RU2687306C1 - Device for fixing mirror of telescope - Google Patents

Abstract

FIELD: optics.SUBSTANCE: invention relates to optical instrument making. Device for fixing the telescope mirror comprises a base and three supports arranged uniformly along the circumference of the base. Supports are attached to the base by means of support brackets fixed by means of bolts-axes installed with tight fit of surfaces of support brackets and surface of the base. Supports are made in the form of oscillating arm, which are plates. At both ends of arms there fixed are tie-rods made in form of flat rods with cylindrical part-pancake at inner ends, connecting arms with mirror, when outer ends of rods are rigidly connected with arms, and inner ends of rods are glued in special recesses in end face of mirror. Arms are attached to the base by means of elastic bearings made of two identical halves, between which the arm is fixed. Each of the bearing halves is formed by a rigid centre and periphery interconnected by thin-walled flat plates - elastic lobes, due to elastic deformation of which the centre of the bearing can be rotated relative to the periphery. Ring is installed on the outer side of the mirror and is connected to the base. On the ring there are three tangential supports consisting of bracket with a ball-shaped finger. In the mirror there are special cavities in which the embedded bushings are glued, made cylindrical with flat inner walls. On back side of mirror there made is finning of special configuration, designed with special cells arranged evenly along ribbing circumference, intended for installation of tie-rods in them in form of flat rods with cylindrical part-pancake at inner ends. Number of mirror finning cells is equal to the number of tie-rods, and they are arranged so that each tie-rod is installed into the corresponding finning cell of the mirror.EFFECT: technical result consists in minimization of structural elements with uncontrolled backlashes, as well as elimination of additional mirror unloading at ground adjustment of telescope.1 cl, 3 dwg

Description

The invention relates to an optical instrument and can be used in spacecraft, in particular, for operational monitoring of the state of the earth's surface.

A device for mounting a large-size mirror of an opto-mechanical device in a frame, described in the RF patent №2528970, published on 20.09.2014, IPC G02B 7/183, G02B 7/192, is known. The fastening device contains a central support and at least three supports, each of which includes a supporting heel glued to the back surface of the mirror, connected to the frame with the possibility of moving along its surface, and permanent magnets are used as supporting feet. However, the design of this mounting device is complex, the connection of the supports with a mirror using magnets implies an exact fit of the adjacent surfaces of the magnet mirror, magnet magnet. This is a very difficult technological task, especially the use of a lubricant that changes size over time - the thickness of a temperature change, the extrusion of lubricant from the point of contact during operation and transportation of the mirror; changing the properties of the lubricant itself changes the optical properties of the mirror surface to the worse. In addition, when using unloading devices, it is due to the use of movable hinge joints, which in their design always have, although small, gaps, which do not in the best way affect the optical surface of the mirror.

The closest analogue of the proposed technical solution is the device mounting the telescope mirror, designed for mounting the mirrors of large telescopes, in particular, space. The device is described in the patent of the Russian Federation No. 2035759, published 20.05.1995, IPC G03B 7/18. The mounting device contains a base with three ball bearings, evenly spaced around the circumference. The supports are rigidly mounted on sliders, which have the ability to move in the corresponding directions, rigidly connected to the base. The axes of the guides intersect at one point lying on the axis of the mirror, and are located in one plane perpendicular to the axis of the mirror. The centers of the spherical heads of ball bearings are located in a plane passing through the center of mass of the mirror and perpendicular to the axis of the mirror. The centers of the spherical heads of ball bearings are located on a circle whose radius is equal to 2/3 of the radius of the mirror. However, in this mounting device, the installation of supports in the slider provides for gaps in the pair of slider-ball bearing, and the size of the gaps to ensure the movement requires much more than is needed to ensure the quality of the reflective surface of the mirror, should not exceed 0.05 microns. To eliminate this drawback, it is necessary to introduce mechanical unloading of the mirror, which greatly complicates the design.

The task of the claimed invention is to create a device for mounting a telescope mirror with a mirror suspension system using elastic hinges and a special design of the rear side finning of the mirror, allowing to achieve a technical result consisting in minimizing structural elements with uncontrolled backlashes and ground adjustment of the telescope.

This is achieved by the fact that in the mounting device of the telescope mirror, which contains a base and three supports, are evenly spaced around the circumference of the base, unlike the known ones, the supports are attached to the base by means of support brackets fixed with bolts-axes mounted with a tight fit of the surfaces of the support brackets and the surface of the base, the supports are made in the form of swinging rocker arms, which are plates, on both ends of the rocker arms are fixed thrust, made in the form of flat rods with cylindrical part-pancake on the inner ends, connecting the rocker arms with the mirror, when the outer ends of the rods are rigidly connected to the rocker, and the inner ends of the rods are glued into the recesses in the mirror butt, while the rocker arms are attached to the base by means of elastic bearings made of two identical halves, between which the yoke is clamped, and each of the bearing halves is formed by a rigid center and periphery, interconnected by thin-walled flat plates - elastic petals, due to the elastic deformation of which can be l carried the rotation of the center of the bearing relative to the periphery, additionally introduced ring mounted on the outside of the mirror and rigidly connected to the base, and three tangential supports consisting of a bracket with a spherical finger mounted on the ring, in addition, in the mirror there are cavities in which glued sleeves are glued, made cylindrical with flat inner walls, and on the back side of the mirror there is a finning designed with cells arranged evenly around the rim of the rim eniya intended for loading the rods in the form of flat rods with part-cylindrical pancake at the inner ends, the number of cells equal to the number of mirror finned rods, and they are located so that each strut has been set in the corresponding cell finning zerkala.Na FIG. 1 shows schematically a device for mounting a telescope mirror in section. FIG. 2 shows the assembly of the elastic bearing with a rocker. FIG. 3 schematically depicts a tangential support.

The mounting device of the telescope mirror (Fig. 1) contains a base 1, three evenly distributed around the support 2, rigidly attached to the base 1 using support brackets 3, screws and pins (not shown in the fig.), As well as using bolts axes 4, installed vnatyag with the surfaces of the parts to be joined, that is, with a tight fit of the surfaces of the support brackets 3 and the base surface 1. Each of the three supports 2, which are axial supports, is a node consisting of a swinging rocker arm 5, at both ends of which is locked thrust captivity 6, which connects the swinging rocker 5 with the mirror 7. The outer ends of the rods 6 are rigidly connected to the rocker 5, the inner ends of the rods 6 are glued in special recesses in the butt end of the mirror 7. Each of the six rods 6 is a flat rod with a cylindrical part-pancake on the inner end of the thrust 6, designed for sticking to the mirror 7. Each of the three rocker arms 5, which is a plate 2 mm thick, is attached to the base 1 by means of elastic bearings 8. Each of the bearings 8 consists of two identical halves, between the cat The beams are clamped to the beam - the beam 5. Each of the halves of the bearing 8 is a part formed by a rigid center 9 and a periphery 10 (FIG. 2), which are interconnected by thin-walled flat plates-elastic petals 11. Rotation of the rigid center 9 of the bearing 8 relative to the periphery 10 is due to the elastic deformation of the elastic petals 11. With any direction of the axial load, at least two of the four elastic petals 11, which work on stretching.

In addition, the transfer of lateral loads is carried out using three tangential supports 12, made of ball, sliding, while the tangential supports 12 do not prevent thermal deformation of the mirror 7 as part of the mount. Structurally, the tangential supports 12 consist of a bracket 13 with a finger 14 of a spherical shape (FIG. 3), which is mounted on a mechanical interface ring 15 mounted on the outside of the mirror 7 and rigidly connected to the base 1 of the mirror mounting device 7. The mirror 7 has special cavities , in which the embedded sleeves 16, made cylindrical with flat inner walls, are glued. Through the flat walls of the embedded sleeves 16, the power loads are transferred from the mirror 7 to the brackets 13 of the tangential supports 12. The organization of this method of interaction allows the transfer of only tangential forces to the circumference of the mirror 7 in each of the three tangential supports 12 at the installation locations of the sleeves 16. The side of the mirror 7 is made of finning 17 of a special configuration with special cells 18 designed to install in them the pulley 6. The structure of the fin 17 is designed in such a way that the thrust 6 in Idea flat rods with a cylindrical part-pancake on the inner ends of the rods 6 are installed in the corresponding cells 18 of the fin 17, and the number of cells 18 of the fin 17 corresponds to the number of the rods 6 installed in them.

The telescope mirror attachment device (Fig. 1) is mounted in the telescope lens housing and operates as part of a complex optical device. During operation, including as part of a spacecraft, during transportation, and storage, the device for mounting the telescope mirror experiences various stresses - shocks, vibrations, and temperature drops. Axial loads acting on the mirror 7 are transmitted through the thrust 6 to the supports 2 and the base 1, then to the lens housing. The transfer of tangential loads is carried out through the contact interaction of the finger 14 of the spherical shape with the flat inner walls of the embedded sleeves 16. The gap between the walls of the sleeves 16 and the spherical surface of the finger 14 is minimized by mutual fitting and selective selection of parts. Such an interaction allows the transmission of only tangential forces to the circumference of the mirror 7 in each of the three tangential supports 12.

As the material of the embedded sleeves 16, 32KDA alloy can be used to ensure minimization of distortions of the optical surface of the mirror 7 due to the inherent thermal deformations of the embedded sleeves 16. The use of elastic elements - swinging rocker arm 5, elastic bearings 8 and strands 6 avoids the destruction of the mirror 7, being a kind of mirror suspension shock absorber 7. On the other hand, the use of elastic elements makes it possible to reduce the errors of the optical surface of the mirror 7 arising due to temperature deformations. elements of the device for mounting the mirror 7 of the telescope, as well as the mirror 7 itself during operation, including when placed into orbit as part of the spacecraft. In addition, the special arrangement of the supports 2, and the structure of the structure of the fins 17 on the back side of the mirror 7, make it possible to avoid additional unloading of the mirror during the ground alignment of the telescope in the vertical position of the optical axis. The design of the device for fastening the mirror 7 is designed to minimize the presence in the structure of elements with uncontrolled backlashes, that is, a mirror suspension system is implemented using elastic hinges.

Thus, as a result of the proposed solution, a technical result is provided: a telescope mirror attachment device was created with a mirror suspension system using elastic hinges and a special design of the back side of the mirror fin to minimize the structural elements with uncontrolled backlashes and to eliminate additional unloading of the mirror during ground alignment telescope.

Claims (1)

A telescope mirror attachment device containing a base and three supports evenly spaced around the base circumference, characterized in that the supports are attached to the base by means of support brackets fixed with bolts-axles mounted with a tight fit of the surfaces of the support brackets and the base surface, the supports are made the form of swinging rocker arms, which are plates, on both ends of the rocker arms are fixed rods, made in the form of flat rods with a cylindrical part-pancake on the inner the ends connecting the rocker arms to the mirror when the outer ends of the rods are rigidly connected to the rocker and the inner ends of the rods are glued into recesses in the end of the mirror, while the rocker arms are attached to the base by means of elastic bearings made of two identical halves, between which the rocker is clamped, and each from the half of the bearings formed by a rigid center and periphery, interconnected by thin-walled flat plates - elastic petals, due to the elastic deformation of which the center can be rotated bearing relative to the periphery, additionally introduced ring mounted on the outside of the mirror and rigidly connected to the base, and three tangential supports consisting of a bracket with a spherical finger mounted on the ring, in addition, in the mirror there are cavities in which the inserts are glued, made cylindrical with flat inner walls, and on the back side of the mirror there is a fin, designed with cells evenly spaced around the fin, intended for Installations in them in the form of flat rods with a cylindrical part-pancake on the inner ends, the number of cells of the ribbing of the mirror is equal to the number of rods, so that each thrust is installed in the corresponding cell of the fins of the mirror.

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