Source: http://www.google.com/patents/US3645477?dq=6985872
Timestamp: 2017-08-18 09:09:58
Document Index: 623880342

Matched Legal Cases: ['art 2', 'art 4', 'art 4', 'art2', 'art 43', 'art4', 'art4', 'arts 2']

Patent US3645477 - Swing-wing aircraft - Google Patents
A gap filler for swing-wing aircraft including means for adjustably inserting a plugging member into the gap formed between the movable wing and its fixed support in its movement from one extreme position to the other. Means are provided for coordinating the movement of the gap plugging member with the...http://www.google.com/patents/US3645477?utm_source=gb-gplus-sharePatent US3645477 - Swing-wing aircraft
Publication number US3645477 A
Also published as DE1816065A1, DE1816065B2, DE1816065C3
Publication number US 3645477 A, US 3645477A, US-A-3645477, US3645477 A, US3645477A
Inventors Kratschmar Herwig, Madelung Gero Otto
US 3645477 A
A gap filler for swing-wing aircraft including means for adjustably inserting a plugging member into the gap formed between the movable wing and its fixed support in its movement from one extreme position to the other. Means are provided for coordinating the movement of the gap plugging member with the movement of the movable wing to provide a substantially continuous, smooth leading edge for aerodynamic efficiency.
United States Kratselrmar et al.
SWING-WIN G AIRCRAFT Inventors: Herwig Kratschmar; Gero Otto Madelung,
both of Munich, Germany Assignee: Messerschmitt-Bolkow-Blohm, Munich,
Germany Filed: Dec. 18, 1969 Appl. Not: 886,088
Foreign Application Priority Data Dee 20, 1968 Germany ..P l8 16 065.1
[1.8. CI ..244/46 Int. Cl. t ..B64c 3/40 Field of Search ..244/46, 48, 49, 130
[4 1 Feb. 29, 1972 [56] References Cited UNITED STATES PATENTS 3,48 l ,562 l 2/1969 Deplante ..244/46 Primary Examiner-Trygve M. Blix Assistant ExaminerCarl A. Rutledge Attorney-John J. Byme [57] ABSTRACT A gap filler for swing-wing aircraft including means for ad justably inserting a plugging member into the gap formed between the movable wing and its fixed support in its movement from one extreme position to the other. Means are provided for coordinating the movement of the gap plugging member with the movement of the movable wing to provide a substantially continuous, smooth leading edge for aerodynamic efficiency.
7 Claims, 5 Drawing Figures Patented Feb. 29, 1972 I 3,645,477
3 Sheets-Sheet 1 Patented. Feb. 29, 1972 3 Sheets-Sheet 2 FIG. 3
Patented Feb. 29, 1972 I 3,645,477
s Sheets-Sheet s FIG. 5
SWING-WING AIRCRAFT This invention relates to swing-wing aircraft and more specifically to swing-wing aircraft having means to plug gaps opening between the movable wings and their fixed supports during movement of the wings from one extreme position to the other. 1
In an aircraft whose wings are pivotally mounted to the aircraft fuselage or to other wing parts, the connection points of the pivotable wings or pivotable wing parts must-be so constructed that so far aspossible and during all stages of the pivotal motion of the wings, no gaps will appear between the movable wing and the support or other wing part to which it is pivotally connected. Generally, gaps occur in the leading edge of a swing-wing at its juncture with its support duringmovement of the wing or wing portion between'its exueme positions; namely, the fully extended position and the maximum swept-back position. In the extreme positions, in most cases,
within a wing part and'which; when'a gap dja'eiifniove into the gap so as to coverit or-fill it as the case maybe. 'lhe niov'able parts are aerodynamically' mated'to'th'e adjacent aircraft segno gaps exist, in that portions of the movable wing and its sup- 7 port are in contact. The problems occur between the extreme positions where a gap occurs and the size thereof variesduring movement of the wing from one position to another. The presence of a gap at any point in the skin of the aircraftwing could result in undesirable consequencesunderflight'conditions, not only with regard to air resistance or aerodynamic'efficiency, but also, with regard to the safety of the aircraft.
It is known in the prior art to provide means for covering gaps in swing-wing aircraft. German Pat. No.- 1,175,997 discloses a swingwing aircraft wherein thepivotable wing part comprises a circular protuberant portion in the-leading edge,
so that a gap is prevented from being formed in this region while the aircraft wings are being folded or swung back.-ln the outwardly pivoted or fully extended position of the wing this protuberant portion lies within the fixed support for the wing. However, when the wing is in its full sweptback position adjacent the aircraft fuselage, which is the case when the aircraft is prepared for high speeds, the protuberant portionsproject into the air stream and cause aerodynamic drag. in U.S.-Pat. No. 3,270,989, appendages are provided on each side of the aircraft fuselage and close any gaps occurring between the movable wing and its fixed support when the wing is in either of its two extreme positions of its range of pivotal or swinging movement. In the intermediate positions,-gaps occur; however, this prior proposal has the advantages relative to'the above referred to German patent in that a smooth or continuous aerodynarnically efficient wing surface is present in the more important wing position; namely, the inwardly pivoted or folded wing position.
It is an object of this invention to eliminate the abovedescribed disadvantages of the prior art by providing means to close or cover the gap occurring between the movable wing and its fixed support in all positions of the movable wing relative to its support.
It is a further object of this invention to not only fill or close the gap referred to above but to do so in a manner that the outer surfaces of the wing and its support will be substantially smooth and unbroken at their juncture. The gap, which varies in size over the movement range of the wing, is continuously covered or filled while the wings are swinging toward or away from the fuselage. r 1 I I These objects are substantially realized, according to the invention by arranging for the gap to be covered over by-means which emerge from the wings or their support and which return when the wings are in the two extreme positions in which there are no gaps present. In the most important wing position, the position in which the wings are fully inwardly folded for high speed conditions there are no aerodynamic obstructions or protuberances on the wing surface. According to one embodimentof the invention; the gaps are covered or filled by inflatable wing segments positioned in the areas where the gaps would otherwise appear. These inflatable wing surfaces-cover over or fill the gaps and are so shaped asto insure the aerodynamic integrity of the aircraft-by. providing a substantially continuous surface. In other embodiments, mechanical structures, such as shaped parts, profiled-parts or ments: Various'actuating means such as hydraulic-cylinders,
--cam discsor other mechanicaldevices are used'fo'f'actuating the pluggingrn'embers in correlationwiththe-movemehtof the wswingwingsf -=These and other objects of the invention will'becomemore apparent'to those skilled in the by reference "to'the' following detailed description-'when='viewed'iii-light of 'theaccom- Partyingtlrawingswherein:'
" FIG. l is a plan view of the aircraft wing structure of this invention;
" FIG. 2 is a plan view of anotherembodiment of the aircraft wingstructureofthis'invention;
-FlG. 3 is a plan viewofanother embodiment 'ofthe aircraft wing structure 'ofthis'inventidn; v
"FIG. 4 is a plan'viewof a modified form of the aircraft wing structure ofFlG.3;-ande FIGJS- is a'plan view of another embodiment of the aircraft wing structureof this invention;
ln-ac'cordance 'with' the er'nbodiment of the invention illustrated in FIG. 1, a stationary wing part 2 is fixed to the aircraft t'eid to'the is formed between the front orleading edgeof the[fixei'Y'wing partor support '2 'andthe leading; longitudinal edge fi -of-tli movable wing part 4. A respective one' 'o'f the two 'point's 8' aiidi9 c'omes into alignment and contact with th'e'res'ilient portion of edge 5 in the two extreme positions'of them'ovable wing, in which no gap is present 'and a" continuousfsmooth" leading edge is presentediln" order to-prevent aap-1 o'cc'ur riri'g while the movable" wing part 4 is being pivoted or"folded', the'longitudinal edge 6 is constructed 'so'as t'o' be'infla'table in the region between'the points 8- and9 to define arifinflated wingsegrnent 10 whose" curvilinear leading edge] 1 preferably has a. radius whose'fixed pointis coincidentalwith the'a'xi's-ofthe'swivel pin 3. ln-this arrangement of the portion {1 0 and the resilient surface 5 the leading edge 11 of the latter directly "moves along the portion S'of the stationary wing part2, smhmhe a 7 is filled in each position within the range ofpivotin'g'or" swinging motion of the movable w'ing part 43 'Ihewing'segme'nt 10 only shaped element l2'whi'ch is pressed outwardlyfrom the wing and against resilient portion 5- 'ofthe wingleadi'rig 'edge The element 12 is spring-urged to its inward position by springs 15. The outward movement of the element 'l2- is corielat'ed to the 'm'ovement'of the-wing-part4-andtakes place through the intermediary of a control device which consists of a push rod or plunger-l3 which is connected to the innerside" of-the'element "1-2 and ridesoncam discl4' which is' fiiied' for rotary movement with=thewing 4.The' surfaces' ll and m'of thebonst'ruc- 'tion of FIGS. land 2' aretaurVili'riziranditherfore, will always be capable of covering over orfillin'gthe'gap7 in any angular position of the wing part4; r f 1 .Another embodiment is shown in FIGS. Sand 4-. A hoodlike sliding'element-l7 generally r'es'err'rblinga wedge'can be thrust into the gap 7 from theinside of the wing-part ax-rheeiemem '17 fitsover the leading edge of the wing 4in mat in'g relationship-and is=slidable= therein fully'coveriiigor'fillingthe'gap vor gap between the wing parts 2 and '4. The o'pe with'its edge is overlying the-leading edgdof'the while-its forward portion"l9'bridgesoyr* the tr between a the wing andwing support 2; Theeleriieht l7 lies ra ion oractuationof the 'sliding'elemen t17 as illustratediinFlG."3' is effected-by means of a hydraulic cylinder-29."' 5
The actuation of the hydraulic cylinder 20 is controlled by means acting in correlated response to angular movements of the movable wing. As mentioned earlier, the size of the gap varies during angular movement of the wing, therefore, the movement of the filling or plugging element must be capable of variable operation or sliding adjustment to fill the gap in all wing positions between the two extreme positions.
A modification of the embodiment of FIG. 3 is shown in FIG. 4. In place of the hydraulic cylinder 20, a pulley arrangement is employed. A pulley 21 is keyed to the movable wing 4 for rotation therewith. The element 17 which is identical to that of FIG. 3, is spring-biased to the outward position by compression spring 26. A cable 27 is attached to the sliding element 17 and passes around guides 28 and 29. As the pulley rotates through one complete movement cycle of the wing, from the fully extended position to the closed position, the element 17 is allowed to move outwardly by the action of spring 26 and the slackening of cable 27. The element 17 is drawn in by the pulling of cable 27 against the action of the spring 26. The pulley is so positioned that the movements of the wing 4 and the element 17 are properly correlated.
Another embodiment is illustrated in H6. 5. An element 22 is rotated so as to move into the gap 7. The element 22 is shaped like a pendant with a rounded bottom edge 22a and is pivoted at the pivot point of the wing. The hydraulic cylinder 23 is pivotally attached to the inner surface of the fixed portion 2 at 30. The piston rod of the cylinder is pivotally attached to the link 32 at its midpoint. The link 32 is pivotally attached at one end 34 to the inner edge of the wing 4. Link 36 is pivotally attached to the line 32 at its other-end with the link 36 also being pivotally attached to the line 32 at at is other end with the link 36 also being pivotally attached to the element or pendant 22. In operation, when the wing 4 is in its center position, the cylinder is contracted and the pendant is pivoted to the full line position thereby filling the gap. In the extreme positions of the wing the cylinder is extended and the pendant or segment 22 is drawn inwardly by the link system as shown in phantom in FIG. 5. Of course, the segment 22 assumes a plurality of positions during angular movement of the wing to fill the constantly varying gap.
In a general manner, while there have been disclosed effective and efficient embodiments of the invention, it should be well understood that the invention is not limited to such embodiments as there might be changes made in the arrangement, disposition, and form of the parts without departing from the principle of the present invention.
1. ln an aircraft having angularly adjustable wings pivotable about a vertical axis wherein gaps of varying size are formed in the wing surface at its pivotal connection during pivotal movement of the wing, first means for adjustably filling said gap thereby presenting a substantially smooth wing surface, said first means comprising an inflatable portion of said pivotal wing in the area of said gap, and second means for adjustably inflating said first means in correlation to the pivotal movements of said wings.
2. The aircraft of claim 1 wherein said inflatable portion is a leading edge portion of said wing having in the inflated position a radius whose fixed point is coincident with said vertical axis.
3. In an aircraft having angularly adjustable wings pivotable about a vertical axis wherein gaps of varying size are formed in the wing surface at its pivotal connection during pivotal movement of the wing, first means for adjustably filling said gap thereby presenting a substantially smooth wing surface, said first means comprising a resilient leading edge portion of said wing and a follower movably mounted within said wing adjacent said resilient portion, and a second means for adjustably actuating said follower to bulge said resilient portion said wing and drivingly engagin said follower.
5. In an aircraft having angu arly ad ustable wings pivotable about a vertical axis wherein gaps of varying size are formed in the wing surface at its pivotal connection during pivotal movement of the wing, first means for adjustably filling said .gap thereby presenting a substantially smooth surface, said first means comprising a wedge-shaped member slidable along the leadingedge of said wing and into and out of said gap, second means for adjustably moving said wedge-shaped member in correlation to the pivotal movements of said wings, said second means comprising a pulley rotatable with said wing and connected to said wedge-shaped member by a cable wound at one end on said pulley, and biasing means normally biasing said wedge-shaped member to the outward, gap-filling position.
6. In an aircraft having angularly adjustable wings pivotable about a vertical axis wherein gaps of varying size are formed in the wing surface at its pivotal connection during pivotal movement of the wing, first means for adjustably filling said gap thereby presenting a substantially smooth surface said first means comprising a pendant-shaped member pivotally mounted within said wing for movement into said gap and having an arcuate bottom surface for variably filling said gap, and second means for adjustably moving said first means in correlation to the pivotal movements of said wings.
7. The aircraft of claim 6 wherein said second means comprises a hydraulic motorand linkage system.
US3481562 * Nov 27, 1967 Dec 2, 1969 Dassault Avions Movable obturator device between airfoils and the airframe of variable geometry aircraft
US3968946 * Mar 31, 1975 Jul 13, 1976 The Boeing Company Extendable aerodynamic fairing
US4206893 * Sep 27, 1978 Jun 10, 1980 The Boeing Company Seal closure for slot in engine mounting strut
U.S. Classification 244/46