RU2024130C1 - Parabolic reflector of satellite television antenna - Google Patents

Abstract

FIELD: satellite television. SUBSTANCE: reflecting surface and first shell are made of carbon plastics, in which carbon fabric of serge interweaving of 2/2 is used as collector. Carbon fabric has equal strength of base and weft with density of 6 threads per centimetre. Current conducting bars are located between carbon plastics layer and inner layer of first shell. Ratio of thickness of base - first shell, cell filler and second shell layers is given. EFFECT: parabolic reflector of satellite television antenna is used in space television.

Description

 The invention relates to antennas for satellite television receiving systems, designed to receive television signals under the influence of sudden changes in ambient temperature with simultaneous exposure to climatic factors and mechanical stresses from gusts of wind up to 25-40 m / s.

 The aim of the invention is to increase reflectivity, increase stiffness and strength under the influence of climatic factors, as well as weight reduction.

 The substrate of the parabolic reflector is made of two skins and a honeycomb core located between them.

 The first skin has an outer and inner layer. The outer layer is made of carbon fiber and is simultaneously reflective. In carbon fiber, 2/2 carbon twill weave is used as a filler, having equal strength on the basis and a weft with a density of 6 threads per centimeter. The inner layer is made of fiberglass layers. Between the outer and inner layers of the first sheathing are current-conducting buses in the form of arcs along the periphery of the parabolic reflector in diametrically opposite zones and in the form of a ring in the central part of the parabolic reflector.

 The inner layer of the first skin and the second skin are made of fiberglass. The ratio of the thicknesses of the first skin (reflective surface), honeycomb core and the second skin is (1-1.2) :( 12-25) :( 1-1.2).

 An example of a parabolic reflector.

On the template that repeats the inner (reflective) surface of the parabolic reflector of the antenna, a release layer is laid out on the surface of which a layer of carbon fabric UT-900-2.5 TU 6-06-16-105-88 is laid. On the surface of carbon fabric in the form of arcs around the periphery of the reflector there are copper current-conducting buses in diametrically opposite zones of its surface. In the central part of the reflector, an annular copper conductor is arranged on the surface of the carbon fabric. The carbon layer is rolled and two layers of the prepreg based on fiberglass T-10 and T-41, which are also rolled, are laid on its surface. Spread honeycomb AMG-2n with a 2.5 mm cell and a bulk weight of 34 kg / m ³ , OST 1.00.728-75 on the surface of fiberglass prepregs. Three layers of T-41 and T-10 fiberglass fabric prepreg are laid on its surface.

 The entire set of layers is coated with release, drainage and sealing layers and the product is molded according to the curing mode of the polymer binder used in the prepreg.

 The finished product is protected from flash and checked by a template for compliance with geometric dimensions.

Claims (1)

 SATELLITE TELEVISION ANTENNA REFLECTOR REFLECTOR, comprising a carbon fiber reflective surface and a substrate including fiberglass, characterized in that, in order to increase reflectivity, increase stiffness and strength under the influence of climatic factors, as well as reduce weight, the substrate is made of two skins and a cellular a filler located between them, and the outer layer of the first skin and the reflective surface are made of a layer of carbon fiber, in which the filler is used 2/2 carbon twill weave is fabric, having equal strength on the base and weft with a density of 6 threads per 1 cm, and the inner layer of the first sheathing is made of fiberglass layers, between the layer of carbon fiber reinforced plastic and the inner layer of the first sheathing there are current-conducting buses in the form of arcs around the periphery parabolic reflector in diametrically opposite zones and in the form of a ring in its central part, the second skin is made of fiberglass layers, and the ratio of the thickness of the first skin of the honeycomb core and the second skin leaves (1 - 1.2): (12 - 25): (1 - 1.2).