US1818322A - Airplane - Google Patents

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US1818322A
US1818322A US312087A US31208728A US1818322A US 1818322 A US1818322 A US 1818322A US 312087 A US312087 A US 312087A US 31208728 A US31208728 A US 31208728A US 1818322 A US1818322 A US 1818322A
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wing
flap
passage
balance
unit
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US312087A
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Randolph F Hall
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64CAEROPLANES; HELICOPTERS
    • B64C21/00Influencing air flow over aircraft surfaces by affecting boundary layer flow
    • B64C21/02Influencing air flow over aircraft surfaces by affecting boundary layer flow by use of slot, ducts, porous areas or the like
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64CAEROPLANES; HELICOPTERS
    • B64C9/00Adjustable control surfaces or members, e.g. rudders
    • B64C9/14Adjustable control surfaces or members, e.g. rudders forming slots
    • B64C9/146Adjustable control surfaces or members, e.g. rudders forming slots at an other wing location than the rear or the front
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64CAEROPLANES; HELICOPTERS
    • B64C2230/00Boundary layer controls
    • B64C2230/06Boundary layer controls by explicitly adjusting fluid flow, e.g. by using valves, variable aperture or slot areas, variable pump action or variable fluid pressure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64CAEROPLANES; HELICOPTERS
    • B64C2230/00Boundary layer controls
    • B64C2230/20Boundary layer controls by passively inducing fluid flow, e.g. by means of a pressure difference between both ends of a slot or duct
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T50/00Aeronautics or air transport
    • Y02T50/10Drag reduction
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T50/00Aeronautics or air transport
    • Y02T50/30Wing lift efficiency

Definitions

  • the invention has to do with and is directed to airplane wings, or supporting or lift surfaces of those general tiyl pes in' which variable lift is obtainable t rough the employment of a pivotally 39 mounted lower or under surface,or so-called wing flap capable of depression or downward swinging topositions such that through v the establishment of pressure differences on increased liftis developed by and from a wing or supporting surface; and a general characteristic of the instant invention resides in the provision of such a pivoted surface or wing flap with a balance portion, which preferably forms a unitary structure therewith, and through the medium of which more eflicient operation and control of such surface or flap is made possible, and a tendency of the surface or flap toward automatic functioning oroperation to vary the wing lift in accordance with changes in the angle of attack of the wing, obtains.
  • Another feature of the invention is the structural and mechanical simplicity obtained in a wing having the foregoing characteristics, by which practical manufacture is made possible, and a design'and structure produced having the required factor of safety with minimum weight and efiicient aerodynamically in operatiomwhile retaining ease of operation and control for the pivoted surface or wing flap through simple yet eflicient mounting thereof in the wing structure.
  • Fig. 1 is a transverse sectional view, more or less diagrammatical, through a wing of the air displacement passage type embodying the balanced wing'flap unit of the invention incorporated therein.
  • Fig. 2 is a view similar to Fi 1, in which the displacement passage provi es an o ning or slot through the upper surface 0 the wing and controlled by the balanced flap unit.
  • Fig. 3 is a view similar to Fi l, of a modified design and arrangement 0 wing and balanoed flap of the invention.
  • 1 Fig. 4 is a view of the wing of Fig. 3, show 19 ing a modified mounting and arrangement of the wing flap balance portion or member.
  • Fig. 5 is a transverse, vertical section, more or less diagrammatieal,through a design of wing having an air displacement slot therethrough, with a form of balanced wing flap of the invention in which the balance portions of the flap control the slot and the flap is remote from the slot.
  • Fig. 6 is a transverse, vertical section, more or less diagrammatical, through a wing of a type without air displacement openings, slots, or passages, with a balanced flap of the invention mounted thereon and embodied therein.
  • wing or supporting surface embodying an adaptation of the invention incorporated therein is more or less diagrammatically shown in Fig. 1, in which-a wing A of the type having an air displacement passage therein and therethrough, is disclosed.
  • This wing A comprises an upper section or aerofoil 10 having the leading edge portion 11, of a thickness or depth to carry the forward spar or longitudinal beam (not shown) for the wing if desired, relatively thin upper intermediate portion 12, and trailing, edge portion 14, with a lower section or aerofoil 15 having the pivoted surface or flap forming rear portion 16- pivotally mounted at 17, which is preferably a wing beam or spar for v the lower aerofoil 15, along the trailing edge of the forward fixed section of aerofoil 15 and forming with such forward section the complete lower aerofoil 15.
  • the lower aerofoil 15 is mounted and disposed with the forward portion carrying beam 17 in fixed position below the intermediate, thin portion 12 of upper aerofoil 10, with its leading edge spaced rearwardly from the leading edge portion 11, and with the pivoted trailing flap portion 16 in normal raised position (see dotted lines) extending rearwardly from the fixed forward portion of aerofoil 15, to and received in an under recess 14 in the trailing edge portion 14 of upper aerofoil 10.
  • wing A presents a structure having the air displacement passage 18 therethrough, between upper and lower 'aerofoils l0 and 15, with its forward inlet end opening through the under surface of wing A, be-
  • the pivoted portion 16 in normal raised position forms with the forward fixed portion of aerofoil 15, the lower or under surface carrying out the contour and completing the aerofoil section of the wing A, while in its depressed or downwardly swung position shown in full lines in Fig. 1, the rear or discharge end of passage 18 is opened and formed between trailing edge portion 14 of upper aerofoil 10, and the pivoted flap portion 16 of lower aerofoil 15.
  • This win A is of the-so-called Hall variable or high lift type familiar in the aeronautical art and the principles, functions, and results of which are broadly explained and described in United States Letters Patent 1,559,091, dated October 27, 1925, and to which reference is here made.
  • the pivoted trailing edge, wing flap forming portion 16 of the under surface forming aerofoil 15, of wing A is provided with a balance portion or member 20 which is formed, in the example hereof, rigid and movable with pivoted flap 16 and forming a unitary structure therewith, but disposed spaced and remote from pivoted surface or flap 16.
  • the balance portion or member 20 in the present instance, takes the form of a vane of substantially aerofoil section, although not so limited, and is mounted and secured to and extending across and between the forward ends of arms 20, so as to be positioned. thereby in normal raised discharge closing position of pivoted surface or flap 16, in. position closing the forward inlet end of wing passage 16 and forming a portion of the under surface of wing A, as clearly shown by the dotted line positions of balance member 20 and wing hip 16, in Fig. 1..
  • wing flap 16 is swingable downwardly to the full line position shown in Fig. 1, any suitable operating and control mechanism (not shown) being of course provided, and in such position opensthe dischar e end of wing passage 18 and functions to increase the lift developed from and by the wing, it here being noted that in the preferred mounting of flap 16, its axis along 17 is forward of the center of wing A.
  • the balance member 20 rigid therewith, through supporting arms 21, is swung upwardly intothe wing passage 18, from and opening the forward inlet end thereof through the under surface of the wing, as shown in full lines in Fig. 1, thus permitting the displacement passage to function in cooperation with the lowered flap to increase the lift of wing A.
  • the balanced tapunit16-20 is swung to raise flap 16 to.normal position closing the discharge end of passage 18, and to lower balance portion 20 .to normal position closin the forward inlet end of passes e 18, with ap 16 and balance member 20, isposed within and forming portions of ti; under or lower sur- With wing A in its high speed condition the win flap 16 and its balance member 20, are in t eir normal dotted line positions of Fig. 1, but when it is desired to increase the lift of wing A, the flap A is swung downwardl while the balance portion or member 20 swings upwardly to openthe inletend of passage 18, the member 20 being acted upon by the air pressure and affording balance for.
  • the flap 16 materially aiding the operation and control of the he in moving or swingin the same to lowere passage opening an high lift positions.
  • balance is also given the flap by t e downwardly moving forward and remote balance member 20, with resulting ease and smoothness of operation andcontrol of the flap 16, in swinging the same from lowered, high lift osition, to normal raised, high speed eonditlon for the wing A.
  • the balance portion or member 20 thus functions throughout the operation and control of. the pivoted wing surfaceor flap 16, which control and operation is usually manual, to give a greater ease, and uniformity and'smoothness of operation, with an increased efficiency for the wing A.”
  • the relative difference in under pressure upon the balance member 20 and flap 16 is such that the resulting forces tend to depress the flap portion at high angles of attack and develop increased lift, while at low angles of attack the resulting forces tend to raise the through the relatively thin intermediate portion 12 of upper aerofoil 10, aft or to the rear of the forward fixed portionof lower aerofoil 15, and above the pivoted surface or wing fiap 16.
  • Each of the balance member supporting arms 21 is provided with an u ward and rearward extension 22, and a mem er or vane 23, in this instance similar to balance vane 20, is secured across and to the upper. ends of arm extensions 22, in position with pect to flap 16 such that in the normal raised position of flap 16, the vane 23 is disposed in and closing passage discharge slot 19, as shown by dotted lines in Fig. 2, while in high lift, lowered position of flap 16, the
  • vane 23 is in the full line,slot 19 opening 9 position, as shown in the drawings.
  • the vane 23 thus forms an element of the balanced flap unit 16-20, and by designing the vane 23 to vary the shape and proportions thereof, the magnitude and direction of forces thereon can be varied to meet the requirements of operation and control of the. balanced flap unit and the wing in which incorporated.
  • FIG. 3 A modified design of air displacement m9 passage wing A is disclosed in Fig. 3, the upper aerofoil section 10 of which is formed with the forwardly extending air displacement passage 18 terminated at its forward end by the relatively narrow leading edge section 11', and between the lower aerofoil section 15-16 and the up er aerofoil 10'.
  • the forward inlet end 0 assage 18 is through the under surface of wing A.
  • the lower aerofoil section 15-16 is spaced forwardly a greater distance than in the wing A of Fig. 1, anddue to the thickness or depth of the intermediate portion of upperaerofoil 10', a wing beam or spar 24 is disposed therein spaced approxi: mately above the wing spar 17 of the lower aerofoil section 15-16, so that it. becomes possible to interbrace (not shown) between these beams or spars 17 and 24 with the bal- 'ance member 20 supporting arms 21 of the pivoted wing flap 16 extending forwardly between these spars and such spar interbracing.
  • the balance portion or member for the pivoted wing surface or flap 16, in either the design of wing of Fig. 1 or of Fig. 3 can be pivotally mounted on the supporting arms 21 of the balanced unit for relative movement with respect to such arms.
  • a mounting reference is bad to Fig. 4, in which the balance member 20 is freely pivotally mounted on and suspended from the forward ends of arms 21 by means of the pivotal mounting and connection 25.
  • stops or seats 26 are provided extending across and bridging the forward intake or inlet end of the air displacement passage so as to receive and hold the pivoted balance member in proper position across and closing such passage inlet, with the balanced unit in normal passage ClGSlIl position, fer the low angle, high speed conditions of the wing.
  • the balance member 20 By the pivotal suspension and mounting of the balance member 20, as described, in the high lift or lowered passage opening position of wing flap 16, the balance member 20 is raised from passage inlet closing position, into the wing passage, and is rotated on its pivotal mountings 25 by the airflow into and through the passage to a position as shown by full lines in Fig. 4, in which the passageway is less obstructed thereby, and a minimum of interference to the airflow through the passage results.
  • a wing A is presented in Fig. 5 of a type having a pivoted wing flap 16 mounted in and forming part of the wing under surface in normal, raised position thereof, with an air displacement slot 30 through the wing A forward of flap 16 and extending vertically and rearwardly from the under surface of the wing to and discharging through the upper surface of the wing.
  • the pivoted wing flap 16 is remote from and performs no direct function with slot 30, but is normally disposed in an under recess 31 formed in wing A, as shown by dotted lines in Fig. 5, for the'low angle, hig speed condition of the wing, while in lowered, high lift position is swun downwardly from recess 31 to the full line osition of Fi .5.
  • balance means' is provided for the wing flapas a unit. therewith and is arranged to open and close the air displacement slot 30 as the flap is lowered or raised to and from normal position.
  • the arrangement and relative mounting of arms 32 and balance member 33 is such that, with the flap 16 in normal raised position within wing recess 31, the arms 32 with member 33 are swung downwardly to position balance member 33 in and closing the lower inlet end of slot 30 through the wing under surface, as shown by dotted lines in Fig. 5.
  • the slot 30 is formed with a forward enlargement provided by the recess 34- extending upwardly of and within the wing to receive the balance member or vane 33 when it is swung upwardly to position removed from and opening the wing slot 30, by and with the flap 16 swung to lowered, wing lift increasing position, as clearly shown by the full line positions of these elements in Fig. 5.
  • an additional member or vane on and as a part of the 35 can be provided balanced ha unit 3i-oo, for opening and closing the upper discharge end of slot 30 through the upper surface of Wing A.
  • Suitable upward extensions of the support arms 32 are provided, across the upper ends of which the member or vane 35 is secured so as to be positioned across and closing the upper end of wing slot 30 with theflap 16 swung upwardly and balance member 33 in lower passage end closing position, such positionof member 35 being-shown by dotted lines in Fig. 5..
  • the members or vanes 33 and 36 of the balanced flap unit are moved to position opening the wing slot 30 with flap 16 swung downwardly for the high lift condition of the wing, and are moved to position closing the inlet and dischar e ends of the slot with flap 16 swung upwa'r ly into wing recess 31, for the high speed condition of the wing.
  • the balance functions and results of the balanced flap unit of Fig. 5 will be apparent in View of the description and explanation of guch'functions and result set forth hereinbeore.
  • FIG. 6 An embodiment and adaptation of the invention is disclosed in Fig. 6, as ap lied to and incorporated in a wing B of t e type which does not haveand is not provided with air displacement openings, passages, and/or asse ses slots therein.
  • the wing B is formed with an under side or lower recess 40 therein, intermediate the leading and trailing edges thereof, in this instance, and of gradually decreassurface or flap 41 extending rearwardly from axis 42, and in normal raised position forming a portion of the wing under surface substantially within and carrying out the wing contour, as will be clear by reference to the dotted line position of this flap shown in Fig. 6.
  • the flap 41 is extended a distance forwardly from axis 42 incontinuation of and forming a rigid, unitary structure with the flap, to provide a balance portion or member 43, the lower surface of which is a substantial straight continuation of the lower surface of flaps 41, but the upper surface of which is tapered or inclined downwardly and forwardly, as will be clear by reference to Fig. 6.
  • the forward or leading edge of the balance portion 43 is spaced rearwardly from the forward side of wing recess 40, with the wing flap and balance portion in thenormal dotted line position as shown, to provide the ap 44 into the space formed by the recess a ove the inclined upper surface of balance portion 43.
  • the upper or inner side 41 of the flap 41 is not provided with a skin or covering, and similarly the under side of the recess thereabove to rear of member 42 is not provided with a skin or cover- -ing, although it is to be understood that the face.
  • the flap by the balance portion 43.
  • a balanced flap unit pivotally mounted at the under side of the wing, sa1d unit embodying'a flap memher and a balance member therefor, and in normal position forming a portion of the wing under surface and said unit swingable from normal position to operative position with the flap member extended downwardly from the under side of the wing.
  • a balanced fia unit pivotally mounted at the under si e wing under surface in normal position thereof, the unit embodying a fiap'and a balance 7 portion, said wing formed with a recess in which said balance portion is disposed for movement, and the flap unit swing-able to operative position with the flap extended downwardly from the wing and the balance portion swung upwardly in the recess within the wing.
  • abalanced flap unit pivotally mounted at and disposed on the under side of the wingand forming a portion of the wing under surface in normal position of the unit, said flap unit includ ing a flap and a forward balance portion, the wing provided with an inwardly extending recess for receiving said balance portion with the unit serving to extend the flap downwardly from the wing.
  • a balanced flap unit pivotally mounted at "the under side of and forming a part of the under surface of the Win with the pivotal axis of the unit forward 0 the center of the wing.
  • An airplane wing formed with an air displacement passage therein having its inlet end opening through the under side of the wing, a win flap pivotally mounted at the under side 0 said wing remote from the passage inlet, and a balance portion carried by said flap, said balance portion opening or of the wing and forming a portion of the closing said passage inlet in accordance with the position of said pivoted wing flap.
  • An airplane wing formed with an air displacement passage therein having its inlet end opening through the under side of the wing, a pivoted wing flap at the under side of the wing spaced rearwardly from the passage inlet and swingable vertically to and from normal position forming a portion of the wing under surface, a balance member carried by and movable with said flap as a unit but spaced forwardly therefrom, said balance member positioned by the flap in normal position thereof closing the passage inlet and moved to position opening the inlet with the flap swung downwardly from normal position.
  • a wing flap pivotally mountedat the under side of the wing spaced rearwardly from the passage inlet, support members rigidly carried by and extending forwardly through the wing from said flap member to the wing passage, and a balance member for the flap on said support members within the passage, said balance member movable with the flap to close the inlet end of said passage with the flap in raised position and to open said inlet with the flap in lowered position.
  • a pivotally mounted wing flap at the under side of the wing spaced rearwardly from the passage inlet support members carried by, movable with and extending forwardly through the wing from said flap member to the wing assage, and a balance member for the flap reely pivotally suspended on said members within the passage, said balance member movable with the flap to close the inlet end of said passage with the flap in normal raised position, and swung upwardly by the flap in lowered position to open said inlet
  • the balance member in raised passage inlet opening position freely swingable by air pressure in the passage to minimum passage obstructing position.
  • a balanced wing flap unit embodying a flap and a balance portion remote from the flap, and said flap unit pivot-ally mounted and disposed at the under side of the wing.
  • An airplane wing formed with a recess in and opening through the under side thereof, the recess covered at its upper side by the wing, and a balanced flap unit emboding a flap and a balance member therefor, said flap unit pivotally mounted and disposed at the under side of the wing within the wing recess.
  • An airplane wing having an air dis placement passage therethrough, a wing flap pivotally mounted and disposed for ownward swinging movement from normal position closing the discharge from said passage to position extended downwardly from t 9 Wing opening the discharge from the passage, and a member carried by said flap and swung therewith to close the intake to said passage with the flap in normal position, and to open the intake with the flap in downwardly swung passage discharge opening position.
  • An airplane wing having an air displacement passage therethrough, a wing flap pivotally mounted and disposed at the under side of the wing for opening and closing the discharge end of the passage, and a member carried by said flap and swung therewith for opening and closing the inlet end of the passage.
  • An airplane wing having an air displacement passage therethrough, a pivotally mounted wing flap for swinging movement to open and close the rear discharge end of said passage, and a member carried by and disposed forwardly of'the wing flap and swung with the flap to open and close the forward inlet end of the passage.
  • an airplane wing of the variable lift type having an air displacement passage 5 for flow of air therethrough to increase the lift developed by the wing, a wing camber and lift varying flap movable from normal position to position increasing the camber and the lift of the wing, and a member car- 19 ried by said flap and moved therewith for elosing the wing passage against lift increasing flow of air therethrongh with the flap in normal position, and for opening the passa e for iiit increasing airflow therethrongh with the flap in camber and lift increasing position.
  • An airplane wing having an air dispiaoement passage for flow of air therethrough to increase the lift developed by the wing, a flap mounted on the wing for vertical swinging to open and close the discharge end of the passage, and a member carried by said flap and swung therewith to open the passage with the flap in passagedischarge end opening position and to close the passage with the flap in passage discharge end closing position.

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Description

Aug. 11, 1931. R, F, HALL 1,818,322
I AIRPLANE Filed Oct. 12, 1928' 2 Sheets-Sheet 1 Aug. 11, 1931.
R. F. HALL AIRPLANE Filed Oct. 12, 1928 2 Sheets-Sheet 2 seamen Aug. 11, 1931,
PATENT OFFICE RANDOLPH F. HALL, F I'IHACA, NEW YORK AIRPLANE Application filed October 12, 1928. Serial No. 312,087. I
This invention relates to certain improvements in airplanes; and the nature and objects ofthe invention will be readily apparent to and understood by those skilled in the aeronautical art in the light of the following explanation and detailed description of the accompanying drawings illustratingwhat I at present believe 'to be the preferred embodiments or aerodynamical and mechanical w expressions of my invention from among various other forms, arrangements, combinations and constructions of which the invention is capable within the spirit and the scope thereof.
More specifically the invention has to do with and is directed to airplane wings, or supporting or lift surfaces of those general tiyl pes in' which variable lift is obtainable t rough the employment of a pivotally 39 mounted lower or under surface,or so-called wing flap capable of depression or downward swinging topositions such that through v the establishment of pressure differences on increased liftis developed by and from a wing or supporting surface; and a general characteristic of the instant invention resides in the provision of such a pivoted surface or wing flap with a balance portion, which preferably forms a unitary structure therewith, and through the medium of which more eflicient operation and control of such surface or flap is made possible, and a tendency of the surface or flap toward automatic functioning oroperation to vary the wing lift in accordance with changes in the angle of attack of the wing, obtains.
-In certain t pes of airplane wings,'sup-' porting, or'li surfaces, air displacement openings, slots, or passages are provided by 4 which the lift of the wing or surface is varied, through the control of air displacement therethrough, either bymeans of vanes, flaps or the like, or by the angle of attack of the wing, or by both such means; and a further characteristic and feature of the invention resides in the provision withsuch general types 'of wings or surfaces, of the pivoted surface or wing flap having the balance portion, in which the balance portion forms and provides the means or medium for controlling air displacement through a wing opening, slot, or passage, in accordance with the position of the pivoted surface or, flap; and in the further feature and characteristic with certain forms of such t pes of wings, of both the pivoted surface or ap and the balance portion thereof performing the function of controlling the air displacement through the wing slots or passages; such features and characteristics having the attendant objects of obtaining more eflicient operation and control of the wing and the pivoted surface or wing flap thereof, and of developing the tendency of the balance portion to cause automatic functioning and operation of the surfaceor flap.
Another feature of the invention is the structural and mechanical simplicity obtained in a wing having the foregoing characteristics, by which practical manufacture is made possible, and a design'and structure produced having the required factor of safety with minimum weight and efiicient aerodynamically in operatiomwhile retaining ease of operation and control for the pivoted surface or wing flap through simple yet eflicient mounting thereof in the wing structure.
With the foregoing general characteristics and objects, as well as certain other objects and results inview, which will be atvonce apparent from the following explanation, the invention consists in certain novel feaf tures in design, and in combinations and construction of elements thereof, as will be more fully and particularly referred to and specified hereinaften- Referring to the accompanying drawings: Fig. 1 is a transverse sectional view, more or less diagrammatical, through a wing of the air displacement passage type embodying the balanced wing'flap unit of the invention incorporated therein. V
Fig. 2 is a view similar to Fi 1, in which the displacement passage provi es an o ning or slot through the upper surface 0 the wing and controlled by the balanced flap unit.
Fig. 3 is a view similar to Fi l, of a modified design and arrangement 0 wing and balanoed flap of the invention. 1 Fig. 4 is a view of the wing of Fig. 3, show 19 ing a modified mounting and arrangement of the wing flap balance portion or member.
Fig. 5 is a transverse, vertical section, more or less diagrammatieal,through a design of wing having an air displacement slot therethrough, with a form of balanced wing flap of the invention in which the balance portions of the flap control the slot and the flap is remote from the slot.
Fig. 6 is a transverse, vertical section, more or less diagrammatical, through a wing of a type without air displacement openings, slots, or passages, with a balanced flap of the invention mounted thereon and embodied therein.
Several'types, designs, and forms of airplane wings or supporting surfaces have been selected and are disclosed and described herein, together with several forms and ar rangements of the invention as adapted to such wings and embodiment and incorporation therein in order to carry out and produce the invention, but these disclosures are by way of example and not of limitation for the purpose of explaining and bringing forth the principles and various features of the invention so that those skilled in the art will understand the same. Other forms and designs of wings than the particular examples here shown are adapted to application and embodiment of the invention thereto and therein, with the necessary changes in design, construction, arrangement and mounting of the elements making up the invention, to conform to the requirements of such wings, and this invention contemplates and includes such other adaptations and embodiments.
One form of wing or supporting surface embodying an adaptation of the invention incorporated therein, is more or less diagrammatically shown in Fig. 1, in which-a wing A of the type having an air displacement passage therein and therethrough, is disclosed. This wing A comprises an upper section or aerofoil 10 having the leading edge portion 11, of a thickness or depth to carry the forward spar or longitudinal beam (not shown) for the wing if desired, relatively thin upper intermediate portion 12, and trailing, edge portion 14, with a lower section or aerofoil 15 having the pivoted surface or flap forming rear portion 16- pivotally mounted at 17, which is preferably a wing beam or spar for v the lower aerofoil 15, along the trailing edge of the forward fixed section of aerofoil 15 and forming with such forward section the complete lower aerofoil 15. The lower aerofoil 15 is mounted and disposed with the forward portion carrying beam 17 in fixed position below the intermediate, thin portion 12 of upper aerofoil 10, with its leading edge spaced rearwardly from the leading edge portion 11, and with the pivoted trailing flap portion 16 in normal raised position (see dotted lines) extending rearwardly from the fixed forward portion of aerofoil 15, to and received in an under recess 14 in the trailing edge portion 14 of upper aerofoil 10.
Thus, wing A presents a structure having the air displacement passage 18 therethrough, between upper and lower 'aerofoils l0 and 15, with its forward inlet end opening through the under surface of wing A, be-
tween the leading edge portion 11 of upper aerofoillO and the leading edge of lower aerofoil 15, and with its rear discharge end through the under surface of the wing, but normally closed by the pivoted flap portion 16 of the lower aerofoil in raised'position. The pivoted portion 16, in normal raised position forms with the forward fixed portion of aerofoil 15, the lower or under surface carrying out the contour and completing the aerofoil section of the wing A, while in its depressed or downwardly swung position shown in full lines in Fig. 1, the rear or discharge end of passage 18 is opened and formed between trailing edge portion 14 of upper aerofoil 10, and the pivoted flap portion 16 of lower aerofoil 15. This win A is of the-so-called Hall variable or high lift type familiar in the aeronautical art and the principles, functions, and results of which are broadly explained and described in United States Letters Patent 1,559,091, dated October 27, 1925, and to which reference is here made.
In accordance with the principles of the instant invention, the pivoted trailing edge, wing flap forming portion 16 of the under surface forming aerofoil 15, of wing A, is provided with a balance portion or member 20 which is formed, in the example hereof, rigid and movable with pivoted flap 16 and forming a unitary structure therewith, but disposed spaced and remote from pivoted surface or flap 16. The balanced flap unit 1620, of Fig. 1, provides a spaced series of cantilever support members or arms 21, secured to flap 16 adjacent the leading edge thereof and extending upwardly and forwardly therefrom over and across the fixed forward section of lower aerofoil 15, through air displacement passage 18, to points above and substantially in line with the forward inlet end of displacement passage 18, only one of such arms 21 being seen in the transverse sectional view of Fig. 1. The balance portion or member 20, in the present instance, takes the form of a vane of substantially aerofoil section, although not so limited, and is mounted and secured to and extending across and between the forward ends of arms 20, so as to be positioned. thereby in normal raised discharge closing position of pivoted surface or flap 16, in. position closing the forward inlet end of wing passage 16 and forming a portion of the under surface of wing A, as clearly shown by the dotted line positions of balance member 20 and wing hip 16, in Fig. 1..
face of normal wing The pivoted under surface or wing flap 16 is swingable downwardly to the full line position shown in Fig. 1, any suitable operating and control mechanism (not shown) being of course provided, and in such position opensthe dischar e end of wing passage 18 and functions to increase the lift developed from and by the wing, it here being noted that in the preferred mounting of flap 16, its axis along 17 is forward of the center of wing A. As flap 16 is swung downwardly, the balance member 20 rigid therewith, through supporting arms 21, is swung upwardly intothe wing passage 18, from and opening the forward inlet end thereof through the under surface of the wing, as shown in full lines in Fig. 1, thus permitting the displacement passage to function in cooperation with the lowered flap to increase the lift of wing A. Similarly, from passage openin, lift increasing position, the balanced tapunit16-20, is swung to raise flap 16 to.normal position closing the discharge end of passage 18, and to lower balance portion 20 .to normal position closin the forward inlet end of passe e 18, with ap 16 and balance member 20, isposed within and forming portions of ti; under or lower sur- With wing A in its high speed condition the win flap 16 and its balance member 20, are in t eir normal dotted line positions of Fig. 1, but when it is desired to increase the lift of wing A, the flap A is swung downwardl while the balance portion or member 20 swings upwardly to openthe inletend of passage 18, the member 20 being acted upon by the air pressure and affording balance for. the flap 16, materially aiding the operation and control of the he in moving or swingin the same to lowere passage opening an high lift positions. In the reverse or flap raising, passage closing1 position, balance is also given the flap by t e downwardly moving forward and remote balance member 20, with resulting ease and smoothness of operation andcontrol of the flap 16, in swinging the same from lowered, high lift osition, to normal raised, high speed eonditlon for the wing A. The balance portion or member 20 thus functions throughout the operation and control of. the pivoted wing surfaceor flap 16, which control and operation is usually manual, to give a greater ease, and uniformity and'smoothness of operation, with an increased efficiency for the wing A."
With the mounting and arrangement of the balanced flap unit 16-20, through the usual range of flight angles for the wing A, the relative difference in under pressure upon the balance member 20 and flap 16, is such that the resulting forces tend to depress the flap portion at high angles of attack and develop increased lift, while at low angles of attack the resulting forces tend to raise the through the relatively thin intermediate portion 12 of upper aerofoil 10, aft or to the rear of the forward fixed portionof lower aerofoil 15, and above the pivoted surface or wing fiap 16. Each of the balance member supporting arms 21 is provided with an u ward and rearward extension 22, and a mem er or vane 23, in this instance similar to balance vane 20, is secured across and to the upper. ends of arm extensions 22, in position with pect to flap 16 such that in the normal raised position of flap 16, the vane 23 is disposed in and closing passage discharge slot 19, as shown by dotted lines in Fig. 2, while in high lift, lowered position of flap 16, the
vane 23 is in the full line,slot 19 opening 9 position, as shown in the drawings. The vane 23 thus forms an element of the balanced flap unit 16-20, and by designing the vane 23 to vary the shape and proportions thereof, the magnitude and direction of forces thereon can be varied to meet the requirements of operation and control of the. balanced flap unit and the wing in which incorporated.
A modified design of air displacement m9 passage wing A is disclosed in Fig. 3, the upper aerofoil section 10 of which is formed with the forwardly extending air displacement passage 18 terminated at its forward end by the relatively narrow leading edge section 11', and between the lower aerofoil section 15-16 and the up er aerofoil 10'. The forward inlet end 0 assage 18 is through the under surface of wing A. and
between the leading edge of the forward fixed portion 15 and the leading edge section 11' of upper aerofoil 10'. The lower aerofoil section 15-16, is spaced forwardly a greater distance than in the wing A of Fig. 1, anddue to the thickness or depth of the intermediate portion of upperaerofoil 10', a wing beam or spar 24 is disposed therein spaced approxi: mately above the wing spar 17 of the lower aerofoil section 15-16, so that it. becomes possible to interbrace (not shown) between these beams or spars 17 and 24 with the bal- 'ance member 20 supporting arms 21 of the pivoted wing flap 16 extending forwardly between these spars and such spar interbracing.
The foregoing construction and arran ement'producing a structure of considera le strength. The operation, function and results of the form of wing A and the balanced fla unit 1620 is the same as described in re erence to Figs. 1 and 2.
The balance portion or member for the pivoted wing surface or flap 16, in either the design of wing of Fig. 1 or of Fig. 3 can be pivotally mounted on the supporting arms 21 of the balanced unit for relative movement with respect to such arms. As an example of such a mounting, reference is bad to Fig. 4, in which the balance member 20 is freely pivotally mounted on and suspended from the forward ends of arms 21 by means of the pivotal mounting and connection 25. Where this mounting 25 is employed stops or seats 26 are provided extending across and bridging the forward intake or inlet end of the air displacement passage so as to receive and hold the pivoted balance member in proper position across and closing such passage inlet, with the balanced unit in normal passage ClGSlIl position, fer the low angle, high speed conditions of the wing. By the pivotal suspension and mounting of the balance member 20, as described, in the high lift or lowered passage opening position of wing flap 16, the balance member 20 is raised from passage inlet closing position, into the wing passage, and is rotated on its pivotal mountings 25 by the airflow into and through the passage to a position as shown by full lines in Fig. 4, in which the passageway is less obstructed thereby, and a minimum of interference to the airflow through the passage results.
A wing A is presented in Fig. 5 of a type having a pivoted wing flap 16 mounted in and forming part of the wing under surface in normal, raised position thereof, with an air displacement slot 30 through the wing A forward of flap 16 and extending vertically and rearwardly from the under surface of the wing to and discharging through the upper surface of the wing. The pivoted wing flap 16 is remote from and performs no direct function with slot 30, but is normally disposed in an under recess 31 formed in wing A, as shown by dotted lines in Fig. 5, for the'low angle, hig speed condition of the wing, while in lowered, high lift position is swun downwardly from recess 31 to the full line osition of Fi .5.
Now, f dllowin the broad feature of the invention herein fore explained, balance means'is provided for the wing flapas a unit. therewith and is arranged to open and close the air displacement slot 30 as the flap is lowered or raised to and from normal position. This-is accomplished in the present example, by the provision of the forwardly extended cantilever support arms 32 fixed to" flap 16, and swingable therewith, suitable s aces being of course provided in and t rough the wing structure to permit movement of the arms, and the balance member or vane 33 secured to and fixed across the forwind ends of these arms. The arrangement and relative mounting of arms 32 and balance member 33 is such that, with the flap 16 in normal raised position within wing recess 31, the arms 32 with member 33 are swung downwardly to position balance member 33 in and closing the lower inlet end of slot 30 through the wing under surface, as shown by dotted lines in Fig. 5. The slot 30 is formed with a forward enlargement provided by the recess 34- extending upwardly of and within the wing to receive the balance member or vane 33 when it is swung upwardly to position removed from and opening the wing slot 30, by and with the flap 16 swung to lowered, wing lift increasing position, as clearly shown by the full line positions of these elements in Fig. 5.
If desired, an additional member or vane on and as a part of the 35 can be provided balanced ha unit 3i-oo, for opening and closing the upper discharge end of slot 30 through the upper surface of Wing A. Suitable upward extensions of the support arms 32 are provided, across the upper ends of which the member or vane 35 is secured so as to be positioned across and closing the upper end of wing slot 30 with theflap 16 swung upwardly and balance member 33 in lower passage end closing position, such positionof member 35 being-shown by dotted lines in Fig. 5.. Upon swinging flap 16 to lowered position and balance member 33 to slot opening position, the upper member or vane 35 of the unit is swung rearwardly and downwardly, so that a suitable recess 36 is formed in the wing structure to receive vane 35 in its position swung or moved rearwardly from slot closing position, and removed from the upper end of and opening slot 30, all as clearly shown in full lines by Fig. 5. In operation, the members or vanes 33 and 36 of the balanced flap unit, are moved to position opening the wing slot 30 with flap 16 swung downwardly for the high lift condition of the wing, and are moved to position closing the inlet and dischar e ends of the slot with flap 16 swung upwa'r ly into wing recess 31, for the high speed condition of the wing. The balance functions and results of the balanced flap unit of Fig. 5 will be apparent in View of the description and explanation of guch'functions and result set forth hereinbeore.
Attention is here directed to the type of balanced flap unit of Figs. 1 to 5, and the fact that for structural strength and rigidity thereof and in the win in which embodied, cross or interbracin 2 (see Fig. 1) is intended, where desired, between the cantilever balance member supporting and carrying arms 21.
An embodiment and adaptation of the invention is disclosed in Fig. 6, as ap lied to and incorporated in a wing B of t e type which does not haveand is not provided with air displacement openings, passages, and/or asse ses slots therein. The wing B is formed with an under side or lower recess 40 therein, intermediate the leading and trailing edges thereof, in this instance, and of gradually decreassurface or flap 41 extending rearwardly from axis 42, and in normal raised position forming a portion of the wing under surface substantially within and carrying out the wing contour, as will be clear by reference to the dotted line position of this flap shown in Fig. 6.
The flap 41 is extended a distance forwardly from axis 42 incontinuation of and forming a rigid, unitary structure with the flap, to provide a balance portion or member 43, the lower surface of which is a substantial straight continuation of the lower surface of flaps 41, but the upper surface of which is tapered or inclined downwardly and forwardly, as will be clear by reference to Fig. 6. The forward or leading edge of the balance portion 43 is spaced rearwardly from the forward side of wing recess 40, with the wing flap and balance portion in thenormal dotted line position as shown, to provide the ap 44 into the space formed by the recess a ove the inclined upper surface of balance portion 43. For economy of weight and structure, the upper or inner side 41 of the flap 41 is not provided with a skin or covering, and similarly the under side of the recess thereabove to rear of member 42 is not provided with a skin or cover- -ing, although it is to be understood that the face. To. increase the wing lift, the flap by the balance portion 43.
41 is swun downwardly to the full line position of ig. 6, and this movement-is balanced and rendered more ea and smooth pon upward swinging of the flap 41 to return the same to normal position, the balance portion 43.
functions by the action of the forces thereon to steady and balance the flap and renderv the operation and control thereof easier and smoother.
The invention in accordance with the prin- 55 ciples and features thereof as exemplified in the. drawings and explained above, thus se cures a balance for, and ease and smoothness in the operation and control of, lift increasing surfaces or flaps of airplane wings or supporting surfaces, through the provision of a unitary structure forming a balanced surface or flap unit, which unit is structurally simple and lends itself to mounting and incorporation in a wing withmaterial structural complications. While wings or supporting surfaces are specified herein, such terms are to be interpreted in a broad, generic sense to cover and -include any and all aircraft elements or structure having equivalent characteristics.
It is also evident that various changes, modifications, substitutions, and variations might be resorted to without departing from the spirit and scope of my invention, and therefore I do not desire to limit'myself to the exact and specific disclosures hereof.
What I claim, is:
1. In an. airplane wing, a balanced flap unit pivotally mounted at the under side of the wing, sa1d unit embodying'a flap memher and a balance member therefor, and in normal position forming a portion of the wing under surface and said unit swingable from normal position to operative position with the flap member extended downwardly from the under side of the wing.
' 2. In an airplane wing, a balanced fia unit pivotally mounted at the under si e wing under surface in normal position thereof, the unit embodying a fiap'and a balance 7 portion, said wing formed with a recess in which said balance portion is disposed for movement, and the flap unit swing-able to operative position with the flap extended downwardly from the wing and the balance portion swung upwardly in the recess within the wing. r
3. In an airplane wing, abalanced flap unit pivotally mounted at and disposed on the under side of the wingand forming a portion of the wing under surface in normal position of the unit, said flap unit includ ing a flap and a forward balance portion, the wing provided with an inwardly extending recess for receiving said balance portion with the unit serving to extend the flap downwardly from the wing.
4. In an. airplane wing, a balanced flap unit pivotally mounted at "the under side of and forming a part of the under surface of the Win with the pivotal axis of the unit forward 0 the center of the wing.
5. An airplane wing formed with an air displacement passage therein having its inlet end opening through the under side of the wing, a win flap pivotally mounted at the under side 0 said wing remote from the passage inlet, and a balance portion carried by said flap, said balance portion opening or of the wing and forming a portion of the closing said passage inlet in accordance with the position of said pivoted wing flap.
6. An airplane wing formed with an air displacement passage therein having its inlet end opening through the under side of the wing, a pivoted wing flap at the under side of the wing spaced rearwardly from the passage inlet and swingable vertically to and from normal position forming a portion of the wing under surface, a balance member carried by and movable with said flap as a unit but spaced forwardly therefrom, said balance member positioned by the flap in normal position thereof closing the passage inlet and moved to position opening the inlet with the flap swung downwardly from normal position.
7. In an airplane wing, a pivotally mounted wing flap at the under side of the wing, and a balance member for the flap rigidly carried thereby as a unit therewith and dis osed at Elie underside of the wing but spaced rom the 8. In an airplane wing, it pivotally mounted wing flap at the under s1de of the wing, a balance member for the flap spaced forwardly therefrom and rigidly carried thereby as a unit therewith, and said balance member disposed at the under side of the wing.
9. The combination with an airplane wing having an air displacement passage therethrough, of a pivotally mounted wing flap having a balance portion rigid therewith, said flap opening and closing the discharge end of said passage, and said balance portion opening and closing the inlet end of said passage.
10. The combination with an airplane wing having an air displacement passage therethrough, of a pivotally mounted wing flap swingable to open and close the discharge end of said passage, and a balance member carried by and swingable as a unit with said flap to open and close the inlet end or said passage.
11. The combination with an airplane wing having an air displacement passage therethrough with the inlet and discharge ends of said passage at the underside of the wing, of a pivotally mounted wing flap at the under side of the wing'closing the discharge end of the passage in raised position and opening the same in lowered position, and a balance member for said flap supported spaced therefrom and movable as a unit therewith, the said balance member closin the inlet end of said passage with the flap in normal raised position and opening said inlet with the flap in lowered position.
12. In an airplane wing formed with an air displacement passage therein havin its inlet end opening through the under si e of the wing, a wing flap pivotally mountedat the under side of the wing spaced rearwardly from the passage inlet, support members rigidly carried by and extending forwardly through the wing from said flap member to the wing passage, and a balance member for the flap on said support members within the passage, said balance member movable with the flap to close the inlet end of said passage with the flap in raised position and to open said inlet with the flap in lowered position.
13. In an airplane wing formed with an air displacement passage therein having its inlet end opening through the under side of the wing, a pivotally mounted wing flap at the under side of the wing spaced rearwardly from the passage inlet, support members carried by, movable with and extending forwardly through the wing from said flap member to the wing assage, and a balance member for the flap reely pivotally suspended on said members within the passage, said balance member movable with the flap to close the inlet end of said passage with the flap in normal raised position, and swung upwardly by the flap in lowered position to open said inlet,
the balance member in raised passage inlet opening position freely swingable by air pressure in the passage to minimum passage obstructing position.
14. In an airplane wing, a balanced wing flap unit embodying a flap and a balance portion remote from the flap, and said flap unit pivot-ally mounted and disposed at the under side of the wing.
15. An airplane wing formed with a recess in and opening through the under side thereof, the recess covered at its upper side by the wing, and a balanced flap unit emboding a flap and a balance member therefor, said flap unit pivotally mounted and disposed at the under side of the wing within the wing recess.
16. An airplane wing having an air dis placement passage therethrough, a wing flap pivotally mounted and disposed for ownward swinging movement from normal position closing the discharge from said passage to position extended downwardly from t 9 Wing opening the discharge from the passage, and a member carried by said flap and swung therewith to close the intake to said passage with the flap in normal position, and to open the intake with the flap in downwardly swung passage discharge opening position.
17. An airplane wing having an air displacement passage therethrough, a wing flap pivotally mounted and disposed at the under side of the wing for opening and closing the discharge end of the passage, and a member carried by said flap and swung therewith for opening and closing the inlet end of the passage. 18. An airplane wing having an air displacement passage therethrough, a pivotally mounted wing flap for swinging movement to open and close the rear discharge end of said passage, and a member carried by and disposed forwardly of'the wing flap and swung with the flap to open and close the forward inlet end of the passage.
19. In an airplane wing of the variable lift type having an air displacement passage 5 for flow of air therethrough to increase the lift developed by the wing, a wing camber and lift varying flap movable from normal position to position increasing the camber and the lift of the wing, and a member car- 19 ried by said flap and moved therewith for elosing the wing passage against lift increasing flow of air therethrongh with the flap in normal position, and for opening the passa e for iiit increasing airflow therethrongh with the flap in camber and lift increasing position.
20. An airplane wing having an air dispiaoement passage for flow of air therethrough to increase the lift developed by the wing, a flap mounted on the wing for vertical swinging to open and close the discharge end of the passage, and a member carried by said flap and swung therewith to open the passage with the flap in passagedischarge end opening position and to close the passage with the flap in passage discharge end closing position.
Signed at Ithaca, New York, this 9th day of October 192$.
' RANDOLPH F. L.
US312087A 1928-10-12 1928-10-12 Airplane Expired - Lifetime US1818322A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2538224A (en) * 1945-11-13 1951-01-16 Daniel R Zuck Wing with interconnected flap and nose slat
US2661167A (en) * 1950-04-03 1953-12-01 Morris E Clark Airplane wing construction with passage from upper surface to trailing edge
US3108768A (en) * 1960-10-12 1963-10-29 Thomas William Coelho Aircraft with high lift airfoil construction
US20050151016A1 (en) * 2003-03-27 2005-07-14 Juergen Kelnhofer Air discharge valve for an aircraft
US7222819B1 (en) * 2003-08-02 2007-05-29 Airbus Deutschland Gmbh Aircraft ram air inlet with multi-member closure flap
DE102022124533A1 (en) 2021-09-23 2023-03-23 Joachim Lang Wing or tailplane for a flying object
GB2622620A (en) * 2022-09-23 2024-03-27 Airbus Operations Ltd Flight control surface

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2538224A (en) * 1945-11-13 1951-01-16 Daniel R Zuck Wing with interconnected flap and nose slat
US2661167A (en) * 1950-04-03 1953-12-01 Morris E Clark Airplane wing construction with passage from upper surface to trailing edge
US3108768A (en) * 1960-10-12 1963-10-29 Thomas William Coelho Aircraft with high lift airfoil construction
US20050151016A1 (en) * 2003-03-27 2005-07-14 Juergen Kelnhofer Air discharge valve for an aircraft
US7185853B2 (en) * 2003-03-27 2007-03-06 Airbus Deutschland Gmbh Air discharge valve for an aircraft
US7222819B1 (en) * 2003-08-02 2007-05-29 Airbus Deutschland Gmbh Aircraft ram air inlet with multi-member closure flap
US20070120009A1 (en) * 2003-08-02 2007-05-31 Juergen Kelnhofer Aircraft ram air inlet with multi-member closure flap
DE102022124533A1 (en) 2021-09-23 2023-03-23 Joachim Lang Wing or tailplane for a flying object
DE102022124533B4 (en) 2021-09-23 2023-06-07 Joachim Lang Wing or tailplane for a flying object
GB2622620A (en) * 2022-09-23 2024-03-27 Airbus Operations Ltd Flight control surface

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