RU2024124C1 - Parabolic aerial for satellite television - Google Patents

Abstract

FIELD: TV. SUBSTANCE: aerial for satellite television has parabolic reflector 1 fabricated in the form of asymmetric cutting-out from paraboloid of revolution. Reflector is attached to base 8 of cantilever beam 2 with its head. Radial edges of reflector are made fast with the aid of braces, 3, 4 to free end 9 of cantilever beam in front of radiator. Cantilever beam used as carrier of structure is placed along focal axis 7. Technological gearing with flat parabolic template is put on cantilever beam when aerial is assembled. Parabolic surface of reflector is tested with it. EFFECT: simplified design and assembly of parabolic aerial. 1 dwg

Description

 The invention relates to radio engineering and can be used in the antenna system of satellite television and communication.

 Known parabolic antenna containing an asymmetric parabolic reflector, removed from the aperture of the irradiator and the supporting structure.

 The disadvantage of this parabolic antenna is the complexity of manufacturing, due to the fact that the supporting structure of the reflector is made in the form of a three-dimensional spatial frame and consists of a large number of parts and assemblies.

 Closest to the technical nature of the proposed antenna is a parabolic antenna containing an asymmetric parabolic reflector attached along the contour by struts to a vertical cantilever beam with an irradiator at its free end.

 The disadvantage of the prototype is the low manufacturability of the parabolic antenna assembly, since its design lacks the technological base for installing the reflector relative to the irradiator. In addition, the reflector is held in space on inclined horizontal struts and does not have rigid reference points.

 The purpose of the invention is to increase the manufacturability of the assembly and increase the rigidity of the reflector.

 To this end, in a parabolic antenna for satellite television containing an asymmetric parabolic reflector, attached by contour to the cantilever beam with an irradiator at its free end, the cantilever beam is located along the focal axis of the asymmetric parabolic reflector, the apex of which is attached to the base of the cantilever beam, and the free end beams bent.

 The drawing shows a parabolic antenna in isometry.

 The parabolic antenna for satellite television contains an asymmetric parabolic reflector 1, a cantilever beam 2, struts 3, 4, 5 and an irradiator 6.

The parabolic reflector 1 is formed as a sector clippings asymmetric paraboloid of rotation (the angle at the vertex of the sector can be in the range of from 60 to ¹⁵⁰⁾ and has a perimeter flanging for rigidity.

The cantilever beam 2, which plays the role of the supporting structure of the antenna, is located along the focal axis 7. The base 8 of the cantilever beam 2 has fasteners for connection with a slewing device, is bent to the free end 9 in the opposite direction from the sector reflector for placement of a horn on the beam 2 irradiator 6. A sector reflector 1 is attached at its top to the base 8 of the cantilever beam 2. At the same time, the radial edges of the reflector 1 are rigidly connected using struts 3, 4 with the free end 9 of the cantilever beam before irradiation ents 6, but with a substantial angle sector of the reflector 1 (over ^about 60-90) Medium peripheral edge point is connected with the cantilever beam 2 from the rear side of the irradiator 6 by strut 5.

To ensure optimal utilization of the reflecting surface of the reflector 1, the aperture of the horn irradiator 6 is approximated in a shape similar to the aperture of the sector reflector 1, but with a rotation of the axis of symmetry of the aperture of the irradiator 6 by an angle of 90 ^about .

 The assembly of the parabolic antenna is as follows.

 On the middle part of the cantilever beam 2, a technological device with a flat parabolic pattern is installed. Attach the top and outer edges of the reflector 1 to the cantilever beam 2, using struts 3, 4, 5. Turning the parabolic pattern around the focal axis 7, check the parabolic surface of the reflector 1 with accuracy no worse than λ / 16, adjust the length of the struts 3, 4, 5 and they are fixed tightly. After that, the technological device is dismantled. Next, the horn irradiator 6 is fixed on the bent end 9 of the console beam 2, aligned and pinned.

 Thus, the location of the cantilever beam 2 along the focal axis 7 of the asymmetric parabolic reflector 1, which is attached with its apex to the base of the beam 2, and bend under the irradiator 6 at the free end of the beam 2, ensures the simplicity of the design of the parabolic antenna and, therefore, its high adaptability assembly. Thanks to the fastening of the parabolic reflector 1 according to the triangle scheme, the cantilever beam 2 - the radial edges of the reflector 1 - struts 3, 4, 5 achieves high stiffness of the reflector and the entire antenna as a whole.

Claims (1)

 PARABOLIC ANTENNA FOR SATELLITE TELEVISION, containing an asymmetric parabolic reflector attached along the contour to the cantilever beam with an irradiator at its free end, characterized in that, in order to increase the manufacturability of the assembly and increase the stiffness of the reflector, the cantilever beam is located along the focal axis of the asymmetric parabolic , the top of which is attached to the base of the cantilever beam, and the free end of the cantilever beam is bent.