SU600938A1 - Reflecting carcass of specular antenna - Google Patents

Description

I

The invention relates to radio engineering and can be used in mirror-antenna designs of the decimeter wavelength range when creating large-diameter antennas.

Known folding frame reflector with a folding truss ring stiffness and concentric rings of hinged rods. The folding frame has only one ring of stiffness associated with the top of the support (l.

 Such a frame has large deflections under the action of wind and weight loads.

The closest technical solution to the invention is a mirror antenna reflector frame, the contents of two rod multifaceted rims connected at the nodes by rigid stands and strings, radial and rigidly ring elements, forming a radial-ring structure supported by And.

However, this frame is characterized by a significant increase in deformations with an increase in the size of the diameter of the frame.

The purpose of the invention is to increase the rigidity of the frame and improve the accuracy of the reflective surface.

This is achieved by the fact that, in the proposed reflector frame of the mirror antenna, rod-shaped multi-faceted rims and rigid stands are located along the edges of the truncated pyramid, an axial strut is introduced, upper and lower

o the ends of which are connected additionally introduced by flexible elements with nodes of a rod multifaceted rim of smaller diameter connected to straps, and flexible radial

S elements are fixed on the upper end of the axial strut.

FIG. 1 shows the proposed frame, side view; in fig. 2 - the same plan.

0

The frame of the reflector of the mirror antenna contains two rod multifaceted rims 1 and 2, connected in nodes by rigid struts 3 and straps 4, flexible radial 5 and rigid

Claims (2)

5 ring 6 elements, forming a radial-ring structure supported by straps 7. Rod multi-faceted rims 1 and 2 and rigid pillars 3 are located along the edges of the truncated pyramid. In addition, the frame has an axial strut 8, the upper and lower ends of which are connected by additionally introduced flexible elements 9 and 10 to the nodes of the rod multifaceted flange 2 of smaller diameter connected to the straps 7, and the flexible radial elements 5 are fixed on the upper end of the axial strut 8 , hinges 11, rigid rods 12 and 13, central part 14, nodes 15 connected to straps 7 by corresponding hinges 11. Additionally introduced flexible elements 9, 10 of a rod multi-faceted rim 2 of smaller diameter, connected axially arranged 8 Coy increase the rigidity of the frame and the central portion thereof. The bundles of the braid 7 and the flexible radial elements 5 of the rod multifaceted rim 1, which are squeezed from its nodes, form tighter cable trusses with ascending guy cables. The arrangement of the rod multifaceted rim 1 and rigid pillars 3 and 6 of the edges of a truncated pyramid, which has a smaller polygon core rim 2 of smaller diameter in the smaller base, creates a four-span, three supporting structure of a framework of increased rigidity. The presence of a smaller diameter of leg 7, converging to a rod multifaceted rim 2 and the connection of flexible radial elements 5 by concentric rigid rigid ring elements 6 increases the rigidity of the radially-circular frame structure. Tension on a radial-ring structure, a reflective metal mesh or any reflective elastic material is easily mounted and works in each individual cell of the structure, like a flat, pre-stressed membrane, has less deflection and vibration and does not give any reflections of the grid when the wind changes. load. Thus, the proposed frame of the reflector of the reflector antenna, when used, in the structures of large radio telescopes gives a great economic effect associated with a decrease in the weight of turntables of reflector antennas with a decrease in drive power and costs for the manufacture and installation of all metal structures. Claims Reflector frame reflector antenna containing two rod-shaped multi-faceted rims connected in knots by rigid struts and straps, flexible radial and rigid ring elements forming a radial-ring structure supported by straps, characterized in that, in order to increase the rigidity of the frame and an increase in the accuracy of the reflective surface, rod-shaped multi-faceted rims and rigid stands located along the edges of the truncated pyramid, an axial strut is introduced, the upper and lower ends of which are connected Flexible inserted elements with nodes of a rod-shaped multi-faceted rim of smaller diameter connected to the straps, and flexible radial elements attached to the upper end of the axial strut. Sources of information taken into account during the examination 1. USSR author's certificate 495735, KJi. H 01 Q 15/16, 1974. 2. USSR author's certificate No. 402970, cl. H 01 Q 1/12, 1971. 7 It 1 1Z 13