RU2052899C1 - Device of emergency communication - Google Patents

Abstract

FIELD: communication. SUBSTANCE: device of emergency communication includes case 1, container 2, sections of optical fibres 3,4, radiator 5, photodetector 6, telephone amplifier 7, power supply source 8, connector 9 and head telephone set 10. EFFECT: enhanced reliability of emergency communication. 1 dwg

Description

 The invention relates to communication technology and can be used for ship emergency telephone communications.

 For internal communication, loud-speaking communication equipment of the "Birch" type IDT.203.017 TO 1966 is used.

 The switches of this equipment are installed in the internal premises of the ships, and wire connecting lines are laid between these switches. A microphone and speaker are connected to the switches.

 The disadvantage of such a device is that in an emergency on a ship, when one or more of the compartments are sealed, the personnel located in these compartments lose communication, since the communication communication cables and the power supply to the switches during an accident, as a rule, fail.

 The aim of the invention is to ensure the transmission of messages through a metal bulkhead or hull in emergency conditions.

 This is achieved by the fact that the device case is made in the form of an annular permanent magnet in which a container for devices is installed, and the optical pump fiber, optical signal fiber, light emitting diode, photodiode, telephone amplifier and power supply are placed in the container, while the pump fiber is connected to a light-emitting diode, and the signal fiber with a photodiode, which is connected through a telephone amplifier, a two-pole connector to the head phones, and fixed in the end part of the annular permanent magnet Lena metallized mylar plate.

The drawing shows a diagram of the proposed device, consisting of:
case 1, which is an annular permanent magnet,
container 2 for devices, in which there are two segments of optical fibers, an optical fiber 3 of pumping and an optical fiber of signal 4, emitter 5, photodetector 6, telephone amplifier 7, power supply 8.

 A two-pole connector 9 passes through the housing of the device 1, through which the head phones 10 are inserted, and a metallized dacron plate is fixed in the end part of the annular permanent magnet.

 The device operates as follows.

 Sound vibrations of speech of personnel in the emergency compartment are transmitted to the surrounding bulkheads, being converted into mechanical vibrations of the bulkhead. Under the influence of these oscillations, the ship’s bulkhead oscillates, and since a metallized lavsan plate is tightly pressed against it by a ring magnet, the latter also oscillates and the distance L between it and the ends of the fibers 3 and 4 changes. The light emitting diode (emitter 5) pumps the optical fiber 3. Since the output beam 3 conducts the pump radiation, the radiation beam diverges at some aperture angle and has a distribution that can be approximated by the Gaussian distribution, the light flux coming from the third fiber into the fourth fiber varies with the distance d, i.e. modulation of the light flux by sound waves occurs. The photodiode 6 converts the optical signals into electrical vibrations of the audio frequency, which are fed to the input of the telephone amplifier 7. The telephone amplifier 7 amplifies the electrical vibrations to the required level and outputs them to the head phones 10, which reproduce these vibrations in the form of speech.

 The modulation depth depends on the distance d and the amplitude of the oscillation of the metal bulkhead of the vessel. The optimal distance d depends on the diameter of the fiber and the aperture angle.

, где D диаметр сердцевины волокна, А апертура, глубина модуляции светового потока δ

, где А амплитуда колебаний металлической стенки. Коэффициент нелинейных искажений по порядку величины совпадает с глубиной модуляции К.Н.И. δ
Технико-экономическая эффективность состоит в том, что предлагаемое переносное устройство обладает высокой способностью преобразовывать в электрический сигнал очень малые амплитуды колебаний в широком диапазоне частот.Calculations show that, in order of magnitude, d

where D is the fiber core diameter, A is the aperture, the depth of light modulation δ

where A is the amplitude of the oscillations of the metal wall. The non-linear distortion coefficient coincides in order of magnitude with the modulation depth K.N.I. δ
Feasibility study consists in the fact that the proposed portable device has a high ability to convert very small oscillation amplitudes into a electrical signal in a wide frequency range.

Claims (1)

 EMERGENCY COMMUNICATION DEVICE, comprising a radiator in a metal housing connected to an information shaper, and a photo detector connected through a telephone amplifier to a receiver, and two pieces of optical fibers connected respectively to a radiator and a photo detector, characterized in that, in order to ensure message transmission through the metal the housing, the housing is made in the form of an annular permanent magnet with a metallized dacron plate, opposite which the ends of the segments of optical fibers are installed, and the connection t A telephone amplifier with a receiver is provided through a connector in the housing.