RU1831706C - Device for radial fixing of astronomical reflector - Google Patents

Abstract

Usage: optical instrumentation, in particular fastening nodes of large-sized optical elements. SUMMARY OF THE INVENTION: in the frame of the mirror, the brackets are evenly spaced around the circumference, four flexible tapes cover the mirror on four sides, each of the tapes is fixed in the bracket and provided with a tension mechanism. 1 ill.

Description

The invention relates to optical instrumentation, in particular to attachment points for large optical elements.

- The purpose of the invention is to reduce the deformations of the optical element that arise from the action of inertial forces perpendicular to the optical axis, gravity and temperature deformations of the frame

The drawing shows the construction of an astronomical mirror fixation device.

Four brackets 2 are fixed on the frame 1. Four flexible tapes are connected to the brackets through hinges 3. Tapes 4 hold the mirror 5 from being displaced in a vertical plane. The tapes 6 are held against horizontal displacement. Tension mechanisms 7 are used to center the mirror and the tension of the tapes (axial fastening elements are not shown in the drawing). The device operates as follows. The action of gravity (in the position the axis of the mirror is horizontal) or starting overloads are equalized reactive

forces of tapes. These forces are similar in nature to the forces when radially unloading the mirrors on the tape, which allows maintaining a good quality of the reflecting surface. Therefore, this design allows inspection and storage of the mirror on the rib without additional unloading devices.

The proposed fixation device also makes it possible to compensate for temperature deformations of the frame and ribbons.

Thus, for example, as the temperature rises, the frame 1 begins to expand. In this case, the bracket 2 moves radially from the center, striving to tension the ribbons. But at the same time, the tapes expand, and therefore the pressure on the mirror does not increase. By choosing the distance from the bracket to mirror B with known linear expansion coefficients of the frame, tapes and mirror, it is possible to achieve full compensation of temperature deformations.

For example, if the frame is made of titanium and 8 ribbons are made of Invar s .5 mirror is made of ceramic with rM), 15 x

With

WITH

100

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vj o

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10, then with a mirror diameter of 1500 mm, the distance to the brackets should be about 15 mm.

Claims (1)

The radial fastening of the mirror by means of tapes makes it possible to improve the quality of the reflective surface of the mirror, and imparting thermal compensation to this mount allows maintaining a good surface quality even at temperature differences. SUMMARY OF THE INVENTION Device for fixing an astronomical mirror in a radial direction an assembly comprising a frame with a mirror placed therein and brackets evenly spaced around the perimeter of the mirror, characterized in that. which, in order to reduce the deformations of the mirror, the device is additionally equipped with four flexible tapes interacting with the end surface with the mirror, while both ends of each of the tapes are pivotally fixed in the chain, and each tape is equipped with a tension mechanism. F1 t "s: , F,