JPH11113082A - Underwater telephone for diver - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain sufficient sound pressure even below 10 m depth by forming a closely sealed space between with an acoustic diaphragm within a sealed container and providing an elascically deformable supporting board supporting an electric signal-mechanical oscillation signal converting part so as to transmit signal sound and voice expressing information under water. SOLUTION: The electric signal-mechanical oscillation signal converting part is constituted of a first pole piece 73, an permanent magnet 74, a second pole piece 75 and a voice coil 77 and supported by the supporting board 72. Then, air, e.g. packed in the sealed space between an acoustic diaphragm board 71b and the board 72 is compressed and the board 72 is also elastically deformed inward by the compressed air. Consequently, as the electric signal-mechanical oscillation signal converting part osillating the diaphragm 71b never receives influence by water pressure, this system bears water pressure below 10 m depth.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a diver's underwater communication device for transmitting a signal sound or voice underwater such as a lake or sea.

[0002]

2. Description of the Related Art Conventionally, as a means of transmitting information underwater when a person stays underwater by breathing air sent from a tank filled with compressed air. There is an underwater whistle that emits sound by air sent from the tank by compressed air.

However, the above-mentioned underwater whistle has a drawback that it cannot be used complicatedly because it uses the air of a tank necessary for breathing. Further, there is a drawback that practicality is poor because no sound is produced when sand enters the underwater whistle.

In addition to the above-described underwater whistle, there is also a device for transmitting an audio signal into the water as sound waves from an underwater speaker. However, when the water depth is deeper than 10 m, the transmission of the acoustic signal in the audio region is extremely affected by the water pressure. It becomes difficult and the receiving side cannot obtain a sufficient sound pressure, so that there is a problem that sound is difficult to hear.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an underwater communication device for divers, which can transmit a signal sound or voice representing information underwater and can obtain a sufficient sound pressure even at a water depth of 10 m or less. is there.

[0006]

According to a first aspect of the present invention, there is provided a diver's underwater communication device which outputs a signal sound representing information as an electric signal, and which information to output. A selection unit that outputs a signal representing the signal sound to the signal sound generation unit, a sealed container having an elastically deformable acoustic diaphragm, and an electric device provided in the sealed container and representing the signal sound from the signal sound generation unit. A signal is converted into a mechanical vibration signal, and an electric signal-mechanical vibration signal conversion unit that vibrates the acoustic diaphragm and transmits it as a sound wave is provided in the sealed container, and is sealed between the acoustic diaphragm and the acoustic diaphragm. A space is formed, and an elastically deformable support plate for supporting the electric signal-mechanical vibration signal converter is provided.

According to the underwater communication device for a diver of the first aspect, when transmitting a signal tone representing the information selected by the selection section, the information is output from the selection section based on a signal indicating which information to output. The signal sound generation unit outputs, for example, a signal sound having a single frequency as an electric signal, or outputs a sound obtained by combining two or more signal sounds having different frequencies as an electric signal. Then, the electric signal from the signal sound generation unit is converted into a mechanical vibration signal by the electric signal-mechanical vibration signal conversion unit provided in the sealed container, and the elastically deformable acoustic diaphragm is vibrated. Convey as sound waves. By transmitting underwater a Morse code with a single-frequency signal sound turned on and off, or transmitting underwater a signal sound combining multiple signal sounds with different frequencies, Can be conveyed. At this time, by adjusting the thickness of the acoustic diaphragm to set the natural vibration frequency of the acoustic diaphragm to a frequency particularly in the middle range (for example, 3.4 kHz), a sufficient sound pressure can be obtained in the middle range. Further, as the water depth increases, the water pressure applied to the acoustic diaphragm increases, and the acoustic pressure causes the acoustic diaphragm to be elastically deformed and pushed inward. Then, for example, air filled in the closed space between the acoustic diaphragm and the support plate is compressed, and the support plate is also elastically deformed inward by the compressed air to be curved, thereby causing the electric signal to vibrate the acoustic diaphragm. Since the mechanical vibration signal converter is not affected by the water pressure, it can withstand a water pressure of a water depth of 10 m or less. Therefore, a signal sound representing information can be transmitted in water without using air for breathing as in an underwater whistle, and sufficient sound pressure can be obtained even at a water depth of 10 m or less.

According to a second aspect of the present invention, there is provided a diver's underwater communication device, wherein a voice message generating section for outputting a prerecorded voice message or a synthesized voice message as an electric signal, and a signal indicating which voice message is to be output. A sealing unit having an elastically deformable acoustic diaphragm, and an electric signal representing the voice message from the voice message generating unit provided in the sealed container. Electric-mechanical vibration signal converter for converting the acoustic vibration plate into a vibration signal by converting the acoustic vibration plate into a vibration signal, and forming a sealed space between the acoustic diaphragm and the acoustic vibration plate provided in the sealed container. And an elastically deformable support plate for supporting the electric signal-mechanical vibration signal converter.

According to the diver's underwater communication device of the second aspect, when transmitting the voice message selected by the selection unit, the diver's underwater communication device transmits the voice message from the selection unit based on a signal indicating which voice message to output. The voice message generator outputs the selected voice message as an electric signal, and the electric signal from the signal sound generator is mechanically vibrated by the electric signal-mechanical vibration signal converter provided in the sealed container. The signal is converted into a signal, and the elastically deformable acoustic diaphragm is vibrated and transmitted as a sound wave. Thus, by transmitting the selected voice message underwater, information of various contents can be transmitted. At this time, by adjusting the thickness of the acoustic diaphragm to set the natural vibration frequency of the acoustic diaphragm to a frequency particularly in the midrange (for example, 3.4 kHz), a sufficient sound pressure can be obtained in the midrange. Further, as the water depth increases, the water pressure applied to the acoustic diaphragm increases, and the acoustic pressure causes the acoustic diaphragm to be elastically deformed and pushed inward. Then, for example, air filled in the closed space between the acoustic diaphragm and the support plate is compressed, and the support plate is also elastically deformed inward by the compressed air to be curved, thereby causing the electric signal to vibrate the acoustic diaphragm. Since the mechanical vibration signal converter is not affected by the water pressure, it can withstand a water pressure of a water depth of 10 m or less. Therefore, a voice message can be transmitted underwater, and sufficient sound pressure can be obtained even when the water depth is 10 m or less.

A diver's underwater communication device according to a third aspect of the present invention is the diver's underwater communication device according to the second aspect, further comprising a microphone for converting a sound into an electric signal, and wherein the selecting section includes the electric signal from the microphone. Is output, and a signal instructing the voice message generating unit to output an electric signal indicating a voice message having a content corresponding to the identified voice is output.

According to the underwater communication device for a diver of the third aspect, for example, when only the microphone is installed on a ship and connected to the main body by a cable, when a person underwater is called by a microphone from the ship, the voice is sounded by the microphone. Based on the converted electrical signal, the selector identifies the voice represented by the electrical signal, selects a voice message having a content corresponding to the identified voice, and represents the selected voice message. A signal for instructing the voice message generator to output an electric signal is output. According to the command signal, the voice message generator outputs an electric signal representing the voice message. Therefore, instead of the sound of the speaker being transmitted as sound waves underwater,
A voice message corresponding to the speaker's word is transmitted underwater as a pre-recorded voice message or a synthesized voice message.

A diver's underwater communication device according to a fourth aspect of the present invention is the diver's underwater communication device according to the second aspect, further comprising an ultrasonic receiving unit that converts an ultrasonic signal into an electric signal, and the selecting unit includes the ultrasonic unit. Identifying information represented by the electric signal from the sound wave receiving unit, and outputting a signal instructing the audio message generating unit to output an electric signal representing an audio message having a content corresponding to the identified information. It is characterized by.

According to the underwater communication device for a diver of the fourth aspect, for example, information is transmitted from a ship to an underwater person by an ultrasonic signal, and the ultrasonic wave receiving unit receives an ultrasonic wave propagating in the water. And converting the ultrasonic signal into an electric signal. The selecting unit identifies information represented by the electric signal from the ultrasonic receiving unit, selects a voice message having contents corresponding to the ultrasonic signal, and outputs an electric signal representing the selected voice message. And outputs a signal for instructing the voice message generator. In accordance with the command signal, an electric signal representing the voice message is output from the voice message generator. Therefore, the speaker's voice is not transmitted as it is to the water as sound waves, but the voice having the content corresponding to the transmitted ultrasonic signal is transmitted to the water as prerecorded voice or synthesized voice.

According to a fifth aspect of the present invention, there is provided an underwater communication device for a diver, comprising at least one of sensors for detecting air pressure, water depth or temperature of an aquarang tank. The selection unit outputs a signal instructing the voice message generation unit to output an electric signal indicating a voice message having a content corresponding to a detection signal from the sensor.

According to the underwater communication device for a diver of the fifth aspect, in scuba diving or the like, at least one of the air pressure, water depth and temperature of the aquarang tank filled with compressed air is detected by a sensor. Based on the detection signal from the sensor, output an electric signal representing a voice message (for example, “Now, tank pressure 160, water depth 15m, dive time 25 minutes”) according to the content of the detection signal, The selection unit outputs a signal for instructing the voice message generation unit. The voice message generating unit outputs an electric signal representing the voice message, and converts the electric signal from the signal sound generating unit into a mechanical vibration signal by an electric signal-mechanical vibration signal converting unit. The voice message is transmitted as sound waves by vibrating the diaphragm. Therefore, during diving, it is possible to know at least one of the air pressure, water depth and temperature in the tank without looking at the instrument display even in dark water, and to notify the situation by voice at regular intervals. Can be encouraged. Further, for example, when the remaining air amount becomes equal to or less than a predetermined amount, that is, when the remaining air amount becomes equal to or less than a predetermined air pressure, it is notified by voice so that safety can be improved.

According to a sixth aspect of the present invention, there is provided the diver's underwater communication apparatus, wherein the voice message generating section includes a voice message recording section for recording a voice message as an electric signal; A voice message playback unit that plays back the voice message recorded by the message recording unit as an electric signal.

According to the diver's underwater communication device of the sixth aspect, the voice message generating section records a necessary voice message in advance by the voice message recording section and the voice message recorded by the voice message reproducing section. Since the message is reproduced, a necessary voice message can be recorded and reproduced on the spot as needed.

According to a seventh aspect of the present invention, in the underwater communication device for a diver according to the first or second aspect, at least a part of the acoustic diaphragm has a light-transmitting property and is installed in the sealed container. And a light source for irradiating light outward through a light-transmitting portion of the acoustic diaphragm.

According to the diver's underwater communication device of the present invention, the diver's underwater communication device can be used also as a lighting device by irradiating light from the light source. When a battery is used as a power source of the diver's underwater communication device, the life of the battery can be determined based on the brightness of the light source by lighting the light source with the battery.

[0020]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a diver's underwater communication device according to the present invention.

(First Embodiment) FIG. 1 is a block diagram of a diver's underwater communication device according to a first embodiment of the present invention.
Reference numeral 1 denotes a control unit that outputs an address signal when a switch SW1 is turned on. Reference numeral 2 denotes a digital signal generation unit that generates a digital signal representing a signal tone based on the address signal from the control unit 1, and reference numeral 3 denotes a switch (not shown). A switching unit 4 as a selection unit that outputs a switching signal to the control unit 1 receives a digital signal from the digital signal generation unit 2 and converts the digital signal into an analog signal by a D / A (digital / analog) conversion. Container, 5
Is a power amplifier that amplifies the D / A-converted analog signal from the D / A converter 4, and 6 is a mechanical vibration signal that converts an analog electric signal amplified by the power amplifier 5 into a mechanical vibration signal. The speaker unit outputs the mechanical vibration signal into the water as sound waves. The digital signal generator 2, the D / A converter 4 and the power amplifier 5 constitute a signal tone generator.

The digital signal generating section 2 stores a plurality of types of tables of digital data (for example, a 4-bit configuration) having a signal waveform of a single frequency, and sequentially stores digital data from the table in response to an address signal from the control section 1. Is output. The switching unit 3 changes the address signal output from the control unit 1 to an address signal corresponding to another table. Then, the digital signal generation unit 2 sequentially outputs digital data as digital signals from a table of digital data having signal waveforms of different frequencies.

FIGS. 7A and 7B show a front view and a cross-sectional view from the side of the underwater communication device for a diver.
This underwater communication device for a diver includes a front case 71 including a cylindrical portion 71a and an elastically deformable outwardly projecting acoustic diaphragm 71b at one end of the cylindrical portion 71a, and the other end of the front case 71. And a rear case 81 having a cylindrical bottom and one end of which is screwed. The above acoustic diaphragm 7
The material of 1b is aluminum,
Stainless steel, polypropylene and all other plastics may be used. Further, the front case 71 and the rear case 81 are sealed with an O-ring 83, and the front case 71 and the rear case 81 form a closed container. A cylindrical aluminum tube 76 having one end fixed substantially inside the center of the acoustic diaphragm 71b, and a voice coil 77 wound around the outer periphery of the other end of the aluminum tube 76 are provided. A donut plate-like elastically deformable support plate 72 having a hole 72a through which the other end of the voice coil 77 penetrates is fixed inside the front case 71 at a predetermined interval from the acoustic diaphragm 71b. I have. A donut plate-shaped first pole piece 73 having one end fixed to one end of the support plate 72 opposite to the acoustic vibration plate 71b and having a hole 73a substantially at the center thereof; A doughnut-shaped permanent magnet 74, one end of which is fixed to the other end, and a disc-shaped permanent magnet 74, one end of which is fixed to the other end of the permanent magnet 73 and extending from the center toward the acoustic diaphragm 71b. A second pole piece 75;
The control board 8 attached to the other end of the second pole piece 75
0. The magnetic flux generated from the permanent magnet 74 forms a closed magnetic path so as to intersect the voice coil 77 via the first pole piece 73 and the second pole piece 75. The bottomed rear case 81 has a battery 82 mounted inside and a push-button switch SW1.

The first pole piece 73, the permanent magnet 74, the second pole piece 75 and the voice coil 77 constitute an electric signal-mechanical vibration signal converter, and the electric signal-mechanical vibration signal converter is formed. It is supported by a support plate 72. The control board 80 includes a control unit 1, a digital signal generation unit 2, a switching unit 3, a D / A converter 4, and a power amplifier 5 shown in FIG. The electric signal amplified by the power amplifier 5 is input to the voice coil 77.

In the underwater communication device for divers having the above configuration,
An electric signal representing a signal sound of a single frequency output by the digital signal generation unit 2, the D / A converter 4, and the power amplifier 5 is converted into a mechanical vibration signal by the speaker unit 6, and is elastically deformable sound. The vibration plate 71b is vibrated and transmitted as sound waves into water. By turning on and off the signal sound of a single frequency, by transmitting "Pee, Pee" or "Poe, Poe" or the like, or by transmitting a Morse code or the like,
It can convey information of various contents. In addition, the thickness of the acoustic diaphragm 71b is adjusted so that the natural vibration frequency of the acoustic diaphragm 71b is adjusted to a frequency particularly in the middle range (for example, 3.4 kHz).
By setting z), sufficient sound pressure can be obtained in the midrange.

Further, as the water depth increases, the water pressure applied to the acoustic diaphragm 71b increases, and the acoustic pressure causes the acoustic diaphragm 71b to be elastically deformed and pushed inward. Then, for example, the air filled in the closed space between the acoustic diaphragm 71b and the support plate 72 is compressed, and the support plate 72 is also elastically deformed inward by the compressed air and curved, causing the acoustic diaphragm 71b to vibrate. Since the electric signal-mechanical vibration signal conversion unit to be made is not affected by the water pressure, it withstands water pressure at a water depth of 10 m or less.

When the acoustic diaphragm 71b of the underwater communication device for divers has a diameter of 100 mm or more, it is necessary to take measures against water pressure and heat (heating of the voice coil). Because there are fewer layers,
Self-heat dissipation becomes possible, and the resonance point becomes higher,
An arbitrary resonance peak can be made at 0 Hz to 5 kHz. For this reason, it became possible to hear within a radius of 10 m even at a water depth of 50 m. Also, with a signal called at a single frequency, a reaching distance of 30 m or more was obtained in water. Further, by integrally molding the acoustic diaphragm and the front case, the degree of sealing can be easily maintained. Further, when a large input power is required, the heat can be directly radiated by the voice coil alone formed by the cylindrical winding bonding.

Therefore, a signal sound can be transmitted in water without using breathing air as in an underwater whistle, and a sufficient sound pressure can be obtained even at a water depth of 10 m or less.

The diver's underwater communication device according to the first embodiment is also applicable to communication between onboard and underwater.

(Second Embodiment) FIG. 2 is a block diagram of a diver's underwater communication device according to a second embodiment of the present invention.
The diver's underwater communication device has the same configuration as that of the first embodiment shown in FIG.

In FIG. 2, a control unit 11 outputs an address signal when the switch SW2 is turned on.
Is a digital signal generation unit that generates a digital signal representing a signal tone based on the address signal from the control unit 11; 13 is a switching unit as a selection unit that outputs a switching signal to the control unit 11 according to a not-shown switch. A D / A (digital / analog) converter 14 receives a digital signal from the digital signal generator 12 and converts the digital signal into an analog signal.
A power amplifier 16 amplifies the D / A converted analog signal from the A / A converter 14. The power amplifier 16 converts the electrical signal, which is the analog signal amplified by the power amplifier 15, into a mechanical vibration signal. A speaker unit that outputs a vibration signal into water. Digital signal generator 12, D / A
The converter 14 and the power amplifier 15 constitute a signal tone generator.

The diver's underwater communication device has the same configuration as the diver's underwater communication device of the first embodiment, except for the digital signal generator 12. The digital signal generator 12 differs from the digital signal generator 2 of the first embodiment in that it has a digital data table in which a plurality of signal tones having different frequencies are combined.

In the underwater communication device for a diver having the above configuration,
An electric signal representing a signal sound obtained by combining two or more signal sounds having different frequencies output by the digital signal generation unit 12, the D / A converter 14, and the power amplifier 15 is converted into a mechanical vibration signal by the speaker unit 6. Then, the elastically deformable acoustic diaphragm 71b is vibrated and transmitted to the water as sound waves. As described above, a combination sound of a plurality of signal sounds having different frequencies (for example, "pipo, pipou", "pipper,
Or "Purpie, Puppy") can convey information of various contents.

(Third Embodiment) FIG. 3 is a block diagram of a diver's underwater communication device according to a third embodiment of the present invention.
21 is a microphone, 22 is a filter that receives a signal from the microphone 21 and passes only a specific frequency band (for example, an audio band), 23 is an ultrasonic receiving microphone that converts an ultrasonic signal into an electric signal, and 24 is the above-described microphone. An ultrasonic signal amplifier that receives an electric signal from the ultrasonic receiving microphone 23 and amplifies the electric signal to a required level;
Is a signal processing unit serving as a selection unit for processing each signal from the filter 22 and the ultrasonic signal amplifier 24, and 26 is a control unit that receives a control signal from the signal processing unit 25 and outputs an electric signal representing a pre-registered synthesized voice message. A voice synthesizer for outputting a signal, a power amplifier 27 for amplifying an electric signal representing a synthesized voice message from the voice synthesizer 26, and a converter 28 for converting the electric signal amplified by the power amplifier 27 into a mechanical vibration signal And a speaker unit that outputs the mechanical vibration signal into water. The signal processing unit 25 includes a microcomputer and an input / output circuit.

In this underwater communication device for divers,
A combination of a microphone 21 and a filter 22, or an ultrasonic receiving microphone 23 and an ultrasonic signal amplifier 2
Only one of the four combinations may be used. The ultrasonic receiving microphone 23 and the ultrasonic signal amplifier 24 constitute an ultrasonic receiving unit, and the audio synthesizing unit 26 and the power amplifying unit 27 constitute an audio message generating unit. The speaker unit 28 is the same as that shown in FIG.
It has the same configuration as the underwater communication device for divers shown in (A) and (B).

In the underwater communication device for divers having the above configuration,
An electric signal representing a synthesized voice message (for example, “contact from water”) output by the voice message generating unit 26 and the power amplifier 27 is converted into a mechanical vibration signal by the speaker unit 6, and elastically deformable acoustic vibration A plate (not shown) is vibrated and transmitted to the water. Thus, by transmitting the synthesized voice message, information of various contents can be transmitted. Therefore, similarly to the operation and effect of the first embodiment, a voice message can be transmitted underwater, and sufficient sound pressure can be obtained even when the water depth is 10 m or less. Also, by creating a synthesized voice message so as to be clearly heard underwater, it is possible to hear clearly over a wide range. Note that the voice message generator may output an electric signal representing a prerecorded voice message instead of a synthesized voice message.

For example, when a person underwater is called by the microphone 21 from the ship, the signal processing unit 25
The called voice is identified, a voice message having the content corresponding to the identified voice is selected, and a signal for instructing the voice synthesizing unit 26 to output an electric signal representing the selected voice message is output. . In addition, information is transmitted from a ship to an underwater person by an ultrasonic signal,
Identifies the information represented by the transmitted ultrasound signal, selects a voice message with content corresponding to the information, and outputs an electrical signal representing the selected voice message,
It outputs a signal to instruct the voice synthesizer 26. Therefore, the voice of the speaker is not transmitted as sound waves into the water as it is, but a synthesized voice message having contents corresponding to the words of the speaker or the information represented by the ultrasonic signal is transmitted to the water.

(Fourth Embodiment) FIG. 4 is a block diagram of a diver's underwater communication device according to a fourth embodiment of the present invention.
31 is a pressure gauge for detecting the pressure in an aquarang tank (not shown), 32 is a pressure signal amplifier for amplifying the pressure signal detected by the pressure gauge 31, 33 is a water depth gauge for detecting water depth, 34 is A depth signal amplifier for amplifying a depth signal detected by the depth gauge 33, a thermometer 35 for detecting temperature, a temperature signal amplifier 36 for amplifying a temperature signal detected by the thermometer 35, and a pressure signal 37 for the pressure signal Based on the signals from the amplifier 32, the depth signal amplifier 34, and the temperature signal amplifier 36, a signal processing unit as a selection unit that outputs a control signal. The control unit 38 receives the control signal from the signal processing unit 37 and outputs a voice message. Synthesizer for synthesizing
Is a power amplifier for amplifying an electric signal representing a synthesized voice message from the voice synthesizer, and 40 is a mechanical vibration signal that converts the amplified electric signal from the power amplifier 39 to a mechanical vibration signal. This is a speaker unit that outputs underwater to a speaker. The signal processing unit 37 includes a microcomputer and an input / output circuit. Also, the voice synthesizing unit 3
8 and the power amplifier 39 constitute a voice message generator. The speaker section 40 has the same configuration as the diver's underwater communication apparatus shown in FIGS. 7A and 7B except for the control board 80.

In the underwater communication device for a diver having the above configuration,
The air pressure, water depth and temperature of an aquarang tank (not shown) filled with compressed air are detected by a pressure gauge 31, a water depth gauge 33 and a thermometer 35, respectively. A synthesized voice message having a content corresponding to each signal from the pressure gauge 31, the depth gauge 33, and the thermometer 35 (for example, "Now, the tank pressure 160,
The depth of the water is 15m and the dive time is 25 minutes. "
Output a signal to command. The voice synthesizer 38 outputs an electric signal representing the synthesized voice message, amplifies the electric signal with the power amplifier 39, and converts the electric signal from the power amplifier 39 into a mechanical vibration signal with the speaker unit 40. Then, an acoustic diaphragm (not shown) is vibrated to transmit the synthesized voice message as a sound wave. Therefore, during diving, the air pressure, water depth, and temperature in the tank can be known without seeing the display of the instrument even in dark water, and the situation can be notified by voice at regular time intervals to call attention. Further, for example, when the remaining amount of air becomes equal to or less than a predetermined amount, it is notified by voice, so that safety can be improved.

In the above underwater communication device for divers,
A pressure gauge 31, a depth gauge 33 and a thermometer 35 were used.
At least one of the pressure gauge 31, the depth gauge 33 and the thermometer 35 may be used. Further, another sensor may be used to output a voice message based on a signal detected by the sensor.

(Fifth Embodiment) FIG. 5 is a block diagram of an underwater communication device for a diver according to a fifth embodiment of the present invention.
41 is a microphone, 42 is a filter that receives a signal from the microphone 41 and passes only a specific frequency band (for example, an audio band), 43 is an ultrasonic receiving microphone that converts an ultrasonic signal into an electric signal, and 44 is an ultrasonic wave. An ultrasonic amplifier which receives an electric signal from the receiving microphone 43 and amplifies the electric signal; 45, a pressure gauge for detecting pressure in a tank (not shown); 46, a pressure for amplifying the pressure signal from the pressure gauge 31; A signal amplifier, 47 a depth gauge for detecting the depth of the water, 48 a depth signal amplifier for amplifying the depth signal from the depth gauge 33, 49 a thermometer for detecting the temperature, 50
Is a temperature signal amplifier for amplifying the temperature signal from the thermometer 35, 51 is the filter 22, the ultrasonic signal amplifier 24,
A signal processing unit 52 as a selection unit for processing each signal of the pressure gauge 31, the depth gauge 33 and the thermometer 35, receives a control signal from the signal processing unit 51, and receives a control signal from the signal processing unit 51 to generate an electric signal representing a synthesized voice message registered in advance. A voice synthesizer for outputting a signal, a power amplifier 53 for amplifying an electric signal representing the synthesized voice message from the voice synthesizer 52, and converting the electric signal amplified by the power amplifier 53 into a mechanical vibration signal. And a speaker unit that outputs the mechanical vibration signal into the water as sound waves. The voice synthesizer 52 and the power amplifier 5
3 constitutes a voice message generator. The signal processing unit 51 includes a microcomputer and an input / output circuit. The speaker section 54 has the same configuration as the diver's underwater communication device shown in FIGS. 7A and 7B except for the control board 80.

The underwater communication device for divers having the above configuration has the same operation and effect as the third and fourth embodiments.

In this underwater communication device for divers,
A combination of a microphone 41 and a filter 42 or a microphone 43 for receiving ultrasonic waves and an ultrasonic signal amplifier 4
Only one of the four combinations may be used. Further, the above pressure gauge 45, water depth gauge 47 and thermometer 49 were used,
At least one of a pressure gauge, a depth gauge and a thermometer may be used. Further, another sensor may be used to output a voice message based on a signal detected by the sensor.

(Sixth Embodiment) FIG. 6 is a block diagram of a diver's underwater communication device according to a sixth embodiment of the present invention.
61 is a microphone for converting an audio signal into an electric signal, 6
2 receives an electric signal from the microphone 61, and one end of each of the switches SW10 to SWn is connected,
A switch matrix 63 as a selection unit to which the other ends of the switches SW10 to SWn are connected receives the selection signal from the switch matrix 62 and an electric signal indicating a voice message, and records or records the voice message. A voice recording / reproducing unit for reproducing the reproduced voice message; 64, a power amplifier for amplifying an electric signal representing the reproduced voice message from the voice recording / reproducing unit 63; 65, an electric signal amplified by the power amplifier 64; Is converted into a mechanical vibration signal, and the mechanical vibration signal is transmitted as a sound wave into water. The signal processing unit 51 includes a microcomputer and an input / output circuit. The voice recording / reproducing unit 63 and the power amplifier 64 constitute a voice message generating unit. The voice recording / reproducing unit 63 converts a voice signal into a digital signal and stores the digital signal in a semiconductor memory; It is composed of a voice message reproducing unit that converts a digital signal stored in the semiconductor memory into a voice signal and outputs the voice signal. Note that the speaker unit 54 is the same as that of FIG.
It has the same configuration as the underwater communication device for divers shown in (A) and (B).

The underwater communication device for divers having the above-mentioned configuration starts voice recording when one of the switches SW10 to SWn is turned on and the switch SW20 is turned on on land. The audio signal from 61 is recorded corresponding to the turned on switch among the switches SW10 to SWn. And the switch SW
Turning off 20 ends the voice recording. Similarly,
Switch SW20 is turned on, and switches SW10 to SWn
Turn on the other switch to record a voice message. After recording a plurality of voice messages in this way, when one of the switches SW10 to SWn is turned on underwater with the switch SW20 turned off, the voice message corresponding to the switch is output from the voice recording / reproducing unit 63. (For example, "This fish is ..." or "Underwater guidance ...") is output. The audio recording / reproducing unit 63
Is amplified by the power amplifier 64, and the electric signal, which is an audio signal, is converted into a mechanical vibration signal from the underwater speaker unit 65 and output.

As described above, by transmitting the selected voice message underwater, information of various contents can be transmitted, and sufficient sound pressure can be obtained even when the water depth is 10 m or less. Also, the diver's underwater communication device records a necessary voice message in advance by the voice recording / reproducing unit 63 and reproduces the recorded voice message, so that the necessary voice message is appropriately recorded on the spot, Can be played.

The underwater communication device for divers of the present invention is not limited to use underwater, and may be used on land as a completely waterproof communication device.

In the first to sixth embodiments, FIG.
As shown in (B), in the underwater communication device for divers, the underwater speaker unit and other components are arranged in the same sealed container, but the underwater speaker unit and other components may be separate.

In the first to sixth embodiments, FIG.
As shown in (B), the acoustic diaphragm 71b has a convex shape,
The shape of the acoustic diaphragm is not limited to this, and may be an appropriate shape according to the frequency band to be transmitted. For example, when it is necessary to transmit a signal sound or a voice message in a frequency band of a relatively high frequency range, as shown in FIG. 8, one end of a cylindrical portion 85a is closed by a truncated conical acoustic diaphragm 85b. Case 85 may be used. If it is necessary to transmit a signal sound or a voice message in a relatively middle frequency band, the acoustic diaphragm is formed into a spherical shape.

The underwater communication device for divers of the present invention may have a lighting function as shown in FIG. That is, as shown in FIG.
It has a cylindrical portion 91a and an acoustic diaphragm 91b for closing one end of the cylindrical portion 91a, and a transparent member 92 is attached to a hole 90 (substantially the same diameter as the aluminum cylinder 76) provided at substantially the center of the acoustic diaphragm 91b. Cylindrical portion 7 of second pole piece 75 in aluminum cylinder 76
5a, a reflecting mirror 94 and a halogen lamp 93 are attached to the tip. In this case, when the halogen lamp 93 is turned on, light is radiated to the outside through the transparent member 92, and the diver's underwater communication device can be used also as a lighting device. Further, by turning on the halogen lamp 93 using a battery which is a power supply of the diver's underwater communication device, the remaining amount of the battery can be known by the degree of brightness of the halogen lamp 93. In FIG. 9, the same components as those of the diver's underwater communication device shown in FIG. 7 (B) are denoted by the same reference numerals and description thereof is omitted.

In the fourth and fifth embodiments, the water depth gauges 33 and 47 and the thermometers 35 and 49 are used. However, a diver watch having at least one function may be used.

[0052]

As is apparent from the above description, the underwater communication device for a diver according to the first aspect of the present invention represents a signal sound generating section for outputting a signal sound representing information as an electric signal and indicating which information is output. A selection unit that outputs a signal to a signal sound generation unit,
A sealed container having an elastically deformable acoustic diaphragm, and an electric signal-mechanical vibration signal converter provided in the sealed container, so as to form a sealed space between the acoustic diaphragm, and An elastically deformable support plate provided in the sealed container so as to support the electric signal-mechanical vibration signal conversion unit, and the electric signal-mechanical vibration signal conversion unit outputs the signal from the signal sound generation unit. An electric signal representing a signal sound is converted into a mechanical vibration signal, and the acoustic diaphragm is vibrated and transmitted as a sound wave.

Therefore, according to the underwater communication device for a diver of the first aspect of the present invention, based on the electric signal (signal sound representing information) selected by the selection unit and output by the signal sound generation unit. By the electric signal-mechanical vibration signal conversion unit, for example, a signal sound of a single frequency is turned on / off to transmit a Morse code or the like as sound waves in water, or a signal sound in which two or more signal sounds having different frequencies are combined underwater. By transmitting the information as a sound wave, various kinds of information can be transmitted. In addition, by adjusting the thickness of the acoustic diaphragm to a frequency in a sound range that transmits the natural vibration frequency of the acoustic diaphragm, sufficient sound pressure can be obtained in the middle sound range, and the acoustic diaphragm can be obtained in accordance with water pressure. Is elastically deformed, for example, the air filled in the closed space is compressed, and the support plate is also elastically deformed inwardly by the compressed air to be curved, and the electric signal-mechanical vibration signal converter supported by the support plate Is not affected by water pressure. Therefore, without using breathing air like underwater whistles, it is possible to convey a signal sound representing information in water,
A sufficient sound pressure can be obtained even when the water depth is 10 m or less.

The underwater communication device for a diver according to the second aspect of the present invention provides a voice message generating section for outputting a voice message recorded in advance or a synthesized voice message as an electric signal, and determining which voice message to output. A selection unit that outputs a signal representing the signal to a voice message generation unit, a sealed container having an elastically deformable acoustic diaphragm, an electric signal-mechanical vibration signal conversion unit provided in the sealed container, and the acoustic diaphragm And a resiliently deformable support plate provided in a sealed container to support the electrical signal-mechanical vibration signal converter, so as to form a sealed space between the electrical signal and the mechanical signal. The electrical signal representing the voice message from the voice message generator is converted into a mechanical vibration signal by the mechanical vibration signal conversion unit, and the acoustic diaphragm is vibrated to generate a sound wave. It is intended to convey Te.

Therefore, according to the underwater communication device for a diver of the invention of claim 2, based on the electric signal (signal sound representing information) selected by the selection unit and output from the voice message generation unit. The electric signal-mechanical vibration signal conversion unit can convey various kinds of information by transmitting a voice message as sound waves underwater. Further, by adjusting the thickness of the acoustic diaphragm to a frequency in a sound range that transmits the natural vibration frequency of the acoustic diaphragm, a sufficient sound pressure can be obtained in the middle sound range,
The acoustic diaphragm is elastically deformed in response to the water pressure, for example, the air filled in the closed space is compressed, and the support plate is also elastically deformed inward by the compressed air to be curved, and the electric signal supported by the support plate -The mechanical vibration signal converter is not affected by water pressure. Therefore, a voice message can be transmitted underwater, and sufficient sound pressure can be obtained even when the water depth is 10 m or less.

According to a third aspect of the present invention, in the underwater communication apparatus for a diver according to the second aspect, the selection unit identifies a sound represented by an electric signal converted from a sound from the microphone. Therefore, a signal is output to the voice message generator to output an electric signal representing a voice message having a content corresponding to the identified voice, so that the voice of the speaker is not transmitted to the water as a sound wave as it is. The voice message corresponding to the speaker's word is transmitted underwater as a pre-recorded voice message or a synthesized voice message. Therefore, more reliable information transmission can be performed.

According to a fourth aspect of the present invention, there is provided the diver's underwater communication device, wherein the selection unit is configured to receive an ultrasonic signal from an ultrasonic reception unit that converts an ultrasonic signal into an electric signal. Identify the information that the electrical signal represents,
A signal for instructing the voice message generator to output an electric signal representing a voice message having the content corresponding to the identified information is output, so that the voice of the speaker is not transmitted to the water as sound waves, but transmitted. A voice message having a content corresponding to the received ultrasonic signal is transmitted underwater as a prerecorded voice message or a synthesized voice message. Therefore, more reliable information transmission can be performed.

According to a fifth aspect of the present invention, in the underwater communication device for a diver, at least one of the sensors for detecting the air pressure, water depth or temperature of the aquarang tank is provided. Since an electric signal representing a voice message having a content corresponding to the detection signal is output from the selecting unit, a signal for instructing the voice message generating unit is output by the selecting unit. It is possible to know the air pressure, water depth, and temperature in the tank, and to alert the user by notifying the status by voice at regular intervals.
Further, for example, when the remaining air amount becomes equal to or less than a predetermined amount, that is, when the air pressure becomes equal to or less than a predetermined air pressure, the sound is notified so that safety can be improved.

According to a sixth aspect of the present invention, in the underwater communication device for a diver, the voice message generating section records the voice message as an electric signal by a voice message recording section. Since the voice message recorded in the voice message recording section is reproduced as an electric signal by the voice message reproducing section, a necessary voice message can be recorded and reproduced on the spot as needed.

According to a seventh aspect of the present invention, there is provided the underwater communication device for a diver according to the first or second aspect, wherein light is radiated outward through a light transmitting portion of the acoustic diaphragm. The underwater communication device for a diver can be used also as a lighting device by irradiating light from the light source. Also,
When a battery is used as a power source of the underwater communication device for a diver, the life of the battery can be determined based on the brightness of the light source by lighting the light source with the battery.

[Brief description of the drawings]

FIG. 1 is a block diagram of a diver's underwater communication device according to a first embodiment of the present invention.

FIG. 2 is a block diagram of a diver's underwater communication device according to a second embodiment of the present invention.

FIG. 3 is a block diagram of a diver's underwater communication device according to a third embodiment of the present invention.

FIG. 4 is a block diagram of a diver's underwater communication device according to a fourth embodiment of the present invention.

FIG. 5 is a block diagram of a diver's underwater communication device according to a fifth embodiment of the present invention.

FIG. 6 is a block diagram of a diver's underwater communication device according to a sixth embodiment of the present invention.

FIGS. 7A and 7B are a front view and a cross-sectional view of the underwater communication device for a diver according to the first embodiment.

FIG. 8 is a sectional view of a front case having an acoustic diaphragm of another shape of the underwater communication device for a diver.

FIG. 9 is a sectional view of a main part of a diver's underwater communication device with a lighting function according to the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Control part, 2 ... Digital signal generation part, 3 ... Switching part, 4 ... D / A converter, 5 ... Power amplifier, 6 ... Speaker part.

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[Procedure amendment]

[Submission date] November 28, 1997

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0023

[Correction method] Change

[Correction contents]

FIGS. 7A and 7B show a front view and a cross-sectional view from the side of the underwater communication device for a diver.
This underwater communication device for a diver includes a front case 71 including a cylindrical portion 71a and an elastically deformable outwardly projecting acoustic diaphragm 71b at one end of the cylindrical portion 71a, and the other end of the front case 71. And a rear case 81 having a cylindrical bottom and one end of which is screwed. The above acoustic diaphragm 7
The material of 1b is aluminum,
Stainless steel, polypropylene and all other plastics may be used. Further, the front case 71 and the rear case 81 are sealed with an O-ring 83, and the front case 71 and the rear case 81 form a closed container. A cylindrical aluminum tube 76 having one end fixed substantially inside the center of the acoustic diaphragm 71b, and a voice coil 77 wound around the outer periphery of the other end of the aluminum tube 76 are provided. A donut plate-like elastically deformable support plate 72 having a hole 72a through which the other end of the voice coil 77 penetrates is fixed inside the front case 71 at a predetermined interval from the acoustic diaphragm 71b. I have. One end is fixed to one end of the support plate 72 on the side opposite to the acoustic vibration plate 71b, and a first pole piece 73 in the form of a donut having a hole 73a provided substantially in the center; A doughnut-shaped permanent magnet 74 having one end fixed to the other end thereof, and a disk-shaped permanent magnet 74 having one end fixed to the other end of the permanent magnet 74 and extending from the center toward the acoustic diaphragm 71b. A second pole piece 75;
The control board 8 attached to the other end of the second pole piece 75
0. The magnetic flux generated from the permanent magnet 74 forms a closed magnetic path so as to intersect the voice coil 77 via the first pole piece 73 and the second pole piece 75. The bottomed rear case 81 has a battery 82 mounted inside and a push-button switch SW1.

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0033

[Correction method] Change

[Correction contents]

In the underwater communication device for a diver having the above configuration,
An electric signal representing a signal sound obtained by combining two or more signal sounds having different frequencies output by the digital signal generation unit 12, the D / A converter 14, and the power amplifier 15 is converted into a mechanical vibration signal by the speaker unit 6. Then, the elastically deformable acoustic diaphragm 71b is vibrated and transmitted to the water as sound waves. As described above, a combination sound of a plurality of signal sounds having different frequencies (for example, "pipo, pipou", "pipper,
Or "Purpie, Puppy") can convey information of various contents. Thereby, a plurality of individuals can be identified.

[Procedure amendment 3]

[Document name to be amended] Drawing

[Correction target item name] Fig. 7

[Correction method] Change

[Correction contents]

FIG. 7

Claims (7)

[Claims] 1. A signal sound generator for outputting a signal sound representing information as an electric signal, a selector for outputting a signal representing which information is to be output to the signal sound generator, an elastically deformable acoustic vibration A sealed container having a plate, provided in the sealed container, converting an electric signal representing the signal sound from the signal sound generation unit into a mechanical vibration signal,
An electric signal-mechanical vibration signal converter for vibrating the acoustic diaphragm and transmitting it as a sound wave; and a sealed space provided between the acoustic diaphragm and the electric signal-machine provided in the sealed container. An underwater communication device for a diver, comprising: an elastically deformable support plate that supports a dynamic vibration signal conversion unit. 2. A voice message generator for outputting a previously recorded voice message or a synthesized voice message as an electric signal, and a selector for outputting a signal indicating which voice message to output to the voice message generator. A sealed container having an elastically deformable acoustic diaphragm, provided in the sealed container, converting an electric signal representing the voice message from the voice message generating unit into a mechanical vibration signal, An electric signal-mechanical vibration signal conversion unit that vibrates the plate and transmits it as a sound wave; and a sealed space provided between the acoustic vibration plate and the electric signal-mechanical vibration signal provided in the sealed container. An underwater communication device for a diver, comprising: an elastically deformable support plate that supports a conversion unit. 3. The underwater communication device for a diver according to claim 2, further comprising a microphone that converts a sound into an electric signal, wherein the selecting unit identifies a sound represented by the electric signal from the microphone, and selects the sound. An underwater telephone communication device for a diver, comprising: outputting a signal instructing the voice message generating unit to output an electric signal representing a voice message having a content corresponding to the identified voice. 4. The underwater communication device for a diver according to claim 2, further comprising: an ultrasonic receiving unit configured to convert an ultrasonic signal into an electric signal, wherein the selecting unit receives the electric signal from the ultrasonic receiving unit. A submersible communication device for a diver, which outputs a signal instructing the voice message generator to output an electric signal representing a voice message having a content corresponding to the identified information by identifying the information to be represented. . 5. The underwater communication device for a diver according to claim 2, further comprising at least one sensor for detecting air pressure, water depth, or temperature of the aquarang tank, wherein the selection unit is configured to detect the air pressure, water depth, or temperature of the aquarang tank. And outputting a signal instructing the voice message generating unit to output an electric signal representing a voice message having a content corresponding to the detection signal. 6. The underwater communication device for divers according to claim 2, wherein the voice message generating unit records a voice message as an electric signal, and a voice message recorded by the voice message recording unit. And a voice message playback unit for playing back as an electric signal. 7. The underwater communication device for a diver according to claim 1 or 2, wherein at least a part of the acoustic diaphragm has optical transparency and is provided in the sealed container, and the light of the acoustic diaphragm is provided. An underwater communication device for a diver, comprising: a light source for irradiating light outward through a transparent portion.