Designing architectural surfaces according to preset geometrical conditions

Considering various ways of shaping, the paper analyzes and geometrically interprets the space-planning and process requirements posed to the frame of the designed architectural surface. It considers the issues of designingshells formed by various ways of extracting a frame from a set of lines. Astr...

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Bibliographic Details
Published in:Journal of physics. Conference series 2019-08, Vol.1260 (7), p.72008
Main Authors: Korotkiy, V A, Khmarova, L I
Format: Article
Language:English
Subjects:
architectural design
Computer graphics
Contours
Descriptive geometry
Kinematics
Parameters
Physics
ruled surfaces
Straight lines
surface frame
Working drawings
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Summary:Considering various ways of shaping, the paper analyzes and geometrically interprets the space-planning and process requirements posed to the frame of the designed architectural surface. It considers the issues of designingshells formed by various ways of extracting a frame from a set of lines. Astructural kinematic method is used as the main one, which allows us to depict a surface and show the points and lines belonging to it. The surface frame is extracted from a set of algebraic curved lines. Straight lines and second-order curves are more preferable. We proposed to use a focal second-order surface toextracta linear surface frame. Straight lines tangent to the second-order surface form a three-parameter set of straight lines (a complex of straight lines).To extract a one-parameter ruled surface from a three-parameter complex of straight lines, we proposed to use additional curvilinear guides allowing us to control the shape of the surface. The structural kinematic method allows us to design smooth architectural shells based on an arbitrary spatial contour. We considered examples of building smooth composite surfaces passing through a given contour and including a given compartment of a second-order focal surface. We proposed a design of a transitional ruled surface connecting the roof and dome of a church building. The working drawing of the transitional surface evolvent is made on the basis of the descriptive geometry methods. The surface frame is built using three-dimensional computer graphical means. An expedient combination of computer graphics and theoretical methods of descriptive geometry allows us to obtain surfaces meeting the preset geometric conditions.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1260/7/072008