DE1176491B - Hydraulic swivel drive for aircraft engine nacelles arranged coaxially to the swivel axis - Google Patents

Description

Hydraulic swivel drive arranged coaxially to the swivel axis for aircraft engine nacelles The invention relates to an axis coaxial with the pivot axis arranged hydraulic swivel drive for aircraft engine nacelles with a pivot bearing seated on a fixed trunnion.

For aircraft with attached to the wing or tail surface end, Rotatably mounted engine nacelles are different actuating devices became known to pivot engine nacelles.

In addition to the mechanical planetary gear with its numerous gears and the resulting great effort, hydraulic swivel cylinders are generally used, which are mounted on the one hand on the wing and on the other hand on the side of the engine nacelle facing the wing. Such a hydraulic swing cylinder practicing überihreAngriffspunkte to the wing very large bending moments and do therefore to obtain the necessary stiffness, relatively heavy constructions of the respective wing parts required '- Also known are pivot means, which are arranged inside the wing and, on axes lead to the wing tip, are connected to the engine nacelles that are pivotably arranged there. In the case of these pivoting devices, the actuating and storage devices of the engine nacelles each need their own accommodation option. Inside the wing, the swivel drive is housed about half the length of the wing, which is connected to the engine nacelle via an axis, which in turn is pivotably mounted relative to the wing via a bearing device arranged at the wing end. The disadvantage here is the high weight required due to the separate installation of storage and actuation devices and the need for a relatively long pivot axis. In addition, the installation of actuating devices for the swivel drive in the interior of a wing is unfavorable with regard to the static design of the wing and the narrow wing profile design necessary for aircraft at high speeds.

In order to avoid these disadvantages, the invention is based on the object of creating a mounting and actuating device for pivoting engine nacelles, which allows favorable installation in terms of space and weight and in which the very large bending moments depending on the position of the engine nacelle relative to the wing are avoided .

According to the invention, this object is achieved in that a well-known circularly curved cylinder with a piston rod that can be moved therein is housed within a roller bearing serving for the nacelle bearing, wherein the circularly curved cylinder is firmly attached to the trunnion and the roller bearing inner ring is connected and the part of the piston rod protruding from the cylinder connecting elements has, which attached the piston rod to the on the roller bearing outer ring Bearing shell of the pivoting engine nacelle connects.

Another feature of the invention is that of the cylinder protruding part of the circularly curved piston rod provided with driving pins has an additional guide.

The invention also provides that the oil-tight guide bearing is arranged in such a way that the part of the circularly curved piston rod connected to the engine nacelle can be pivoted in a segment area of up to more than 90 ' .

An example embodiment of the invention is shown in the drawings. It shows F i g. 1 shows a horizontal section through the storage and the actuating device, FIG. 2 shows a vertical section through the bearing and the actuating device.

According to FIG. 1 and 2 is fixedly connected via a flexure body 2 with the end of the wing 3, a bearing pin. 1 The circularly curved hydraulic cylinder 4 is applied to this bearing journal and is firmly connected to the journal via a common flange of the bending body. The hydraulic cylinder has a ball or roller bearing 5 on its outside, the outer bearing shell 6.In-iit of which is connected to the engine frame 7. There is also a second ball or roller bearing 8 on the engine frame, which runs on the bearing journal 1 itself.

Inside the cylinder, the piston 9 moves with the piston rod 10 on an arc of a circle ( FIG. 2). The guide bearing 12, which closes off the cylinder space 11 and is sealed against oil loss, is arranged in such a way that the extended piston can cover an angular range of more than 90 '. The part 10 'of the piston rod protruding from the inside of the cylinder is guided again by a guide bearing 13 which only partially surrounds the piston rod. On the part 10 'of the piston rod there are driving pins 15 which connect the piston rod to the engine frame 7 .

To pivot the engine nacelle, oil is pressed through the bore 14 into the space between the piston 9 and the cylinder housing 4. As a result, the piston rod 10 is extended, a rotation of more than 90 'being associated with the extreme position of the piston 9. Through the connection of the piston rod 10 to the engine frame 7 established by the driver pins 15 , the rotation of the piston rod is transmitted to the engine frame. For the reverse rotation, oil is pressed through the bore 14 'into the space between the piston 9 and the guide bearing 12. It is also possible to achieve any intermediate position of the piston by regulating the oil supply or the oil flow accordingly and thus also to set any desired inclination of the engine and to hold it by maintaining the oil pressure in the cylinder chamber 11 on both sides of the piston 9.

Claims (3)

Claims-1. Hydraulic swivel drive arranged coaxially to the swivel axis for aircraft engine nacelles with a pivot bearing seated on a fixed support pin, d a d through g e - indicates that a known circularly curved cylinder with a piston rod displaceable therein is housed within a roller bearing (5) used for nacelle support , wherein the circularly curved cylinder (4) is firmly connected to the trunnion (1) and the roller bearing inner ring and the part (10 ') of the piston rod (10) protruding from the cylinder has connecting elements which connect the piston rod to the bearing shell attached to the roller bearing outer ring (6) connects the pivoting engine nacelle. 2. Swivel drive according to claim 1, characterized in that the protruding from the cylinder, provided with driving pin part (10 ') of the circularly curved piston rod has an additional guide (13) . 3. Swivel drive according to claim 1 and 2, characterized in that the oil-tight guide bearing (12) is arranged so that a pivoting of the part connected to the engine nacelle (10 ') of the circularly curved piston rod can be achieved in a segment area up to over 90' . Documents considered: German Patent No. 872,000; German interpretative document No. 1 039 846.