US2148967A - Wing flap - Google Patents

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Publication number
US2148967A
US2148967A US197267A US19726738A US2148967A US 2148967 A US2148967 A US 2148967A US 197267 A US197267 A US 197267A US 19726738 A US19726738 A US 19726738A US 2148967 A US2148967 A US 2148967A
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Prior art keywords
flap
flaps
flight
wing
opening
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Expired - Lifetime
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US197267A
Inventor
Scheu Siegfried
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Arado Flugzeugwerke GmbH
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Arado Flugzeugwerke GmbH
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B64AIRCRAFT; AVIATION; COSMONAUTICS
    • B64CAEROPLANES; HELICOPTERS
    • B64C13/00Control systems or transmitting systems for actuating flying-control surfaces, lift-increasing flaps, air brakes, or spoilers

Definitions

  • the present invention relates to a device provided on aircrafts for alteri ng the gliding angle.
  • gliding angle the inclination of the longitudinal axis of the body or 5 fuselage of an aircraft about to land with regard to the ground is to be understood.
  • the devices known hitherto for altering the gliding angle consist of a, plurality of flaps adapted to be swung out of the supporting wing or wings. These flaps are so arranged, that a number of same may be opened in the direction of flight, whereas another number of same may be opened in a direction opposite to the direction of flight. 4
  • the problem to be solved by the invention con- I sists in improving the devices serving to alterthe gliding angle and in-allowing the pilot,'after starting for a landing to effect-the landing at low velocity and to repeatedly alter during gliding the angle of inclination of the path of flight with regard to the ground, i. e. the gliding angle, without exerting therefor appreciable forces.
  • the invention consists in this, that opening in a direction opposite to thedirection of flight is coupled with the flap arranged behind it and opening in the direction of flight, the flap opening in the direction of flight having a larger effective area than the flap opening in the direc- The flaps opening in the different Potsdam, Ger- March 21, 1938, Serial No.
  • the flap having the smaller effective area is arranged in front of Y the flap having the larger effective area in such 10 a manner, that in the swung out position the smaller fiap partially covers the larger flap.
  • both flaps may be arranged at the lower face of the supporting wing and the dimensions 15 may be so chosen, that the area of the flap opening in the direction'opposite to the direction of flight amounts to about two thirds of the area of the second flap coupled to the first fiap and opening in the direction of flight. Furthermore, 20 the arrangement may be such, that the smaller fiap in the swung out position covers about a quarter of the larger flap.
  • Fig. 1 shows in plan view a part of a. supportingwing of an aircraft with flaps arranged in accordance with the invention
  • Fig. 2 is a section on the line 11-11 of Fig. 1.
  • twoflaps l and 2 are arranged at the lower surface of the supporting wing F.
  • the two flaps I and 2 occupy 35 correspondinglydimensi'oned hollow spaces or recesses provided at the lower side of the supporting wing.
  • the lower edge of the flaps lies flush with the lower edge of the supporting wing of the aircraft.
  • the flap I may be swung outwardly in the direction of the arrow shown in Fig. 2. This swinging movement'of .the flap l takes place in a direction opposite to the flying direction indicated by a larger arrow in Fig. 2.
  • Y 45 2 may be swung out of the supporting wing in the opposite sense, i. e. it may be opened in the direction of flight.
  • the flap l is fixed upon a shaft 9 rotatably mounted in suitable bearings provided in the supporting wings.
  • the flap 2 is fixed upon a shaft 6 which also is rotatably mounted in corresponding bearings arranged in the supporting .wing.
  • the shafts 55 '8 and 9 carrying the two flaps I and 2 simultaneously serve to transmit to the two flaps the movements required for altering the gliding angle.
  • a further shaft 3 is provided which also is mounted in corresponding hearings in the supporting wing and which is connected to a device not shown in the drawing arranged in the pilots space and adapted to be operated by the pilot, .i. e. to a corresponding hand lever or the like.
  • a pinion 4 engaging with a pinion 5 mounted .upon the shaft 6 carrying the flap 2.
  • a pinion 1 engaging with a pinion.8 fixed upon the shaft 9 uponwhich the flap I also is fixed.
  • the flap I opening in the direction opposite to the direction of flight, has an eflective area of a size of about two thirds of the of flight. Furthermore, the arrangement is such, that in the swung out position the smaller flap I covers about a quarter of the effective area of the larger flap 2.
  • both flaps when opened tend to automatically close, because the force applied to the flap 2 by the wind and tending to close the flap 2 is greater than the forces which are applied by the wind to the flap I in a direction opposite to the direction of the closing movement. Consequently, the flap 2 will easily overcome the resistances counteracting the closing movement of flap I.
  • the pilot therefore, has to apply a force upon the adjusting member for the flaps I and 2 only, if the flaps are to be opened as soon as the aircraft is about to land.
  • the control operations therefore, are similar to those which-have to be eflected by the driver of a motor car for efiecting a braking action. As soon as in this case force is not longer applied to the A brake, the'braking action itself is stopped.
  • the flaps according to the invention are arranged at the lower side of the supporting wing.
  • the arrangement shown for the sake of simplicity in Figs. 1 and 2 for one side of the wing only, is provided on the right hand wing a well as on the left hand wing.
  • the flaps may be provided at the upper supporting planes as well as at the lowersupporting planes.
  • the flaps may, however, be'provided at the upper supporting planes only, or at the lower supporting planes only.
  • a flap construction for'an aircraft wing comprising at least one group of flapsswingably mounted on said wing, a first flap in each group being mounted to open in a direction opposite the direction of flight of said aircraft, a second flap of said group being coupled to said first flap and mounted to open in the direction of flight of said aircraft, said first flap and said second flap being partially overlapped in open position, and said second flap having a larger effective area than said first flap whereby'wind forces acting on said second flap substantially balance wind forces acting on said first flap, but tend to hold said flaps in closed. position. s

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  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Aviation & Aerospace Engineering (AREA)
  • Toys (AREA)

Description

S. SCHEU Feb. 28, 1939.
WING FLAP Filed March 21, 1938 I was mor:
ii i 6 e u u a A #orneys Patented Feb. 28, 1939 UNITED STATES WING FLAP Siegfried Scheu,
Brandenburg, Germany, assignor to Arado Flugzeugwerke Gescllschaft mit beschrinkter Hattung, Nowawes,
many Application In 4 Claims.
The present invention relates to a device provided on aircrafts for alteri ng the gliding angle. Under the expression gliding angle" the inclination of the longitudinal axis of the body or 5 fuselage of an aircraft about to land with regard to the ground is to be understood.
The devices known hitherto for altering the gliding angle consist of a, plurality of flaps adapted to be swung out of the supporting wing or wings. These flaps are so arranged, that a number of same may be opened in the direction of flight, whereas another number of same may be opened in a direction opposite to the direction of flight. 4
5 directions have hitherto been made of equal size and have been arranged at the lower side as well as at the upper side of the supporting wing or wings. Their adjustment has been effected independently on each other.
The known arrangements have proved to be of disadvantage. If the flaps are to be drawn inwardly, the pilot need not to expend specialpower for closingthe flaps which have been opened in the direction of flight as the wind aids in performing the closing movements of such flaps. For the closingof those flaps, however, which have been opened'in a direction opposite to the direction of flight and which with a small angle of opening already have a particular high eifect,
the pilot must overcome the pressure exerted upon this flap by the wind. The adjustment of these flaps, therefore, causes an undesired strain on the pilot, besides the fact, that the operation of individual and separate control members for the various flaps requires special attention. Similar conditions prevail'on opening of those fiaps which are swung out into the direction of flight. In this case also on performing the opening movement the pilot must overcome the re- 40 sistance due to the wind acting upon the flap on opening.
The problem to be solved by the invention con- I sists in improving the devices serving to alterthe gliding angle and in-allowing the pilot,'after starting for a landing to effect-the landing at low velocity and to repeatedly alter during gliding the angle of inclination of the path of flight with regard to the ground, i. e. the gliding angle, without exerting therefor appreciable forces. The invention consists in this, that opening in a direction opposite to thedirection of flight is coupled with the flap arranged behind it and opening in the direction of flight, the flap opening in the direction of flight having a larger effective area than the flap opening in the direc- The flaps opening in the different Potsdam, Ger- March 21, 1938, Serial No. 197,267 Germany August 14, 1937 tion opposite to the direction of flight. Besides an essential simplification of operation, the further advantage is obtained by the invention that the pilot has to expend power for opening the flaps only, whereas the closing movement'is 5 effected automatically. In the preferred modification ofthe arrangement according to the invention the flap having the smaller effective area is arranged in front of Y the flap having the larger effective area in such 10 a manner, that in the swung out position the smaller fiap partially covers the larger flap.
According "to a further feature of the invention both flaps may be arranged at the lower face of the supporting wing and the dimensions 15 may be so chosen, that the area of the flap opening in the direction'opposite to the direction of flight amounts to about two thirds of the area of the second flap coupled to the first fiap and opening in the direction of flight. Furthermore, 20 the arrangement may be such, that the smaller fiap in the swung out position covers about a quarter of the larger flap.
In the accompanying drawing one construction according to the invention is shown by way 25 of example.
In this drawing:
Fig. 1 shows in plan view a part of a. supportingwing of an aircraft with flaps arranged in accordance with the invention, and
Fig. 2 is a section on the line 11-11 of Fig. 1.
As may be seen from Fig. 2, twoflaps l and 2 are arranged at the lower surface of the supporting wing F. In the position of rest shown in full lines in Fig. 2 the two flaps I and 2 occupy 35 correspondinglydimensi'oned hollow spaces or recesses provided at the lower side of the supporting wing. In-the swung in position the lower edge of the flaps lies flush with the lower edge of the supporting wing of the aircraft. 0
The flap I may be swung outwardly in the direction of the arrow shown in Fig. 2. This swinging movement'of .the flap l takes place in a direction opposite to the flying direction indicated by a larger arrow in Fig. 2. Y 45 2 may be swung out of the supporting wing in the opposite sense, i. e. it may be opened in the direction of flight.
For the purpose of performing the opening .and closing movements the flap l is fixed upon a shaft 9 rotatably mounted in suitable bearings provided in the supporting wings. In a similar manner, the flap 2 is fixed upon a shaft 6 which also is rotatably mounted in corresponding bearings arranged in the supporting .wing. The shafts 55 '8 and 9 carrying the two flaps I and 2 simultaneously serve to transmit to the two flaps the movements required for altering the gliding angle. For this purpose, a further shaft 3 is provided which also is mounted in corresponding hearings in the supporting wing and which is connected to a device not shown in the drawing arranged in the pilots space and adapted to be operated by the pilot, .i. e. to a corresponding hand lever or the like.
Mounted upon the shaft 3 is a pinion 4 engaging with a pinion 5 mounted .upon the shaft 6 carrying the flap 2. Fixed upon the shaft 6 is another pinion 1 engaging with a pinion.8 fixed upon the shaft 9 uponwhich the flap I also is fixed.
The transmission of the pinions 4, 5, I and 8 is so chosen, that on turning the shaft 3, by means of any desired device adapted to be operated by the pilot, the flaps I and 2 perform equal swinging movements. By a corresponding turning of the shaft 3, therefore, both flaps, occupying the position of rest in the supporting wing, are uniformly swung outwardly into the position shown in dash and dotted lines in Fig. 2. As may be seen fronr Fig. 1, the flaps I and 2 s are arranged one behind the other and, more- 35' Y flap 2 coupled to it and opening in the direction over, the effective areas of both flaps are of different size. .With the construction, shown by way of example, the flap I, opening in the direction opposite to the direction of flight, has an eflective area of a size of about two thirds of the of flight. Furthermore, the arrangement is such, that in the swung out position the smaller flap I covers about a quarter of the effective area of the larger flap 2.
With the subject matter of the invention the advantage is obtained, that both flaps when opened tend to automatically close, because the force applied to the flap 2 by the wind and tending to close the flap 2 is greater than the forces which are applied by the wind to the flap I in a direction opposite to the direction of the closing movement. Consequently, the flap 2 will easily overcome the resistances counteracting the closing movement of flap I. The pilot; therefore, has to apply a force upon the adjusting member for the flaps I and 2 only, if the flaps are to be opened as soon as the aircraft is about to land. The control operations, therefore, are similar to those which-have to be eflected by the driver of a motor car for efiecting a braking action. As soon as in this case force is not longer applied to the A brake, the'braking action itself is stopped. The
already known devices provided on aircrafts for altering the gliding angle in which the individual flaps has to be separatelyadjusted, had the disadvantage removed by the invention, that the pilot had to expend force not only when swinging out the flaps for the purpose of obtaining a braking action, but also that he was compelled to do the same on swinging in the flaps, i. e. in reducing or releasing the braking action.
As a rule, the flaps according to the invention are arranged at the lower side of the supporting wing. The arrangement, shown for the sake of simplicity in Figs. 1 and 2 for one side of the wing only, is provided on the right hand wing a well as on the left hand wing. I In connection th double deck aeroplanes the flaps may be provided at the upper supporting planes as well as at the lowersupporting planes. The flaps may, however, be'provided at the upper supporting planes only, or at the lower supporting planes only.
What I claim is:
1. A flap construction for'an aircraft wing comprising at least one group of flapsswingably mounted on said wing, a first flap in each group being mounted to open in a direction opposite the direction of flight of said aircraft, a second flap of said group being coupled to said first flap and mounted to open in the direction of flight of said aircraft, said first flap and said second flap being partially overlapped in open position, and said second flap having a larger effective area than said first flap whereby'wind forces acting on said second flap substantially balance wind forces acting on said first flap, but tend to hold said flaps in closed. position. s
2. A flap construction as in claim 1, said first flap being lapped upon said second flap in open position approximately one-fourth the length of said second fiap.
3. A fiap construction as in claim 1, said first flap having an efifective area approximately two'- thirds that of said second flap.
4. A flap construction as in claim 1, said first flap having an eifective area'approximately twothirds that of said second flap, and said first flap being lapped, in open position-,upon said second flap approximately one-fourth the length of said
US197267A 1937-08-14 1938-03-21 Wing flap Expired - Lifetime US2148967A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2990140A (en) * 1958-10-24 1961-06-27 Lockheed Aircraft Corp Combination gust alleviator and highlift device for aircraft
US4695014A (en) * 1984-05-25 1987-09-22 Western Gear Corporation Aircraft wing section movement apparatus

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2990140A (en) * 1958-10-24 1961-06-27 Lockheed Aircraft Corp Combination gust alleviator and highlift device for aircraft
US4695014A (en) * 1984-05-25 1987-09-22 Western Gear Corporation Aircraft wing section movement apparatus

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