SU59157A1 - Antenna device for submarines - Google Patents

Description

The existing system of receiving radio signals under water, when a submarine is immersed to a depth of 4 m, allows signals to be received at a distance of 1200 km, but when immersed to a depth of 10 m, the radio signals of even a powerful station can receive a submarine only in radius (counting from ) up to 30 km.

With signaling from underwater, the position of TaiKoe is the same.

According to Lobeff, experiments with a floating antenna (using floats) did not give positive results, ensuring a communication distance of only 15 km.

In order to ensure the reception and transmission of radio signals over long distances in the submerged state of the submarine LOD1KI (20-30-80 m), an antenna device can be used, which is the subject of the invention, in which the antenna is located 30-60 m above the water surface. For this; The target antenna device is equipped with zoid balls to lift the antenna wire, with the probe tips being folded inside the displacer. To mount the antenna, the probe balloons are filled with hydrogen from gas a and are released. Control,

The process of filling with hydrogen is produced from sharazonda from 1 subsea: LOD. ki, for which the hydrogen cylinder is equipped with a valve controlled by an electromagnet. The ball-probe is equipped with an exhaust valve that opens when the ball-probe touches the top of the displacer when it is pulled down with a cable.

An exemplary embodiment of the invention is shown in FIG. 1-3, of which FIG. 1 and 2 show the general scheme of the device; FIG. 3 is a schematic section of a displacer.

The antenna wire 16 attached to the shell of the probe 6 is enclosed in cylindrical buoys 4 (Fig. 1), which are located in the recesses 2 of the hull 1 of the submarine. The buoys 4 are connected to the submarine by cables 3. The buoy 4 in one of the compartments (Fig. 3) has a balloon 9 with compressed hydrogen. The cylinder 9 is provided with a valve 10 connected by a lever device I with an electromagnet 12 connected by wires 13 to a submarine.

To the valve W attached inlet process 17 of the ball-probe 6. In addition, the ball-zand 6 is equipped with an outlet process 5, which opens automatically when it touches the top

the displacer 4, when the ball-ZOND 6 is tightened by the cord 8, arope inside the cable 3 (Fig. 2). The antenna 16 is equipped with a frame circuit 7.

The submarine, located at a depth of 20-40 m, throws the buoy 4 onto the surface of the water. By wire IS from a submarine include an electromagnet 12, which, acting on the lever device 11, opens the valve 10 balloon 9 with hydrogen. Through the process 17, the ball-zond b is filled with hydrogen and on the cord 8 together with the antean 16 it rises to the desired height.

At the end of the operation, the balloons of the rope 8 are pulled toward the buoys 4. When striking the surface of the buoy 4, the exhaust valve 5 opens, and the hydrogen comes out of the balloon probe 6. Then the buoy 4 with the help of a winch located in the submarine recess 2 hull 1 boats.

fl r d eme of the invention.

Claims (3)

1.Antenna device for submarines with the use of balloons for lifting the antenna wire, about the tla and with the fact that each balloon probe is placed in a folded form inside the displacer 4, with a sleeping balloon 9 with hydrogen designed lt; l filling the balloon. 2. The form of the device according to claim 1, characterized in that, in order to control the filling of hydrogen from a submarine with hydrogen, the balloon 9 filled with hydrogen is equipped with a valve 10 controlled by an electromagnet 12.: 3. The form of the device according to paragraphs. 1 and 2, about tl and h and y and a. By the fact that, in order to release the gas from the balloon, the latter is equipped with an exhaust valve 5, which opens from contact with the top of the displacer 4 when the cable 8 is tightened. FIG IS FIGU2