EP2209980A1

EP2209980A1 - Grid-type thrust reverser

Info

Publication number: EP2209980A1
Application number: EP08851663A
Authority: EP
Inventors: Fabrice Metezeau; Vincent Dutot; Tanguy Keraudren
Original assignee: Aircelle SA
Current assignee: Safran Nacelles SAS
Priority date: 2007-10-25
Filing date: 2008-09-10
Publication date: 2010-07-28
Also published as: FR2922958B1; CN101835969B; BRPI0818257A2; US20100251693A1; CN101835969A; RU2472960C2; RU2010120236A; WO2009066037A1; FR2922958A1; CA2702010A1; US9140211B2

Abstract

The invention relates to a grid-type thrust reverser comprising: a fixed structure (1) on which a rear frame (3) bearing said grids (5) is mounted; a mobile structure (7) comprising an outer wall (9), an inner wall (11) at least partially formed by at least one acoustic panel (13), and at least one partition (15) connecting the outer wall (9) to the acoustic panel (13); and actuators (16) placed between the fixed structure (1) and the mobile structure (7), extending through openings (17, 19) formed in the rear frame (3) and the partition (15). Said thrust reverser is characterised in that the rear frame (3) and the acoustic panel (13) are sufficiently radially close to each other to interfere mutually and in a controlled manner when said mobile structure (7) is in a direct jet position.

Description

Thrust reverser with grids

The present invention relates to a gate thrust reverser. FIGS. 1 and 2 attached hereto show a prior art thrust reverser in the direct jet position.

As is known per se, such a thrust reverser comprises:

a fixed structure 1 on which is mounted a rear frame 3 supporting said grids 5,

a mobile structure comprising an outer wall, an inner wall formed in part by at least one acoustic panel, and at least one partition connecting said outer wall to said acoustic panel; actuators 16 interposed between said structure; fixed 1 and said movable structure 7, extending through orifices 17, 19 respectively formed in said rear frame 3 and said partition 15.

In Figure 2, the thrust reverser is shown in a direct jet configuration. In this configuration, the air coming from the upstream of the thrust reverser, that is to say from the left of FIG. 2, circulates in the vein 21 located between the mobile structure 7 and a fixed internal structure 23, downstream of the thrust reverser, that is to say to the right of Figure 2, as indicated by the arrow F1. Connecting rods 25 connect movable panels 27 situated opposite grids 5 and articulated on movable structure 7, to fixed internal structure 23.

The transition from the direct jet configuration to the indirect jet configuration (not shown) is achieved by the extension of the actuators 16. As a result of this elongation, the rods 25 pull the movable panels 23 across the air stream 21, causing a deflection of the air flowing in the vein 21 outwardly and upstream of the thrust reverser, as indicated by the arrow F2, thereby generating a counter thrust contributing when braking an aircraft that lands.

In practice, and particularly for reasons of aerodynamic optimization, the radial thickness of the movable structure 7 in the region of the grids 5 should be as small as possible; this is particularly critical in the case of large nacelles, such as those for jet engines Airbus A380.

However, this reduction in thickness is limited in particular by the radial thickness of the rear frame 3, and by a minimum radial distance d between this rear frame and the acoustic panel 13.

The radial thickness of the rear frame 3 can not fall below a threshold without risk of dangerously weakening the entire thrust reverser, and the minimum distance d prevents the acoustic panel 13 from entering into operation. contact with the rear frame. It is therefore understood that, in a conventional grid inverter, the radial thickness of the movable portion 7 in the grid area can not fall below a certain threshold.

The present invention is intended to provide a solution for lowering this threshold, and thus improve the aerodynamic performance of the propulsion system.

This object of the invention is achieved with a grid thrust reverser, comprising:

a fixed structure on which is mounted a rear frame supporting said grids, a movable structure comprising an outer wall, an inner wall formed at least in part by at least one acoustic panel, and at least one partition connecting said outer wall to said panel; acoustic, and

actuators interposed between said fixed structure and said movable structure, extending through orifices formed in said rear frame and said partition, characterized in that said rear frame and said acoustic panel are sufficiently radially close to one of the another to interfere mutually and in a controlled manner when said structure is in the direct jet position. Thus, contrary to popular belief, it allows the contact of the rear frame with the acoustic panel; Contrary to what one could believe indeed, the tests prove that such a contact does not harm to the integrity of the panel, as far as one controls this contact, that is to say that the characteristics (extent of contact area, intensity of contact) are known exactly. It should be noted that, in the context of the present invention, the expression "mutually interfering" designates a direct as well as an indirect contact (that is to say, via additional pieces) of the rear frame on the acoustic panel. . According to other optional features of the present invention:

said rear frame comprises, in its zone of interference with said acoustic panel, contact pads with this panel: these contact pads make it possible to precisely locate the contact areas of the rear frame on the acoustic panel, and thus contribute to the good control of the interference in these organs;

said acoustic panel comprises, in its zone of interference with said rear frame, contact plates with this rear frame: these contact plates make it possible to precisely locate the contact zones of the acoustic panel on the rear frame, and thus contribute the good control of the interference between these organs;

said pads and said plates are arranged in such a way as to mutually cooperate: the simultaneous presence of these pads and of these plates allows an optimal control of the interference between the rear frame and the acoustic panel;

said contact pads are arranged on the downstream part of said rear frame, the upstream part of this rear frame is shaped so as to have, at least in the circumferential zones in which said pads are situated, a radial distance with respect to said acoustic panel; , or where appropriate with respect to the plates, which is greater than the radial distance separating said pads from this acoustic panel, or, if appropriate, said plates: this arrangement makes it possible to avoid the risk that the upstream part of the rear frame comes into contact with the acoustic panel or, where appropriate, with the plates, and thus to locate the interference zone of the rear frame with the acoustic panel exclusively in the downstream part of this rear frame;

said acoustic panel comprises hollow zones allowing the passage of said actuators, and said pads are placed in such a way as to cooperate with said hollow zones: these recessed zones are zones of greater strength of the acoustic panel, and therefore allow to limit any risk of degradation of the acoustic panel under the effect of the contact of the rear frame;

- Said plates are disposed in said recessed areas: this arrangement is particularly advantageous because it allows to place the plates in an area where they do not cause radial excess thickness;

said rear frame is formed of composite material;

- Said pads are formed by folds of glass: this solution is particularly suitable for the case where the rear frame is formed of composite material. The present invention also relates to an aircraft nacelle equipped with a grid thrust reverser according to any one of the preceding claims.

Other characteristics and advantages of the present invention will emerge in the light of the description which follows, and on examining the appended figures, in which:

FIG. 1 is a perspective view of a prior art half-gate thrust reverser, in a direct jet configuration, mentioned in the preamble of the present description,

FIG. 2 is a sectional view of the inverter of FIG. 1 taken along the plane II of this FIG.

FIG. 3 is a detail view of an area similar to zone III of FIG. 2, for a gate thrust reverser according to the invention,

FIG. 4 shows in perspective the connection zone of the partition 15 on the acoustic panel 13, for a gate thrust reverser according to the invention, and

FIG. 5 represents a view of this partition and of this acoustic panel in the direction V of FIG. 4.

Referring now to FIG. 3, the rear grid frame 3 may be seen having a plurality of circumferentially spaced orifices 17 (typically 2 or 3 per side).

These orifices allow the passage of the actuators 16, which are interposed between the fixed structure 1 and the inner wall 11, thus making it possible to slide the mobile structure 7 downstream (reverse jet position) or upstream (direct jet position ) of the thrust reverser. As can be seen in FIG. 3, the rear frame 3 has substantially a U-shaped profile whose lower branch 29 has on its face located opposite the acoustic panel 13, a plurality of pads 31 spaced circumferentially evenly and / or appropriately placed where the interference between the rear frame and the acoustic panel are the most important. These pads 31 are dimensioned so as to constitute the contact areas of the lower branch 29 of the rear frame 3 with the acoustic panel 13, in the part of the race of this acoustic panel where the branch 29 and this panel are led to mutually interfering .

In FIG. 3, the pads 31 are separated by a certain distance from the panel 13, since for the majority of the load cases there is no interference: the interference only occurs in certain load cases and only in direct jet position (ie for airplane maneuvers with strong relative displacements between structural elements).

In a variant, in order to reinforce the contact zone of the studs 31 on the panel 13, it is possible to place in this area, for example, metal plates 33, distributed at the appropriate places on the circumference of the acoustic panel 13.

In order to control the contact areas of the lower branch 29 of the rear frame 3, it is possible to eliminate a certain radial thickness r1 from the upstream part of this branch, so as to ensure that the radial distance of the studs 31 relative to the acoustic panel 13 (or, where appropriate, relative to the plates 33) is less than the radial distance between the upstream portion of the branch 29 of the acoustic panel (or if necessary, plates 33). In this way, any inadvertent or uncontrolled friction of the upstream part of the branch 29 of the rear frame 3 is avoided on the acoustic panel 13 or on the plates 33.

FIGS. 4 and 5 show a hollow zone 35 formed on the acoustic panel 13, at the right of the passage 19 allowing the positioning of the actuator 16, and the connection of the end of this actuator to a fixed plate 37 on the acoustic panel 13 downstream of the partition 15.

It should of course be understood that there are several hollow zones 35 at the periphery of the acoustic panel 13, so as to allow the passage of each of the actuators of the mobile structure 7. These recessed areas 35 of the acoustic panel 13 are areas in which the honeycomb structure (not shown) forming the acoustic panel 13, has a lower thickness and a higher density, thus giving this acoustic panel in this area, a higher resistance to compression forces.

It is therefore understood that it may be advantageous to place the pads 31, intended to come into contact with the acoustic panel 13, precisely so that they come into contact with the acoustic wall 13 in these recessed areas 35.

Advantageously, when the use of contact plates 33 is provided, these plates 33 may be placed in these recessed zones 35, as can be seen in FIG. 5.

This last arrangement has the advantage that the plates 33 do not constitute radial extra thickness with respect to the acoustic panel 13, thus contributing to the reduction of the radial thickness of the mobile structure 7. It will be noted that the rear frame 3 can be formed in particular composite material, and that in this case the pads 31 may be formed by folds of glass.

As can thus be understood in the light of the foregoing, the invention results from a radically different approach from that of the state of the art.

Indeed, while in the case of the technique, it was arranged that there is no contact of the acoustic panel 13 with the rear frame

3 during the entire stroke of the mobile structure 7, in the present invention on the contrary, such a contact is authorized when the mobile structure 7 is in the direct jet position.

However, arrangements are made for this contact to be controlled, that is to say perfectly well known both in terms of its area of application and in terms of its intensity.

This control is obtained by means of studs added under the lower branch of the rear frame 3, these pads making it possible to make point contacts with the acoustic panel 13 or with the plates 33, that is to say contacts which are perfectly known. characteristics.

By allowing such contacts, one can dispense with significant clearances that were expected in the state of the art between the rear frame 3 and the acoustic panel 13, and thus result in a significant reduction in the radial thickness of the mobile structure 7 in the area of the grids 5. Otherwise formulated, it can be said that for a thickness of aerodynamic lines of mobile structure 7 given in the area of the rear frame 3, we can offer more space to design the rear frame 3. Such a rear frame will be lighter for the same inertia bending a rear frame that should have been designed to accommodate larger games with the mobile structure.

Claims

A gate thrust reverser, comprising:

a fixed structure (1) on which is mounted a rear frame (3) supporting said grids (5),

a mobile structure (7) comprising an outer wall (9), an inner wall (11) formed at least in part by at least one acoustic panel (13), and at least one partition (15) connecting said outer wall (9); ) to said acoustic panel (13), and - actuators (16) interposed between said fixed structure (1) and said movable structure (7), extending through orifices (17, 19) formed in said rear frame (3). ) and said partition (15), characterized in that said rear frame (3) and said acoustic panel (13) are sufficiently close radially to each other to interfere mutually and in a controlled manner when said movable structure

(7) is in the direct jet position.

2. thrust reverser according to claim 1, characterized in that said rear frame (3) comprises, in its area of interference with said acoustic panel (13), pads (31) of contact with this panel (13).

3. thrust reverser according to one of claims 1 or 2, characterized in that said acoustic panel (13) comprises, in its interference zone with said rear frame (3), plates (33) contact with this rear frame (3).

4. thrust reverser according to claims 2 and 3, characterized in that said pads (31) and said plates (33) are arranged to cooperate mutually.

5. thrust reverser according to any one of claims 2 or 3, characterized in that said contact pads (31) are arranged on the downstream portion of said rear frame (3), and in that the upstream portion of this frame rear view is shaped so as to have, at least in the circumferential zones in which said pads (31) are situated, a radial distance with respect to said acoustic panel (13), or where appropriate with respect to said plates (33), which is greater than the radial distance separating said studs (31) from this acoustic panel (13), or possibly from said plates (33).

6. thrust reverser according to any one of claims 2 to 5, characterized in that said acoustic panel (13) comprises recessed areas (35) for the passage of said actuators (16), and in that said pads (31) are placed so as to cooperate with said recessed areas (35).

7. thrust reverser according to claims 3 and 6, characterized in that said plates (33) are disposed in said recessed areas (35).

8. thrust reverser according to any one of the preceding claims, characterized in that said rear frame (3) is formed of composite material.

9. thrust reverser according to claim 8 and any one of claims 2 to 7, characterized in that said pads (31) are formed by folds of glass.

Aircraft nacelle equipped with a grid thrust reverser according to any one of the preceding claims.