The invention relates to a pin system intended for a connection assembly of an engine pylori underneath an aircraft wing. This pin system requires only a single maneuvering space and an access space for its installation.
The invention has applications in the field of aeronautics and in particular in the field of secure connections between an engine pylori and a wing.
In most aircraft, the engine is fixed underneath the aircraft wing by means of a structure known as an engine pylori. An example of an aircraft having an engine 1 mounted underneath wing 2 is shown in
For safety reasons, all the structural elements indispensable to the aircraft are usually doubled in an aircraft. Thus all the paths for passage of forces in a structure are redundant, in order to assure the integrity of the structure if one of the elements for passage of forces were to break. In particular, in the connection assemblies between engine pylori and wing, a double pin system is usually used to assure transmission of forces by the second pin, if the primary pin is faulty. For these reasons, a traditional pin system is provided with an external primary pin and an internal secondary pin mounted inside the primary pin. The primary pin and the secondary pin are concentric. In such a traditional pin system, a rod is placed at the center of the pin system, traversing the secondary pin from end to end. This rod is equipped at each of its ends with a thread on which a nut is installed. Each of these nuts must be tightened to ensure interlocking of the pin system.
An example of the traditional assembly of a fork joint 5 of an engine pylori and of a wing fitting 6 has been shown in
In certain aircraft, however, the structure of the connection assembly is such that pyramid arm 4 is situated between two pin systems. An example of such a structure is illustrated in
The invention has precisely the object of remedying the disadvantages of the techniques described in the foregoing. For this purpose, the invention proposes a connection assembly of an engine pylori underneath an aircraft wing, wherein a single maneuvering space is sufficient to interlock a traversing pin system there, a passage space being sufficient at an opposite end to slip on a lock washer. The pin system of the invention is of semi-blind type: it is inserted from one side of the fitting and interlocked from this same side.
For that purpose, the pin system of the invention is provided with shoulders mounted simply, without tools, at the blind ends of the pins to assure that the said pins and the interlocking means mounted using tools around the free ends of the pins are maintained in position.
More precisely, the invention relates to a connection assembly of an engine pylori underneath an aircraft wing, the wing being provided with a fitting, the engine pylori being provided with a fork joint nested in the fitting and fixed to the said fitting by means of a traversing pin system. This connection assembly is characterized by the fact that the pin system is provided with:
The connection assembly of the invention may be provided with one or more of the following characteristics:
The invention also relates to a method for installing a connection assembly such as described in the foregoing. This method is characterized by the fact that it includes the following operations:
The invention also relates to an aircraft equipped with an engine pylori and with a wing underneath which the engine pylori is fixed. A pin system assures the connection between the engine pylori and the wing. This pin system conforms with the foregoing description.
The invention relates to a traversing pin system that can be installed in a connection assembly having a restricted space between the two parts of the fitting. This pin system is a semi-blind system, which can be installed from a single maneuvering face of the fitting, a passage space being sufficient along the other face to permit interlocking of the system.
Throughout the description hereinafter, reference will be made to the external face and the internal face of the fitting, the external face being the maneuvering face from which the operator is able to install the system and maneuver his tools, and the internal face being the face situated facing the pyramid arm of the engine pylori and offering a reduced space through which simply the operator's hand can be passed. The internal face is also referred to as the blind face. The external face is also referred to as the free face.
In the example of
An example of the pin system of the invention is shown in
Free end 11a of the primary pin, or in other words its end situated on the external face FE of the fitting, is straight. In contrast, its blind end 11b, situated on the internal face FI of the fitting, is provided on its external face situated facing the fitting with a radial groove 11c, intended to receive a flange of primary shoulder 13 described hereinafter. Blind end 11b of primary pin 11 is additionally provided, on its internal face in contact with secondary pin 12, with a radial overhang 11d intended to assure a stop for the secondary pin against the primary pin.
Secondary pin 12 is provided at its free end 12a with a first undercut relief 12c permitting insertion of primary nut 15 described hereinafter. It is provided at its blind end 12b with a second undercut relief 12d forming, together with overhang 11d of the primary pin, an assembly of mortise-and-tenon type that assures nesting of the secondary pin in the primary pin while it is being placed. Blind end 12b of the secondary pin is additionally provided with a radial groove 12e intended to receive secondary shoulder 14, which will be described hereinafter.
The pin system of the invention is additionally provided with a stopper assembly composed of two shoulders 13 and 14, interleaved one in the other. Primary shoulder 13 assures blocking of primary pin 11 in translation. Secondary shoulder 14 assures blocking of secondary pin 12 in translation.
For that purpose, primary shoulder 13 has the shape of a washer of diameter adapted to the external diameter of primary pin 11. More precisely, primary shoulder 13 has a flattened annular shape with a central orifice 13a. The diameter of this central orifice is identical to the inside diameter of the primary pin at its blind end 11b. In addition, the outside diameter of primary shoulder 13 is substantially identical to the outside diameter of primary pin 11 at its blind end.
Primary shoulder 13 has a shape of a cap provided with:
Groove 11c of primary pin 11 and flange 13d of primary shoulder 13 are each provided with a system of fixation by rotation, complementary to one another and making it possible to interlock primary shoulder 13 around primary pin 11. This system of fixation by rotation may be, for example, a screw thread or a bayonet-lock system.
Primary shoulder 13 with its flange 13d has a dimension sufficient to constitute a stop capable of blocking the entire pin system in translation relative to the fitting, from the blind end toward the free end of the said fitting.
The central orifice of primary shoulder 13 is equipped on its circumference with at least one flat portion 13e. Similarly, the blind end of secondary pin 12 is provided with at least one flat portion 12f on undercut relief 12d. Flat portion 12f of the secondary pin is intended to come into contact against flat portion 13e of primary shoulder 13 in order to assure blocking in rotation of the secondary pin with the shoulder, in turn inducing blocking in rotation of stopper assembly 13, 14 with the primary and secondary pins.
Secondary shoulder 14 has a shape of a disk equipped with an oblong lateral opening 14a. This oblong opening 14a is off-centered in disk 14: it begins from the center of the disk and extends over the entire radius of the disk, such that the shoulder is C-shaped. This oblong opening 14a permits insertion of shoulder 14 around blind end 12b of secondary pin 12.
The width of this oblong orifice 14a is adapted to the width of the secondary pin at the location of groove 12e. More precisely, the width of oblong opening 14a is substantially greater than the thickness of the secondary pin in groove 12e.
As will be seen hereinafter, secondary shoulder 14 is provided to be slipped into groove 12e of secondary pin 12, along the primary shoulder. Secondary shoulder 14 may be provided with a longitudinal overhang 14b, whose shape may be opposite that of flange 13d of primary shoulder 13 in order to interlock secondary shoulder 14 on primary shoulder 13, so that it does not come out during flight.
The installation of these shoulders 13 and 14 is shown in
Different steps of installation of the primary and secondary shoulders according to a second embodiment of the invention have been shown in
In this second embodiment, primary shoulder 13 has the shape of a washer of diameter adapted to the outside diameter of primary pin 11. More precisely, primary shoulder 13 has a flattened annular shape with a central orifice 13a. The diameter of this central orifice 13a is identical to the diameter of groove 11c of the primary pin. Primary shoulder 13 is provided with:
End 11b of the primary pin is provided with notches 11f that offer the primary pin an outside diameter identical to that of groove 11c at the location of these notches. In this way, primary shoulder 13 is mounted around the primary pin by making polarizing elements 13f coincide with notches 11f. When primary shoulder 13 is in place around primary pin 11, a rotation, for example of 90°, makes it possible to lock it around the said pin, polarizing elements 13f assuring that shoulder 13 is maintained in place in groove 11c.
Primary shoulder 13 has a dimension sufficient to constitute a stop capable of blocking the entire pin system in translation relative to the fitting, from the blind end toward the free end of the said fitting.
In this embodiment, the blind end of secondary pin 12 is provided with at least one flat portion 12f on undercut relief 12d. Flat portion 12f of the secondary pin is intended to come into contact against flattened portion 11g made in the internal wall of primary pin 11, at its blind end 11b, in order to assure blocking in rotation of stopper assembly 13, 14 with the primary and secondary pins.
In addition, blind end 12b of secondary pin 12 is provided with a blind face 12g of non-circular shape, intended to be inserted in a secondary shoulder 14 described hereinafter. The shape of blind face 12g may be, for example, oval or oblong, as shown in
In this embodiment, secondary shoulder 14 has the shape of a disk equipped with a central opening 14c. This central opening 14c has a shape complementary to that of blind face 12g of secondary pin 12. In the example of
This central opening 14c permits insertion of shoulder 14 around blind end 12b of secondary pin 12.
Secondary shoulder 14 is additionally provided with at least one longitudinal partial flange 14d, whose shape and height are complementary to the zones of ring 13g situated between polarizing elements 13f of primary shoulder 13. Preferably it is provided with two longitudinal partial flanges 14d facing one another.
Thus, when secondary pin 12 is inserted into primary pin 11 with flat portions 12f and 11g, which coincide, blind end 12b of the primary pin extends outside primary pin 11. Secondary shoulder 14 can then be mounted around this blind end 12b so that its central orifice 14c is nested around blind face 12g of the secondary pin. Longitudinal partial flanges 14d are then positioned facing polarizing elements 13f of primary shoulder 13, as shown in
To position secondary shoulder 14 definitively, it is subjected to a rotation, for example by 90°, so that longitudinal partial flanges 14d of secondary shoulder 14 become nested between polarizing elements 13f of primary shoulder 13, thus interlocking secondary shoulder 14 on primary shoulder 13. This rotation of secondary shoulder 14 brings about the displacement of secondary pin 12 inside primary pin 11, from the blind face toward the free face, as shown in
Regardless of the embodiment, free end 12a of the secondary pin is then capable of receiving an interlocking assembly 15, 16. This interlocking assembly 15, 16 is therefore installed at end 12a of the secondary pin, or in other words at the end situated on the external face FE of the fitting, to assure blocking of the system in translation from the external face FE toward the internal face FI of the fitting.
This interlocking assembly is provided with a primary nut 15 screwed around the free end of secondary pin 12 and a secondary nut 16, also screwed around the free end of secondary pin 12.
Primary nut 15 has a traditional shape of a threaded nut with:
Secondary nut 16 has a shape of a crown equipped on its internal circumference with a screw thread capable of being screwed around the free end of secondary pin 12. The secondary nut may be provided with a curved flange 16a capable of receiving another aeronautic element such as a braking system.
The different steps of mounting of the system of the invention have been shown in
As shown in
This position of the secondary pin, after installation in the primary pin, is shown in
It is evident from these
The different steps of installation of the system of the invention in a fitting underneath the wing have been shown in
The different steps of installation of the system of the invention according to the embodiment of
It is understood from the drawings described in the foregoing that the aerodynamic constraint relative to the redundancy of paths for passage of forces is respected by the system of the invention. The primary path for passage of forces in evenly dashed lines and the emergency path for passage in unevenly broken lines have been shown in
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French Preliminary Search Report and Written Opinion issued Nov. 16, 2010, in French 1052537, filed Apr. 2, 2010 (with English Translation of Categories of Cited Documents). |
Number | Date | Country | |
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