of illuminance in the projection plane of the illuminated area. In a condenser, a sphero-elliptical meniscus about 5 is concavity to an object located in the second focus of a convex ellipsoidal surface, the second component 2 consisting of two single positive Lens is designed to minimize spherical aberration. In this case, the linear increase / dl of the aperture beam is greater by the –paraxial linear increase of about, and the ratio of the illumination at the edge of the screen to the illumination in the center of the screen in / Ро is f times Ъ 1о higher than in systems where the linear increase does not change. is aperture. Claims of the Invention A lens condenser system containing two components, the second of which consists of two single positive lenses, is so that, in order to increase the uniformity of the light, the first component is designed as a concavity facing the plane of objects of a sphero-elliptic meniscus, the center of curvature of the spherical surface of the second one is aligned with the radiation source and the second focus of the convex ellipsoidal surface, the eccentricity of which is equal to the reciprocal of the refractive index the lens material. Sources of information taken into account in the examination 1.Volosov DS and others. Theory and calculation of optical systems. M., Art, 1960, p.406. 2. Maltsev MD and others. Applied optics and optical measurements, M., Mashinostroenie, 1968, pp.240-243.