DE1949263U - ANTENNA ARRANGEMENT. - Google Patents

Description

J 29 273/21 a C-bm,. -

fuba, antenna works ,. Hans Kolbe &, Go.

fuba, antenna works,
Hans Kolbe & Co..

Bad Salzdetfurth
Bodenburger Str.

Antenna arrangement

The utility model relates to an antenna arrangement, consisting of an active dipole element and an upstream active dipole element in the main radiation direction Directors as passive dipole elements.

Such antenna arrangements are mainly found in the UECf and television operation application. An important goal of the manufacturer of such antennas is to use a special Design to increase the antenna gain as much as possible. It has already become known about this, several complete -Yagi-Antenneη next to and / or among each other to set up an antenna field and to connect it together electrically. Such a multi-antenna arrangement involves considerable construction and material costs, learner the following "problem arises: The highest G gain over the gain of a single yagi antenna is achieved. with a-relatively large mutual Distance between the individual antennas. A pole of this great one mutual distance, however, are the undesirable lobes of life in the directional characteristic of the entire antenna arrangement. These february lobes decrease with less

2167/253 Rg.

mutual abs found, - however, the achieved decreases Profit growth also declined sharply. The increase in profit that can be achieved under these conditions is now but only achieved through the considerable construction and material costs, the multiple complete individual antennas inevitably with are bring. Measured against the achievable increase in profit, this great effort is practically unsustainable.

The utility model is based on the task of designing an antenna arrangement of the type specified at the outset so that the greatest possible gain in gain can be achieved compared to the usual individual Yagi antenna without the outlined expense of several individual antennas. According to the utility model, this is achieved in that in front of each half of the active dipole element, i.e. the fed or excited dipole, several directors, each dimensioned according to an active half-wave dipole, are arranged separately and electrically isolated from the directors of the other half of the active dipole element. The antenna arrangement constructed in this way therefore has only a single fed or excited dipole, whereas now, in contrast to the usual Yagi antenna, there are not one or more director rows running from the center of the dipole, but one or more such rows in front of each dipole half, with the Directors have the length that they received when rated for a half-wave ipol. Compared to a single Yagi antenna, a considerable increase in profit is achieved with practically the same expenditure on material and, above all, the same expenditure on electrical connection elements. Compared to the arrangement of several complete individual antennas, the effort is significantly reduced in every respect.

A further increase in profit is achieved according to one embodiment of the utility model in that the directors each half of the active dipole element are arranged in two superimposed planes.

A particularly simple structure with simple assembly and low manufacturing and material costs is achieved, if, according to a further development of the utility model, the directors of the two arranged one above the other

- 2 * *

one half of the active Dipölelementβ assigned Director levels formed from a single ladder are. Expediently, according to a further embodiment of the utility model, they each exist on top of one another arranged directors of the two director levels assigned to one half of the active dipole element from a U-shaped bent conductor and are the U-shaped bent director conductors arranged next to each other both halves of the active dipole element at their base with the help of a common insulating part on one common support tube attached. Especially at higher frequencies, the pairs of directors - of the director levels be bent from a simple wire, which is molded at its base to the common insulating part will. A single support tube is required for the four director levels of the antenna arrangement formed in this way.

An embodiment of the utility model has proven to be particularly advantageous in which the active The dipole element is a full-wave dipole. This results in a stronger coupling of the dipole halves with the respective assigned ranks of directors reached. Is has it shown a particularly favorable increase in profit compared to the usual Tagi antenna. "

In order to compensate for the antenna arrangement described tion of the frequency-dependent fluctuations in the flow point resistance to achieve in a particularly simple way, are in further training of the utility model between the Whole-wave dipole and the first corresponding to a half-wave dipole dimensioned directors one or more two full-wave dipole halves common passive dipole elements arranged .

In the % ei chnung'l-st ^ e ^ shown in the example of the utility model. Ss "~ show

Mg. 1 is a perspective view of an according to FIG Utility model trained antenna arrangement with a full wave dipole, - ■ "■.

Mg. 2 is an enlarged fragmentary perspective view of a Director arrangement of the antenna arrangement according to Mg. 1.

The one in Pig. Antenna assembly 1 consists of a ^1-fed or excited Ganzwellendipol 1, which is widened impedance matching at its two halves by conductive JJ'lächen. The full-wave dipole 1 as the active / dipole element of the antenna arrangement is attached to a common support tube 2 on which a reflector 3 in the form of a wire mesh surface is attached counter to the main radiation direction.

Like Pig. 1 shows are in front of each half of the full-wave dipole 1 two rows of directors arranged on levels one above the other. It should be the ranks of one of the directors Whole-wave dipole half with A and the director rows of the zvireiten whole-wave end ipolhälf te are denoted by B. Each director of each row of the two director orders A and B are dimensioned according to a half-wave dipole as the active dipole element. When training the individual Directors as rod-shaped parasitic antenna elements would therefore be every director corresponding to the directors a Yagi antenna with a half-wave dipole. Like the Pig. 1 also shows ax directors A and the Directors B of the two full-wave dipole halves separately and electrically isolated from one another on the support tube 2 arranged.

According to Pig. 1 and 2 are the superimposed directors of the two director levels of a full wave dipole! half of a U-shaped bent conductive wire 4 resp. built up. The conductive wire arches 4 and 5, which are arranged next to one another, of each of the other dipole halves assigned director arrangements A and B are held at their base in a common insulating part 6, the is in turn attached to the support tube 2. The wire arches 4 and 5 are expediently through in the insulating part 6 Overmolding held. It is emphasized again that the two formed by the archwires 4 and 5, respectively Rows of directors in one half of the full wave dipole 1 according to the directors of a half-wave dipole as active dipole element are dimensioned.

Like 5 ¹ Ig. 1 shows, is between the full-wave dipole 1 and the first director pairs 4 and 5 of the two halves of the

Whole-wave dipole an additional passive dipole element in the form of a parasitic radiator 7 on the launch tube arranged. This radiator 7 is conductively connected to the erage pipe in the manner of the usual directors and is used in addition, the frequency-dependent fluctuations in the measuring point resistance to compensate for the antenna arrangement.

Claims (6)

fr E ι protection claims Π A. 5 0 I 09 5 * 2 ^ 9 fifi 1. Antenna arrangement, consisting of an active dipole element and from this active dipole element in the main radiation direction upstream directors as passive dipole elements, characterized in that in front of each half of the active dipole element (1) several directors (4,5), each dimensioned separately and electrically, corresponding to an active half-wave dipole isolated from the directors of the other half of the active dipole element. 2. Antenna arrangement according to claim 1, characterized in that the directors (4,5) of each half of the active Dipole element (1) are arranged in two superposed planes. 3. Antenna arrangement according to claims 1 and 2, characterized characterized in that the directors, arranged one above the other, of the two half of the active dipole element (1) Associated director levels are formed from a continuous conductor (4 j 5). 4. Antenna arrangement according to claims 1 to 3, characterized characterized in that the directors, arranged one above the other, of the two half of the active dipole element (1) Associated director levels consist of a U-shaped curved conductor (4, 5) and each arranged next to one another U-shaped director ladder (4 and 5) of both halves of the active dipole element at its base with the help of a common insulating part (6) on a common support tube (2) are attached. 5. Äntennenanordnuhg according to claims 1 to 4, characterized in that the active dipole element is a full-wave dipole (1) is. 6. Antenna arrangement according to claims 1 to 5, characterized in that between-the Gran.zwellend.ipal (1) and the first directors (4,5) measured according to a half-wave dipole one or more two full-wave dipole halves common passive dipole elements (7) are arranged. Patent Attorneys Dip! .-! Ng. Hellmuth Kosel Dipi.-Ing. Horst Rose Dipi.-Ing. Peter K- i Note: This sub-box (description and Schuteon language) is the last one submitted, it differs from the version of the sub-boxes originally submitted. The legal significance of the deviation has not been checked. The originally submitted documents are in_derg Amrsaklen. They can be viewed free of charge at any time without proof of legal interest. At the request photocopies or Fiim- thereof are nt delivered the customary "prices. German Potentamt, Arbeitsmusferstelie.