SU1765798A1 - Lighting system - Google Patents

Abstract

Use: optics, lighting. The essence of the invention is that the luminous flux of the additional source 6 of light with the help of additional side lens systems 8 and side reflectors 9 is summed with the flow of the main source 1 and directed to the illuminated area 5 of the central lens system 2 and side lens systems 3 with side reflectors 4. 1 Il.

Description

The invention relates to optics and can be used to illuminate objects with a light flux.

Known condenser ed. St. No. 205334, cl. G 02 B 19/00, 1966, comprising a central lens system mounted in front of the light source, a spherical mirror located behind the source, and a side lens system with side reflectors.

Its disadvantage is the low concentration of light.

The closest is a condenser by auth. St. No. 983624, cl. G 02 B 19/00, 1981, comprising a spherical mirror and a central lens system mounted on an optical axis and side lens systems with side reflectors placed around a central lens system through which the light source is optically coupled to the site.

The aim of the invention is to increase the density of light flux on the illuminated area without increasing the rear aperture angle.

The goal is achieved in that in a lighting system containing a spherical mirror and a central lens system mounted on the optical axis, and side lens systems with side reflectors placed around the central lens system, the light source being optically coupled to the illuminated area through the central lens system and through side lens systems - with side reflectors, an additional light source, an additional central lens system are installed between the spherical mirror and the light source placed on the optical axis of the lighting system, and additional lateral lens systems with side reflectors mounted around an additional central lens system, while the additional light source is optically coupled to the main light source through an additional central lens system and through additional side lens systems with the side reflectors, and an additional light source is optically coupled to itself using a spherical mirror.

When installing a second light source with a central and side lens systems between the spherical mirror and the main light source, the light flux density in the illuminated area increases.

The drawing shows an optical diagram of a lighting system that contains a first light source 1, a first central lens system 2, side lens systems 3 with side reflectors 4, an illuminated area 5, a second light source 6, a second central lens system 7, additional side lens systems 8 with side reflectors 9 and a spherical mirror 10, which can be accomplished by applying a mirror coating to the bulb of a ball flash lamp. Light sources 1, 6 are placed on the optical axis of the lighting system. The light source 1 is optically coupled to the illuminated area 5 through the central lens system 2 and the side lens systems 3, and the light source 6 is optically coupled to the light source 1 through the central lens system 7 and the side lens systems 8 with side reflectors 9, and also with itself using a spherical mirror 10. The lateral lenses of the system 3, 8 are placed on different sides from the optical axis. The number of primary lateral lens systems 3 and secondary lateral lens systems 8 is equal to or greater than two, but the same in the primary and secondary lateral lens systems. Additional lateral lens system 8 can be performed as the main, but with equal dimensions of the body of the glow of both light sources; it is advisable to install a side reflector parallel to the optical axis between the two parts of the lateral lens system. In this case, the diverging flux from the light source 6 is first converted into a parallel light beam, which is reflected by the side reflector 9 and focused on the optical axis in the image plane of the glow body of the light sources of the central lens system 7, in the subject plane of which a mirror image of the glow body of the light source 6 is created due to the reflection of the light flux from the spherical mirror 10. As a result, the light flux emitted by two sources in all directions is concentrated on the illuminated area dka 5.

Side lens systems 3, 8 can be made in the form of toric lenses located along the generators of a truncated cone. In this case, the side reflector 4 is made in the form of a surface of a truncated cone, and the side reflector 9 is in the form of a surface of a cylinder.

Claims (1)

Claim A lighting system comprising a spherical mirror and a central lens system mounted on the optical axis and side lens systems with side reflectors arranged around the central lens system, the light source being optically coupled to the illuminated area through the central 5 lens system and through the side lens systems with side reflectors, characterized in that, in order to increase the light flux density on the illuminated area without increasing the rear aperture angle, between a spherical mirror m and a light source, an additional light source, an additional central lens system located on the optical axis of the lighting system, and additional side lens systems with side reflectors mounted around an additional central lens system are installed, while the additional light source is optically coupled to the main light source through an additional central lens system and through 10 additional lateral lens systems with side reflectors, and an additional source with eta optically conjugate with itself via a spherical mirror.