RU2667350C2 - Shipboard backup information transmission system - Google Patents

Abstract

FIELD: shipbuilding; means of communication.SUBSTANCE: invention relates to shipboard communication systems. In the method, the backup information transmission system of a ship consists of a communication line, source of information of a transmitting and receiving device located in the hull of a ship / submarine, and the ship's pipeline is used as the communication line, wherein the input converter is included into the system, it is connected to a transmitting device consisting of an encoder and a transmitter that are connected to the input inductance, which, in turn, is connected to the pipeline, the pipeline at the receiving end being connected to the input inductance, which is connected to the receiving device consisting of a receiver connected to an amplifier and a decoder, and the decoder is connected to an output converter, the amplifier also being connected to a selection device, which is connected to the repeater and inductance, and the latter is connected to the pipeline. Further, the pipe of the pipeline is made from ferromagnetic low-alloy steel and is a magnetic circuit, directing the magnetic flux along the assigned path, and is laid through all the compartments along the length of the submarine.EFFECT: technical result is to provide the possibility of transmitting emergency information via a ship's pipeline.1 cl, 1 dwg

Description

The invention relates to communication systems, and more specifically to systems for transmitting information over communication lines, and can be used to transmit emergency information on ships and submarines.

The catastrophes of the nuclear submarines Komsomolets and Kursk forced designers to address the problem of improving the reliability and survivability of shipborne communication systems (VKS). In the event of a fire, the main reason for the failure of the videoconferencing system is, first of all, the low fire resistance of the cables used, leading to short circuits in the information and power networks and disconnection of subscriber devices. Therefore, in the absence of duplication of ship routes, the VKS with stations located even outside the emergency compartments is terminated. As experience shows, the use of portable VHF radio stations in this situation is limited to two to three adjacent compartments. [Katanovich A.A., Zhilinkov V.I. Shipborne emergency communication systems. SPb., Shipbuilding, 2011].

The above allows us to argue that in order to increase the reliability of operation and survivability of existing systems of VKS, new technical solutions should be sought to eliminate this problem.

Known methods of transmitting information in communication systems in which information from a source, for example, voice, telemetry, are converted into an electrical signal, this signal is injected into a communication line, which is used as coaxial trunk cables (invention of the USSR class. H04B 5/00 438128) , power lines inside the mines (US Pat. USSR class. the same 2115239), power and telephone cables laid in the mines (US Pat. USSR class. the same 1548857) with the conversion of the transmission frequency into an intermediate one and its restoration when receiving, cable transmission ahtnogo lifting device (US Pat. USSR N04V 7/00 661 828) on the rope of the well (US Pat. 2,110,904 England N04V 3/54) or lightning ropes of power lines (US Pat. USSR cells. The same 488 352).

Known emitting coaxial cable. RF patent №2013832 class. H01Q 13/20. The slotted cable emitting and receiving RF signals has a corrugated external conductive surface. Elliptical holes are cut along the cable in the rowing corrugations, arranged in accordance with the logarithmic normal law of probability distribution. The cable laid along the ship is simultaneously a transmitting and receiving antenna. In this case, portable radio stations of low power are used for communication between the compartments. Such a system is capable of providing duplex multichannel communication on decimeter and meter waves. However, the survivability and reliability of such a cable in an accident is very low.

A known method of transmitting information RF patent No. 2205513 class. HB04 13/00. This method provides the transmission of information through the underground pipeline and, with its aboveground location. The disadvantage of this method is that it can only use an underground pipeline located in a straight line as a communication line, while the ship has an extensive network of pipelines.

Closest to the claimed device for transmitting information on a set of features and obtaining the required technical results is a patent of the Russian Federation for PM No. 155946 class. H04B 7/24. An emergency radio communication device consisting of a communication line, a source of information of a transmitting and receiving device located in the ship’s hull and ground, and a ship pipeline is used as a communication line.

The aim of the invention is the transfer of information through the ship's pipeline.

This goal is achieved in that the ship’s backup information transmission system consists of a communication line, a source of information of a transmitting and receiving device located in the hull of a ship / submarine, and a ship pipeline is used as a communication line, while the input converter connected to a transmitting device consisting of an encoder and a transmitter, which are connected to the input inductance, which in turn is connected to the pipeline, and the pipeline at the receiving the end is connected to an input inductance, which is connected to a receiver consisting of a receiver connected to an amplifier and a decoder, and the decoder is connected to an output converter, the amplifier is also connected to a selection device, which is connected to a repeater and inductance, and the latter is connected to a pipeline , characterized in that the pipe is made of low-alloy ferromagnetic steel and is a magnetic circuit directing the magnetic flux along the designated path, and laid through the entire compartment and the length of the submarine.

In FIG. The scheme of an emergency information transmission device is presented. It consists of:

1 - input converter 1; 2 - transmitting device; 3 - encoder: 4 - transmitter; 5 - input inductance; 6 - communication lines (pipelines); 7 - input inductance; 8 - receiving device; 9 - receiver; 10 - amplifier; 11 - decoder; 12 - output transducer 2; 13 - selection device; 14 - repeater; 15 - inductance.

A pipe 6 with a diameter of 20-30 mm of ferromagnetic material is laid through all compartments along the entire length of the submarine. The receiving and transmitting device is a small-sized VHF radio station, which has sensors in the form of an inductive loop, which are installed on the pipe. In everyday conditions, these radio stations are located at the subscribers, and in the event of an accident, subscribers approach the pipe and connect the radio stations to it through sensors. Then carry out the connection. The sensors are made in the form of an induction loop.

The essence of the claimed system is as follows.

The speech information coming from the source is converted into an alternating electrical input signal in converter 1, it is encoded if necessary (encoder 3), then it is converted into alternating electrical current in an electrical signal converter into electric current, the latter is passed through a transmitting device 2 with encoder 3 and transmitter 4. The input of the signal into the communication line 6 is carried out through the input inductance 7, in which an alternating magnetic field is created, suitable for transmitting a signal through the communication line — a magnetic circuit steel pipe 6. In the place of signal reception, the output inductance 7 is located, which is affected by the magnetic field that has reached the communication line 6. Both inductors (input and output) are mutually inductively coupled through a communication line. In the output inductance, an alternating magnetic field creates an alternating electrical signal. Then the information signal is isolated from interference, amplified, if the signal was encoded, then decoded in the receiving device 8 by the receiver 9, amplifier 10, decoder 11.

And finally, the received, isolated from interference and amplified signal is converted in the output Converter 12 into an alternating output signal, designed to present information in a convenient form for the consumer, and delivered to the consumer.

If necessary, relay at least part of the signal after isolation from interference and amplification is selected in the form of an alternating electric current through the selection device 13 to the relay 14, then inductance 15 is converted into an alternating magnetic field suitable for signal transmission via communication line 6, and then a signal is transmitted through it to the next signal receiving location. In the same way, the signal is relayed the required number of times along the length of the pipeline. Note that modern means of reception allow you to select signals with a power of 10 ^-12 watts.

A distinctive feature of the claimed invention from the prototype is the transmission of information in the form of an alternating magnetic flux through a single-wire line (pipe) made of ferromagnetic material, which is a magnetic circuit directing the magnetic flux along the designated path and laid through all compartments along the entire length of the ship. Since the use of ferromagnetic material allows for the most effective communication, and the passage of the pipe through all the compartments along the entire length of the ship will allow the most complete coverage of the communication of the ship or submarine, and therefore more efficiently transmit and receive information signals.

Thus, the distinctive features of the claimed system provide the emergence of new properties that are not achieved in the prototype and analogues, and also expand the capabilities and arsenal of technical means of communication.

Claims (1)

Ship backup information transmission system, consisting of a communication line, a source of information of a transmitting and receiving device located in the hull of a ship / submarine, and a ship pipeline is used as a communication line, while the input converter connected to a transmitting device consisting of encoder and transmitter, which are connected to the input inductance, which in turn is connected to the pipeline, and the pipe at the receiving end is connected to the input inductance one that is connected to a receiver consisting of a receiver connected to an amplifier and a decoder, and a decoder is connected to an output converter, the amplifier is also connected to a selection device that is connected to a repeater and inductance, and the latter is connected to a pipeline, characterized in that the pipeline pipe is made of low-alloy ferromagnetic steel and is a magnetic circuit directing the magnetic flux along the designated path, and laid through all compartments along the length of the submarine.

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