DE7128489U - SELF-SUPPORTING ANTENNA - Google Patents

Description

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Licentia I at ent-Ve r ^ al tung ε-G-ü.bH 60CC Frankfurt (Liain) 7C, Theodor-3 \. -rn-quay 1

Ulm (Lonau), July 21, 1971 PE-ÜL / KÖAÖ UL 71/5

"Airstream-r a constricting Antepne"

The innovation relates to a self-supporting antenna.

Such antennas are e.g. the well-known Yagi antennas, as they are mainly used for sound radio and television reception purposes, but also rod antennas and those that contain a reflector screen as a component. Such Antennas «are usually made of solid or hollow metallic material executed. The hiring is based on the task of reducing the weight of such antennas to reach. To solve this problem with rod antennas, it has already been proposed that the carrier of this .Antenne Execute in plastic and with eixieai wire mesh to be covered as an electrical conductor. The deflection of the motor vehicle that occurs during operation Antenna through accelerationE and wind forces make one however, such wire mesh is not free from deformation. It has also been suggested to use the antenna Weight reduction; made from a thin wire? and this for mechanical stiffening with an aj glass fiber jacket to surround. However, due to its small electrical cross-section, such an antenna has a lot

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unfavorable electrical properties.

According to the innovation, the weight of the antennas is reduced with consistently good antenna properties achieved, that £ from the antenna at least the electrical vvi ~] cssniSH component β VOlls ^^^ di "γϊ ^ ητ · partly from never— made of metallized plastic. This plastic is preferably glass fiber because it has sufficient transverse rigidity having. The metallization is advantageous through metal deposition, galvanic deposition, flattening or other known methods applied. Due to the modernization, the large surface, as it has an antenna made of metallic solid or hollow material, are retained, which is the innovation According to the antenna has the same electrical properties as such an antenna, but the antenna has now become considerably lighter.

For a weight reduction it is very often sufficient that at least the electrically active components are carried out in the type according to the innovation. This is the example a Yagi antenna explains how it is commonly used for television reception purposes. Such an antenna consists of a longitudinal beam to which a large number of radiator elements, which are short in relation to its length, are attached are. If, for stability or other reasons, this longitudinal beam is in the conventional technology as a metal tube is formed, there is still a significant weight reduction £ ογ antenna reached if uie radiator element elements are carried out in the type according to the innovation, as these are due to their large number in the conventional technology in Weight are in the same order of magnitude as their side members. Similar considerations apply to antennas, which contain a conductive reflector screen, the support of which can be made using conventional technology.

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his leads, while the actual reflector is carried out in the type according to the innovation and thus a considerable one Weight reduction achieved

The innovation can be used particularly advantageously in rod antennas such as those used on vehicles. The carrying of these rod antennas is advantageously made of fiberglass, the electrically conductive rail being applied by plating in the manner according to the innovation. It has been found that the eligible conductor materials _have> such as copper, such iSlastizitätsmodul that they take deflections of antennas without bchaden, so get as cracks, are abound.

The innovation is explained in more detail with reference to the drawing: A rod antenna is shown in the detail. These consists of a carrier 1, which is made of a fiberglass material exists, as should be made clear by the longitudinal structure in the drawing. This carrier is metallized 2 surrounded. This covering is still protected by a plastic or lacquer layer 3, which also has a Protection against unintentional contact with the antenna guide can form.

ξ As in the metallization process during manufacture of the antenna a plurality of antenna elements can be processed simultaneously, for example in the electroplating bath, the innovation has also considerable advantages in the production of the innovation according antennas.

Claims (6)

• · a - 4 - UL and 5. -2 - a_ P- ε P. -r. ü c_ h e 1. Self-supporting antenna, characterized in that at least its electrically effective components consist entirely or partially of metalized plastic 2. Antenna according to claim 1, characterized in that the plastic consists of fiberglass material. 3. Antenna according to claim 1, characterized in that the metallization is applied by metal vapor deposition, 4. Antenna according to claim 1, characterized in that the Metallization is applied by galvanic deposition. 5. Antenna according to claim 1, characterized in that the metallization is applied by plating. 6. Antenna according to claim 2, characterized by its design as a rod antenna.