SU937657A1 - Dome for optical systems - Google Patents

Description

The invention relates to buildings, for example for astronomical equipment, and can be used in the shelter of telescopes and outdoor optical systems.

A rotating dome is known, comprising a support part overlapping the two slit visor slit hingedly mounted on both sides of the dome on a common axis passing through the center of the sphere of the dome along its viewing slit at an angle to the plane of rotation of the dome 1.

The said dome contains a non-adjustable width, passing along the axis of the dome, a viewing slit with a small field of view, which causes a significant flux of background radiation and limits the observation of objects moving at significant angular velocities, in particular, on trajectories close to zenith , due to the need for a sharp increase in the speed of rotation of the dome as the observed object approaches the zenith.

The dome of the optical telescope in the form of a hemisphere mounted on a support is also known, which can be rotated about a vertical axis of symmetry of a hemisphere, part of which

10 has the shape of a segment mounted on the latter with the possibility of rotation relative to its axis located at an angle to the vertical axis of the hemisphere, and having an inspection hatch,

15 made in the form of a slit located radially, the width of which exceeds the width of the optical beam of the telescope, and the length ensures the intersection of the axis of rotation of the hemisphere during rotation

20 segment G 2 1.

Claims (3)

The disadvantages of such a dome are the complexity of the design of the segment drives and the visor covering the inspection hatch. In addition, the control becomes more complex and the force loads on the guidance drive increase. The closest in technical essence to the present invention is a rotating dome, including a supporting part, overlapping the viewing window two doors with the axis of rotation intersecting the axis of rotation of the dome, the valves of the valves and the Era-, the cheeks of the dome, as well as the internal door with a lifting device, mounted on the axis of the wings of the visor, and the viewing window is made in the form of a truncated ball segment with the inner door and two outer doors of the visor provided with sa | Separate rotational actuators C} The disadvantages of the known construction are insufficient protection of the optical system from background radiation and weathering, since the viewing window formed by the casement and the shell of the dome has the shape of a spherical lane, so that during the operation of the optical system remains unclosed in that part of the viewing room slits that are outside the transverse dimension of the luminous flux (exit pupil) of the optical system, 4 are also relative complexity of the control system. The purpose of the invention is to reduce background radiation. This goal is achieved by the fact that a dome of optical systems, containing a rotating hemispherical shell with a support ring, a viewing window made in the form of a ball lug, has an arch in the form of an arch hinged on the axis passing through the center of the hemispherical shell and leading, a hemispherical shell provided with an additional viewing window, the width of which is more than the transverse dimension of the light flux, formed by parallel vertical planes symmetrical with respect to the axis of rotation. The main and main viewing windows are located on the axis, perpendicular to the axis of rotation of the visor, and on the side of the shell, opposite to the placement of the main viewing window. FIG. 1 shows the appearance of a dome with an open outer sash; in fig. 2 is a view A in FIG. 1 9 (plan view of the dome); in fig. 3 section bb in fig. 2 (with the outer shutter visor closed); in fig. - view B in FIG. 3 (view of the additional viewing window open). The dome of the optical system consists of a hemispherical shell 1 rigidly connected to a support ring 2 supported on rubberized wheels. 3 The hemispherical shell has an additional viewing window k, which is closed by a recoil visor; 5, equipped with a drive 6, guides 7 and 8, and rollers 9; The lower end of the viewing window 10 is bounded by an eye area with a minimum angle of elevation, and the upper rim 11 is located from the zenith point 12 of the hemispherical shell at a distance greater than the transverse size of the luminous flux 13. viewing window over the transverse size of the light flux. The viewing window is located on the side of the hemispherical shell, opposite the viewing window 1, you - -. filled with the shape of a spherical dvuhgonk, whose upper arc 15 consists of a chord 16 from the zenith point of the hemispherical shell towards viewing window k at a distance more than half of the transverse dimension of the light flux. The lower arc 17 of the viewing window 1 is located below the upper end 11 of the additional viewing window by an amount not exceeding the transverse size of the luminous flux. The viewing window C is closed by an external visor 18, made in the form of an arch, equipped with actuators 19 In order to reduce background radiation in the dome space on the same axis as the visor 18, an internal, external visor 20 is installed, having its own drive 21 and also made in the form of an arch. i The dome is made to follow. When, according to the technological conditions, it is necessary to observe objects located in the zenith and near-zenith zones of the celestial sphere, the additional viewing window k is closed by the visor 5 and the observation is carried out through the viewing window 1, while using an external visor using the control system; 18 is set to the desired position, ensuring the passage of the light flux of the optical system through the slot, At the same time, the inner visor 20 tracks the position of the outer visor, providing a minimal slit in order to reduce the background radiation. In cases where it is necessary to observe objects that are below the near-zenith zone, i.e. in the area closer to the horizon, the viewing window 1 is closed by an external visor 18 and the optical system is operated through the additional viewing window i. At the same time, the visor 5 is diverted from an additional viewing window. Both in the first and in the second variants of observing objects, the drive of the dome rotation is included in the tracking system. As can be seen from the description of the dome, the lower observation zone in elevation through the viewing window I4 covers the upper observation area in the angle of M. place through the additional viewing window k a size larger than the transverse size of the light flux. The use of the proposed dome will reduce the level of background radiation in the dome space by about 50 when tracking through the additional viewing window k. The calculation of the reduction of background radiation is given below. The flux of background radiation is proportional to the area of the viewing window and the background brightness of Vf. Q 5Vf. Hence, the flux of background radiation of the known device is zr tWf, where r is the radius of the spherical shell; If is the angle of opening of the optimal viewing slit, determined by the exit pupil of the optical system, i.e. the transverse size of the luminous flux (- in radians). The background radiation flux of the proposed device C (tracking through the viewing window 4, the angular size of which is in vertical section d.-l.; O "w-h-4] | where is the angular size of the viewing window in the horizontal section, (1) and (2) the reduction of the background radiation is s (i-1.) OOCHЬafW "V.. b / The use of the proposed dome, in addition, gives an expansion of the viewing sector beyond due to the absence of restrictions in elevation from the horizon, increasing the rigidity of the structure for by reducing the size of the additional viewing window J and viewing window I with reduced dimensions. The basic object is the astropavilions (code 6b5) installed in the Uzbek SSR. Compared with the basic object, the invention reduces the background radiation flux by 50 and simplifies the drive and dome drive control system Claim of the invention: A dome of optical systems containing a rotating hemispherical shell with a support ring, a viewing window made in the form of a spherical loft, has been arched in the form of an arch fixed on an axis passing through the center of the hemispherical shell, and actuators, characterized in that, in order to reduce background radiation, the hemispherical shell is provided with an additional viewing window formed by parallel vertical planes symmetrical with respect to the axis of rotation of the dome, while the additional and main viewing windows They are located on an axis perpendicular to the axis of rotation of the visor and on the side of the shell opposite to the side (the displacement of the main viewing window. Sources of information taken into account in the examination 1. The author's certificate of the USSR 7 i 3t287, cl. E Ok Q 7/08, 1972. 2. USSR author's certificate (f 6U188, class EB 7/16, 1977. 3. USSR author's certificate of application tf 29 "3020 / 29-33, E O B 7/00, (prototype). 8 3 Phil.3