SU36956A1 - Antenna for direction finding and signal exchange in the submerged state of a submarine - Google Patents

Description

It is known the use of antennas that are placed inside the air cap or tube of a submarine.

In order to receive or receive signals, submarines have to rise to the surface of the water, as in the immersed state, reception has hitherto been impossible. To prevent the antenna wires from flooding with seawater, which is a relatively good conductor, they tried to provide these wires with rubber insulation, which did not give the desired results. The reason for the failure of all submerged reception attempts should be sought not in the complete attenuation of electromagnetic oscillations in seawater, but in the fact that the isolating material separating the antenna wire from water had a very high dielectric (622)

This can lead to elimination of the reception, if you put the antenna wire into a tube with high resistance to pressure, which has a relatively large internal diameter, so that the medium directly surrounding the wire will be predominantly from air, i.e., from ae.a-crystal, free from losses and having a small dielectric constant. If the antenna is made, as required for direction finding, in the form of a loop antenna, then the pipe in which it is enclosed must also be made in the form of a round or angular frame.

If this pipe is metal, which is appropriate for obtaining the required strength, then it

must "be in-nesty-their places under different parts, isolated from each other,

To control the directional antenna from the inside of the boat and for the wires going to it through the hull of the boat, it is advisable to rigidly connect the annular frame containing the antenna wires to the vertical tubular stand containing the supply wires and pass it through the hull of the boat. it was possible to turn and seal the entry point well.

It is recommended to arrange on the vertical rack a place of the smallest possible breakage, so that, in the event of a collision, only an hour above this place can be broken off without damaging the lower part.

It is further recommended to make the vertical stand of the frame antenna a composite of two parts, connected, for example, by means of screwed, sealed flanges. The joint position of the rack halves must be made in such a way that the position of the upper part relative to the lower part is always the same, which can be easily achieved using appropriate guides. Mentioned above, the place of least resistance occurs, in this case, on the upper half of the rack so that in the event of a breakdown, the damaged part can be replaced.

The present invention consists in that the tube containing the antenna is provided with a notch, so that when the submarine collides, the indicated tube breaks in the place of the notch, and the lower part of the antenna remains in operation.

The attached drawing shows the device according to the invention.

The wires D of the loop antenna are located in a circular metal tube A and are kept at a proper distance from each other by means of appropriate spacers, for example, balls E of an insulating material. The metal tube of the frame is made of a composite FROM the two semicircular parts A and A, the upper ends of which are insulated from each other by incompressible seals and mechanically connected by means of flanges. The lower ends of both n6-lovino: 1 and Ld, are fixed on the upper: parts of the B-rack; screwed and sealed: flanges.

The connected ends of the antenna wires D are fixed on the insulating tile and connected with lead wires G to the receiver in the boat. In accordance with the separation of the circuit on the part D B VI K, it is recommended to divide the supply wires O also into two parts and to connect these parts with the help of the plugs Y- ;; and a plug cartridge mounted on a respective insulator. At the top of the tubular stand there is an annular recess L in the appropriate place. In the event of a collision, the stand will break. this recess without damaging the parts lying below this place. The position of the upper part B of the rack with the frame fixed to it relative to the lower part K is fixed with the help of corresponding guides, for example, with the help of Studs M, moreover, both parts of the rack are rigidly connected with screw O, and the joint is sealed with gaskets N.

Potteri frame antenna under the water is still more than in the air. These losses can, however, be fully compensated for in a well-known way, by lowering the attenuation with enhanced feedback. The receiving power of the antenna will increase. For example, it is possible to remove the amplified oscillations from the anode not of the first, but of the third or fifth stage of the high-frequency amplifier.

The sensitivity of the antenna can be increased not only by enhancing the feedback, but also with the help of an additional amplifier that is included during immersion. Since the submerged antenna has not only a weak receiving field, but also extremely weak interfering fields, this technique greatly increases its sensitivity. When the submarine is on the surface, such additional amplification does not apply, since in this case the strength of the interfering noises becomes significant and overwhelms the direction finding minima.

-ri p with d mme tatta.

An antenna for direction finding and signal exchange with the submerged boat submerged, placed in a tube with a relatively large inner diameter so that the medium directly surrounding the antenna consists mainly of air, characterized in that the tubular stand supporting the annular frame and consisting of two parts K n B, which connect each other: M one of the known connections, is provided in part B with an annular recess L in order to break the antenna along this recess when the boat collides and to ensure the integrity of the rest the second part antevny.