SU1660085A1 - Subdish foot - Google Patents

Description

The invention relates to antenna technology, mainly to large radio telescopes. The purpose of the invention is to reduce the shading of the antenna by reducing the cross sections of the constructions of the support of the counter reflector antenna 1 contains four posts 2 5 arranged in pairs in two orthogonal meridional planes. Racks 2 and 4 lower ends mounted on the frame 6 on the elevation axis 13, racks 3 and 5 - on the frame 6 on the console parts of it. When the antenna 1 rotates along the elevation angle, the pillars 3 and 5 are displaced by величину relative to the pillars 2 and 4. To compensate for the deformations, the pillars 2 and 4, 3 and 5 are pairwise connected by rods, which are fixed to each other by means of a single-motion kinematic link ensuring their displacement relative to each other along the focal axis of the antenna 1. Due to the proposed design, the deformations and stresses in racks 2, 3, 4 and 5 are reduced, they can be made thinner, reduce the shading of antenna 1 and stabilize the position of the counter reflector 8. 4

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1660085

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The invention relates to antenna technology, mainly to large radio telescopes.

The purpose of the invention is to reduce the shading of the antenna by reducing the cross section of 5 posts and stabilizing the position of the focal axis of the counter reflector.

Figure 1 shows the antenna, a section along an angle axis; figure 2 - section aa in figure 1; on fig.Z - view along arrow B in figure 1; ' FIGS. 4 to 10 show the antenna deformations and the counter reflector support as the elevation angle changes.

The counter-reflector support of antenna 1 contains four racks 2–5 arranged in pairs in two orthogonal meridional planes, one ends of racks 2–5 are fixed to the frame 6 of antenna 1, and the others are connected by a transom, which is equipped with an assembly 7 for mounting a counter reflector 8.

The bolt is made in the form of two towers 20 9 and 10, with the rod 9 mounted between the uprights 3 and 5, and the rod 10 between the uprights 2 and 4. The rods 9 and 10 are interconnected by a single-motion kinematic link, for example, consisting of two 11 mounted on the rod 9, and two holes 12 on the rod 1.0, which interact with the guides 11, providing an offset. rods 9 and 10 relative to each other along the focal 30 axis of the antenna 1.

When turning the antenna 1 relative to the elevation axis 13 of the rack 2 nd 4, located in the meridional plane passing through the elevation axis 13 and resting on it, move along the focal axis less than the supports 3 and 5 lying in the orthogonal plane and resting on the cantilever parts frame 6 (figure 4). The difference in displacements of two pairs of racks 2, 4 and 3, 5, equal to ό, is compensated by moving the rod 10 relative to the rod 9, connected to each other through a single-motion kinematic link consisting of guides 11 on the rod 9 and holes 12 on the rod 10.

The proposed design allows you to reduce the deformation of the racks 2-5, to reduce their cross section, resulting in reduced shading of the antenna 1 and stabilizes the position of the focal axis of the counter reflector 8.

Claims (1)

Claim An antenna counter-reflector support containing four racks arranged in pairs in two orthogonal meridional planes, one ends of the racks fixed on the antenna frame, and the others are connected by a transom, which is equipped with a counter-reflector assembly, different By the fact that, in order to reduce antenna shading and stabilize the focal axis of the counter reflector, the bolt is made in the form of two rods, each of which is installed between a pair of racks, the rods are connected by a single-motion kinematic link, ensuring their displacement relative to each other along the focal axis of the antenna. 1660085