SU447786A1 - Radio telescope reflector rotator - Google Patents

Description

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This invention relates to telescopic engineering, in particular to radio telescopes,

Known rotary devices of radio telescope reflectors, containing a central ball bearing made in the form of a hydrostatic pillow.

On such devices, rotation around the horizontal axis is in a forceful way similar to a two-support beam. Rotation around the vertical axis does not significantly affect the deformation of the surface of the reflector. However, such structures do not completely solve the problems of surface deformation and have a complex turning system. Attempts to reduce the deformation are reduced to the reinforcement of the reflector frame, which is associated with an increase in weight, and it is necessary to solve the problem of rotating the reflector in two mutually perpendicular planes. The latter put the limit on

manufacture of large radio telescopes-reflectors and require special manufacturing technology

The proposed rotary device is characterized in that on the back side of the reflector at equal distances of the heaters there are hydraulic boom supports. This allows the elastic deformation of the reflector surface to be reduced.

FIG. I shows the proposed device; in fig. 2- power moments in the pivot supports.

The parabolic (or any other, second) reflector or large canvas of the common-mode radio antenna is completely supported by the center fixed support (see Fig. 1, A), the upper support end of which is a hydrostatic cushion or hinge (chosen depending on weight I reflector). Freely balanced relative to the central support

the reflector has free movement, in particular, in two mutually perpendicular planes.

Under this condition, it is easy to turn the reflector with a small moment of force applied to different points of the back side of the reflector and spaced some distance from the center of gravity. Moments of force can be applied to all points of the back side of the reflector from bottom to top. By increasing or decreasing the torque applied to different proportional parts of the reflector rear, you can rotate it. To rotate the reflector and track its radiation pattern over all the celestial objects, there with given trajectories (ephemeris data) of motion it is sufficient to apply a force of three

reference points (see Fig. 2t FT ° 2 and Ft,) located at the vertices of an equilateral triangle and at equal distances from the center of the reflector.

Force moments from forces Kg, and Fg are created by

rod-supports (see, fig. 2 a, c and b), which change the lengths f on the computer, and in the upper and

the lower ends of the support rods are hinged, so the angles of inclination of the latter relative to the plane of the horizon vary subtly and are not specified in the control program. An unprogrammed change in the length of one of the rod-supports will change the dynamic load acting on the reflector, which is used as a feedback signal to correct the tracking of the object in the

Fig. I (biv) shows two support rods in the form of a hydraulic system, whose lengths vary by pneumatic displacement of the pistons 8 to which they are fixed.

movable parts of the rod-rpor.

The number of support rods can be increased as much as necessary, however, in the computer control program it is necessary to set the corresponding changes. only length of three

rod-support- g ° lengths / V / & / Urj / v; - located in the same way.

Motion transmission is reversible, t, e, the control rod support can push the reflector or attract. Therefore, if necessary, hydraulic support rods can be replaced with Gall chains and turning by attraction. At the same time, the control computer should be replaced with an analog computer. .

The design is simple to manufacture, has a small specification of parts that do not require special technology. The reflector mounted on this rotator can be constructively strengthened without fear of increasing the weight. In addition, the device has high resistance to wind loads, has no dead viewing space, and has high maneuverability and speed of displacement.

The optical reflector can be installed on the rotary device - a mirror with a diameter of more than 10 c.

The Present Invention

A rotary device of a radio telescope reflector containing a central ball bearing made in the form of a hydrostatic pillow, characterized in that, in order to reduce elastic deformations of the surface of the reflector, on the back side of the reflector at equal distances from the support there are fixed hydraulic booms. 7 // 97. / TG77

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FIG. Z