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wing Element

Wing type, containing all a lifting surface (wing, HTP, VTP, canard...) of an aircraft model.

Namespace: Empty

Schema: Empty

Type
Parents
Children
NameOccurrencesDescription
All All
      Element componentSegments[0, 1]

ComponentSegments of the wing.

      Element description[0, 1]

Description of the wing.

      Element name

Name of the wing.

      Element parentUID[0, 1]

UID of part to which the wing is mounted (if any). The parent of the wing can e.g. be the fuselage. In each aircraft model, there is exactly one part without a parent part (The root of the connection hierarchy).

      Element positionings[0, 1]

Positionings of the wing.

      Element sections

Sections of the wing.

      Element segments

Segments of the wing.

      Element transformation

Transformation

Attributes
NameTypeRequiredDescription
Attribute externalDataDirectorySimple Type string
Attribute externalDataNodePathSimple Type string
Attribute externalFileNameSimple Type string
Attribute symmetrySimple Type symmetryXyXzYzType

Symmetry (see CPACS root node documentation for details)

Attribute uIDSimple Type IDYes
Remarks

Wing type, containing all a lifting surface (wing, HTP, VTP, canard...) of an aircraft model.

Position of the wing: The position of the wing is defined using the transformation parameters. Using those parameters, the wing coordinate system is translated, rotated and scaled.

Definition of the wings outer shape: The outer shape of the wing is defined by airfoils that are placed within the 3D space. Two airfoils are combined to one wing segment within the segments. For the definition of the positions of the airfoils, different sections are defined. Within each section one or more elements are defined. The airfoil shape is defined within the elements. If the wings outer shape should e.g. have a step it is possible to define two different airfoils in one section by using two elements. In most cases each section will only include one element. Positionings are vectors that are used for an additional translation of the sections by using 'user friendly paramaters' as e.g. sweep and dihedral. Please note, the first positioning may be non-zero. Often it will be zero just to locate the wing at the position stated by the translation, but this is not necessary. Finally the wing segments are defined by combining two consecutive elements. A more detailed description is given within the different parameters.

Definition of control surfaces, wing structures, wing fuel tank and wing fuselage attachment: those parts are defined within componentSegments. Please refer to the documentation there.

geom Block
See Also

Reference