The present invention relates to an aircraft wing, in particular for a helicopter.
Helicopters are known comprising a fuselage; a turret armed with a weapon at the front end of the fuselage; and two wings projecting from the fuselage and equipped with further weapons and/or auxiliary tanks.
More specifically, the turret comprises a weapon fed with ammunition on a continuous belt.
More specifically, the helicopter comprises a rigid duct having a rear loading end connected to an ammunition tank, and a front end close to the turret. As the weapon is fired, the ammunition belt runs into the duct through the front end, and along a portion outside the fuselage to the turret.
A need is felt within the industry to increase ammunition feed to the turret without impairing the aerodynamic characteristics of the helicopter.
It is an object of the present invention to provide a wing designed to achieve the above requirement cheaply and easily.
According to the present invention, there is provided a helicopter wing, as claimed in the attached Claims.
A preferred, non-limiting embodiment of the present invention will be described by way of example with reference to the accompanying drawings, in which:
Number 1 in
More specifically, the first side and second side 6 are opposite.
Helicopter 1 also comprises a main rotor on top of fuselage 2 and rotating about a first axis; and a tail rotor fitted to a fin projecting from the fuselage at the opposite end to turret 3, and rotating about a second axis crosswise to the first axis.
It should be pointed put that the terms “front”, “rear”, “top”, “bottom” and similar in the following description are used purely for the sake of clarity and with reference to the orientation and travelling direction of helicopter 1 as shown in
More specifically, turret 3 comprises a weapon 8 fed by an automatic loading system (not shown) with ammunition 9 (only shown partly in
Each element 11 is engaged coaxially by respective ammunition 9, and is connected to the connecting elements in articulated manner about the axes of ammunition 9.
Helicopter 1 also comprises a duct 13 for feeding ammunition 9 to weapon 8 and extending along side 6 on the outside of fuselage 2.
Duct 13 is rigid, and comprises a rear loading opening 14 (
The underside of wing 4 supports other accessory devices of helicopter 1, such as rockets, missiles or other tanks.
Wing 4 (
More specifically, wing 4 comprises a frame 21 defining compartment 20; and a cover 40 covering frame 21 and defining, in the flight configuration of the helicopter shown in
More specifically, frame 21 comprises (
To reduce the overall weight of frame 21, longitudinal members 23, 24 and ribs 26, 27 comprise a number of circular through cutouts, and cross member 22 comprises a single through cutout elongated parallel to direction B.
Longitudinal member 23 is located to the front of longitudinal member 24.
Longitudinal member 23 also comprises:
Each opening 31, 32, 33, 34 is bounded by:
More specifically, the second sides are shorter than and radiused to the first sides.
Frame 21 also comprises a concave wall 35 symmetrical with respect to an axis perpendicular to directions A and B, and extending on the opposite side of longitudinal member 23 to longitudinal member 24.
More specifically, wall 35 comprises a first end edge hinged to the first side of opening 33 on the opposite side to rib 27; and a second end edge fixable releasably to the first side of opening 34 on the opposite side to rib 27.
Wall 35 is thus movable between a first position (
When wall 35 is in the first position, openings 33, 34 face the inside of a cavity defined by wall 35.
Cover 40 (
Cover 40 also comprises a wall 45 covering rib 26; and a further wall (not shown) covering frame 21 on the opposite side of top end edges 36, 37 to walls 43, 44.
More specifically, wall 41 is curved and concave.
As shown in
More specifically, the first end edge and the second end edge 47 are straight, and wall 41 comprises two curved further end edges, which extend between respective opposite ends of the first end edge and second end edge 47, and cooperate respectively with an outer surface of duct 13 and with wall 45 when wall 41 is in the first position.
In the first position, wall 41 is positioned with its axis of symmetry parallel to direction B.
Wall 43 comprises an end edge 38 opposite end edge 48; and two straight further end edges interposed between end edges 38 and 48.
Wall 43 is movable between a first position (
More specifically, in the first position, wall 43 extends from cross member 22 to rib 27 in direction B.
Similarly, wall 44 comprises an end edge 39 opposite end edge 49; and two further end edges interposed between end edges 39 and 49.
Wall 44 is movable between a first position (
More specifically, in the first position, wall 44 extends from rib 26 to rib 27 in direction B.
When helicopter 1 is in the flight configuration (
More specifically, in the flight configuration, walls 41, 42 define the leading edge and trailing edge respectively of wing 4; walls 43, 44 define the topside of wing 4; and the further wall defines the underside of wing 4.
Compartment 20 (
Belt 10 substantially comprises portion 54 (
More specifically (
Wings 4 are located higher than turret 3; and duct 13 extends, from wing 4 to opening 15, at gradually decreasing height with respect to wing 4 (
More specifically, duct 13 comprises, from opening 14 to opening 15, a first portion 65 sloping downwards with respect to wing 4; a second portion 66 sloping downwards with respect to first portion 65; and a substantially horizontal third portion 67.
More specifically, second portion 66 is steeper than first portion 65.
When loading belt 10, walls 41, 43, 44 are set to their respective second positions (
Belt 10 is inserted into compartment 20 through opening 32 in the direction indicated in
In which case, portions 61, 62, 63 of portion 54 of belt 10 are housed in portions 51, 52, 53 of compartment 20 respectively.
At this point, walls 41, 43, 44 are moved into their respective first positions (
Helicopter 1 is therefore now in the flight configuration.
As weapon 8 is fired during the mission, belt 10 of ammunition 9 is fed forward inside compartment 20 and along duct 13 to weapon 8.
Forward feed of belt 10 is described below with reference to one piece of ammunition 9 located at opening 32.
As weapon 8 is fired, ammunition 9 travels sequentially through opening 32, along a number of alternating paths, parallel to direction A, inside portion 51 of compartment 20, and through opening 34. At this point, ammunition 9 is guided by wall 35, inside portion 52 of compartment 20, through opening 33, and travels along a number of alternating paths, parallel to direction A, inside portion 53 of compartment 20, and through opening 31.
At this point, ammunition 9 travels along portions 65, 66, 67 of duct 13, through opening 15, and along a lateral outer portion of fuselage 2 to turret 3 and weapon 8.
To inspect the arrangement of portion 54 of belt 10 inside compartment 20, once helicopter 1 lands, walls 41, 43, 44 are simply moved into their respective second positions.
The advantages of wing 4 according to the present invention will be clear from the above description.
In particular, compartment 20 defines an additional tank for ammunition 9, using wing 4 which is normally used for supporting other weapons or tanks.
Wing 4 therefore provides for increasing the amount of ammunition 9 that can be stored, with no need for additional storage facilities inside or outside helicopter 1.
Moreover, using an existing wing 4, compartment 20 in no way increases the overall drag of helicopter 1.
Walls 41, 43, 44 being movable into the second position, belt 10 can be inserted easily into compartment 20, and the correct arrangement of first portion 54 of belt 10 inside compartment 20 can later be inspected easily from the outside.
Finally, by virtue of wing 4 being on a level with opening 14 of duct 13, and duct 13 sloping downwards from opening 14 to opening 15, no motors are need to feed belt 10.
Clearly, changes may be made to wing 4 as described and illustrated herein without, however, departing from the protective scope defined in the accompanying Claims.
In particular, wing 4 may be applied to a different aircraft, e.g. a military aeroplane.
Moreover, the design of compartment 20 and the path of belt 10 may differ from those shown in
Wing 4 may even have no rib 27 and/or may be fitted inside with other systems for guiding and supporting belt 10, to improve slide of belt 10 and prevent weapon 8 from jamming.
Finally, belt 10 of ammunition 9 may be loaded and inspected inside compartment 20 otherwise than as shown in
Number | Date | Country | Kind |
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TO2008A 000445 | Jun 2008 | IT | national |