DE1076756B - Mechanical protection device for the feed line of radar antennas - Google Patents

Description

GERMAN

The antenna system is expediently used for transporting and storing mobile radar devices dismantled. This consists (Fig. 1) essentially of the primary radiator 1 with the union nut 2 for fastening on the feed line 4 and the reflector 3. This avoids damage reflectors or primary radiators, and the space requirements of the devices are reduced. To the after the dismantling of the primary radiator existing feeder opening before the ingress of dirt and water, it is obvious to close the opening with a mechanical protective device close. This can e.g. B. be done by a hood or a lid. If now with the attached If the radar transmitter is switched on by mistake, there is a danger self-destruction by the one sent by it and by the protective device at the end of the feed line reflected radio frequency power. Damage can also occur in the feed line unwanted flashovers occur.

The aim of the invention is to overcome these disadvantages in the case of a device closed with a mechanical protective device Eliminate feed line for radar antennas by according to the invention this protective device contains a radiation-free load resistor that is matched to the wave impedance of the feed line.

The above-mentioned danger is now eliminated by 'the load resistance matched to the feed line which absorbs high frequency energy and converts it into heat. This means that there are no reflections. Tn today's microwave technology, such a radiation-free load resistor z. B. by a dielectric Material shown that is introduced directly into the space penetrated by the electromagnetic field and high frequency energy of a certain wavelength range is absorbed. Furthermore are also Load resistors known which consist of finely divided graphite or iron with the addition of a binder.

FIGS. 2 and 3 show two exemplary embodiments of a protective device according to the invention, FIG for the case that the feed line is a waveguide system, FIG. 3 for a coaxial feed line.

In FIG. 2, the protective device consists of the cylindrical attachment piece 11 with the cover 12, the sleeve 13, the union nut 15, the insert wedge 16 and the load resistor 17. The sleeve 13 is firmly screwed to the flange of the waveguide 14. The metallic attachment piece 11 is inserted into the sleeve 13 and screwed tight with the union nut 15. The insert wedge 16 secures against the rotation of the top piece against the sleeve. The wedge-shaped load resistor in the usual design, e.g. B. from Mechanical protection device for the feed line of radar antennas

Applicant: Albiswerk Zurich A. G., Zurich (Switzerland)

Representative: Dr. M. Eule, patent attorney, Munich 13, Kurfürstenplatz 2

Claimed priority: Switzerland of February 17, 1959

Dipl.-Ing. Hans Klauser, Zurich (Switzerland), has been named as the inventor

a dielectric material, lies directly in the continuation of the waveguide opening 18. The cover 12 protects the load resistor from external damage.

In Fig. 3, the protective device consists of the metallic outer conductor 21 with the load resistor 22, the inner conductor 24 with the plug 25, the union nut 23 and the ceramic holder 26. 27 is the coaxial feed line with the ceramic holder 28. The protective device is connected to the Plug 25 attached to the end of the feed line 27 and screwed tight with the union nut 23. Of the Load resistor 22, e.g. B. made of a dielectric material, is in the usual manner and outside cylindrical conical on the inside and lies in the space between the inner and outer conductors.

The feed lines of modern high-performance radar devices are designed to increase the permissible electrical Field strengths mostly filled with compressed air. When the protective device closes the feed line gas-tight and allows the compressed air to reach the load resistance unhindered, then the Transmitter and the feeder are excluded in these cases. Also, it is not just a mechanical one Protection against the outside is available, but operation of the transmitter is also safe in those cases possible, since radiation of the energy is not desired, such as. B. in measurement and control work.

A gas-tight closure of the feed line can be achieved by seals 19 (Fig. 2) and 30 (Fig. 3) will. In the exemplary embodiment according to FIG. 2, the compressed air can be used as a load resistance without further measures get while in execution after

909 758/352

3 there are longitudinal bores 29 in the ceramic holders 26 and 28 for this purpose.

Claims (2)

Patent claims. 1. Mechanical protective device to be used for radar devices to complete the dismantling of the primary radiator open feed line, characterized in that the protective device one matched to the wave impedance of the feed line, radiation-free. Contains load resistance. 2. Protective device according to claim 1 in the case of feed lines filled with compressed air, characterized by such a design of the protective device that it ^{closes the end of the feed line 1 in a} gas-tight manner. 1 sheet of drawings