DE1035220B - Ultra short wave antenna for vertical polarization - Google Patents

Description

For omnidirectional antennas with vertical polarization, bundling is necessary to increase the antenna gain necessary in the vertical direction. This bundling can be achieved, for example, by arranging them one above the other reach from several emitters. However, if these spotlights are installed next to the supporting mast uniform radiation in all directions in the horizontal plane is practically not possible possible.

A horizontal circular diagram, on the other hand, can be achieved if the mast itself is used for radiation is excited or that the radiators enclose concentrically or eccentrically the support mast.

A mast with the length of a multiple of 2/2 can be energized in phase if along the Mastes phasers are built in. However, this known system can only do one thing can be operated in a narrow frequency range.

Antenna constructions are also known in which collinear dipole radiators in the axial direction are arranged one above the other. The radiators with the associated locking pots usually consist of cylindrical tubes that enclose the mast. The bandwidth of such dipoles depends primarily on the diameter ratio of the radiator to the inner tube (support tube). The greater this ratio is. the greater the wave resistance of these coaxial line sections and the greater the Antenna bandwidth. If a large number of such radiators are to be built on top of one another, see above For reasons of strength, the diameter of the support mast must also grow as the number of emitters increases. In order to maintain the bandwidth, one is forced to increase the radiator diameter as well. The wind load does not increase linearly as the number of emitters increases, but according to a higher function.

The invention is based on the object of creating an antenna that has a larger bandwidth and a tolerable mechanical effort the arrangement of a larger number of dipoles axially one above the other around a mast. The described disadvantages of the known antennas are avoided according to the invention in that each radiator consists of individual long rods that are attached to a End to the antenna mast and at the other end to each other, preferably in a ring are. The radiators are preferably constructed in a concentric arrangement to the antenna mast.

Such a radiator corresponds in its electrical Properties in a first approximation of a cylindrical radiator, like this one as a body of revolution from which skeletal radiator would arise.

The electrical structure of an antenna with the er ultra-short wave antenna
for vertical polarization

Applicant:
Anton Kathrein,

Factory of electrotechnical equipment,
Rosenheim

Max Lohr, Rosenheim,

and Walter Thurl, Bruddach, Post Pang near Rosenheim, have been named as inventors

radiators according to the invention is also like using cylindrical radiators.

Compared to pot spotlights, however, there is the advantage of a low wind resistance and low wind resistance Material requirements. The radiator can be designed as a ladder for climbing the mast. These advantages are particularly evident when the antenna is broadband in a larger one Frequency range should work and must accordingly have thick radiator designs. The climbability The antenna ensures that the antenna cables and any warning lights can be checked easily on the antenna tip.

The figure shows an example.

On the mast 1 there is a multitude of basket-like rod skeletons concentric to the mast, one above the other, each of which consists of rods 2 which are arranged at equal angular intervals and parallel to the mast there are radially angled legs 3 and a connecting ring 4 at the free ends; the Ends of the legs 3 are attached to the mast 1 (welded). Between two powered skeleton radiators I is an unsupplied skeleton radiator II for decoupling. The skeletons are as Ladder trained to climb the mast.

Claims (5)

PATENT CLAIMS: 1. Ultra-short wave antenna for vertical polarization with vertical focusing and omnidirectional characteristics in the horizontal, characterized in that each radiator (skeleton radiator) consists of individual longitudinal rods (2), which at one end radially (3) with the antenna mast and other end to each other preferably at the are connected in a ring (4). 809 579/348 2. Antenna according to claim 1, characterized in that the radiators in substantially concentric arrangement to the antenna mast are built. 3. Antenna according to claim 1 and 2, characterized in that a plurality of skeleton radiators is mounted one above the other on the mast. 4. Antenna according to claim 1 to 3, characterized in that between each two ge fed radiating elements an unsupplied skeleton radiator is arranged for decoupling. 5. Antenna according to claim 1 to 4, characterized by the design of the skeleton radiator as Ladder to climb the mast. Considered publications:
German utility model No. 1 702 436;
U.S. Patent No. 2,323,641. 1 sheet of drawings © 809 579/348 7.58