Passive directional acoustic radiating
Abstract
An audio system for a television using a pipe type passive directional acoustic device mounted in a television cabinet. The slotted pipe type passive directional acoustic device includes a first acoustic driver, acoustically coupled to a pipe to radiate acoustic energy into the pipe. The first pipe includes an elongated opening along at least a portion of the length of the pipe. Acoustically resistive material is in the opening. Pressure waves are radiated to the environment through the opening. The pressure waves are characterized by a volume velocity. The pipe, the opening, and the acoustically resistive material are configured so that the volume velocity is substantially constant along the length of the pipe. The passive directional acoustic devices directionally radiate sound waves laterally from the television cabinet.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. An audio system for a television comprising:
a television cabinet; a first slotted pipe type passive directional acoustic device comprising a first acoustic driver, acoustically coupled to a pipe to radiate acoustic energy into the pipe, the first pipe comprising an elongated opening along at least a portion of the length of the pipe; and acoustically resistive material in the opening through which pressure waves are radiated to the environment, the pressure waves characterized by a volume velocity, the pipe, the opening, and the acoustically resistive material configured so that the volume velocity of the pressure waves radiated to the environment from the pipe is substantially constant along the length of the pipe; and
wherein the passive directional acoustic device is mounted in the television cabinet to directionally radiate sound waves laterally from the television cabinet.
2. The audio system for a television of claim 1 , An audio system comprising:
a first slotted pipe type passive directional acoustic device comprising
a first acoustic driver, acoustically coupled to a slotted pipe to radiate acoustic energy into the slotted pipe, the first slotted pipe comprising
an elongated opening along at least a portion of the length of the slotted pipe; and
acoustically resistive material in the opening through which pressure waves are radiated to the environment,
the pressure waves characterized by a volume velocity, where the slotted pipe, the opening, and the acoustically resistive material are configured so that volume velocity of the pressure waves is radiated to the environment from the slotted pipe along the length of the pipe, to directionally radiate sound waves laterally from the audio system, wherein the slotted pipe is at least one of bent or curved characterized by a central axis extending along the length of the slotted pipe, wherein the central axis of the slotted pipe is at least one of: bent and curved.
3. The audio system for a television of claim 2 wherein the opening is at least one of bent or curved along its length.
4. The slotted pipe type passive directional acoustic device audio system of claim 2 , wherein the opening is in a face that is bent or curved.
5. The audio system for a television of claim 2 , wherein the television cabinet is tapered backwardly, and wherein the passive directional acoustic device is mounted so that a curved or bent wall of the slotted pipe type passive directional acoustic device is substantially parallel to the back and a side wall of the television cabinet.
6. The audio system for a television of claim 2 , wherein the opening comprises two sections, a first section in a top face of the pipe and a second section in a side face of the pipe.
7. The audio system for a television of claim 1 , wherein the passive directional acoustic device is for radiating the high frequency content of a left channel or a right channel laterally from the television.
8. The audio system for a television of claim 7 , wherein the acoustic device is for radiating the left channel or right channel content above 2 kHz.
9. The audio system for a television of claim 7 , further comprising a directional array for radiating midrange frequency content of the left channel or right channel laterally from the television.
10. The audio system for a television of claim 9 , further comprising a waveguide structure for radiating bass frequency content of
the left channel or right channel; the other of the left channel or right channel; and a center channel.
11. The audio system of claim 1 , wherein the cross sectional area of the pipe decreases along the length of the pipe.
12. The audio system of claim 1 , further comprising a second slotted pipe type passive directional acoustic device comprising
a second acoustic driver, acoustically coupled to a pipe to radiate acoustic energy into the pipe, the second pipe comprising an elongated opening along at least a portion of the length of the pipe; and acoustically resistive material in the opening through which pressure waves are radiated to the environment, the pressure waves characterized by a volume velocity, the pipe, the opening, and the acoustically resistive material configured so that the volume velocity is substantially constant along the length of the pipe; and
wherein the first passive directional acoustic device is mounted in the television cabinet to directionally radiate sound waves laterally leftward from the television cabinet and the second passive radiator is mounted in the television cabinet to directionally radiate sound waves laterally rightward from the television cabinet.
13. An acoustic apparatus, comprising:
an acoustic driver, acoustically coupled to a passive directional device to radiate acoustic energy into the passive directional device, wherein the acoustic driver has a first radiating surface acoustically coupled to the first passive directional device and wherein the acoustic driver has a second radiating surface coupled to an acoustic device for radiating acoustic energy to the environment, wherein the acoustic device comprises a structure to reduce high frequency radiation from the acoustic source to the environment; wherein the cross sectional area of the passive directional device, normal to a central axis of the passive directional device, varies along the length of the passive directional device, the passive directional device comprising an opening in the perimeter of the passive directional device extending along at least a portion of the length of the passive directional device through which acoustic energy is radiated to the environment, the opening characterized by an opening area, wherein the opening has an acoustical resistance, and
wherein substantially all of the acoustic energy radiated into the passive directional device by the acoustic driver exits the passive directional device through the opening or is dissipated in the acoustical resistance of the opening.
14. An acoustic apparatus in accordance with claim 13, wherein the cross sectional area of the passive directional device decreases with distance from the acoustic driver.
15. An acoustic apparatus in accordance with claim 14, wherein the acoustic pressure within the passive directional device produced by the acoustic energy radiated into the passive directional device by the acoustic driver is substantially constant with distance from the acoustic driver, over at least a portion of the length of the passive directional device.
16. An acoustic apparatus in accordance with claim 13, wherein acoustically resistive material is located in the opening to provide acoustical resistance.
17. An acoustic apparatus in accordance with claim 16, wherein the acoustically resistive material is at least one of the group consisting of: wire mesh, felt, sintered plastic, woven fabric, and unwoven fabric.
18. An acoustic apparatus in accordance with claim 13, wherein the acoustic device is a second passive directional device comprising an opening extending along at least a portion of a length of the second passive directional device through which acoustic energy is radiated to the environment.
19. An acoustic apparatus, comprising:
an acoustic driver, acoustically coupled to a first end of a passive directional device to radiate acoustic energy into the passive directional device, the passive directional device comprising an opening in the perimeter of the passive directional device, the opening extending along at least a portion of a length of the passive directional device through which acoustic energy is radiated to an environment, the opening characterized by an opening area, wherein the passive directional device is characterized by a central axis extending along the length of the passive directional device, wherein the central axis of the passive directional device is at least one of: bent and curved, wherein the opening has an acoustical resistance, wherein the acoustical resistance of the opening varies with distance from the acoustic driver along the passive directional device, and wherein the acoustic energy radiated into the passive directional device by the acoustic driver exits the passive directional device through the acoustical resistance of the opening, such that little acoustic energy remains within the passive directional device at a second end of the passive directional device.Cited by (0)
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