Claims
- 1. A loudspeaker system for installation in a space defined by a front panel and an enclosed area behind the front panel of a structural partition fronting a listening area comprising:
- electroacoustical transducing means having a two sided vibratory diaphragm;
- means for coupling an electrical signal to said electroacoustical transducing means for driving same;
- enclosure means for mounting said electroacoustical transducing means such that one side of said vibratory diaphragm is in contact with air outside said enclosure means and said enclosure means substantially enclosing and defining a specific volume of air having a predefined acoustic compliance and which is in contact with the other side of said vibratory diaphragm of said electroacoustical transducing means;
- means for mounting said enclosure means to the structural partition such that said enclosure means extends into the space between a front panel of the partition and a rear panel of the partition so that the one side of said vibratory diaphragm contacts a volume of air outside said enclosure means within the space between the front panel and the rear panel of the partition;
- passive radiating means characterized by having a specific acoustic mass for coupling the specific volume of air enclosed by said enclosure means to the air outside said enclosure means in the listening area;
- a compression plate mounted to said enclosure means in spaced relationship to and facing said one side of said vibratory diaphragm in contact with air outside said enclosure means to form a partial enclosure so as to isolate said vibratory diaphragm from the rear partition member adjacent said one side of said vibratory diaphragm while at the same time maintaining coupling of said vibratory diaphragm to the air volume outside said enclosure means between the front and rear panels of the partition;
- whereby the volume of air outside said enclosure means within the space behind the front panel of the partition is substantially acoustically isolated over the approximate frequency range of operation of said electroacoustical transducing means from the volume of air outside said enclosure means within the listening area.
- 2. A loudspeaker system as defined in claim 1 wherein said means for mounting said enclosure means to the structural partition comprises means for mounting said enclosure means in a wall.
- 3. A loudspeaker system as defined in claim 1 wherein said means for mounting said enclosure means to the structural partition comprises means for mounting said enclosure means in a floor.
- 4. A loudspeaker system as defined in claim 1 wherein said means for mounting said enclosure means to the structural partition comprises means for mounting said enclosure means in a ceiling.
- 5. A loudspeaker system as defined in claim 1 wherein said means for mounting said enclosure means to the structural partition comprises means for mounting said enclosure means in a panel of an automobile.
- 6. A loudspeaker system in accordance with claim 1 wherein at least one dimension of said enclosure means is less than four inches.
- 7. A loudspeaker system in accordance with any one of claims 1 through 6 wherein said passive radiating means comprises a port tube.
- 8. A loudspeaker system in accordance with any one of claims 1 through 6 wherein said passive radiating means comprises a drone cone.
- 9. A loudspeaker system in accordance with claim 7 wherein said port tube includes an acoustic trap for removing specific unwanted frequencies coupled to said port tube.
- 10. A loudspeaker system in accordance with claim 9 wherein said acoustic trap comprises an acoustic mass and an acoustic compliance coupled to said port tube.
- 11. A loudspeaker system in accordance with claim 9 wherein said acoustic trap comprises a tube closed at one end and of length equal to one-quarter wavelength at the lowest undesirable frequency and coupled to said port tube at the other end.
- 12. A loudspeaker system in accordance with claim 1 wherein said electroacoustical transducing means comprises at least two separate transducers.
- 13. A loudspeaker system in accordance with claim 12 wherein said at least two separate transducers include individual means for coupling at least two separate electrical signals to the respective at least two separate transducers.
- 14. A method for mounting a loudspeaker system in a space defined by a front panel and an enclosed area behind the front panel of a structural partition fronting a listening area, comprising the steps of:
- providing an electroacoustical transducing means having a two sided vibratory diaphragm;
- providing an enclosure means configured to enclose a specific air volume having a predefined acoustic compliance;
- mounting said electroacoustical transducing means to the enclosure means such that one side of the electroacoustical transducing means contacts air outside of the enclosure and the other side of the electroacoustical transducing means contacts the specific air volume within the enclosure means;
- mounting the enclosure means to the structural partition such that the enclosure means extends into the space behind the front panel of the partition so that the one side of the vibratory diaphragm contacts a volume of air outside the enclosure means within the space between the front panel of the partition and a rear panel of the partition;
- providing a passive radiating means characterized by having a specific acoustic mass for coupling the specific volume of air enclosed by the enclosure means to the air outside the enclosure means in the listening area; and
- providing a compression plate mounted to the enclosure means in spaced relationship to and facing the one side of said vibratory diaphragm in contact with air outside the enclosure means to form a partial enclosure so as to isolate the vibratory diaphragm from the rear partition member adjacent the one side of the vibratory diaphragm while at the same time maintaining coupling of the vibratory diaphragm to the air volume outside the enclosure means between the front and rear panels of the partition; whereby
- the volume of air outside the enclosure means within the space behind the front panel of the partition is substantially acoustically isolated over the approximate frequency range of operation of the electroacoustical transducing means from the volume of air outside the enclosure means within the listening area.
- 15. A method in accordance with claim 14, including the step of providing a port tube as the passive radiating means.
- 16. A method in accordance with claim 14, including the step of providing a drone cone as the passive radiating means.
- 17. A method in accordance with claim 15, including the step of proving an acoustic trap coupled to the port tube for removing specific unwanted frequencies in the port tube.
- 18. A method in accordance with claim 17, wherein the acoustic trap is provided with an acoustic mass and an acoustic compliance coupled to the port tube.
- 19. A method in accordance with claim 17, wherein the acoustic trap is configured as a tube closed at one end and of length equal to one-quarter wavelength at the lowest undesirable frequency and coupled to the port tube at the other end.
- 20. A method in accordance with claim 14, including the step of providing at least two separate electroacoustical transducers.
- 21. A method in accordance with claim 20, including the step of coupling at least two different electrical signals respectively to the at least two separate electroacoustical transducers.
- 22. A loudspeaker system for installation in a space defined by a front panel and an enclosed area between the front panel and a rear panel of a structural partition fronting a listening area comprising:
- electroacoustical transducing means having a two sided vibratory diaphragm;
- means for coupling an electrical signal to said electroacoustical transducing means for driving same;
- enclosure means for mounting said electroacoustical transducing means such that one side of said vibratory diaphragm is in contact with air contained within the partition between the front and rear panels thereof, and the other side of said vibratory diaphragm is coupled to air in the listening area fronted by the front panel of the partition;
- means for mounting said enclosure means to the structural partition such that said enclosure means extends into a space between the front and rear panels of the partition; and
- a compression plate mounted to the enclosure means between the one side of said vibratory diaphragm and the rear panel of the partition and in spaced relationship with said vibratory diaphragm to form a partial enclosure around said vibratory diaphragm to provide isolation of the rear panel with respect to sound pressure from said vibratory diaphragm while maintaining coupling of said vibratory diaphragm to the air contained within the partition between the front and rear panels.
CROSS - REFERENCES TO RELATED APPLICATIONS
This application is a continuation-in-part of application Ser. No. 07/294,150, filed Jan. 5, 1989.
US Referenced Citations (6)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
294150 |
Jan 1989 |
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