• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    In order to reduce the overall mass of an aircraft engine assembly (1) and to increase its aerodynamic performance, the invention provides a rigid structure (34) for a suspension pylon (4) comprising a central box (36). and a box extension (54) connected to a gearbox housing (26) of the turbojet engine (10). The casing extension (54) comprises two parts (60, 70) carrying the front engine attachments (7a, 7b, 7c), these parts each comprising a structure (63, 73) forming a stiffening rib of the central box (36). and two horseshoe-shaped portions (32, 72) surrounding the gearbox housing (26).
    公开号:FR3040076A1
    申请号:FR1557719
    申请日:2015-08-13
    公开日:2017-02-17
    发明作者:Olivier Pautis;Jean Michel Rogero
    申请人:Airbus Operations SAS;
    IPC主号:
    专利说明:

    AIRCRAFT ENGINE ASSEMBLY COMPRISING A PRIMARY STRUCTURE OF A COUPLING MAT EQUIPPED WITH A BOX EXTENSION COMPRISING TWO
    PARTS IN GLOBAL SHAPE OF ARCEAU
    DESCRIPTION
    TECHNICAL AREA
    The present invention relates to an engine assembly for an aircraft comprising a turbofan engine driven by a gearbox, a latching mast of the turbojet engine, and means for attaching the turbojet engine to the primary structure of the engine mount. The invention also relates to an aircraft equipped with at least one such engine assembly. It applies preferentially to commercial aircraft.
    STATE OF THE PRIOR ART
    On existing aircraft, engines such as turbojets are suspended below the wing by complex attachment devices, also called "EMS" (of the English "Engine Mounting Structure"), or so-called "masts". hanging ". The attachment devices usually employed have a rigid structure, called primary structure. This primary structure generally comprises a box, that is to say a structure formed by the assembly of lower and upper spars interconnected by a plurality of transverse stiffening ribs, located inside the box. The spars are arranged in lower and upper faces, while side panels close the box side faces.
    In known manner, the primary structure of these masts is designed to allow the transmission to the wing of the static and dynamic forces generated by the engines, such as weight, thrust, or the different dynamic forces.
    In the known solutions of the prior art, the transmission of forces between the engine and the primary structure is provided conventionally by attachment means consisting of one or more forward engine attachment, a rear engine attachment, and a thrust force recovery device formed by two lateral rods articulated on a spreader. An exemplary embodiment of such an engine assembly is for example known from document FR 3 014 841.
    In the case of a turbofan engine driven by a gearbox, there is a need for optimization of existing solutions, including to reduce congestion, overall weight, as well as aerodynamic disturbances generated by the presence of the means of hooking of the mast on the turbojet.
    DISCLOSURE OF THE INVENTION The object of the invention is therefore to propose an aircraft engine assembly at least partially meeting the aforementioned need.
    To do this, the subject of the invention is an engine assembly for an aircraft comprising: a turbojet engine comprising a fan driven by a gearbox, said turbojet engine comprising a gearbox casing surrounding said gearbox; - A turbojet engine mount, comprising a primary structure equipped with a central box; and - attachment means of the turbojet engine to the primary structure of the attachment pylon.
    According to the invention, the rigid structure of the attachment pylon also comprises a box extension connected to the front of the central box, said box extension comprising: a first part made in one piece and arranged in a vertical plane and transverse of the motor assembly, said first part comprising a first part in the overall form of an arch extending around the gear housing, and a first connecting structure constituting a transverse stiffening rib of the central box, said first overall bow shape portion having two opposite first ends; and a second piece made in one piece and comprising a second part in the form of an arch extending at least partly around the gear housing, and a second connecting structure constituting a transverse internal stiffening rib. central box, said second generally arcuate shaped portion having two opposite second ends respectively mounted on said first two opposite ends, said second generally arcuate portion extending rearwardly and towards the central box from from its opposite second ends.
    In addition, said attachment means comprise two lateral front fasteners and a central front fastener, each of the two lateral front fasteners connecting the gearbox housing to one of the first two ends of the first generally arched part. and each ensuring the recovery of the forces in a longitudinal direction as well as in a vertical direction of the motor assembly, and said central front attachment connecting the gearbox housing to a first central portion of the first portion in the form of a roll bar and ensuring the recovery of forces in a transverse direction of the motor assembly. The invention proposes a simple solution answering the need identified above, notably thanks to the implementation of the first and second parts in one piece which allow an improved transmission of the forces, because they extend as far as the central box of the attachment mast. This allows in particular to reduce the size and mass of the engine assembly comprising the mast, together that no longer requires lateral rods for taking up the thrust forces. This reduction in mass is advantageously accompanied by a reduction in the specific fuel consumption.
    Also, the lateral and central front fasteners make it possible to ensure the essential of the recovery of efforts at the level of the gearbox housing. This feature is not only beneficial in that it makes it possible to take the forces closer to a center of gravity of the turbojet for a purer transmission of these forces, but also because it allows to provide a rear engine attachment of Simplified design, and therefore small footprint. The simplification of this rear engine attachment, arranged in the secondary vein of the turbojet engine, makes it possible to limit the aerodynamic disturbances on the secondary flow. It is therefore the overall aerodynamic performance of the engine assembly that is improved.
    Finally, the fact of connecting the lateral and central front fasteners to the gearbox housing, instead of the fan casing, makes it possible to integrate a larger jet engine while maintaining a sufficient ground clearance. This also limits the deformation of the various crankcase bodies, under load application. The invention preferably provides at least one of the following optional features, taken alone or in combination.
    Said second piece of the box extension extends in a plane inclined relative to the vertical and longitudinal directions of the motor assembly, preferably inclined at an angle of between 30 and 60 ° with respect to said longitudinal direction.
    The two lateral front fasteners are arranged symmetrically with respect to a vertical and longitudinal median plane of the engine assembly, said vertical and longitudinal median plane passing through said central front attachment.
    The two lateral front fasteners are arranged in angular positions for one between 2 and 3 o'clock, and for the other between 9 o'clock and 10 o'clock.
    Said hooking means form an isostatic system for taking up forces and are constituted by the two lateral front fasteners, the central front fastener, and a rear fastener ensuring the recovery of the forces in the vertical direction, and preferably only according to this vertical direction.
    Said box extension comprises at least one web covering externally the first and second parts in global arch form.
    Said second opposite ends are mounted on said two first ends opposite respectively by two shear pins, preferably oriented in the transverse direction.
    Said turbojet comprises successively, from front to rear, a fan casing, an intermediate casing, said gear housing, a central casing, and a turbine casing on which is preferably connected said rear attachment. The invention also relates to an aircraft comprising at least one such motor assembly, and a wing on which is mounted said motor assembly.
    Preferably, said engine assembly is suspended under the wing, even if another solution could be retained, in which the turbojet engine would be arranged above the wing of the aircraft. Other advantages and features of the invention will become apparent in the detailed non-limiting description below.
    BRIEF DESCRIPTION OF THE DRAWINGS
    This description will be made with reference to the appended drawings among which; FIG. 1 represents an aircraft equipped with an engine assembly according to the invention; - Figure 2 is a schematic sectional view of a preferred embodiment of the motor assembly according to the invention; - Figure 3 is a more detailed perspective view of the motor assembly shown in the previous figure; - Figure 4 is a perspective view of the rigid structure of the attachment pylon equipping the motor assembly shown in the previous figure; and FIG. 5 is a perspective view of a box extension forming an integral part of the attachment pylon shown in the previous figure.
    DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
    Referring to Figure 1, there is shown an aircraft 100 comprising a fuselage 3 on which two wings 2 are fixed. Under each of these wings 2, there is suspended one or more motor units 1 according to the invention. Each engine assembly 1 comprises a turbofan engine 10, of the type comprising a gearbox for driving the fan, a latching mast 4 of the turbojet engine 10, and means (not visible in FIG. 1) for hooking up. of the turbojet engine 10 on a rigid structure of the mast 4.
    Throughout the following description, by convention, the direction X corresponds to the longitudinal direction of the engine assembly 1, which is also comparable to the longitudinal direction of the turbojet engine 10 and the mast 4. This direction X is parallel to an axis longitudinal axis 5 of this turbojet engine 10. On the other hand, the direction Y corresponds to the direction transversely oriented relative to the engine assembly 1, and also comparable to the transverse direction of the turbojet engine 10 and the mast 4, while the direction Z corresponds to the vertical direction or height. These three directions X, Y and Z are orthogonal to each other and form a direct trihedron. On the other hand, the terms "front" and "rear" are to be considered in relation to a direction of advancement of the aircraft encountered following the thrust exerted by the turbojets 10, this direction being represented schematically by the arrow 19.
    Referring now to Figure 2, there is shown schematically a motor assembly 1 according to a preferred embodiment of the invention. This set therefore comprises the turbojet engine 10, the particularity of which lies in the integration of a fan 12 driven by a gearbox 14. This type of turbojet engine is known as the "GTF" ("GearTurboFan") turbojet engine. .
    The turbojet engine comprises, from the front to the rear, a fan casing 16, and an intermediate casing 18 of which an outer shell 20 axially extends the fan casing 16. The intermediate casing 18 also comprises a hub 22 and arms radial structural members 24 connecting the hub 22 to the outer shell 20. These arms 24 are arranged within an annular array of exit guide vanes, also called OGV (Outlet Guide Vane). At the rear of the intermediate casing 18, the turbojet engine 10 comprises a gear housing 26 enclosing the gearbox 14. This gearbox housing 26 has a diameter much smaller than that of the outer shell 20. Still towards the rear, it is then provided a central casing 28, also called "core casing", constituting the narrowest portion of the turbojet engine and including the combustion chamber (not shown). The central casing 28 is then extended rearward by a turbine casing 30 of larger size, and from which the gases of the primary vein can escape, as has been shown schematically by the arrow 32.
    In known manner, in this type of turbojet engine 10, the combustion has the effect of driving the high and low pressure bodies, and it is the low pressure body that transmits the mechanical energy to the gearbox 14, itself driving the fan. 12. The engine assembly 1 also comprises the attachment mast 4, of which only its rigid structure 34 has been shown in FIG. 2. The primary structure 34 is designed to allow the transmission to the wing of the static and dynamic forces generated by the engines, such as weight, thrust, or the different dynamic forces, especially those related to failure cases such as: loss of light (FBO), deletion of the nose gear, dynamic landing, etc. The other non-represented constituent elements of this mast 4, of the secondary structure type ensuring the segregation and maintenance of the systems while supporting aerodynamic fairings, are conventional elements similar to those encountered in the prior art. Therefore, no detailed description will be given.
    The primary structure 34, or rigid structure, comprises as main element a central box 36, extending over the entire length of the primary structure 34, in the direction X. The central box 36 has a substantially conventional design, namely that it is delimited upwards by upper longitudinal members 40, downwards by lower longitudinal members 42, laterally by an outer lateral panel 44 and an inner side panel 46. By way of indication, it is noted that the upper longitudinal members 40 are also called "Mast Box Top Panel", and the lower side members 42 are also referred to as "Mast Box Bottom Panel". In addition, the central box 36 is equipped with transverse transverse stiffening ribs 52, preferably recessed in their center and preferably arranged for the most part in YZ planes. This central box 36 has a cross section YZ in the general shape of a square or rectangle, dimensionally scalable along the direction X. This cross section may remain substantially constant for the rear portion located at the wing, but then narrows by going forwards, to its front end located near the gearbox housing 26. One of the particularities of the invention lies in the presence of a box extension 54 connected to the front of the central box. 36, and extending the latter substantially downward towards the gear housing 26. This box extension 54 will be detailed below with reference to Figures 3 to 5.
    In addition, the engine assembly 1 comprises attachment means 7a-7d of the turbojet engine 10 on the rigid structure 34 of the mast. These attachment means 7a-7d consist of two lateral front fasteners 7a, 7b, a central front attachment 7c, and a rear attachment 7d. The front clips 7a-7c connect the box extension 54 to the gearbox housing 26, while the rear bracket 7d connects the lower beam 42 to the turbine housing 30, being located in a secondary stream 59 of the turbojet engine.
    Referring now more specifically to Figures 3 to 5, there is shown in detail the design of the box extension 54. It first comprises a first piece 60 made in one piece, preferably in a material metallic. This first part 60 is substantially planar and arranged in a vertical and transverse plane YZ, namely in a plane orthogonal to the direction X. It comprises two vertically adjacent parts, namely a first portion 62 in the overall shape of an arch extending around an upper portion of the gear housing 26, and a first connecting structure 63 constituting one of the transverse stiffening ribs of the central box. More specifically, this first connecting structure 63 constitutes the front closing rib of the central box 36, even if this rib is also preferably hollowed out at its center, so as to have a general shape of square or rectangle.
    The first portion 62 is also said horseshoe-shaped, open downward. It has two opposite first ends 64a, 64b, on which are respectively connected the two lateral front fasteners 7a, 7b. These, like the other fasteners 7c, 7d, are conventionally made using screeds and / or fittings and / or shackles. The two fasteners 7a, 7b are preferably arranged in angular positions at 2 o'clock and 10 o'clock, in a time mark centered on the axis 5. Positions at 3 o'clock and 9 o'clock are also conceivable, without departing from the scope of the invention. In this case, the two lateral front fasteners 7a, 7b are then diametrically opposed. In all cases, the two fasteners 7a, 7b are preferably arranged symmetrically with respect to a vertical and longitudinal median plane 57 of the assembly 1.
    This same plane 57 passes through the central front attachment 7c, which connects an upper end of the gear housing 26 to a first central portion 65 of the first part 60. The three front attachments 7a-7c are thus arranged in the same vertical plane and transversely YZ in which fits the first piece 60. In addition, it is noted that it is from the central portion 65 that extends upwardly the first connecting structure 63, forming the front closing rib of the central box 36. The box extension 54 also comprises a second piece 70 made in one piece, preferably in a metal material. This second piece 70 is substantially planar and arranged in a plane 78 parallel to the transverse direction Y, but inclined with respect to the vertical directions Z and longitudinal X. As a non-limiting example, the second piece 70 is inclined at an angle 79 about 45 ° with respect to each of the two directions X and Z.
    The second part 70 comprises two vertically adjacent parts, namely a second globally arched part 72 extending at least partly around an upper portion of the gearbox housing 26, as well as a second connecting structure 73. constituting one of the transverse internal stiffening ribs of the central box. More precisely, this second connecting structure 73 constitutes the second internal rib of the central box 36, starting from the front. It is also preferentially hollowed out in its center, so as to have a general shape of square or rectangle.
    The second portion 72 is also said horseshoe-shaped, open downward and forward. It has two opposite second ends 74a, 74b, respectively mounted on the first two opposite ends 64a, 64b. This assembly is performed by shear pins 80 and / or bolts, oriented in the direction Y. These pins 80 are thus arranged close to the two lateral front fasteners 7a, 7b, also connected to the first ends 64a, 64b.
    As is apparent from the foregoing, the second piece 70 of the box extension 54 differs from the first vertical piece 60 in that it is inclined to extend rearwardly and toward the central box 36 to from its second ends 74a, 74b.
    The attachment means 7a-7d form an isostatic system of recovery forces. Indeed, as shown schematically in Figure 3, each of the two front lateral fasteners 7a, 7b ensures only the recovery of the forces along the X and Z directions, while the front central fastener 7c only ensures the recovery efforts according to Y direction. As for the rear engine attachment 7d, it only ensures the recovery efforts in the direction Z. In this regard, the foregoing description applies to the resumption of efforts in normal situation. However, the distribution of the recovery efforts may differ in case of failure of one of the fasteners 7a-7d.
    Also, in normal situation, the recovery of the moment being exerted in the direction X is carried out vertically with the two lateral front fasteners 7a, 7b, while the recovery of the moment being exerted in the direction Z is carried out longitudinally using these same fasteners 7a, 7b. The invention thus contrasts with the solutions of the prior art in particular in that it no longer requires rods for taking up the thrust forces. Here, the X forces pass through the fasteners 7a, 7b, then essentially by the second piece 70 inclined and arched. The placing of a web 82 covering the first and second parts 62, 72 externally also contributes to passing the longitudinal forces through the entirety of the box extension 54, and not only by its second part 70.
    Of course, various modifications may be made by those skilled in the art to the invention which has just been described, solely by way of non-limiting examples.
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    An engine assembly (1) for an aircraft comprising: a turbojet engine (10) comprising a fan (12) driven by a gearbox (14), said turbojet engine comprising a gearbox housing (26) surrounding said gearbox; a mast (4) for attaching the turbojet, comprising a primary structure (34) equipped with a central box (36); and - hooking means (7a-7d) of the turbojet engine to the primary structure (34) of the attachment pylon, characterized in that the primary structure (34) of the pylon also comprises a box extension (54 ) connected to the front of the central box (36), said box extension (54) comprising: - a first piece (60) made in one piece and arranged in a vertical and transverse plane of the motor assembly, said first piece comprising a first portion (62) in the form of an arch extending around the gear housing (26), and a first connecting structure (63) constituting a transverse stiffening rib of the central box (36) said first globally arched portion (62) having two opposite first ends (64a, 64b); and a second integrally formed part (70) comprising a second generally arcuate portion (72) extending at least partially around the gear housing (26) and a second structure Connecting piece (73) constituting a transverse stiffening rib of the central box (36), said second overall bow section (72) having two opposite second ends (74a, 74b) respectively mounted on said two opposite ends ( 64a, 64b), said second generally arcuate portion (72) extending rearwardly and toward the central box (36) from its opposite second ends (74a, 74b), and in that said fastening means comprise two lateral front fasteners (7a, 7b) and a central front fastener (7c), each of the two lateral front fasteners (7a, 7b) connecting the gearbox housing (26) to one of the two first ends (64a, 64b) of the first pa formed in the overall shape of a bow (32) and each ensuring the recovery of forces in a longitudinal direction (X) and in a vertical direction (Z) of the motor assembly, and said central front attachment (7c) connecting the housing gearbox (26) at a first central portion (65) of the first generally arcuate portion (62) and providing for the recovery of forces in a transverse direction (Y) of the motor assembly.
    [2" id="c-fr-0002]
    2. Engine assembly according to claim 1, characterized in that said second part (70) of the box extension (54) extends in a plane (78) inclined relative to the vertical (Z) and longitudinal (X) directions. ) of the motor assembly, preferably inclined at an angle (79) between 30 and 60 ° with respect to said longitudinal direction (X).
    [3" id="c-fr-0003]
    3. Engine assembly according to claim 1 or claim 2, characterized in that the two lateral front fasteners (7a, 7b) are arranged symmetrically with respect to a vertical and longitudinal median plane (57) of the motor assembly, said vertical plane and median longitudinal (57) passing through said central front attachment (7c).
    [4" id="c-fr-0004]
    4. Engine assembly according to any one of the preceding claims, characterized in that the two lateral front fasteners (7a, 7b) are arranged in angular positions for one between 2h and 3h, and for the other between 9h and lOh.
    [5" id="c-fr-0005]
    5. Motor assembly according to any one of the preceding claims, characterized in that said attachment means form an isostatic system of force recovery and are constituted by the two lateral front fasteners (7a, 7b), the front attachment central (7c), and a rear attachment (7d) ensuring the recovery of forces in the vertical direction (Z).
    [6" id="c-fr-0006]
    6. Engine assembly according to any one of the preceding claims, characterized in that said box extension (54) comprises at least one web (82) externally covering the first and second parts in the overall shape of an arch (62,72). .
    [7" id="c-fr-0007]
    7. Motor assembly according to any one of the preceding claims, characterized in that said second opposite ends (74a, 74b) are mounted on said two opposite first ends (64a, 64b) respectively by two shear pins (80, 80). preferably oriented in the transverse direction (Y).
    [8" id="c-fr-0008]
    8. Engine assembly according to any one of the preceding claims, characterized in that said turbojet engine (10) comprises successively, from front to rear, a fan casing (16), an intermediate casing (18), said gearbox housing (26), a central housing (28), and a turbine housing (30).
    [9" id="c-fr-0009]
    9. Aircraft (100) comprising at least one motor assembly (1) according to any one of the preceding claims, and a wing (2) on which is mounted said motor assembly.
    [10" id="c-fr-0010]
    10. Aircraft according to the preceding claim, characterized in that said motor assembly (1) is suspended under the wing (2).
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    同族专利:
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    US10723471B2|2017-06-14|2020-07-28|General Electric Company|Method and system for mounting an aircraft engine|
    GB201804962D0|2018-03-28|2018-05-09|Rolls Royce Plc|A geared turbofan engine mount arrangement|
    US11008884B2|2018-08-10|2021-05-18|Rolls-Royce North American Technologies, Inc.|Gensets and methods of producing gensets from an engine and generator for hybrid electric propulsion|
    法律状态:
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    优先权:
    申请号 | 申请日 | 专利标题
    FR1557719A|FR3040076B1|2015-08-13|2015-08-13|AIRCRAFT ENGINE ASSEMBLY COMPRISING A PRIMARY STRUCTURE OF A COUPLING MAT EQUIPPED WITH A BOX EXTENSION COMPRISING TWO PARTS IN GLOBAL ARCEAU SHAPE|FR1557719A| FR3040076B1|2015-08-13|2015-08-13|AIRCRAFT ENGINE ASSEMBLY COMPRISING A PRIMARY STRUCTURE OF A COUPLING MAT EQUIPPED WITH A BOX EXTENSION COMPRISING TWO PARTS IN GLOBAL ARCEAU SHAPE|
    CA2937764A| CA2937764A1|2015-08-13|2016-08-01|Engine assembly for an aircraft comprising a primary structure of a mounting pylon equipped with a box extension comprising two parts in the overall shape of an arch|
    US15/231,898| US10017267B2|2015-08-13|2016-08-09|Engine assembly for an aircraft comprising a primary structure of a mounting pylon equipped with a box extension comprising two parts in the overall shape of an arch|
    CN201610665530.7A| CN106428578B|2015-08-13|2016-08-12|Engine assembly for an aircraft and aircraft comprising such an engine assembly|
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