SU495633A1 - Optical system - Google Patents

Description

one

The invention relates to optotechnics and may, in particular, be used in instrument making in combination with infrared radiation sources.

The known optical systems — condensers with a viewing angle that can cover only a part of the closed radiating surface of bulk radiation sources, such as the Nerist pin, do not allow the radiant flux to be used fully enough. The need to fully use the stream is most relevant with respect to sources that have a relatively low temperature and, therefore, brightness. It is also known that the magnitude of the flux depends also on the area of the source, which is in effective interaction with the lens. In part, the efficiency of interaction is increased by the use of a reflector. However, this is associated with a significant complication and increase in the overall dimensions of the optical system, as well as very often with the need for its implementation with a mirror-lens scheme, which leads to a narrowing of the spectral characteristics of the transmission and a decrease in this sense of the useful effect.

In order to increase the radiant flux in the proposed optical system, the collecting mirror is made in the form of a ball; between it and the source, a surface is also coaxially mounted with an outer mirror coating in the shape of a cone, in which a transparent w, spruce ring, or through in the body of the cone, or only on its surface, is made at a certain distance from it.

In the drawing, the scheme of the optical system on the radiator is shown.

The diagram shows: 1 - a collecting mirror in the form of a ball on sa, 2 - a mirror cone, 3 - a slit, 4 - a jumper, 5 - an emitter, 6 - an electric heater. The coupling mirror and the cone are aligned, i.e., their ix axes along the generators coincide.

The center of curvature of a spherical ball lies on the axis of the system; therefore, for a parallel beam of rays emanating from the system, the focal surface will be at a distance equal to the curvature radius board, and in the general case, near this distance. The second conical surface has a slit in the form of a ring, which serves to transmit a radiant flux from the source at its narrowest section. In the general case, these slits are made at a distance close to the focal length of the collecting mirror. In the drawing, this slit is shown by the skosny, dividing the tapered surface into two halves. To connect these halves

A jumper 4 serves. If the body of the cone is made of a transparent material, then the slit may be not through, but formed by removing the reflective coating from the cone. The surface of the volumetric radiator 5 must correspond to the shape of the focal surface. Due to such a device of the system, the radiant flux is collected by a spherical mirror in an angle of 360 ° and is directed to the mirror surface of the cone, from where it reflects and spreads into the image space. The optical system has the property of reversibility and can work in conjunction with the receiver of the radiator. For greater effect, the latter must be made in the form of a ring.

Claims (1)

4 claims An optical system designed, for example, to work with an emitter, containing two coaxially mounted mirror surfaces, one of which is made in the form of a cone with an outer mirror coating, characterized in that, with a beam of radiant flux collected from the closed surface of the transmitter another, in the plane of the equator, at a distance of half of its radius from smallpox surfaces in tion of which it is made transparent slit. ,