SU525907A1 - Honeycomb mirror - Google Patents

Description

(54) CELLULAR

i

The invention relates to optics and can be applied to optical devices, in particular telescopes operating in the stratosphere and space.

Mirrors for telescopes are known, in which the temperature control is carried out by circulating coolant 1 and 2 through the drainage holes.

The closest to the technical dryness to the present invention is a cellular mirror containing a plate-mirror, a package of honeycombs with grooves and a plate-substrate with drainage holes Z.,

However, when working on an object with sufficiently intense thermal radiation, for example, on the Sun, due to the heating of the plate-mirror, the temperature gradients form through the thickness of the mirror and thermal moments appear that distort the working surface and reduce the quality of the optical image.

The purpose of the invention is to preserve the quality and shape of the working surface of the mirror when working in volume with an intense; thermal radiation by the 1st, for example iep on the Sun.

For this purpose, in the proposed mirror, a conductive coating is applied to the external surface of the wafer-substrate, which is included in the unified thermal control system of the mirror.

In this case, the outer surface of the substrate plate is heated in accordance with the amount of thermal radiation absorbed by the mirror plate.

The drawing shows the design of the proposed honeycomb mirror.

The mirror consists of a plate-type mirror 1, a honeycomb package 2 with grooves 3, a plate-subjugation: and 4 with drainage holes 5, a side shell 6 with drainage holes CTHeN 7 and a current-conducting layer 8.

The electrical resistance of the conductive coating is calculated from the magnitude of the required heat generation during the passage of electric current. Thus, for a heat output of 50 W when supplied with a voltage of 27 V, it is necessary to reduce the current lead of the coating to 140 ohms.

In the process of operation, the passage of electric current through the conductive layer 8, heats

The outer surface of the substrate plate is applied, the heat is compensated for the moments on the mirror and thereby restoring the quality and shape of the working surface.

Management of the process of heating the substrate can be made either by changing the temperature of the working surface, or. By changing the position of the focal plane of the mirror.

Claims (3)

1. The patent of France No. 2088013 from 1972 Class Q 02 B 23/00. 2. US patent number 3708223 from 1972, Class 350-310. 3. USSR author's certificate No. 408255 dated 1O.12.73, M.C. Q-02 23 / O2 (prototype).