DE729112C - DF system - Google Patents

Description

DF system The bearings in the long wave and medium wave range are mostly done with the help of loop antennas. It has now been put into practice show that these forest areas are no longer sufficient for the observation service. For this Basically, it is necessary to use other frequency ranges for bearings. - For bearing over short distances, the wave range is particularly below of around 10 m (ultra-short wave range) are particularly suitable. Be in this area preferably Adcock systems, e.g. B. rotatable H-Adcocks are used.

In the case of the types of directional antenna mentioned, the ambiguity is eliminated A non-directional auxiliary antenna is required for minimum bearing. The possibility, to carry out long, medium and short wave bearings with a single direction finding system, therefore requires a large amount of antennas and thus weight and space.

It is already known from communications engineering for reception of short and long wave parts to use the same antenna. The one that is switched off However, the antenna part remains unused.

According to the present invention is to avoid the large antenna effort in DF systems for different wave ranges proceed in such a way that one Loop antenna for the longer waves and an Adcock antenna for the shorter waves a common axis of rotation are arranged and that one of the two DF antennas or part of it serves as an auxiliary antenna for the other DF antenna.

The Adcock antenna intended for direction finding in the ultra-short wave range or a arrow same serves as an auxiliary antenna for the clouding and lateral determination in the long-wave medium-wave range, while on the other hand the Loop antenna can be used as an auxiliary antenna for ultrashort wave bearings can.

A direction finder is already known in which two directional antenna systems are mechanically coupled to one another in rotation, but this serves another Purpose, namely to remove the misdirections caused by the nighttime effect. For this purpose, two directional antennas, which are related to the horizontal component of the receiving field have the same sensitivity, with opposite polarity at the same time switched to a common receiver, so that the Compensate the horizontal component of the highlighted receiving voltages.

In contrast, in the invention, both directional antennas are used for direction finding used and optionally placed on the receiver when switching the waveband. A decoupling of the two directional antennas and thus a spatially small antenna structure To achieve this, it is recommended that the surfaces of the two antennas be perpendicular to each other to deliver. Then separate reading pointers are to be provided for both directional antennas, which are at an angle of 900 to each other.

According to the further invention, the direction finder should be designed in this way be that the switching elements for the long, low and ultra short wave range are housed in a housing and by the same adjustment elements (with common Scales) can be operated. Furthermore, the display element, for. B. Telephone, Brown tubes, fluorescent tubes and the like, can be used for all frequency ranges.

A further simplification of the system results when for all wavebands use the same power sources (chopper, converters or elements and accumulators) can be used.

Since the ultra-short waves on ships through the ship superstructures (masts and chimneys) are dimmed for some directions, it is recommended that the The direction finding system should be installed in the ship line and as far ahead and high as possible. The parts of the rigging ahead and abeam must be replaced by Insulators are sufficiently subdivided electrically. To eliminate the on-board effect Fixed compensation loops can also be used in a known manner.

An embodiment of the inventive concept is intended to be aI1 hand Drawing. In this are those intended for the long wave range Loop antenna a and the associated auxiliary antenna 1> shown.

In a right-hand plane that lowers to the plane of the bearing frame a is the Adcock antenna c, consisting of the two dipoles d and e, arranged. The loop antenna and the Adcock antenna are mechanically immovable in relation to each other on a rotatable Shanks attached. This shaft is driven by the bearing wheel g. On the axis on the shaft there are two setting marks or setting pointers 1>, k,, from one of which belongs to the frame, the other to the Adcock antenna. The setting pointers move above the bearing scale, from which the respective bearing values are read can. The power lines coming from the two antennas are for everyone Wavebands common receiver 7 connected. This recipient is in the Figure only shown schematically; it should be for the different wavebands have common adjustment organs.

The direction finding system according to the invention is also suitable for minimum hearing direction finding of course also for other DF methods where an auxiliary antenna is used, z. B. for direction finders with rotating directional antennas or so-called. Tracking direction finders which the directional antenna is automatically adjusted in the direction of the transmitter. It is also possible to use the direction finding system according to the invention with automatic control devices provide in which the directional antenna is immovable on the vehicle and the entire vehicle is steered in the direction of the transmitter.

Claims (6)

PATENT CLAIMS: I. Bearing system for alternating bearing in two or more wave ranges, especially in the long or low medium wave and in the ultra short wave range, characterized in that a loop antenna for the longer and an Adcock antenna for the shorter shafts are arranged on a common axis of rotation and that one of the two DF antennas or part of them as an auxiliary antenna for the other DF antenna is used. 2. DF system according to claim I, characterized in that each Antenna not used for direction finding or part of it as an auxiliary antenna for the switched DF antenna is used. 3. DF system according to claim I and 2, characterized in that the loop antenna and the adcock antenna are arranged perpendicular to one another. 4. DF system according to claim 3, characterized in that for the two DF antennas separate direction indicators are provided, which are also to each other are arranged vertically. 5. DF system according to claims 1 to 4, characterized in that that the circuits for the different wavebands in a common receiver housed and operated by common setting means. 6. DF system according to claims I to 5, characterized in that that the same display elements and / or power sources are used for all wavebands are.