Acoustic structures with multiple degrees of freedom
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G10K-011/172
E04B-001/84
F02K-001/34
출원번호
US-0708382
(2015-05-11)
등록번호
US-9469985
(2016-10-18)
발명자
/ 주소
Ichihashi, Fumitaka
출원인 / 주소
Hexcel Corporation
대리인 / 주소
Bielawski, W. Mark
인용정보
피인용 횟수 :
1인용 특허 :
11
초록▼
An acoustic structure having multiple degrees of acoustic freedom for reducing noise generated from a source. Acoustic septum caps, which are an integral part of the acoustic structure, include depth control portions that can be varied in width so that the septum portions of different septum caps ca
An acoustic structure having multiple degrees of acoustic freedom for reducing noise generated from a source. Acoustic septum caps, which are an integral part of the acoustic structure, include depth control portions that can be varied in width so that the septum portions of different septum caps can be located at different depths within the acoustic structure to provide an acoustic structure having multiple degrees of acoustic freedom even though the acoustic septum caps are anchored at the same depth within the structure.
대표청구항▼
1. An acoustic structure having multiple degrees of acoustic freedom for reducing noise generated from a source, said acoustic structure comprising: A) a honeycomb comprising a first edge to be located closest to said source and a second edge, said honeycomb comprising a plurality of walls that exte
1. An acoustic structure having multiple degrees of acoustic freedom for reducing noise generated from a source, said acoustic structure comprising: A) a honeycomb comprising a first edge to be located closest to said source and a second edge, said honeycomb comprising a plurality of walls that extend between said first and second edges, said walls defining a plurality of cells wherein each of said cells has a cross-sectional area measured perpendicular to said walls;B) acoustic barriers located at the second edge of said honeycomb or within said cells to form acoustic resonators wherein the depth of each of said acoustic resonators is equal to the distance between the first edge of said honeycomb and said acoustic barrier;C) a first acoustic septum cap comprising: a first anchor portion for anchoring said first acoustic septum cap to said walls at first anchoring depth within one of said cells, said first anchor portion having an outer edge that defines a perimeter of said first acoustic septum cap and a first interior anchor boundary that is spaced from said perimeter a first anchoring distance, said first anchor portion extending parallel to said walls and being bonded thereto with an adhesive that extends from said outer edge of the first anchor portion to said first interior anchor boundary, said first interior anchor boundary being located at said first anchoring depth;a first septum depth control portion which comprises an exterior boundary that coincides with said first interior anchor boundary and a first septum boundary wherein said first septum boundary is spaced from the exterior boundary of said first septum depth control portion a first depth control distance, said first septum depth control portion extending parallel to said walls;a first septum portion that is attached to said first septum boundary, said first septum portion extending transverse to said walls; andD) a second acoustic septum cap comprising: a second anchor portion for anchoring said second acoustic septum cap to said walls at a second anchoring depth within another one of said cells, said second anchor portion having an outer edge that defines a perimeter of said second acoustic septum cap and a second interior anchor boundary that is spaced from said perimeter a second anchoring distance, said second anchor portion extending parallel to said walls and being bonded thereto with an adhesive that extends from said outer edge of the second anchor portion to said second interior anchor boundary, said second interior anchor boundary being located at said second anchoring depth;a second septum depth control portion which comprises an exterior boundary that coincides with said second interior anchor boundary and a second septum boundary wherein said second septum boundary is spaced from the exterior boundary of said second septum depth control portion a second depth control distance, said second septum depth control portion extending parallel to said walls and wherein said second depth control distance is different from said first depth control distance;a second septum portion that is attached to the second septum boundary, said first septum portion extending transverse to said walls, wherein the first anchoring depth to which said adhesive extends is equal to the second anchoring depth to which said adhesive extends and wherein said first septum portion and said second septum portion are located at different depths within said cells due to said second septum depth control distance being different from said first depth control distance to thereby provide said acoustic structure having multiple degrees of acoustic freedom. 2. An acoustic structure having multiple degrees of acoustic freedom according to claim 1 which further comprises: a third acoustic septum cap comprising: a third anchor portion for anchoring said third acoustic septum cap to said walls at a third anchoring depth within a further one of said cells, said third anchor portion having an outer edge that defines a perimeter of said third acoustic septum cap and a third interior anchor boundary that is spaced from said perimeter a third anchoring distance, said third anchor portion extending parallel to said walls and being bonded thereto with an adhesive that extends from said outer edge of the third anchor portion to said third interior anchor boundary, said third interior anchor boundary being located at said third anchoring depth;a third septum depth control portion which comprises an exterior boundary that coincides with said third interior anchor boundary and a third septum wherein said third septum boundary is spaced from the exterior boundary of said third septum depth control portion a third depth control distance, said third septum depth control portion extending parallel to said walls and wherein said third depth control distance is different from said first depth control distance and said second depth control distance;a third septum portion that is attached to the third septum boundary, said third septum portion extending transverse to said walls, wherein the first anchoring depth to which said adhesive extends is equal to the third anchoring depth to which said adhesive extends and wherein said first septum portion, said second septum portion and said third septum portion are located at different depths within said cells due to said third septum depth control distance being different from said first depth control distance and said second depth control distance to thereby provide said acoustic structure having multiple degrees of acoustic freedom. 3. An acoustic structure having multiple degrees of acoustic freedom according to claim 1 wherein said first septum portion and said second septum portion are in the shape of a polygon or circular disk that has a cross-sectional area and wherein the cross-sectional area of said disk is less than the cross-sectional area of said cell. 4. An acoustic structure having multiple degrees of acoustic freedom according to claim 3 wherein the cross-sectional area of said first septum portion is different from the cross-section are of said second septum portion. 5. An acoustic structure having multiple degrees of acoustic freedom according to claim 3 wherein said polygon has four sides. 6. An acoustic structure having multiple degrees of acoustic freedom according to claim 1 wherein said first and second anchor portions and said first and second septum depth control portions are made of plastic film that is impervious to sound waves and wherein said first and second septum portions comprise an acoustic mesh consisting of plastic monofilament fiber. 7. An acoustic structure having multiple degrees of acoustic freedom according to claim 6 wherein said first anchoring distance and said second anchoring distance are different. 8. An engine nacelle comprising an acoustic structure having multiple degrees of acoustic freedom according to claim 1. 9. An airplane comprising an engine nacelle according to claim 2. 10. A method for reducing the noise generated from a source of noise, said method comprising the step of at least partially surrounding said source of noise with an acoustic structure having multiple degrees of acoustic freedom according to claim 1. 11. An acoustic structure having multiple degrees of acoustic freedom according to claim 1 wherein said first anchoring distance and said second anchoring distance are different. 12. An acoustic structure having multiple degrees of acoustic freedom according to claim 1 wherein said first anchoring distance and said second anchoring distance are the same. 13. An acoustic structure having multiple degrees of acoustic freedom according to claim 2 wherein said first anchoring distance, said second anchoring distance and said third anchoring distance are different. 14. An acoustic structure having multiple degrees of acoustic freedom according to claim 2 wherein said first anchoring distance, said second anchoring distance and said third anchoring distance are the same. 15. A method for making an acoustic structure having multiple degrees of acoustic freedom for reducing noise generated from a source, said method comprising the steps of: A) providing a honeycomb comprising a first edge to be located closest to said source and a second edge, said honeycomb comprising a plurality of walls that extend between said first and second edges, said walls defining a plurality of cells wherein each of said cells has a cross-sectional area measured perpendicular to said walls;B) locating acoustic barriers at the second edge of said honeycomb or within said cells to form acoustic resonators wherein the depth of each of said acoustic resonators is equal to the distance between the first edge of said honeycomb and said acoustic barrier;C) inserting a first planar acoustic insert into one of said cells to form: a first acoustic septum cap comprising: a first anchor portion for anchoring said first acoustic septum cap to said walls at first anchoring depth within one of said cells, said first anchor portion having an outer edge that defines a perimeter of said first acoustic septum cap and a first interior anchor boundary that is spaced from said perimeter a first anchoring distance and wherein said first interior anchor boundary is located at said first anchoring depth;a first septum depth control portion which comprises an exterior boundary that coincides with said first interior anchor boundary and a first septum boundary wherein said first septum boundary is spaced from the exterior boundary of said first septum depth control portion a first depth control distance, said first septum depth control portion extending parallel to said walls;a first septum portion that is attached to said first septum boundary said first septum portion extending transverse to said walls;D) inserting a second planar acoustic insert into an other one of said cells to form: a second acoustic septum cap comprising: a second anchor portion for anchoring said second acoustic septum cap to said walls at a second anchoring depth within said other one of said cells, said second anchor portion having an outer edge that defines a perimeter of said second acoustic septum cap and a second interior anchor boundary that is spaced from said perimeter a second anchoring distance and wherein said second interior anchor boundary is located at said second anchoring depth;a second septum depth control portion which comprises an exterior boundary that coincides with said second interior anchor boundary and a second septum boundary wherein said second septum boundary is spaced from the exterior boundary of said second septum depth control portion a second depth control distance, said second septum depth control portion extending parallel to said walls and wherein said second depth control distance is different from said first depth control distance;a second septum portion that is attached to the second septum boundary wherein said first septum portion extending transverse to said walls, wherein said first acoustic cap is located at the same anchoring depth as said second acoustic cap so that said first and second interior anchor boundaries are located at the same depth within said cells; andE) bonding said first anchor portion and said second anchor portion to said walls at said anchoring depth, said bonding comprising the step of simultaneously applying an adhesive to said first and second anchor portions so that said adhesive extends from said outer edges of the first and second anchor portions to said first and second interior anchor boundaries to thereby locate said first and second septum portions at different depths within said cells due to said first septum depth control distance being different from said second septum depth control distance. 16. A method for making an acoustic structure having multiple degrees of acoustic freedom according to claim 15 wherein said acoustic structure is a nacelle for a jet engine. 17. A method for making an acoustic structure having multiple degrees of acoustic freedom according to claim 15 wherein said first anchoring distance and said second anchoring distance are different. 18. A method for making an acoustic structure having multiple degrees of acoustic freedom according to claim 15 wherein said first anchoring distance and said second anchoring distance are the same.
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이 특허에 인용된 특허 (11)
Borchers Ingo U.,DEX ; Laemmlein Stephan T.,DEX ; Bartels Peter,DEX, Acoustic absorber having a slotted horn arranged in a pot.
Bernard Jean-Paul (Dammarie-les-Lys FR) Brussieux Pierre Jules Henry (Alfortville FR) Jumelle Louis Francois (Ris-Orangis FR) Simonin Jean Lucien (Issy-les-Moulineaux FR), Composite material with acoustic absorption properties.
Newton Jefferson F. (Seattle WA) Martin Thomas D. (Bellevue WA) Westre Willard N. (Bellevue WA) Carbery David J. (Vashon Island WA) Ikegami Roy (Seattle WA), Lightweight honeycomb panel structure.
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