DE1031383B - Device for ventilating a waveguide system - Google Patents

Description

The invention relates to a device for ventilating a waveguide system.

In waveguide systems in permanent arrangements, such as. B. in radar systems or beam transmitter stations, it is often necessary to take measures to keep air or dry and / or heated a neutral gas, e.g. B. nitrogen to be able to blow into the waveguide system in order to avoid Corrosion and condensation of water vapor. The connection of the gas container or the drying and / or heating systems of the blow-through air must be made somewhere at the beginning or at the end of the waveguide system. The couplings in question are only allowed to change the electrical field configurations as little as possible influence. This can be achieved in a known manner in that the coupling holes or gaps are selected to be relatively small compared to the wavelength of the waves in the waveguide. At very high frequencies, such as B. millimeter waves corresponding frequencies, the coupling holes but then be so small that they represent a substantial air resistance and thus insufficient gas or air can flow through.

In an apparatus for ventilating waveguide systems according to the invention is one per se known directional coupling between two waveguides present with at least one coupling opening in the adjacent side wall of the waveguide is provided in such a way that over a certain Wave energy supplied to the end of one waveguide via a specific end of the other waveguide is discharged, and vice versa. Furthermore, the other end is at the same time one of the two waveguides coupled to means for maintaining gas flow in the waveguide system while the other end of the other waveguide is sealed gas-tight.

In the drawing, a directional coupling known per se with two waveguides Gl and G 2 is shown. At the left end A of the waveguide G 1 is z. B. a transmitter and an antenna is connected to the right end B of the waveguide G 2. In the common side wall of the waveguides G1 and G 2 a coupling opening KG is provided, which is dimensioned in a manner known per se in such a way that wave energy supplied via the end A. is completely transferred to the waveguide G 2 via the coupling opening KG and via the end B can be discharged. The coupling factor of such a directional coupling can be equal to one over a relatively wide frequency range, for example a relative change of 15%>, ie that practically no energy is transferred to the arms C and D of the directional coupling and these arms are therefore electrically neutral.

Device for ventilating
a waveguide system

Applicant:

NV Philips' Gloeilampenfabrieken,
Eindhoven (Netherlands)

Representative: Dr. rer. nat. P. Roßbach, patent attorney,
Hamburg 1, Mönckebergstr. 7th

Claimed priority:
Netherlands 19 April 1956

Hans Allaries and Arnold Edmond Marie Calon,

Eindhoven (Netherlands),
have been named as inventors

The arm C is provided with a device for maintaining a gas flow in the waveguide system, e.g. B. connected to a gas container or an air pump, further means for drying or heating the blow-through air may optionally be present. The arm D of the waveguide Gl is closed in a gas-tight manner by a wall or a piston Z, the Wahd at the same time preventing high-frequency energy, for example, from escaping via the arm D. The air blown through is thus guided to the antenna via the arm B and to the transmitter via the coupling opening KG and the arm A of the waveguide G1. The coupling opening KG naturally only offers very little resistance to the air flow. In order to prevent wave energy from escaping through arm C or through the pump, it may be desirable to choose the dimensions of the pipe in question in such a way that no wave propagation is possible in it at the operating frequency, which again has the disadvantage that the air resistance is increased. The corrugated tube C is therefore preferably not made narrower, but a sheet metal .9 is arranged in its center, as shown in the drawing.

Claims (1)

PATENT CLAIM: Device for ventilating a waveguide system, characterized in that one per se known directional coupling is present between two waveguides, with at least one coupling 809 529/353 treatment opening is provided in the adjacent side wall of the waveguide, in such a way that Wave energy supplied through a particular end of a waveguide through a particular end of the other waveguide is completely discharged, and vice versa, and that the other end of one of the two waveguides has means for maintaining it one gas flow in the waveguide system is coupled, while the other end of the other Waveguide is sealed gas-tight. 1 sheet of drawings © 809 525/353 5. S8