An acoustic treatment panel that is connected to an air intake of an aircraft nacelle, includes at least one acoustically resistive structure (30) and a reflective layer (32), between which are located—in a direction that is essentially perpendicular to the longitudinal direction of the nacelle—band
An acoustic treatment panel that is connected to an air intake of an aircraft nacelle, includes at least one acoustically resistive structure (30) and a reflective layer (32), between which are located—in a direction that is essentially perpendicular to the longitudinal direction of the nacelle—bands (34) of alveolar cells spaced in such a way as to allow the passage of hot air provided for a frost treatment, characterized in that it includes pipes (36) for hot air that are each delimited by at least one partition that extends from the acoustically resistive layer (30) up to the reflective layer (32) in such a way as to insulate the bands (34) of cells in the longitudinal direction.
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1. An acoustic treatment panel that is connected to an air intake of an aircraft nacelle, whereby said panel comprises at least one acoustically resistive structure (30) and a reflective layer (32), between which are located—in a direction that is essentially perpendicular to the longitudinal direct
1. An acoustic treatment panel that is connected to an air intake of an aircraft nacelle, whereby said panel comprises at least one acoustically resistive structure (30) and a reflective layer (32), between which are located—in a direction that is essentially perpendicular to the longitudinal direction (18) of the nacelle—bands (34) of alveolar cells spaced in such a way as to allow the passage of hot air provided for a frost treatment, the panel further comprising pipes (36) for hot air that are each delimited by at least one partition (36.1) that extends from the acoustically resistive layer (30) up to the reflective layer (32) in such a way as to insulate said bands (34) of cells in the longitudinal direction. 2. The acoustic treatment panel according to claim 1, wherein each pipe (36) comprises two partitions (36.1, 36.2) that extend from the reflective layer (32) to the acoustically resistive layer (30), a first partition (36.1) that has a C shape with wings, with the second partition (36.2) comprising dropped edges in such a way as to ensure an essentially tight connection with the ends of the wings of the first partition (36.1). 3. The acoustic treatment panel according to claim 2, further comprising a third partition (36.3) in such a way as to delimit—with the first and second partitions (36.1, 36.2)—two pipes, a first pipe (36) for the hot air in contact with the acoustically resistive layer (30) and a second drain pipe (38) in contact with the reflective layer (32). 4. The acoustic treatment panel according to claim 1, wherein each pipe (36) comprises a first partition (36.1) with an L shape that extends from the reflective layer (32) up to the acoustically resistive layer (30) and a second partition (36.2) of which a first edge is connected to one end of a wing of the first partition (36.1) and of which a second edge is connected to another wing of the first partition (36.1) in an offset manner relative to its end so that the bands of alveolar cells are separated only by a single partition (36.1). 5. The acoustic treatment panel according to claim 2, wherein at least one of the partitions (36.1, 36.2) of a pipe (36) has a wavy profile in a plane that is parallel to the reflective layer. 6. The acoustic treatment panel according to claim 2, wherein a band (34) of alveolar cells comprises at least two wavy walls (34.1, 34.2, 34.3), with the projecting shapes of a wall being in contact with the hollow shapes of the adjacent band in such a way as to delimit the cells. 7. The acoustic treatment panel according to claim 6, wherein the projecting shapes comprise a double undulation with two peaks (35) framing a trough (37) whose radius of curvature is essentially identical to the one of the hollow shape of the adjacent wall in such a way as to increase the contact surface between the two walls. 8. An aircraft nacelle that comprises an acoustic treatment panel according to claim 1. 9. The acoustic treatment panel according to claim 3, wherein a band (34) of alveolar cells comprises at least two wavy walls (34.1, 34.2, 34.3), with the projecting shapes of a wall being in contact with the hollow shapes of the adjacent band in such a way as to delimit the cells. 10. The acoustic treatment panel according to claim 4, wherein a band (34) of alveolar cells comprises at least two wavy walls (34.1, 34.2, 34.3), with the projecting shapes of a wall being in contact with the hollow shapes of the adjacent band in such a way as to delimit the cells. 11. The acoustic treatment panel according to claim 3, wherein at least one of the partitions (36.1, 36.2) of a pipe (36) has a wavy profile in a plane that is parallel to the reflective layer. 12. The acoustic treatment panel according to claim 4, wherein at least one of the partitions (36.1, 36.2) of a pipe (36) has a wavy profile in a plane that is parallel to the reflective layer.
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Parente Charles A., Combined acoustic and anti-ice engine inlet liner.
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