Method and apparatus for underwater communication

US 5,455,842 A
Filed: 01/12/1994
Issued: 10/03/1995
Est. Priority Date: 01/12/1994
Status: Expired due to Term

First Claim

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1. Apparatus for communicating sound-related vibrations to the cochlea of an underwater diver comprising:

a mouthpiece for use in underwater breathing apparatus;

means for receiving acoustic signals and converting said acoustic signals to electrical audio driver signals;

transducer means mounted in said mouthpiece and adapted to be held in selectively compressible vibration-transmitting engagement with a surface of a tooth of the diver and responsive to said input electrical audio driver signals for imparting corresponding vibratory signals to said tooth and hence to the ear and cochlea of the diver via facial bone structure;

wherein said transducer means includes a magnetostrictive rod member responsive to a varying magnetic field passing therethrough for expanding and contracting in size in response to variations in said field, an electrical coil responsive to variable amplitude electrical current passing therethrough for creating a varying electromagnetic field passing through said rod, thereby causing said rod to expand and contract in size with variations in the current amplitude, and an actuator in direct contact with said rod such that said actuator vibrates as a function of the size expansions and contractions of said rod;

engagement means for holding said rod in said vibration-transmitting engagement with said tooth surface; and

connecting means for delivering said input electrical audio driver signals to said electrical coil.

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Abstract

Waterborne acoustic signals are received and processed into electrical driver signals to energize a transducer held in selectively controllable vibration-transmitting engagement with a tooth of an underwater diver. The transducer converts the electrical signals into low amplitude sound-associated vibrations imparted to the tooth, through the jawbone and scull to the cochlea for processing into electrical signals carried to the brain and perceived as intelligible sound. The addition of conventional broadcast means permits two-way underwater communication. The transducer can be labially or occlusively mounted, preferably against an upper or maxillary tooth and the force of engagement between the transducer and the tooth is at least partially controlled by the diver to optimize communication characteristics.

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22 Claims

1. Apparatus for communicating sound-related vibrations to the cochlea of an underwater diver comprising:
- a mouthpiece for use in underwater breathing apparatus;
  
  means for receiving acoustic signals and converting said acoustic signals to electrical audio driver signals;
  
  transducer means mounted in said mouthpiece and adapted to be held in selectively compressible vibration-transmitting engagement with a surface of a tooth of the diver and responsive to said input electrical audio driver signals for imparting corresponding vibratory signals to said tooth and hence to the ear and cochlea of the diver via facial bone structure;
  
  wherein said transducer means includes a magnetostrictive rod member responsive to a varying magnetic field passing therethrough for expanding and contracting in size in response to variations in said field, an electrical coil responsive to variable amplitude electrical current passing therethrough for creating a varying electromagnetic field passing through said rod, thereby causing said rod to expand and contract in size with variations in the current amplitude, and an actuator in direct contact with said rod such that said actuator vibrates as a function of the size expansions and contractions of said rod;
  
  engagement means for holding said rod in said vibration-transmitting engagement with said tooth surface; and
  
  connecting means for delivering said input electrical audio driver signals to said electrical coil.
- View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 15, 16)
- - 3. The apparatus according to claim 1 wherein said engagement means comprises means for holding said transducer in said vibration-transmitting engagement with the buccolabial side of a tooth of the diver.
  - 4. The apparatus according to claim 1 wherein said engagement means are teeth of opposing upper and lower arches in occlusion with said vibration-transmitting transducer.
  - 5. The apparatus according to claim 1 wherein said engagement means comprises means for holding said transducer in said vibration-transmitting engagement with an incisor.
  - 6. The apparatus according to claim 1 wherein said engagement means comprises means for holding said transducer in said vibration-transmitting engagement with a maxillary tooth.
  - 7. The apparatus according to claim 1 wherein said transducer means is mounted in the mouthpiece of a scuba device.
  - 8. The apparatus according to claim 1 wherein said transducer means is mounted in the mouthpiece of a snorkel device.
  - 9. The apparatus according to claim 1 wherein said connecting means comprises:
    - a hole defined in the forwardly extending tube portion of said mouthpiece;
      
      an internally threaded open cylinder rigidly and watertightly mounted in said hole;
      
      a female connector having external threads to engage said internally threaded open cylinder;
      
      conductors extending from said female connector to said transducer means;
      
      a male connector conductively and watertightly receivable into said female connector; and
      
      conductors extending from said male connector to said means for receiving and converting said acoustic signal.
  - 10. The apparatus according to claim 1 wherein said engagement means comprises means for holding said transducer in said vibration-transmitting engagement with the lingual side of a tooth of the diver.
  - 11. The apparatus according to claim 1 further comprising a microphone transducer means mounted external to and forwardly of the mouth of the diver in the forwardly-extending air tube portion of said mouthpiece for converting sound emanating from the diver'"'"'s mouth to output electrical signals, and connecting means for delivering said output signals to broadcast transmission means.
  - 12. The apparatus according to claim 1 wherein said mouthpiece includes a labial flange extending arcuately on each side of the mouth and said flange includes:
    - a rigid outer surface for exerting and transmitting oro-facial pressure against said transducer means; and
      
      a soft inner portion for comfortably engaging the teeth of the diver.
  - 15. The apparatus according to claim 1 wherein said surface of a tooth is a non-bearing surface.
  - 16. The apparatus according to claim 15 wherein said engagement means for holding said transducer means in said vibration-transmitting engagement with said non-bearing tooth surface is positioned to permit unrestricted tongue and teeth manipulation for speech articulation.

2. Apparatus for communicating sound-related vibrations to the cochlea of an underwater diver comprisinga mouthpiece for use in underwater breathing apparatus;
- means for receiving acoustic signals and converting said acoustic signals to electrical audio driver signals;
  
  transducer means mounted in said mouthpiece and adapted to be held in selectively compressible vibration-transmitting engagement with a surface of a tooth of the diver and responsive to said input electrical audio driver signals for imparting corresponding vibratory signals to said tooth and hence to the ear and cochlea of the diver via facial bone structure;
  
  wherein said transducer means is a piezoelectric crystal transducer.

13. A method for an underwater diver to receive underwater communication comprising the steps of:
- (a) mounting a transducer in the mouthpiece of an underwater breathing device in selectively compressible vibration-transmitting contact with a surface of a tooth of the diver;
  
  (b) transmitting input electrical audio driver signals from an underwater acoustic receiver to said transducer;
  
  (c) converting said input signals to output sound-related vibrations via said transducer; and
  
  (d) imparting said vibrations to said tooth surface for osseous conduction to the cochlea.
- View Dependent Claims (14, 17)
- - 14. The method of claim 13 further comprising the steps of:
    - (e) mounting a microphone for converting soundwaves into electrical signals in said mouthpiece external to and in front of the mouth of the diver;
      
      (f) transmitting said microphone electrical signals to a transducer means for converting said microphone electrical signals into acoustic vibrations for transmitting into water; and
      
      (g) transmitting said acoustic vibrations into the water.
  - 17. The method of claim 13 further comprising the step of attaching said receiver to the diver.

18. Apparatus for communicating sound to the cochlea of a person comprising:
- a mouthpiece adapted to fit between and be engaged by the person'"'"'s maxillary and mandibular teeth;
  
  a transducer mounted in said mouthpiece for selectively compressible engagement with at least one tooth by muscles of the person and responsive to electrical audio driver signals applied thereto for imparting corresponding vibratory signals to said tooth for transmission through bone structure to the cochlea of the person; and
  
  means for applying electrical audio driver signals to said transducer.
- View Dependent Claims (19, 20)
- - 19. The apparatus according to claim 18 wherein said transducer means comprises a magnetostrictive member responsive to a varying magnetic field passing therethrough for expanding and contracting in size in response to variations in said field;
    - an electrical coil responsive to variable amplitude electrical current passing therethrough for creating a varying electromagnetic field passing through said rod, thereby causing said rod to expand and contract in size with variations in the current amplitude;
      
      an actuator in direct contact with said rod such that said actuator vibrates as a function of the size expansions and contractions of said rod; and
      
      coupling means for conducting vibrations from said actuator to said tooth.
  - 20. The apparatus of claim 18 wherein said at least one tooth comprises opposing upper and lower arches in occlusion with said vibration-transmitting transducer.

21. A method of transmitting sound to the cochlea of a person comprising the steps of:
- (a) disposing a mouthpiece in the persons'"'"'s mouth for selectively compressible retention between the person'"'"'s mandibular and maxillary teeth;
  
  (b) mounting a transducer in said mouthpiece for compressible contact against a surface of a tooth of the person as a function of said selectively compressible retention;
  
  (c) applying electrical audio driver signals to said transducer; and
  
  (d) with said transducer, converting the driver signal to corresponding mechanical vibrations and applying said vibrations to said tooth surface for transmission through bone structure to the person'"'"'s cochlea.

22. Apparatus for communicating sound-related vibrations to the cochlea of an underwater diver comprising:
- a mouthpiece for use in underwater breathing apparatus;
  
  means for receiving acoustic signals and converting said acoustic signals to electrical audio driver signals;
  
  transducer means mounted in the said mouthpiece of an underwater breathing device and adapted to be held in selectively compressible vibration-transmitting engagement with a surface of a tooth of a the diver and responsive to said input electrical audio driver signals for imparting corresponding vibratory signals to said tooth and hence to the ear and cochlea of the diver via facial bone structure;
  
  engagement means for holding said mouthpiece-mounted transducer means in said vibration-transmitting engagement with said tooth surface; and
  
  connecting means for delivering said input electrical audio driver signals to said transducer means.

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Current Assignee
Barry Mersky, Van P. Thompson
Original Assignee
Barry Mersky, Van P. Thompson
Inventors
Thompson, Van P., Mersky, Barry
Primary Examiner(s)
Chin, Stephen
Assistant Examiner(s)
LOOMIS, PAUL A

Application Number

US08/181,149
Time in Patent Office

629 Days
Field of Search

379/175, 381/68.3, 381/151, 128/200.24, 340/850, 267/130, 267/131, 267/132
US Class Current

379/175
CPC Class Codes

B63C 11/26   Communication means, e.g. m...

H04B 11/00   Transmission systems employ...

H04B 13/02   Transmission systems in whi...

H04R 1/44   Special adaptations for sub...

Method and apparatus for underwater communication

First Claim

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Abstract

84 Citations

22 Claims

Specification

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Method and apparatus for underwater communication

First Claim

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0 Petitions

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Accused Products

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Abstract

84 Citations

22 Claims

Specification

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Solutions

Use Cases

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