FR3019086A1 - BARRIERS FOR SANDWICH COMPOSITE PANEL DRAINAGE - Google Patents

Abstract

This sandwich acoustic panel comprises a plurality of cellular units (2) joined by means of an intumescent adhesive (3) placed between the edges to be joined with cellular units (2), thereby forming at least one junction zone (4). ), along said junction zone (4), is remarkable in that the intumescent adhesive network (3) thus formed has at least one discontinuity (5) allowing the circulation of a fluid between at least two alveolar units (2).

Description

The invention lies in the field of acoustic panels, in particular for aircraft nacelles. An aircraft is propelled by one or more propulsion units each comprising a turbojet engine housed in a tubular nacelle. Each propulsion unit is attached to the aircraft by a mast generally located under a wing or at the fuselage. A nacelle generally has a structure comprising an air inlet upstream of the engine, a median section intended to surround a fan of the turbojet engine, a downstream section housing thrust reversal means and intended to surround the combustion chamber of the turbojet engine. . The nacelle is furthermore generally terminated by an ejection nozzle whose outlet is situated downstream of the turbojet engine. Aircraft turbojets generate significant noise pollution. As a result, there is a strong demand to reduce this pollution, and all the more so as the turbojets used become more and more powerful. The design of a nacelle surrounding a turbojet contributes to a large extent to the reduction of this noise pollution. In order to further improve the acoustic performance of the aircraft, the nacelles are equipped with acoustic panels intended to attenuate the noise generated by the turbojet engine as well as the vibrations of the structures. Acoustic panels are well known structures for absorbing these noises. These panels usually comprise one or more layers of honeycomb core structures (commonly called "honeycomb" structure). These layers are generally coated on their underside, that is to say not in contact with the air flow inside the nacelle, of a skin impermeable to air, called "full skin" having structural mechanical properties, and on their upper face, that is to say in contact with the air flow inside the nacelle, a skin permeable to air, called "acoustic skin" which has the peculiarity of being perforated. Such an acoustic panel is commonly referred to as an acoustic sandwich panel or simply a sandwich panel. In a known manner, the honeycomb core structure is made from joined cellular unit (s) having cells of generally hexagonal or elliptical shape. The joining of the lateral ends is commonly accomplished by means of an intumescent adhesive, i.e. a foaming adhesive, such as AFM 410® glue, which has a large expansion capacity. The adjacent edges of the cell unit (s) are then coated with glue which, during its expansion, obstructs the cells by creating extra thicknesses. These extra thicknesses have the disadvantage of blocking the fluid drainage channels present in the acoustic sandwich panels, thus, the drainage of fluids infiltrating such panels out of these panels is still feasible. A known solution is to pierce the full skins of such sandwich panels in places to promote the evacuation of fluids infiltrating the sandwich panels. But such a solution reduces the mechanical performance of the full skins which are supposed to recover the loads binding all the sandwich panel. Such a solution is not satisfactory, especially as fluid can enter the nacelle, which can be detrimental when these fluids are kerosene or oil or any other fatty fluid. In order to overcome the aforementioned drawbacks, the present invention relates to a sandwich acoustic panel comprising a plurality of cellular units joined by means of an intumescent adhesive placed between the edges to join honeycomb units, thus forming least one junction zone, along said remarkable junction zone in that the intumescent adhesive network thus formed has at least one discontinuity allowing the circulation of a fluid between at least two cellular units. Thus, the discontinuities allow flowing fluids to drain from one or more alveolar units to one or more other alveolar units so as to be evacuated.

It has surprisingly been found that such discontinuities were acceptable from the point of view of the mechanical performance of the sandwich acoustic panel, in particular in that the connection between two cellular units retained a satisfactory strength to meet the mechanical performance requirements.

The manufacture of such a sandwich acoustic panel is also less greedy intumescent adhesive. According to other features of the invention, the sandwich acoustic panel comprises one or more of the following optional features considered alone or in any possible combination: each junction zone may comprise at least one discontinuity of the adhesive network intumescent; each discontinuity may be located in a particularly adapted zone of the acoustic sandwich panel where the fluid can easily concentrate to be drained; each discontinuity may have a length that is particularly suitable for draining fluids; a junction zone may be intersecting at one point of the panel with at least one other, thus forming a junction zone of which at least two junction zones each have a discontinuity situated in the vicinity of the junction zone; each junction zone having at least one discontinuity may comprise at least one elongated fluid drainage strip in the sandwich acoustic panel at the discontinuity and the length of which extends from one end of the discontinuity to the other ; - The drainage bar may have a shape particularly suitable for draining fluids; - The drainage bar may have a plurality of branches and a base connecting the branches, this base being flat; The drainage bar is made from a composite or metal material; the drainage bar is made from a composite material made from a glass / polyimide complex. The invention also relates to a method of manufacturing an acoustic panel according to the invention which is remarkable in that it comprises at least one insertion step of a bar according to the invention in a junction zone. The bar makes it possible to accurately position and dimension the length of a discontinuity. According to an optional feature of the method according to the invention, a bar may be inserted into a junction zone before placement of the intumescent adhesive in the junction zone. Several possible embodiments of the invention are now described by way of nonlimiting examples, with reference to the appended figures; FIG. 1 is a perspective view of a honeycomb structure according to one embodiment of the present invention. FIG. 1 is a perspective view of a honeycomb structure according to one embodiment of the present invention. invention; FIG. 2 is a detailed view of zone II of the honeycomb structure according to a first embodiment of the present invention; FIG. 3 is a view similar to the view of FIG. 2 according to a second embodiment of the present invention; - Figure 4 is a sectional view of Figure 3 along the axis IV-IV according to the second embodiment of the present invention; FIGS. 5a to 5c show sectional views of several possible embodiments of a drainage bar according to the present invention; FIG. 6 is a perspective view of another embodiment of a bar according to the invention. Referring to Figure 1 there is described a honeycomb structure 1 for equipping a sandwich acoustic panel as defined in the preamble. The honeycomb structure 1 comprises a plurality of honeycomb units 2 joined by means of an intumescent adhesive 3 injected between the edges to be joined with the honeycomb units 2, thus forming a plurality of junction zones 4, the along the junction areas. The intumescent adhesive network 3 thus formed has a plurality of discontinuities 5 for circulating fluid between cellular units 2. According to the embodiment of the present invention illustrated in FIG. at least one discontinuity 5. Joining areas 4 are intersecting at points of the honeycomb structure 1 thus forming junction zones (6, 6 ', 6 ") It can be seen that the junction zone 6 has three junction regions 4 each having a discontinuity located in the vicinity of the junction zone 6. Referring to FIG. 2, a detail II of the honeycomb structure 1 as illustrated in FIG. A first embodiment of the present invention Figure 2 shows a junction zone 4 between two cellular units 2 into which the intumescent adhesive 3 has been injected so that the adhesive network 3 Intumescent, more specifically the intumescent adhesive line 3, has a drainage discontinuity for the flow of fluid between the two alveolar units 2.

With reference to FIG. 3, the detail II of the honeycomb structure 1 as illustrated in FIG. 1 is described according to a second embodiment of the present invention. FIG. 3 represents the junction zone 4 between the two cellular units 2 in which the intumescent adhesive 3 and the fluid circulation discontinuity 3 have been injected. The junction zone 4, having the discontinuity 5, comprises an elongated fluid drainage bar 7 in the sandwich acoustic panel at the discontinuity 5 and whose length extends from one end of the discontinuity to the other .

This drainage bar is preferably made using a composite material such as a glass / polyimide complex. With reference to FIG. 4, the sandwich acoustic panel portion according to the present invention is described.

The drainage bar 7 is installed in the junction zone 4 of the two cellular units 2. In FIG. 4, the bar 7 has two branches 8 connected by a plane base 10 so as to form a U. The bar 7 is glued to the junction zone 4 via the intumescent adhesive 3 injected along the junction zone 4.

Note the presence of withdrawals 11 substantially located in the vicinity of an end plane of the cells of the alveolar units 2. These withdrawals 11 allow the flow of fluid between the different cells of the acoustic panel and between the different cellular units 2 at the locations of junction zones where the intumescent adhesive 3 is not injected, that is to say at the level of the discontinuities 5 and therefore, in the case of FIG. 4, at the level of the bar 7. The acoustic panel comprises a acoustic skin 12 and a full skin 13 covering each one face of the honeycomb structure 1 according to the invention so that the full skin is located on the face where the recesses 11 are located, thus closing these withdrawals 11 of to form flow orifices of a fluid.

It should be noted that the bar makes it possible to block the intumescent adhesive during the polymerization, and to prevent it from expanding too much. With reference to FIGS. 5a, 5b and 5c, there are described, in a nonlimiting manner, various forms that could be taken by a drainage bar 7 according to the present invention. The drainage bar 7 as illustrated in FIG. 5a is identical to that illustrated in FIG. 4 and already described. The drainage bar 7 as illustrated in FIG. 5b has a plurality of branches 8 all connected by a flat and straight base 10 so as to form a "comb". The drainage bar 7 as illustrated in FIG. 5c has two branches 8 connected by a flat base 10. The inner skin 14 of this bar 7 has a substantially circular arc shape.

Another embodiment of the drainage bar 7 is shown in FIG. 6, in which it can be seen that this bar may have an "H" section.

It goes without saying that the invention is not limited to the embodiments described above as examples but that it includes all the technical equivalents and variants of the means described as well as their possible combinations.

Claims (12)

REVENDICATIONS1. Sandwich acoustic panel comprising a plurality of honeycomb units (2) joined by means of an intumescent adhesive (3) placed between the edges to be joined with honeycomb units (2), thereby forming at least one junction zone (4) along said junction zone (4) characterized in that the intumescent adhesive network (3) thus formed has at least one discontinuity (5) allowing the circulation of a fluid between at least two cellular units (2) . 2. Panel according to claim 1 characterized in that each junction zone (4) comprises at least one discontinuity (5) of the intumescent adhesive network (3). 3. Panel according to one of claims 1 and 2 characterized in that each discontinuity (5) is located in a particularly suitable area acoustic sandwich panel where the fluid can easily concentrate to be drained. 4. Panel according to any one of the preceding claims characterized in that each discontinuity (5) has a length particularly suitable for draining fluids. 5. Panel according to any one of the preceding claims characterized in that a junction zone (4) is intersecting at one point of the panel with at least one other junction zone (4) thus forming a junction zone (6, 6 ', 6 ") 20 at least two junction areas (4) each have a discontinuity (5) located in the vicinity of the junction area (6). 6. Panel according to any one of the preceding claims characterized in that each junction zone (4) having at least one discontinuity (5) comprises at least one elongated strip (7) for draining fluids 25 in the sandwich acoustic panel. level of the discontinuity (5) and whose length extends from one end to the other of the discontinuity (5). 7. Panel according to claim 6 characterized in that the bar (7) of drainage has a shape particularly suitable for draining fluids. 8. Panel according to any one of claims 6 and 7 characterized in that the bar (7) has a plurality of branches (8) and a base (10) connecting the branches (8), the base (10) ) being flat. 9. Panel according to any one of claims 6 to 8 characterized in that the bar (7) drainage is manufactured from a composite material or metal. 10. Panel according to claim 9 characterized in that the bar (7) drainage is made from a composite material made from a glass / polyimide complex. 11. A method of manufacturing a panel according to any one of claims 6 to 10 characterized in that it comprises at least one insertion step of a bar (7) in a junction area (4). 12. The method of claim 11 characterized in that the bar (7) is inserted into the junction zone (4) before the introduction of the adhesive (3) intumescent. 10