Abstract: An aircraft empennage includes a lower vertical fin member attached to a rear portion of a fuselage, and an upper stabilizer assembly connected to the lower vertical member by an articulating mount configured to allow movement of the upper stabilizer assembly relative to the lower vertical member to adjust pitch trim of the fuselage. The upper stabilizer assembly includes first and second horizontal stabilizer portions and at least one upper vertical member.
Abstract: The invention relates to a component (1) for a bicycle frame having a wing profile front side portion (2) and a back side portion (3) that is convex at least in certain portions. The invention further relates to a bottle holder (10) which is attachable to the component (1) or is configured in one piece with the component (1).
Abstract: A blended wing body cargo aircraft is disclosed. A body section defines a cargo volume, where an outer surface of the body section is shaped to provide an aerodynamic lifting surface. A cargo door and ramp structure is located in an aft end of the body section and is shaped to conform to an outer shape of the aerodynamic lifting surface when in a closed position. A control surface has a slightly cambered downward shape, and is positioned substantially near an aft end of the cargo door and ramp structure.
Type:
Grant
Filed:
November 21, 2009
Date of Patent:
February 5, 2013
Assignee:
The Boeing Company
Inventors:
Richard C. Odle, Dino Roman, Blaine Knight Rawdon
Abstract: Apparatus and methods provide for a wing strut having a trailing edge device that is selectively deployable to create aerodynamic lift. Aspects of the disclosure provide a wing strut that is attached to an aircraft fuselage at one end and the aircraft wing at the opposite end. A trailing edge device is attached to the trailing edge of the wing strut. According to various embodiments, the trailing edge device may taper from a maximum chord length at the fuselage, to a minimum chord length near the wing attachment location in order to minimize the effect of the strut on the airflow around the wing. For the same reason, one aspect provides for a change in camber of the wing strut and trailing edge device from a substantially symmetric airfoil at the fuselage to a negatively cambered airfoil near the wing.
Abstract: An aircraft wing arrangement including a wing and at least one strut for attaching the aircraft engine suspended under the wing and including a front zone situated projecting towards the front with respect to a leading edge of the wing. The front zone includes a lateral projection delimiting a lateral air flow channel while being projected towards a proximal end of the wing.
Type:
Application
Filed:
March 28, 2007
Publication date:
February 5, 2009
Applicant:
AIRBUS FRANCE
Inventors:
Stephanie Dantin, Thierry Fol, Ludovic Gerard, Philippe Jimenez
Abstract: A nose cap and control strut assembly for supersonic aircraft is disclosed. In one embodiment, the nose cap extends forward from the nose of the aircraft to deflect shock waves and decrease draft during supersonic flight. In another embodiment, control struts extending from the nose of the aircraft have control surfaces which provide yaw and pitch control for the aircraft. The control struts may be rotatable around axes substantially parallel with the longitudinal axis of the aircraft. The control struts may also be retractable into the aircraft. The nose cap may be mounted at the forward ends of the control struts in such a manner that the nose cap remains in a stationary position with respect to the aircraft when the control struts are rotated.
Abstract: The invention provides an aerodynamically profiled structural pipe (1) comprising a supporting pipe (2) and a rear tapered part (3) of soft material. The tapered part (3) has on both sides beads (15) forced into and captively held by rearwardly open chambers (12) of the supporting pipe (2).