DE849122C - Broadband radiator - Google Patents

Description

So far one has in order for the radio operation spotlights with Breitbän @ deigenscfiäft to achieve such! emitters z. B. as tubes with a relatively large diameter trained.These emitters are, however, when used in a free-standingr antenna system for the oncoming wind represents a large area of resistance, so that considerable mechanical Forces for the dimensioning of the support structure of the individual radiators and the whole Are based on the antenna system. One could counter this by reduced the diameter of the radiators. But this leads to the deterioration of the Broadband property of the radiator. So z. B. when reducing a 20 cm emitter diameter of about 10 cm, the broadband property of about ± 20% reduced to about ± 10 per cent. The invention therefore takes a different approach.

It brings a spotlight into use, which is characterized by it is that its cross-section dimensioned with regard to the broadband is a practically streamlined symmetrical or nearly symmetrical shape. For example in place of a circular radiator 20 cm in diameter, the has a good broadband property, one shown in Fig. i in two views Radiator i used, the cross section 2 of which is oval, in particular elliptical: shape owns; the radius of curvature a is here z. B. 5 cm, while the radius of curvature b is 15 cm. The smallest projection area of the Strakler cross-section is expediently arranged perpendicular to the main wind direction (plane of the prevailing wind direction). Because the streamlined shape is symmetrical or approximately symmetrical; is the wind resistance of the radiator both for a specific wind direction in the The level of the prevailing wind direction as well as in the opposite direction have been significantly reduced: In the emitter cross-section of FIG. I, the main wind direction is according to the arrow W run; it can also run in the opposite direction.

The radiator can also consist of several radiator parts, which for themselves and / or in their composition have a cross-section of a practically streamlined 'shape'. Fig. 2 shows, for. B. in two views a radiator 3, which consists of the for itself streamlined shaped parts 4 and 5 consists, their composition to an electrical Unit also a radiator structure with a practically streamlined shape (cf. dashed lines Supplementary line), namely the electrical unit is made up of side surfaces 6 and 7 achieved, which connect the parts 4 and 5 together. The main wind direction runs in the direction of the arrow W.

If several radiators of the previously known type are used to form an antenna system together, it is known that the electrical properties of the individual radiators change for example so that inter alia. the wave resistance of the individual radiator in the antenna system, so in the ray group, becomes smaller. Since it is desirable that the wave resistance the radiator group has the same value as, for example, the feed lines, one enlarges z. B. the emitter diameter for the corresponding adjustment. Leading but usually an increase in wind resistance. It is therefore useful when using the radiator according to the invention, the streamlined shape in the Main wind direction in terms of length so z. B. by suitable choice of the radius of curvature b in Fig. ri; to be adapted so that the correct wave resistance in the radiator group is achieved. Then there is also no disadvantageous increase in wind resistance on.

Claims (1)

PATENT CLAIMS: i. ; Broadband radiator, characterized in that its cross-section, measured with regard to the broadband, has a practically streamlined symmetrical or approximately symmetrical shape. z. Broadband radiator according to claim i, characterized in that the surface of the radiator opposite to the main wind direction is shaped according to the permissible wind pressure and the surface of the radiator lying in the main wind direction is shaped according to the permissible wind pressure and the desired broadband property of the radiator. 3. Broadband radiator according to claim i, characterized in that the cross section has an oval, in particular elliptical shape. 4. Broadband radiator according to claim i, characterized in that the cross section is arranged so that its smallest projection area is perpendicular to the main wind direction. 5. Broadband radiator according to claim i, characterized in that the radiator consists of several parts, the cross section of which has a practically streamlined shape for itself and / or in its composition. 6. Broadband radiator according to claim i for antenna systems composed of several radiators, characterized in that the longitudinal extent of the streamlined shape in the wind direction is chosen so that the correct wave resistance in the radiator group is achieved without a disadvantageous increase in wind resistance. Cited references: U.S. Patent No. 2,505,751.