Architecture & Design Schematic design: Facade proposal 2012/03/12
1
GEOMETRY ANALYSIS-
1.1 Floor setting out geometry:
2
SCHEME ONE- Perforated pannels
3
SCHEME TWO- Vertical expression
2.1 Reference project: Dwelling mountains
3.1 Reference project: REISS building
2.2 Reference project: The Kauffman stadium
3.2 Reference project: Hard rock cafe - Cendus Headquarters
2.3 Reference project: The orange cube
3.3 Scheme two principales Typical floor & section
2.4 Design research Paterne expression
3.4 Scheme two Elevations
1.2 Facade unroll and panelization:
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3.5 Scheme two Renderings 2.5 Design research Paterne expression 2.6 Scheme one principals Typical floor & section 2.7 Scheme one Elevations Front view - Side view 2.8 Scheme one Renderings
FACADE DESIGN RESEARCH
L15
L14
L13
1.4r L12
L11
1.4r 1.4r
L10
1.4r 6.1r
L9
L8
L7 6.1r -3
6.1r
L6
L5
L4 6.1r 1.4r
1.4r 1.4r
L3
L2
1.4r
L1 Level 6 Simplified radius of the curvatures
1.1 FLOOR SETTING OUT GEOMETRY The Tower Floor plate geometry make up of 24 curves- 12 of them are straight lines and the 12 are Arcs. Only two types of Arcs radius exist, the radiuses of the Arc are 6 for inner
radius and 1.5 for corner geometries. From this base geometry, all higher floors are scaled and rotated as according to original design intend. Glazing and Al panels are offset from this base geometry curve hence maintaining a consistent setting out logic. FACADE DESIGN RESEARCH
178.8 129.0
129.0
49.8
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130.8 133.4 137.2 142.2 148.7 156.7 165.2 172.5 177.2 178.7 178.7 176.8 173.6 169.5
1.2 FACADE UNROLL AND PANELIZATION As the faรงade is offset from the base geometry line of each floor, the panels would be able to be rationalized by unrolling them onto the
floor. Below diagram shows a estimate of material by the length of unrolled faรงade surface geometry.
FACADE DESIGN RESEARCH
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2 - SCHEME ONE FACADE DESIGN RESEARCH
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2.1 DWELLING MOUNTAINSBIG architects
FACADE DESIGN RESEARCH
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2.2 THE KAUFFMAN STADIUMPopulous
FACADE DESIGN RESEARCH
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2.3 THE ORANGE CUBE Jakob + Macfarlane
FACADE DESIGN RESEARCH
Research 1: Vertical & gradual stripes
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Research 2: Oranic gradient perforation
Research 3: Crystal patern
2.4 PATERN RESEARCHWorking on perforated panels FACADE DESIGN RESEARCH
Research 4: Wave patern
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Research 5: Bamboo stripes
Research 6: Grass stripes
2.5 PATERN RESEARCHWorking on perforated panels FACADE DESIGN RESEARCH
Perforated metal panel
Mullion
Glazing panel come in unit 220
450
Sc
op
eL
in
e
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Typical Plan and structure principles 1/100
Typical section 1/50
2.6 SCHEME 01 - STRUCTURE PRINCIPLES
FACADE DESIGN RESEARCH
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2.7 SCHEME ONE ELEVQTIONS
FACADE DESIGN RESEARCH
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2.8 - SCHEME ONE RENDERING
FACADE DESIGN RESEARCH
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3 - SCHEME TWO FACADE DESIGN RESEARCH
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3.1 REISS Building, LondonSquire and partners
FACADE DESIGN RESEARCH
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3.2 Hard rock cafe facadeArchitectkidd
US Cendus Headquarters SOM architects
FACADE DESIGN RESEARCH
Glazing panel come in unit Rotating Panel
150
300
Sc
op
eL
in
e
450
Typical Plan and structure principles 1/100
Typical section 1/50 - 17
Typical Plan and structure principles 3.3 SCHEME 02 - STRUCTUR PRINCIPLES
FACADE DESIGN RESEARCH
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3.4 SCHEME 02 - FACADE
FACADE DESIGN RESEARCH
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3.5 SCHEME 02 - RENDERING
FACADE DESIGN RESEARCH