IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0072496
(2005-03-07)
|
우선권정보 |
GB-9517918.0(1995-09-02); GB-9522281.6(1995-10-31); GB-9606836.6(1996-03-30) |
발명자
/ 주소 |
- Azima,Henry
- Colloms,Martin
- Harris,Neil
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
110 인용 특허 :
31 |
초록
▼
Acoustic device including a member extending transversely of its thickness and capable of sustaining bending waves at least over an intendedly consequentially acoustically active area of the transverse extent of said member, the member having, by reason of orderly design methodology disclosed and cl
Acoustic device including a member extending transversely of its thickness and capable of sustaining bending waves at least over an intendedly consequentially acoustically active area of the transverse extent of said member, the member having, by reason of orderly design methodology disclosed and claimed, a distribution of resonant modes of its natural bending wave vibration at least over said area that is dependent on values of particular parameters of said members, including geometrical configuration and directional bending stiffness(es), which values have been selected to predetermine said distribution of natural resonant modes being consonant with required achievable acoustic action of said member for operation of said device over a desired operative acoustic frequency range.
대표청구항
▼
The invention claimed is: 1. A loudspeaker adapted for operation over an operative frequency range, comprising: a member extending transversely of its thickness and capable of sustaining bending waves over an active area of the transverse extent of the member, the member having physical parameters
The invention claimed is: 1. A loudspeaker adapted for operation over an operative frequency range, comprising: a member extending transversely of its thickness and capable of sustaining bending waves over an active area of the transverse extent of the member, the member having physical parameters of geometry, bending stiffness, areal mass distribution and damping, the values of which affect the distribution of resonant modes of bending wave vibration over the active area of the member, said parameters having selected values such that the resonant bending wave modes are beneficially distributed in frequency over the active area of the member, and a transducer coupled to the member in a region of the active area of the member where a plurality of lower frequency resonant bending wave modes in the operative frequency range have vibrationally active anti-nodes so that the transducer will couple with the lower frequency bending wave modes. 2. A loudspeaker according to claim 1, wherein said parameters are associated with at least two different directions across the active area of the member, and the values of said parameters are selected such that the frequencies of the resonant bending wave modes along one of said different directions substantially do not overlap with the frequencies of the resonant bending wave modes along the other of said different directions. 3. A loudspeaker according to claim 2, wherein said different directions are substantially perpendicular. 4. A loudspeaker according to claim 2, wherein the values of said parameters are selected such that the frequencies of the resonant bending wave modes along said different directions are interleaved and spread so that there are substantially minimal clusterings and disparities of spacings of said frequencies. 5. A loudspeaker according to claim 4, wherein said different directions are substantially perpendicular. 6. A loudspeaker according to claim 1, wherein said parameters comprise the lengths of the major and minor axes of the member. 7. A loudspeaker according to claim 6, wherein the lengths of said major and minor axes are selected such that the frequencies of the resonant bending wave modes along one of said axes substantially do not overlap with the frequencies of the resonant bending wave modes along the other of said axes. 8. A loudspeaker according to claim 7, wherein the values of said parameters are selected such that the frequencies of the resonant bending wave modes along said axes are interleaved and spread so that there are substantially minimal clusterings and disparities of spacings of said frequencies. 9. A loudspeaker according to claim 6, wherein the member is substantially rectangular and has substantially equal bending stiffness along said axes, and the lengths of said axes are unequal by about 13.4% to about 37%. 10. A loudspeaker according to claim 9, wherein the transducer is located at a position corresponding to about 3/7, 4/9 or 5/13 of the lengths of said axes used as coordinates from a corner of the member. 11. A loudspeaker according to claim 6, wherein the member is of substantially true elliptical shape and has substantially equal bending stiffness along said axes, and the lengths of said axes are unequal by about 18.2% to about 34%. 12. A loudspeaker according to claim 11, wherein the ratio of the length of the major axis to the length of the minor axis is about 1. 182:1, and the transducer is located at a position from the center of the member corresponding to about 0.43 of the length of and along the major axis, and 0.20 of the length of and along the minor axis. 13. A loudspeaker according to claim 6, wherein the member is of substantially super-elliptical shape with its super-ellipse defining power factor determined for any particular relative dimensional values of said axes, the member has substantially equal bending stiffness along said axes, the lengths of said axes are unequal by about 13% to about 32%, and said defining power factor is about 3.5 to about 4. 14. A loudspeaker according to claim 13, wherein the transducer is located at a position from the edge of the member that is about 15% along a line from the edge to the center of the member. 15. A loudspeaker according to claim 6, wherein the member is substantially rectangular, and the transducer is located at a position corresponding to about 3/7, 4/9 or 5/13 of the lengths of said axes used as coordinates from a corner of the member. 16. A loudspeaker according to claim 6, wherein the member is of substantially true elliptical shape, the ratio of the length of the major axis to the length of the minor axis is about 1.182:1, and the transducer is located at a position from the center of the member corresponding to about 0.43 of the length of and along the major axis, and 0.20 of the length of and along the minor axis. 17. A loudspeaker according to claim 6, wherein the member is of substantially super-elliptical shape with its super-ellipse defining power factor determined for any particular relative dimensional values of said axes, and the transducer is located at a position from the edge of the member that is about 15% along a line from the edge to the center of the member. 18. A loudspeaker according to claim 1, wherein the member has an area smaller than about 0.1 square meter, a lowest bending wave frequency above about 100 Hz, and a bending stiffness less than about 10 Newtonmeters. 19. A loudspeaker according to claim 1, wherein the member has an area in the range of about 0.1 to about 0.3 square meter, and a bending stiffness in the range of about 5 to about 50 Newtonmeters. 20. A loudspeaker according to claim 1, wherein the member has an area in the range of about 0.3 to about 1 square meter, and a bending stiffness greater than about 20 Newtonmeters. 21. A loudspeaker according to claim 20, wherein the member has a bending stiffness in the range of about 50 to about 500 Newtonmeters. 22. A loudspeaker according to claim 1, wherein the member has an area greater than about 1 square meter, and a bending stiffness greater than about 25 Newtonmeters. 23. A loudspeaker according to claim 1, wherein the operative frequency range spans more than 4 kHz. 24. A loudspeaker according to claim 1, wherein the operative frequency range includes the coincidence frequency of the member. 25. A loudspeaker according to claim 24, wherein the operative frequency range extends below, through and above the coincidence frequency of the member.
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