RU1794267C - Parabolic reflector - Google Patents

Abstract

Usage: as reflectors of parabolic antennas for receiving television broadcasts from communication satellites. SUMMARY OF THE INVENTION: a substrate of a reflective surface is made of a composite material comprising several layers of fiberglass. In adjacent layers of fiberglass, the filaments are offset by 45 °. The reflective surface is made of metallized fiberglass, the warp and weft of which are offset by 90 °. A protective coating in the form of a layer of fiberglass is laid on a reflective surface. The ratios of the thicknesses of the substrate of the reflecting surface and the protective coating and the number of warp and weft threads in each fiberglass layer are given. 3 ill. Ј

Description

The invention relates to antenna technology and can be used as reflectors of parabolic antennas for receiving television broadcasts from communication satellites.

A parabolic reflector made of a composite material is known, comprising a layer with a reflective surface, a protective layer and a power layer including a filler in a binder.

A disadvantage of the known parabolic reflector is the lack of directional oriented elements in its construction that increase the stability of the geometry of the reflecting surface.

Also known parabolic reflector containing a substrate of a composite material comprising several layers of fiberglass, and applied

on a substrate a reflective surface of metallized fiberglass.

However, the stability of the geometry of the reflecting surface was not achieved in this parabolic reflector either.

To solve this problem and improve the quality of transmission reception in a parabolic reflector containing a composite material substrate including several layers of fiberglass and a reflecting surface of metallized fiberglass deposited on the substrate, the filaments in adjacent layers of the fiberglass are shifted by 45 °, in the metallized fiberglass, the metallized yarns warp and weft are offset by 90 °, a coating in the form of a layer of fiberglass is laid on a reflective surface. The ratio of the thicknesses of the substrate, reflective surface and protective coating is from 20: 2.4: 1 to 18: 2.5: 1, and the price is XJ

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4 SE VI

 With

the number of warp and weft threads in each fiberglass layer is from 1: 1 to 1: 1.5.

Features of the parabolic reflector are giving the filaments in adjacent layers of the fiberglass a 45 ° offset, the metallized warp and weft in the metallized fiberglass - a 90 ° offset, introducing a coating layer of fiberglass on a reflective surface and the above ratio of the thicknesses of the substrate, reflecting surface and protective coating and the ratio of warp and weft in each layer of fiberglass.

In Fig, 1 presents a parabolic reflector in cross section; figure 2 is a fragment of the shell of the reflector on an enlarged scale: in Fig.Z shown in projection on top view of the location of the reinforcing threads.

The parabolic reflector contains a substrate 1 of a composite material comprising several layers of fiberglass 2, and a reflective surface 3 of metallized fiberglass is deposited on the substrate 1. In adjacent fiberglass layers of the substrate 1, the filaments 4 are shifted by 45 °, in the metallized fiberglass of the reflecting surface 3, the metallized warp and weft 5 and b are shifted to each other. By 90 °, a coating 7 in the form of a fiberglass layer is laid on the reflecting surface 3. The ratio of the thicknesses of the substrate 1, the reflecting surface 3 and the protective coating 7 is from 20: 2.4: 1 to 18: 2.5: 1, and the ratio of the number of warp and weft 4 in each fiberglass layer of the substrate 1 is from 1: 1 to 1 : 1.5.

As the reinforcing layers of the substrate 1 and the protective coating 7 was used fiberglass TSU 8/3-VM-78 according to TU 6-11-292-83 or T-10 according to GOST 19170-73 or E 0-12 according to GOST 51544-72 or EZ -100 according to GOST 19907-83, as reinforcing layers of the reflecting surface 3 - fiberglass from metallized threads SMMT according to TU 6-11-171-76.

The fabrics were impregnated with a cold cured polyester or epoxy binder, the reflectors were manufactured by contact molding,

The experimental data are given in the table.

Parabolic reflectors of 1.8 m were subjected to experimental verification by applying a load of 200 kgf directed along the axis of symmetry (to simulate wind load at a speed of 30 m / s). The load cells were installed at a radius equal to 0.25 of the diameter of the reflector.

0

5

Based on deformation not exceeding 0.3 mm at any point on the reflective surface, reflectors with a ratio of the thicknesses of the substrate 1, reflective surface 3 and protective coating 7 From 20: 2.4: 1 to 18: 2.5: 1 are the most effective .

Thus, in the parabolic reflectors based on the invention, the geometry of the reflecting surface is improved, optimal radio characteristics are achieved and transmission reception is improved.

Claims (1)

SUMMARY OF THE INVENTION A parabolic reflector comprising a substrate of a composite material including several layers of fiberglass and a reflective surface made of metallized fiberglass coated on a substrate, characterized in that, in order to increase the stability of the geometry of the reflective surface, in adjacent layers of fiberglass the filaments are offset by 45 °, in the metallized fiberglass, the metallized warp and weft are offset by 90 °, a coating in the form of a fiberglass layer is laid on the reflective surface, the ratio of the thicknesses of the substrate, reflective surface and protective coating is from 20: 2.4: 1 to. 18: 2.5: 1, and the ratio of the number of warp and weft threads in each fiberglass layer is from 1: 1 to 1: 1.5. FIG. 1 FIG. 2 FIG. 3 4,5,6