A structure of a control surface for aircrafts, such as elevators, rudders, landing flaps, ailerons, and other similar lifting surfaces. The control surface includes a front spar, a rear spar, a plurality of ribs, at least one hinge fitting, and at least one actuator fitting, the hinge and actuator
A structure of a control surface for aircrafts, such as elevators, rudders, landing flaps, ailerons, and other similar lifting surfaces. The control surface includes a front spar, a rear spar, a plurality of ribs, at least one hinge fitting, and at least one actuator fitting, the hinge and actuator fittings joined with the front spar. A first rib is joined with a hinge fitting to form a first oblique angle with the front spar; a second rib is joined with an actuator fitting to form a second oblique angle with the front spar. The rear spar, located between the front spar and trailing edge of the control surface, extends only between the second rib and an outboard end of the control surface. The ribs are located in correspondence with the main torsion and bending load paths created in the control surface during flight, landing or takeoff.
대표청구항▼
1. An aircraft control surface that extends between an inboard end and an outboard end, the aircraft control surface comprising: a front spar arranged near a leading edge of the control surface,a rear spar arranged longitudinally and located between the front spar and a trailing edge of the control
1. An aircraft control surface that extends between an inboard end and an outboard end, the aircraft control surface comprising: a front spar arranged near a leading edge of the control surface,a rear spar arranged longitudinally and located between the front spar and a trailing edge of the control surface,at least one hinge fitting joined to the front spar,at least one actuator fitting joined to the front spar, anda plurality of ribs each having a front end joined with the front spar, wherein at least one rib of the plurality of the ribs, defined as a first rib, has its front end joined to a hinge fitting of said at least one hinge fitting and is arranged so as to define a first oblique angle with the front spar, and wherein at least another rib of the plurality of ribs, defined as a second rib, has its front end joined to one actuator fitting of said at least one actuator fitting,wherein the second rib is arranged so as to define a second oblique angle with the front spar, andwherein the rear spar extends only between the second rib and the outboard end of the aircraft control surface. 2. The aircraft control surface according to claim 1, wherein at least a pair of two adjacent ribs of the plurality of ribs are inclined in opposite directions with respect to each other. 3. The aircraft control surface according to any of the preceding claims, wherein any pair of two adjacent ribs arranged within an interior region of the control surface, are obliquely arranged with respect to the front spar in opposite inclinations, and wherein said interior region extends from the inboard end to an intermediate point between the inboard end and the outboard end of the control surface. 4. The aircraft control surface according to claim 2, wherein the rear spar has an outboard end joined with an outboard end of the control surface, and wherein the rear spar is shorter than the front spar. 5. The aircraft control surface according to claim 2, wherein each of the plurality of ribs has a rear end, and wherein at least a pair of two adjacent ribs have their rear ends joined with each other at a trailing edge. 6. The aircraft control surface according to claim 2, wherein at least one of the first oblique angle and the second oblique angle is within a range of 30° to 60°. 7. The aircraft control surface according to claim 2, further comprising upper and lower cover panels supported by said plurality of ribs. 8. The aircraft control surface according to claim 7, wherein at least a part of at least one of said front spar, said rear spar, said first rib, aid second rib, and said upper and lower cover panels, is made of a composite material. 9. The aircraft control surface according to claim 2, wherein the control surface is an elevator, or a rudder, or a flap, or an aileron. 10. The aircraft control surface according to claim 1, wherein, the rear spar has an outboard end joined with an outboard end of the control surface, and wherein the rear spar is shorter than the front spar. 11. The aircraft control surface according to claim 1, wherein each of the plurality of ribs has a rear end, and wherein at least a pair of two adjacent ribs have their rear ends joined with each other at the trailing edge of the control surface. 12. The aircraft control surface according to claim 1, wherein at least one of the first oblique angle and the second oblique angle is within a range of 30° to 60°. 13. The aircraft control surface according to claim 1, further comprising upper and lower cover panels supported by said plurality of ribs. 14. The aircraft control surface according to claim 13, wherein at least a part of at least one of said front spar, said rear spar, said first rib, said second rib, and said upper and lower cover panels, is made of a composite material. 15. The aircraft control surface according to claim 1, wherein the control surface is an elevator, or a rudder, or a flap, or an aileron. 16. The aircraft control surface according to claim 1, wherein the at least one actuator fitting includes a plurality of actuator fittings and the at least one hinge fitting includes a plurality of hinge fittings, and further wherein the plurality of ribs each have one of their first ends joined to one of the actuator fittings or to one of the hinge fittings, and still further wherein at least a pair of two adjacent ribs are inclined in opposite directions with respect to each other. 17. The aircraft control surface according to claim 1, wherein: any pair of two adjacent ribs arranged within an interior region of the control surface, are obliquely arranged with respect to the front spar in opposite inclinations, and wherein said interior region extends from the inboard end to an intermediate point between the inboard end and the outboard end of the control surface,each of the plurality of ribs has a rear end,an exterior region of the control surface is defined as a part of the control surface not being the interior region, andall pairs of adjacent ribs within the interior region have rear ends joined to the trailing edge and all pairs of adjacent ribs within the exterior region have rear ends joined to the rear spar. 18. An aircraft control surface that extends between an inboard end and an outboard end, the aircraft control surface comprising: a front spar arranged near a leading edge of the control surface,a rear spar arranged longitudinally and located between the front spar and a trailing edge of the control surface,at least one hinge fitting joined to the front spar,at least one actuator fitting joined to the front spar, anda plurality of ribs each having a front end joined with the front spar,wherein at least one rib of the plurality of the ribs, defined as a first rib, has its front end joined to a hinge fitting of said at least one hinge fitting and is arranged so as to define a first oblique angle with the front spar, and wherein at least another rib of the plurality of ribs, defined as a second rib, has its front end joined to one actuator fitting of said at least one actuator fitting,wherein the second rib is arranged so as to define a second oblique angle with the front spar,wherein any pair of two adjacent ribs arranged within an interior region of the control surface, are obliquely arranged with respect to the front spar in opposite inclinations, and wherein said interior region extends from the inboard end to an intermediate point between the inboard end and the outboard end of the control surface,wherein each of the plurality of ribs has a rear end,wherein an exterior region of the control surface is defined as a part of the control surface not being the interior region, andwherein all pairs of adjacent ribs within the interior region have rear ends joined to the trailing edge and all pairs of adjacent ribs within the exterior region have rear ends joined to the rear spar.
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이 특허에 인용된 특허 (4)
Hirahara Makoto,JPX ; Isano Yasuo,JPX ; Shimizu Ryuhei,JPX ; Amaoka Kazuaki,JPX, Composite airfoil structures and their forming methods.
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