TR201810865A2 - AN UNDERWATER COMMUNICATION DEVICE - Google Patents

Abstract

The invention is an underwater communication device (10) for making underwater optical communication. The novelty comprises a throat microphone (100) having a sensor (120) that generates an audio signal according to the vibration to which it is subjected, and a connecting element (130) enabling said sensor (120) to be connected to the user's throat; a light emitter (410); a control unit (300) configured to receive the audio signal generated from said laryngeal microphone (100) and to cause the light emitter (410) to emit light expressing said audio signal; a headset (200) having a light sensor (420) and a loudspeaker (210) arranged to generate a signal relative to the light falling thereon; the control unit (300) is configured to output the signal received from the light sensor (420) as audio output from the loudspeaker (210). Figure 1

Description

TECHNICAL FIELD The invention relates to an underwater communication device for underwater optical communication.

Ensuring communication under water is very important for communication between divers.

It has become an indispensable form of communication, especially in the defense industry.

One of the methods commonly used among divers is with electromagnetic waves. is to communicate. However, the antenna dimensions used in electromagnetic communication size, high energy need, narrowness of communication bandwidth, The difficulty of directing electromagnetic waves in the desired direction makes communication difficult.

In this application reference number W08703154, modulated infrared rays and optical An underwater communication device is described. With a diver-supplied face mask The received signals are demodulated and transmitted by infrared Ieds. They are the rays that are absorbed in the shortest distance underwater, so it is disadvantageous. Also underwater During communication, the use of a face mask is not suitable for a diver under all conditions. There is a need for an optical communication system independent of the face mask.

As a result, all the above-mentioned problems require an innovation in the relevant technical field. not made mandatory.

BRIEF DESCRIPTION OF THE INVENTION The present invention is aimed at eliminating the above mentioned disadvantages and providing the relevant technical field. relates to an underwater communication device to bring new advantages.

One object of the invention is to communicate independently of the oxygen source used by the diver. is to present an underwater communication device that allows

Another aim of the invention is to create an underwater optical communication device with increased information security. is to put.

All the above-mentioned purposes that will emerge from the detailed description below. The present invention is an underwater optical communication device for underwater optical communication. communication device. Accordingly, its novelty is that which produces a sound signal according to the vibration to which it is exposed. which connects a sensor and said sensor to the user's input. including a groin microphone with a coupling element; comprising a light emitter; will receive the audio signal produced from said slit microphone and a device configured to emit light to express an audio signal. including the control unit; a device arranged to produce a signal according to the light falling on it. including a light sensor and a headset with a loudspeaker; control unit, light in such a way that the signal it receives from the sensor is output from the speaker as sound. that it is configured. Thus, regardless of the oxygen source, underwater communication is provided.

A preferred embodiment of the invention is characterized in that the control unit is powered from the vestibule microphone. It contains a modulator that modulates the received signal.

Another preferred embodiment of the invention is characterized in that the control unit is separated from the light sensor. It contains a demodulator that allows the received signal to be demodulated. Thus, the light The signal received as a signal is transmitted to the diver as an audio signal.

Another preferred embodiment of the invention is that it will exchange data bidirectionally. it is configured as such.

Another preferred embodiment of the invention is characterized in that said connecting element structured to wrap at least part of the diver's neck.

Another preferred embodiment of the invention is characterized by the light coming from the light emitter. It contains guide walls to prevent spillage. Thus, underwater optical communication At least partially preventing the intervention of third parties during the is provided.

BRIEF DESCRIPTION OF THE FIGURE In Figure 1, underwater communication devices and communication with communication devices A representative view is given.

A representative view of the underwater communication device's operation is given in Figure 2.

DETAILED DESCRIPTION OF THE INVENTION In this detailed description, the subject of the invention is only for a better understanding of the subject. It is explained with examples that will not have a restrictive effect.

The invention is basically arranged to allow underwater optical communication. it relates to an underwater communication device (10).

Referring to Figure 1, said underwater communication device (10), a sensor (120) and a a gutter microphone (100) housing the connecting element (130). Said The sensor (120) is configured to generate a signal according to the vibration it is exposed to. is configured. Said sensor (120), said connecting element (130) via the user interface. Invent a preferred In its configuration, the connecting element (130) is designed to wrap around the user's neck. has been arranged.

Referring to Figure 1, the vestibule microphone 100 will amplify the signals produced by the sensor 120 It includes a first riser 110 configured as follows. larynx microphone (100) sends the generated signal to a control unit (300). Invent a preferred In its configuration, the vent microphone (100) is also protected from environmental vibrations from the diver's choke. It contains filters to separate the received vibrations.

Said control unit (300) modulates the signal it receives from the slit microphone (100). It includes a modulator (320) that provides

The control unit 300 is associated with a light emitter 410. The control unit (300) emit light to express the modulated signal coming from the slit microphone (100) it provides. The light emitter (410) begins to emit light according to the values in the modulated signal. starts or stops emitting light. In a possible configuration, the signal It can emit light at different wavelengths according to the values. It may also include a controlling driver (411).

Referring to Figure 1, the underwater communication device (10) will generate a signal according to the light falling on it. There is a light sensor (420) arranged as follows. The light sensor (420) produces transfers the signals to the control unit (300). The control unit 300 is also powered by the light sensor. (420) a demodulator (330) configured to demodulate the signals it receives. contains.

The underwater communication device also includes a headset (200). Headphone (200), received a loudspeaker 210 that outputs sound according to the signals and before it comes to the speaker 210 a second amplifier 220 providing amplification of the signal. According to this signal, sound is output by the speaker (210).

In the underwater communication device (10), there is a device that provides the energy required for the operation of the device. There is an energy source. The mentioned energy source is a battery in an example configuration. etc. it could be.

In a preferred embodiment of the invention, a first diver 600 and a second diver 700 Two-way communication is made with an underwater communication device (10) provided. First sensor (120) according to the vibrations that occur around the larynx when the diver (600) makes a sound A first signal is generated by First signal generated first amplifier (110) is raised by The first signal amplified by the controller 300 It is modulated by the modulator (320). Control unit 300, first it allows the light emitter (410) to emit light according to the signal.

In an exemplary embodiment of the invention, the light emitter 410 is composed of a plurality of Ieds or laser light. It is a light source that it creates. output to the control unit it is associated with by generating a second signal according to the light falling on it. (300) sends. The second received via the demodulator 330 of the control unit 300 the signal is demodulated. The second demodulated signal is the other diver's headset. (200) transmits it to the second amplifier (220). Preset at second amplifier 220 from the speaker 210 of the second diver 700 according to the second audio signal amplified at one level. audio output is provided. Thus, the speech of the first diver (600) to the second diver (700) is transmitted. In a preferred embodiment of the invention, said headset (200) is configured to be impervious. is provided. In a preferred embodiment of the invention, said body (400) It has a handle (430) that allows it to be held in the hand and is held by the diver. It is configured to be used. The diver lights up to the other diver he wants to talk to. can direct its source.

In another alternative embodiment of the invention, the light emitter provided on the body 400 (410) and the light sensor (420) are at least partially connected to the diver's suit or body. It can be used independently of the hands.

Another aspect of the invention is that the body 400 is guided by the rays emitted by the light emitter 410. it has guide walls (440) that prevent it from scattering to the sides. Thus, the rays of light It is directed in the desired direction and transmitted with less loss.

In addition, other devices that are out of communication are the least likely to receive directed light rays. It is ensured that information security is protected, at least partially.

The control unit (300), performing the above-mentioned operations, controlling the components You can also use a processing unit (not shown in the figure) such as a microprocessor to may contain.

The scope of protection of the invention is stated in the attached claims and this detailed for exemplification purposes, it cannot be limited to what is told. Because a technical expert similar in the light of what has been explained above without departing from the main theme of the invention. It is clear that structuring can occur.

REFERENCE NUMBERS IN THE FOLLOWING underwater communication device 100 Gorge microphones 110 Primary riser 120 Sensors 130 contact element 200 Headphones 210 Speakers 220 Second riser 300 Control units 320 Modulators 330 Demodulator 400 Body 410 Light diffuser 411 Driver 420 Light sensor 430 Handle 440 Guide wall 600 First diver 700 Second diver

Claims (1)

REQUIREMENTS It is an underwater communication device (10) for underwater optical communication, and its feature is; a groin microphone (100) having a sensor (120) that generates an audio signal according to the vibration to which it is exposed, and a coupling element (130) that connects said sensor (120) to the user's groin; a light diffuser (410); comprising a control unit (300) configured to receive the audio signal generated from said slit microphone (100) and to cause the light emitter (410) to emit light expressing said audio signal; including a light sensor (420) arranged to generate a signal according to the light falling on it, and an earpiece (200) having a loudspeaker (210); the control unit (300) is configured to allow the signal received from the light sensor (420) to be output from the speaker (210) as sound. It is an underwater communication device (10) according to claim 1, and its feature is; the control unit (300) includes a modulator (320) that modulates the signal received from the slit microphone (100). It is an underwater communication device (10) according to claim 1, and its feature is; the control unit (300) includes a demodulator (330) that demodulates the signal received from the light detector (420). It is an underwater communication device (10) according to claim 1, and its feature is; said connecting element (130) is configured to wrap at least a part of the diver's neck. It is an underwater communication device (10) according to claim 1, and its feature is; It contains guide walls (440) to prevent scattering of light from the light emitter (410).