Claims
- 1. A modular wedge for an anechoic panel, comprising a unitary perforated metal sheet having greater than about 63% void area, formed in a wedge shape having a depth, and having therein an acoustically absorptive material, having an acoustic absorption of at least 90% at a cutoff frequency defined by a corresponding wavelength 4 times the depth.
- 2. The modular wedge according to claim 1, wherein the sheet has a void area of about 63%.
- 3. The modular wedge according to claim 1, wherein the sheet is 22 gauge steel.
- 4. The modular wedge according to claim 1, wherein the sheet is 22 gauge, cold rolled steel perforated with {fraction (5/32)} staggered, 0.156″ diameter holes on {fraction (3/16)}″ centers, having a 63% void area.
- 5. The modular wedge according to claim 1, wherein the is sheet held in conformation by a set of rivets, said rivets passing each through at least two regular perforations in said perforated metal sheet.
- 6. The modular wedge according to claim 1, wherein the wedge is 8″ wide by 24″ long by 12″ deep.
- 7. The modular wedge according to claim 1, wherein the wedge has a characteristic 150 Hz cutoff frequency.
- 8. The modular wedge according to claim 1 wherein said acoustically absorptive material comprises a plurality of layers.
- 9. The modular wedge according to claim 1 wherein said wedge comprises integral means, formed from said sheet, for attachment to a bracket.
- 10. The modular wedge according to claim 1 wherein said wedge comprises a pair of opposed wings, formed from said sheet, for attachment to a pair of brackets.
- 11. A method for forming an anechoic wedge, comprising the steps of:providing a sheet of regularly perforated metal having a void area of greater than about 63%; folding the sheet in half at an acute angle; inwardly folding lateral edges of each folded half; and riveting, through perforations in the perforated sheet at overlapping portions of the inwardly folded lateral edges, to retain the perforated sheet folded at the acute angle.
- 12. The method according to claim 11, wherein the sheet has perforations greater than 0.10″ in diameter.
- 13. The method according to claim 11, further comprising the step of trimming the lateral edges of each folded half prior to inwardly folding thereof.
- 14. The method according to claim 11, further comprising the step of providing a set of lateral edge templates, wherein said templates guide a trimming operation of the lateral edges and provide a hinged member for controlling an inward bending of the lateral edges.
- 15. The method according to claim 11, further comprising the step of placing the perforated metal sheet on a table having a hinge, and below a forming member, prior to folding, said folding step folding the sheet about the hinge to form the sheet between the folded table and forming member.
- 16. The method according to claim 11, further comprising the step of beveling the corners of the riveted sheet, and inwardly bending at least one portion of the riveted sheet.
- 17. The method according to claim 11, further comprising the step of beveling the corners of the riveted sheet, and outwardly bending at least one portion of the riveted sheet.
- 18. The method according to claim 11, further comprising the step of beveling the corners of the riveted sheet, and inwardly bending one pair of opposed sides and outwardly bending the other pair of opposed sides.
- 19. A substantially enclosed sound absorbing unit for an anechoic chamber, comprising:a substantially flat panel member having a layer of sound absorptive material; an anechoic wedge member disposed adjacent to said flat panel member, said anechoic wedge member configured having a base and four protruding walls, at least two of which are convergent, formed from a substantially sound transparent sheet having perforations formed therein, said perforations encompassing at least about 63% of the total area of the sheet.
- 20. The sound absorbing unit according to claim 19 wherein said anechoic wedge member is space from said panel member.
- 21. The sound absorbing unit according to claim 19, wherein said perforations encompass about 63% of the total area of the sheet.
- 22. The sound absorbing unit according to claim 19, wherein said perforations form a free area in the range of approximately 63% to 80% of the entire area of the sheet.
- 23. The sound absorbing unit according to claim 19 wherein said anechoic wedge member is filled with an acoustically absorptive composition.
- 24. The sound absorbing unit according to claim 19 wherein said anechoic wedge member is filled with acoustically absorptive fiberglass.
- 25. A modular wedge for an anechoic panel, comprising a unitary perforated metal sheet having greater than about 52% void area, formed in a wedge shape having a depth, and having therein an acoustically absorptive material, having an acoustic absorption of at least 90% at 150 Hz.
- 26. The modular wedge according to claim 25, wherein the sheet has a void area of about 63%.
- 27. The modular wedge according to claim 25, wherein the wedge is 8″ wide by 24″ long by 12″ deep.
- 28. The modular wedge according to claim 25, wherein said wedge comprises integral means, formed from said sheet, for attachment to a bracket.
- 29. The modular wedge according to claim 25, wherein said wedge comprises a pair of opposed wings, formed from said sheet, for attachment to a pair of brackets.
- 30. The modular wedge according to claim 25, wherein said perforations form a free area in the range of approximately 52% to 80%.
- 31. A substantially enclosed sound absorbing unit for an anechoic chamber, comprising:a substantially flat panel member having a layer of sound absorptive material; an anechoic wedge member disposed adjacent to said flat panel member, said anechoic wedge member configured having a base and four protruding walls, at least two of which are convergent, formed from a substantially sound transparent sheet having perforations formed therein, said perforations encompassing at least about 52% of the total area of the sheet, said anechoic wedge member having an acoustic absorption of at least 90% at 150 Hz.
- 32. The unit according to claim 31, wherein the sheet has a void area of about 63%.
- 33. The unit according to claim 25, wherein said anechoic wedge has a base which is 8″ wide by 12″ deep, said at least two convergent walls extending 24″ from the base.
RELATED APPLICATIONS
This application claims benefit of Prov. No. 60/190,484 filed Mar. 18, 2000.
The present application is related to U.S. patent application Ser. No. 08/893,008, filed Jul. 15, 1997.
US Referenced Citations (9)
Foreign Referenced Citations (5)
Number |
Date |
Country |
2612217 |
Sep 1988 |
FR |
2612225 |
Sep 1988 |
FR |
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GB |
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JP |
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Provisional Applications (1)
|
Number |
Date |
Country |
|
60/190484 |
Mar 2000 |
US |