NO124804B - - Google Patents

Description

Directional antenna.

The use of increasingly shorter wavelengths when transmitting television programs opens up the possibility of using a parabolic mirror as a receiving antenna, where the mirror has a relatively small diameter of e.g. 60 cm. Antennas of this type have long been known in connection with commercial installations. A directional antenna of this kind consists of a special energizer that irradiates the parabolic mirror and the associated feed-hole conductor. The known devices of this kind have a relatively large material requirement and are therefore expensive.

From "Nachrichtentechnik" 13 (1963), H 6, page U 51, figure 1, a directional antenna is known, in which one arc-shaped hole conductor is used, the open end of which serves as energizer for the parabolic mirror. Such a shaped feed hole conductor is either composed of several sections which are interconnected by means of flanges, or produced galvano-plastically in one piece. However, both manufacturing methods are rather extensive, and in addition to this, the irradiation of the parabolic mirror from the open end of the hole conductor is unsatisfactory, as one cannot thereby achieve a sufficient directional effect.

From the article "Eine trommelbare Mikrowellen-Energieleitung geringer Dampfung" in the magazine NTZ 1965, issue 10, pages 607 to 615, a flexible hole conductor is also known, which has an elliptical inner cross-section. The flexibility of this hole conductor is achieved by the pipe being designed with corrugations.

The purpose of the invention is to provide a directional antenna which is suitable for mass production and despite this satisfies the electrical requirements.

The invention thus relates to a directional antenna which consists of a parabolic mirror and a feed-hole conductor which with its open end irradiates the parabolic mirror and is so bent that it runs around the mirror edge or through the edge area of the mirror, and the peculiarity of the invention is that the feed-hole conductor is shaped by a seamless drawn aluminum pipe with an ellipse-like cross-section, whose non-uniform wall thickness from minimum values in the area of the main cross-section axes continuously transitions to maximum values between the main axes, and that the feed hole conductor at its end section has a uniformly progressive expansion in a known manner.

The invention will be explained in more detail with reference to the drawing, in which fig. 1 shows the directional antenna in elevation and fig. 2 shows a cross-section of the feed hole conductor.

According to fig. 1, the directional antenna consists of a parabolic mirror 1 which can be attached using holders 11a, 11b and 14a, 14b. In the embodiment shown, the parabolic mirror 1 is designed with a relatively wide edge 13 which, by means of a lower holder 1a and 11b, is connected to a support mast 5 above a rotatably mounted pin 8. And so the upper holder 14a and 14b is secured to the mirror edge 13 and connects the antenna to the mast 5. The bearing pin 7 and a recess 9 in the holding part 14a are arranged in such a way that the antenna can be swung in accordance with the length of the recess 9. When the antenna is attached directly to a wall, the holding device is designed in a manner known per se so that an angular alignment of the antenna in vertical and horizontal directions is possible.

The cross-section of the feed hole guide 2 is shown in fig. 2. The hollow conductor is produced from a seamless drawn aluminum tube that has varying cross-sections. In the area of the two main axes denoted by A and B, the wall thickness has its minimum values of 15 and 16. Between these minimum values, the wall thickness continuously changes to maximum values 17 or 18 which is located between the main axes. The hollow conductor thus has an evenly increasing and decreasing cross-sectional design. The similarly continuously designed internal limiting edge is elliptical and forms the effective internal cross-section 6. This design of the hollow conductor causes the inner cross-section to deform as little as possible when the hollow conductor is bent, or twisted, so that, despite the relatively small wall thickness, it exhibits sufficient mechanical strength.

As shown in fig. 1, the feed hole guide 2 is bent in such a way that its open end points towards the concave side of the parabolic mirror. This end 3 is continuously expanded and forms a funnel beam, whose opening 4 determines the irradiation of the parabolic mirror 1. To achieve the desired directional characteristic, the opening 4 and the diameter or opening of the parabolic mirror 1 are selected in a suitable way. A rotationally symmetrical parabolic mirror with an opening angle of between 120° and 160° is preferably used.

In the embodiment example shown, the feeding hole guide 2 is rigidly connected to the edge part of the parabolic mirror 1, as indicated at 10. The parabolic mirror, the hole guide and the holders together form a unit which

is easy to install and can be electrically connected by means of a connected flange 12 at the lower end of the hole conductor. In contrast to the described attachment, the parabolic mirror 1 can also be provided in its edge area with a suitable recess, through which the bm-bent end of the feed hole conductor is guided. This provides an additional guide for the feed hole conductor, whereby the stability of the entire device is increased.

The individual elements that make up the directional antenna can be manufactured very easily. The parabolic mirror can be manufactured in large numbers from light metal or metallized plastic. The feed hole conductor can be made from drawn aluminum pipe which can be supplied as a meter and which is bent to the desired shape and one end of which is extended. As a result of aluminum's easy flexibility, this can be done with simple aids. In addition, the individual parts can be produced and combined into a unit to obtain an easily manufactured and easily assembled directional antenna, the application of which is not only limited to common antenna systems for receiving television broadcasts.

Claims (1)

Directional antenna consisting of a parabolic mirror and a feed hole conductor which with its open end irradiates the parabolic mirror and is so bent that it runs around the mirror edge or through the edge area of the mirror, characterized in that the feed hole conductor (2) is shaped from a seamlessly drawn aluminum tube with an ellipse-like internal cross-section (6), whose non-uniform wall thickness from minimum values (15, 16) in the area of the main cross-section axes (A or B) goes continuously to maximum values (17 or 18) between the main axes, and that the feed hole guide (2) at its end section in a known manner has a steadily progressing expansion (3).