DE836666C - Dipole arrangement with heating to prevent icing - Google Patents

Description

Dipole arrangement with heating to prevent icing The l-: i-tinduiig Relates to a dipole arrangement with heating to prevent icing of liierdui-cli Cables which vary in their electrical properties and which are used for HF supply of 1) ilxile serve. It is characterized in that the lines by means of a be heated by a transformer generated heating current, which one the Dipoles with their holder and the lines finite their balancing device in series containing secondary circuit formed above earth flows through.

It is essential here to use those used to generate heating current To put the transformer with its l'riinal winding around the holder of the dipole so that this forms the secondary winding, m-elche over the on the bracket attached dipole, the line to be heated with its symmetry device and Earth running heating circuit feeds.

If only the feeding line is to be heated, it is yours Resistance in relation to the parts lying in series with it, such as B. Bracket, Dipole, connectors and baluns, s @ # "big to choose that on them the largest part of the heating power is omitted. So it doesn't have to be essential heating parts of the secondary circuit made of a material with an opposite the material of the feed line has a lower specific resistance and / or in such Be made finishes that only a substantial warming of the feed line entry. Due to the icing, only part of the feed lines is in their electrical Properties can be adversely affected, while the remaining part, for example, by Shielding is not exposed to the risk of icing, so can through Corresponding choice of the cable cross-section or the cable material only the endangered part of the feed line can be heated.

In the figure, to explain the invention, a dipole arrangement consisting of four dipoles D1 to D4 is shown schematically. The individual dipoles are attached to a grounded wall or a grounded rod by means of holders H1 to H8, each holder also carrying a reflector R1 to RB. The dipoles are fed via a concentric cable K, which is connected to a parallel line P via a balancing device S. This feeding parallel line P branches into a parallel line PH which branches off to the left and right, each of which in turn branches into a parallel line Pzi and 1'Z or PZ3 and PZ4 leading up and down to the individual dipoles. In the present exemplary embodiment, each line of these feeding parallel lines Pzi to PZ4 should be heated in order to prevent them from icing up. In the present exemplary embodiment, the remaining parallel lines do not require any heating, since they are surrounded by a protective jacket (not shown here). In order to carry out this heating of the lines mentioned, each holder is from a primary winding; surrounded by a transformer, namely 111 by 7'i, H2 by T, etc. The secondary winding is then formed by the respective holder Hl, H2 etc., so that, since the holder and the balancing device S are grounded, a heating circuit comes about , which runs in series via the dipoles with their holder, the feeding lines with their balancing device S and earth. The specific resistance of the feed line to be heated (Pzibis PZ4) has a value compared to the specific resistance of the other parts of the heating circuit, since these are made from a material with a larger cross-section or from a better conductive material, so that the essential part of the Ileizstrotnes the feeding line (Pzi to PZ4) is omitted.

If you ensure by appropriate arrangement of the Traiisformatorenwicklungen, z. B. from T1 and T3, for the fact that the z. B. the two left dipole parts of the dipole D1 and D = feeding, interconnected parts of the parallel lines Pzi and PZ2 are flowed through in series with heating current, only an equalizing current comes to flow via the parallel lines PH and P and the balancing device S to earth In contrast to the first described form of implementation, in which several or all of the heating circuits fed by the transformers run over these parts. As a result, in this case, the parallel lines PH and I ' and the balancing device S can have smaller dimensions or do not need to be made of a material with a particularly low specific resistance.

Claims (1)

PATENT CLAIMS: i. Dipole arrangement with heating to prevent icing of lines which can thereby be changed in their electrical properties and which are used to supply RF power to the dipoles, characterized in that the lines are heated by means of a heating current generated by a transformer, one of which is the dipole with its holder and the Cables with their balancing device in series containing secondary circuit formed above earth flows through. a. Dipole arrangement according to claim i, characterized in that the transformer is placed with its primary winding around the holder of the dipole, which forms the secondary winding for the heating circuit running over the dipole attached to the holder, the line or lines to be heated with their balancing device and earth . 3. Dipole arrangement according to claim i, characterized in that the material of the line to be heated with respect to the resistivity and / or the dimensions of the same with respect to the other parts of the heating circuit are chosen so that it absorbs the essential part of the heating power. , 4. Dipole arrangement according to Claim i, characterized in that the primary windings of the transformers are arranged in such a way that their heating currents flow through connected feed lines in series, and that only small equalizing currents run via the feed lines which are not to be heated and the balancing device.