Architecture Portfolio: Part 1 Architectural Assistant Craig Jackson
Contents:
Crammond Island - Writers Retreat
4
Elements 2012 Logie Green Road - Social Housing
5-9
In Place 2013 Madrid - Library
10 - 20
Any Place 2014 Bonneville Salt Flats - Temple
21 - 33
Sacred Space 2015 Preston Tower - Market
Techtonics 2016
34 - 60
Crammond Island: Edinburgh Writers Retreat
Figures:
The Writer’s Retreat on Cramond Island, Edinburgh, is only accessible via a walkway during low tide, as the island is in isolation during high tide. This isolation from the mainland creates a peaceful, undisturbed atmosphere, adhering to most writer’s preference for a tranquil space, in a natural environment to work in. The architecture responds to the requirement for an amiable and secluded workplace by means of a timber structure, protruding over a cliff face on the north-east side. This protrusion allows the building to be immersed in the soothing sound of the sea crashing into the rocks below. This humble structure utilises a floor to ceiling window, to capture ever-changing views of the sea and the morning light.
4.0- Cabin Isometric 4.1- Section Of Retreat 4.2- Location Model 4.3- Model of Retreat Over Cliff Ledge 4.4- Crammond Island 4.5- Long Elevation
Fig: 4.2 Location Model
Fig: 4.1 Section Of Retreat
Fig: 4.3 Model Of Retreat Over Cliff Ledge
Fig: 4.4 Crammond Island
Fig: 4.0 Cabin Isometric
Fig: 4.5 Long Elevation
Figures: Fig 5.0 - Axonometric Fig 5.1 - Site Plan 1-500
Logie Green Road: Edinburgh Social Housing This social housing project is designed to create a sense of community comprised of various groups, including families and individuals, whilst giving them a sense of privacy. Each abode is arranged in a way such that the living space can open itself to exterior communal spaces, whilst the private spaces are sheltered from communal engagement. The communal spaces are situated within the exterior spaces, particularly within the family section of the design, in the form of stepped terraces to create a relationship between each of the families. These terraces are also accessible to the individual apartments, as they overlook them to form a diverse community.
Fig 5.0 - Axonometric
Fig 5.1 Site Plan 1-500
Figures: 6.0 - Exploded Axonometric 6.1 - Ground Floor Plan 1- 200
Fig 6.0 Exploded Axonometric
Fig 6.1 Ground Floor Plan 1 - 200
Figures: 7.0 - Circulation 7.1 - Core of Circulation 7.2 - Access to Gardens 7.3 - Public and Private Terraces 7.4 - Family and Single Dwellings 7.5 - Typology Isometric 7.6 - Type 1 Floor Plan 7.7 - Type 2 Floor Plan 7.8 - Type 3 Floor Plan
Fig 7.0 Circulation
Fig 7.5 Typology Isometric
Fig 7.1 Core of Circulation
Fig 7.6 Type 1
Fig 7.2 Access to Gardens
Fig 7.3 Public and Private Terraces
Fig 7.4 Family and Single Dwellings
Fig 7.7 Type 2
Fig 7.8 Type 3
Mur Vegetal: Figures: 8.0 - Mur Vegetal Isometic Detail 8.1 - Mur Vegetal Construction Detail 8.2 - Mur Vegetal Location
24
23
8.2 Mur Vegetal Location
22
21
20
19 14
Mur Vegetal Construction Details:
7
Mur Vegetal Isometric Detail: 1- Substrate flo-cell 2- PVC damproof membrane 3- Compact soil 4- Top soil 5- Metallic box bracing 6- Wall fixing bracket 7- Anticorrosive steel wire box
6 4
5 3 2 1 Fig 8.0 - Mur Vegetal Isometric Detail
1- water pump 2- water recycling basin 3- 400mm concrete plinth 4- 30mm plasterboard 5- 150mm insulation 6- 20mm diameter piping system 7- 15mm timber sheathing 8- 3mm damp proff membrane 9- stainless steel wall tie 10- 30mm cavity 11- standard sized 65mm x 102.5mm x 215mm clay brick 12- shear reinforcement tie 13- water dispersion pump 14- water management system 15- anticorrosive steel wire box 16- wall fixing bracket 17- water basin 18- water pump 19- steel box reinforment bracket 20- growing foam stubstrate 21- waterproof membrane 22- multiple layers of geotextile 23- top soil 24- water irrigation sprinkler
18 17
13
12 11 10
16
9 8 7
15
6 5 4
3 2 1 Fig 8.1 - 1:25 - Mur Vegetal Construction Details
Figures: 9.0 - Isometric South East View 9.1 - Isometric North East View 9.2 - Interior View
Figure 9.1 Isometric North East View
Fig 9.2 Interior View
Figure 9.0 Isometric South East View
Figures 10.0 Isometric View 10.1 Site Location
Atocha, Madrid, Public Library: The library located in the neighbourhood of Atocha in Madrid is on the threshold as the distinctive grid pattern, extending from the city centre, begins to dissolve due to the nearby ring road and railway tracks. The library responds to this urban condition by being disjointed and overlapping in form, whilst completing the grid block it resides in. The building acts as a hinge between the two urban conditions. The library considers light, sound and heat and is arranged to provide a comfortable setting for its users. The building can be accessed on 3 floors from the outside, each into a transition or “loud” zone so as not to disrupt the “quiet” zones which are accessed through the transition zones. Light is considered by the building to restrict light damage of books due to careful placement of the bookshelves.
Fig 10.0 Isometric View
Fig 10.1 Site Location
Figures 11.0 Block in Grid 11.1 Block in Grid Showing Disintigration 11.2 Site Location 11.3 Site Block Context 11.4 Road Context 11.5 Incomplete Block Fig 11.3 Site Block Context Fig 11.0 Block in Grid
Fig 11.1 Block in Grid Showing Disintigration
Fig 11.4 Road Context
Fig 11.2 Site Location Fig 11.5 Incomplete Block
Figures 12.0 Inhabitation 12.1 Exterior Zones 12.2 Main Exterior Space 12.3 Street Context 12.4 Sound Level 12.5 Circulation 12.6 Access 12.7 Glass
Fig 12.0 Inhabitation
Fig 12.1 Exterior Zones
Fig 12.2 Main Exterior Space
Fig 12.4 Sound Level
Fig 12.5 Circulation
Fig 12.6 Access
Fig 12.3 Street Context
Fig 12.7 Glass
Figures 13.0 Bookcases in Relation to LIght 13.1 Circulation 13.2 Height Void Space 13.3 Zones 13.4 Interior/Exterior
Fig 13.1 Circulation
Fig 13.3 Zones Red - Cafe Green - Library Study Zone Yellow - Hall Areas Purple - Computer Room Navy -Group Study Light Blue - Quiet Study Fig 13.0 Bookcases in Relation with Light
Fig 13.2 Height Void Space
Fig 13.4 Interior/Exterior
Figures 14.0 Axonometric Section Library 14.1 Section Line
Fig 14.0 Axonometric Section Library
Fig 14.1 Section Line
Figures 15.0 Microclimate Regulation of Temprature
Microclimate Description 1 Light enters through the angled skylight, providing light to the study desks whilst restricting light from damaging the books. 2 The Light reaches the floor which absorbs and converts this energy into heat which then spreads throughout the floor providing heat to the entire room 3 The heat from the floor rises up to heat the room and escapes from the skylight which originally provides the light creating a sustainable microclimate system.
Fig 15.0 Microclimate Regulation of Temprature
Figures Fig 16.0 30.0 Short Ground Section Floor Plan 1- 200 30.1 Long Section
Fig 16.0 Ground Floor Plan 1- 200
Figures 17.0 East Render View 17.1 Floor Plans 17.2 Explode Axonometric 17.3 Exploded Axo of Roof Layers 17.4 Roof Floor Layers
Fig 17.4 Roof Floor Layers
Fig 17.3 Exploded Axo of Roof Layers
Fig 17.2 Exploded Axonometric
Fig 17.0 East Render View
Fig 17.1 Floor Plans
Figures 18.0 Kids Library 18.1 Short Section 1- 200 18.2 Long Section 1-200
Fig 18.0 Kids Library
Fig 18.1 Short Section 1-200
Fig 18.2 Long Section 1- 200
Figures 19.0 Plinth Perspective View 19.1 West Perspective View
Fig 19.0 Plinth Perspective View
Fig 19.1 West Perspective View
Figures 20.0 Eastern Perspective
Fig 20.0 Eastern Perspective
Figures 21.0 Isometric 21.1 Buildings 21.2 Natural Sites
Hagia Sofia Turkembashi
Sacred Form: A Secular Space, Bonneville Salt Flats, Utah, USA
Salt Lake City
Sagrada Familia
Pantheon
Georgian Cathedral
The brief was to design a sacred space along either the 20th, 40th or 60th parallel. I chose the 40th due to the diverse range of intriguing natural and architectural sites. Due to the diverse range of religious buildings along the parallel, I elected to design a space that welcomes all religions and enhances the experience of natural place. The building attempts to provide awe to the inhabitant, a common factor amongst sacred buildings, by combinations of largescale hyperbolic parabola shelters, balanced delicately on the landscape. These shelters are shaped to adhere to the mountainous backdrop, with an underground inhabitable space below, to keep the disruption of the powerful horizontal views that the landscape provides to a minimum. The main underground space connects via tunnels to viewports, sheltered by small-scale parabolas that enable a view of the horizon across the flats at eyelevel, enhancing place. This secular space rejects specific themes of major religious doctrines in favour of their similarities, which synonymously declare an awe for nature and the building as a place for individual contemplation. The architecture responds to this by engaging with a unique natural place.
Rock Temple Temple of Heaven
Fig 21.1 Buildings
Apulia Bonneville Salt Flats
Pyrenees
Gates of Hell
Pamir Mountains
Fig 21.0 Isometric Fig 21.2 Natural Sites
Figures 22.0 40th Parallel 22.1 Location in Utah 22.2 Aerial Image 40th Parallel 22.3 Lincoln Highway and 40th Parallel 22.4 Longest Roads in America 22.5 Road Stops Along Lincoln Highway
Fig 22.2 Aerial Image 40th Parallel
Fig 22.0 40th Parallel
Fig 22.1 Location in Utah
Fig 22.4 Longest Roads in America
Fig 22.3 Lincoln Highway and 40th Parallel
Fig 22.5 Road Stops Along Lincoln Highway
Figures 23.0 Bonneville Salt Flat View 23.1 70km Straight Road on Lincoln Highway 23.2 Parabolic Engagement in Environment 23.3 Underground 23.4 Visibility Through Building 23.5 Anchor Points for Parabola
Fig 23.1 70km Straight Road on Lincoln Highway
Fig 23.0 Bonneville Salt Flat View
Fig 23.3 Underground
Fig 23.4 Visibility Through Building
Fig 23.2 Parabolic Engagement in Environment
Fig 23.5 Anchor points for Parabolas
Figures: 24.0 Isometric Parabolic Iterations 24.1 Plans of Parabolic Iterations
1 Standard 2 Scale
1
3 Rotate Horizontal
8
2
4 Rotate Vertical
5 Length 3 9 6 Width
4 7 Height 8 Height Single Point
10
9 Height Ground Point 5
10 Single Point Ground 11 Rotate Point Ground 11 12 Point Length
6 12 13 Point Length Ground
13
7
14 Rotate Point Condensed
14 Fig 24.0 Isometric Parabolic Iterations
Fig 24.1 Plans of Parabolic Iterations
Figures 25.0 Parabolic Creations 25.1 Curves from Straight Lines 25.2 Parabolic Elevation 1 25.3 Parabolic Elevation 2 25.4 Curve Creation with Height 25.5 Curve Creation With Height Reduced
Fig 25.0 Parabolic Creations
Fig 25.4 Curve Creation with Height
Fig 25.1 Curves from Straight Lines
Fig 25.2 Parabola Elevation 1
Fig 25.3 Parabola Elevation 2
Fig 25.5 Curve Creation With Height Recuded
Figures 26.0 Underground Ground Floor 26.1 1st Floor 26.2 Roof Plan 26.3 Short Section 26.4 Long Section
Fig 26.0 Underground Ground Floor
Fig 26.1 1st Floor
Fig 26.2 Roof Plan
Fig 26.3 Short Section
Fig 26.4 Long Section
Figures 27.0 3d Axonometric Section 27.1 Vegetation 3d Section 27.2 Circulation from Road 27.3 Exploded Axonometric Drawing
Fig 27.0 3d Axonometric Section
Fig 27.1 Vegetation 3d Section
Fig 27.2 Circulation from Road
Fig 27.3 Exploded Axonometric Drawing
Figures 28.0 Views from Parabolas 28.1 Road Circulation 28.2 Wind Channels 28.3 Sun Path 28.4 Main and Outer Spaces 28.5 Axonometric Section 28.6 Parabolic Outer Over Area 28.7 Tunnel Path
Fig 28.4 Main and Outer Spaces
Fig 28.0 Views from Parabolas
Fig 28.1 Road Circulation
Fig 28.5 3d Axonometric Section
Fig 28.2 Wind Channels
Fig 28.6 Parabolic Outline Over Area
Fig 28.7 Tunnel Paths
Fig 28.3 Sun Path
Figures 29.0 Parabolic Moment 29.1 Sight Lines Across Salt Flats 29.2 Morning View 29.3 Evening View
Fig 65.1 Sight Lines Across Salt Flats
Fig 66.1 Morning View
Fig 66.2 Evening View
Fig 65.0 Parabolic Moment
Figures 30.0 Parabolic Moment Model View 1 30.1 Parabolic Moment Model View 2 30.2 Parabolic Moment Model View 3 30.3 Parabolic Moment Model View 4
Fig 30.0 Parabolic Moment Model View 1
Fig 30.2 Parabolic Moment Model View 3
Fig 30.1 Parabolic Moment Model View 2
Fig 30.3 Parabolic Moment Model View 3
Figures 31.0 Evening Aerial View 31.1 View From the Road 31.2 Salt Flats Parabolic View After Rainfall
Fig 31.0 Evening Aerial View
Fig 31.1 View From the Road
Fig 31.2 Salt Flats Parabolic View After Rainfall
Figures 32.0 Tunnel From Parabola Moment View 32.1 Main Underground Space View 32.2 Tunnel View 32.3 Platform View
Fig 32.0 Tunnel From Parabola MomentView
Fig 32.1 Main Underground Space View
Fig 32.2 Tunnel View
Fig 32.3 Platform View
Figures 33.0 Tower Isometric 33.1 Tower from Outside the Grounds 33.2 Tower from West Residential Cul de Sac
Preston Tower: Market Renovation, Prestonpans This restoration project aims to reinvigorate the sense of community in Prestonpans, a town in East Lothian (Scotland) that was formed from two separate towns, one industrial and one a market town. This resulted in the loss of its town centre due to rapid residential expansion during the 20th century. This project uses the core values of both areas, combining both the market and the industrial roots of the town. It is a response to the residential encroachment upon the most distinctive, yet seemingly ignored, Preston tower by restoring it to the heart of the town, as both a place of industry and trade. The project uses the tower as a beacon for a market that allows for the on-site growing, making and selling of produce and goods. Fig 33.1 Tower from Outside the Grounds
Fig 33.0 Tower Isometric
Fig 33.2 Tower from West Residential Cul de Sac
Figures 34.0 Market Towns 34.1 Tower Houses 34.2 Market Crosses 34.3 Tower Houses in Relation to Market Towns 34.4 East Lothian Location 34.5 Prestonpans Location East Lothian 34.6 East Lothian Markets
Fig 34.0 Market Towns
Fig 34.1 Tower Houses
Fig 34.4 East Lothian Location
Fig 34.5 Prestonpans Location East Lothian
Weekly Monthly
Fig 34.2 Market Crosses
Fig 34.3 Tower Houses in Relation to Market Towns Fig 34.6 East Lothian Markets
Figures 35.0 East Lothian Map PrestonPans 35.1 Town Aerial View 35.2 Site Aerial View 35.3 Town Between Rail and Sea
Fig 35.0 East Lothian Map PrestonPans
Fig 35.2 Site Aerial View
Fig 35.1 Town Aerial View
Fig 35.3 Town Between Rail and Sea
Figures 36.0 Industrial Building Expansion
Fig 36.0 Industrial Building Expansion
Figures 37.0 1890 Industry and Market Section Town 37.1 2016 Industry Movement 37.2 Collaboration of Industy and Market through the Tower 37.3 Historical Section 37.4 Current Section
Fig 37.0 1890 Industry and Market Section Town
Fig 37.1 2016 Industry Movement
Fig 37.2 Collaboration of Industy and Market through the Tower
Fig 37.3 Historical Section
Fig 37.4 Current Section
Figures 38.0 Main Roads In Area 38.1 Community Building in Area 38.2 Green Spaces 38.3 Tower Visibility
Fig 38.0 Main Roads In Area
Fig 38.1 Community Building in Area
Fig 38.2 Green Spaces
Fig 38.3 Tower Visibility
Figure 39.0 Site Area Expansion 39.1 Site Encroachment and Area Urbanisation
Fig 39.0 Site Area Expansion
Fig 39.1 Site Encroachment and Area Urbanisation
Figures 40.0 Market Cross Connection 40.1 Site Community Connections 40.2 Site Tower Visibility 40.3 Site Interation/Circulation
Fig 40.0 Market Cross Connection
Fig 40.2 Site Tower Visibility
Fig 40.1 Site Community Connections
Fig 40.3 Site Interation/Circulation
Figures 41.0 Tower in Relation of Merkat Cross 41.1 Site Circulation 41.2 Site Access and Path 41.3 Site Colusion with Context 41.4 Site Context Merket Cross 41.5 Site Old Boundry 41.6 Site Encroachment 41.7 Site Residendial Context 41.8 Site and Tower Encompassed
Fig 41.1 Site Circulation
Fig 41.0 Tower in Relation of Merkat Cross
Fig 41.4 Site Context Merket Cross
Fig 41.2 Site Access and Path
Fig 41.5 Site Old Boundry
Fig 41.6 Site Encroachment
Fig 41.3 Site Colusion with Context
Fig 41.7 Site Residendial Context
Fig 41.8 Site and Tower Encompassed
Figures 42.0 Access to Site 42.1 Visibility and Interaction 42.2 Circulation 42.3 Imposition with Path
Fig 42.0 Access to Site
FIg 42.1 Visibility and Interaction
Fig 42.2 Circulation
Fig 42.3 Imposition with Path
Figures 43.0 Ground Floor Plan Masterplan 43.1 Isometric 43.2 Sun Diagram 43.3 Wind Diagram 43.4 Building Affect on Site
FIg 43.1 Isometric
Fig 43.0 Ground Floor Plan Masterplan
Fig 43.2 Sun Diagram
Fig 43.3 Wind Diagram
Fig 43.4 Building Affect on Site
Figures 44.0 G Floor Masterplan
Fig 106.0 G Floor Masterplan
Figures 45.0 Section Short 1:200 45.1 Section Long 1:200
Fig 45.0 Section Short 1:200
Fig 45.1 Long Section 1:200
Figures 46.0 Short Section Graphic 46.1 Long Section Graphic
Fig 46.0 Section Short Graphic
Fig 46.1 Section Long Graphic
Figures 47.0 Construction Process 1 Tower 2 Underground 3 Tower Excavation 4 Underground Walls 5 Ground Floor Paving 6 Wall 7 Tower Additions 8 Plinth 9 Glass 10 Ramp 11 Ramp Glass 12 Pavillion 13 Roof 14 Roof Tent
1 Tower
6 Wall
11 Ramp Glass
2 Underground
7 Tower Additions
12 Pavillion
3 Tower Excavation
8 Plinth
13 Roof
4 Underground Walls
9 Glass
14 Roof Tent Fig 47.0 Construction Process
5 Ground Floor Paving
10 Ramp
Figures 48.0 Exploded Axonometric 48.1 Tower Zone 48.2 Wall Zone 48.3 Plinth Zone 48.4 Pavillion Zone 48.5 Roof Zone 48.6 Underground Zones Fig 48.1 Tower Zone
Fig 48.2 Wall Zone
Fig 48.3 Plinth Zone
Fig 48.4 Pavillion Zone
Fig 48.5 Roof Zone
Fig 48.6 Underground Zones
Fig 48.0 Exploded Axonometric
Figures 49.0 Exploded Axonometric Tower 49.1 Tower Zone 49.2 Tower Stone 49.3 Tower Axonometric Exploded Elements 49.4 Tower New Elements 49.5 Tower Changes Fig 49.1 Tower Zone
1
2 3 Fig 49.5 Tower Changes Old Impact New
Fig 49.2 Tower Stone
1 2 3
Fig 49.3 Tower Axonometric Exploded Elements
Fig 49.0 Exploded Axonometric Tower
Fig 49.4 Tower New Elements
Figures 50.0 Rainfall Recycling 50.1 Rainfall Pool Plant Blocks 50.3 Heat Dispersion 50.3 Exhibition Blocks 50.4 Sunlight Path
Heat Dispersion Fig 50.1 Rainfall Pool Plant Blocks
Fig 50.2 Heat Dispersion
Exhibition Display
Fig 50.3 Exhibition Blocks
Sunlight Paths
Fig 50.0 Rainfall Recycling
Fig 50.4 Sunlight Path
Figures 51.0 Wall Section 1:50 51.1 Glass Fixing Detail 51.2 Concrete Floor Detail 51.3 Glass Box Detail
Fig 51.1
1
1 2
2
3
Fig 51.2
3
4 5
4 5
6
6 7
Fig 51.1 Glass Fixing Detail Fig 51.3
Fig 51.2 Concrete Floor Detail
1
2
Glass Fixing Detail
Concrete Floor Detail
1 Glass to Glass Junction at Corners 2 Mastic Joint 3 12mm Insulated Glass 4 Silicone Seal 5 32mm Stainless Steel Frame Bracket 6 50mm Steel Mounting Lock Brace 7 80mm Flat Screw Steel Wall Ties
1 200mm Reinforced Concrete 2 Cold Form Steel Deck 3 Steel I Beam 4 Steel Beam Wall Brace 5 I Beam Supporting Ledge 6 Steel Beam Bracketed Support
Glass Box Floor Detail
4
3
5 6
Fig 51.0 Wall Section 1:50
Fig 51.3 Glass Box Floor Detail
1 150mm Concrte Slab 2 Cold Form Steel Deck 3 32mm Stainless Steel Glass Frame Bracket 4 700mm x 300mm Steel Hollowed Block Beam 5 Steel Brace Secure Nut 6 Steel Brace Support
Figures 52.0 Section South Tower 1:50 52.1 Water Collection Slope Detail 52.2 Glass Fixing Detail 52.3 Glass Axonometric Section
1
4
2
Glass Fixing Detail
Water Collection Slope Detail
1 30mm Insulated Strengthened Glass 2 32mm Stainless Steel Glass Frame Bracket 3 Stainless Steel Securing Cap Nut 4 50mm Steel Mounting Lock Brace 5 Secure Nut, Washer, Resin Bolt 6 Polished Stone Block
1 Clear PVC Covered Water Dripping System 2 Steel Column Support 3 Pvc Water Channelling Point 4 30mm Insulated Strengthened Glass 5 32mm Stainless Steel Glass Frame Bracket 6 Setting Block 7 Stainless Steel Securing Cap Nut For Supporting Brace 8 Steel Supporting Brace
Fig 52.2 Glass Fixing Detail
3
5 6
Fig 52.2 Glass Fixing Detail
Fig 52.1 Water Collection Slope Detail
Fig 52.3 Glass Axonometric Section
3
2
1
5
4
6
7
8
Fig 52.0 Section South Tower 1:50
Fig 52.1 Water Collection Slope Detail
Figures 53.0 Section East Tower 1:50 53.1 Section North Tower 1:50 53.2 Steel Springplate 53.3 Aluminium Glazing Bead
Springplate
Aluminium Glazing Bead
1 Polished Structural Glass Fin 2 Polished Stainless Steel Plate 3 Steel Springplate 4 Pilkington Joint 5 Insulated Glass Wall
1 Fully Toughened Glazing Roof 2 Aluminium Glazing Bead 3 Structural Glass Roof Supporting Fin 4 Polished Stainless Steel Plate
Fig 53.2 Steel Springplate Fig 53.0 Glass Detail Roof
Fig 53.1 Glass Detail Wall Connection
Fig 53.2 Glass Detail Wall
Fig 53.3 Glass Detail Floor
Fig 53.3 Aluminium Glazing Bead
Fig 53.0 Section East Tower 1:50
Fig 53.1 Section North Tower 1:50
Figures 54.0 Glass Detail Roof 54.1 Glass Detail Wall Connection 54.2 Glass Detail Wall 54.3 Glass Detail Floor
2
1
1 Glass Detail Roof
2
1 Mastic Joint 2 Fully Toughened Glazing Roof 3 Polished Stainless Steel Plate 4 Structural Glass Roof Supporting Fin 5 Polished Structural Glass Fin
3
4 3
Glass Detail Wall Connection
4 5
1 Pilkington Joint 2 Glazing Tie to Stonewall 3 Polished Specialised Cut Glass 4 Polished Structural Glass Fin 5 Steel Angled Support 6 Stainless Full Threaded Rod and Cap Nut
5 6
Fig 54.0 Glass Detail Roof
Fig 54.2 Glass Detail Wall
Glass Detail Wall 1 Stainless Steel Springplate Rod 2 Polished Stainless Steel Plate 3 Stainless Full Threaded Rod and Cap Nut 4 Pilkington Joint 5 30mm Insulated Strengthened Glass 6 Polished Structural Glass Fin
1
2
1
Glass Detail Floor 1 30mm Insulated Strengthened Glass 2 Steel Angled Support 3 Stainless Full Threaded Rod and Cap Nut 4 200mm Reinforced Concrete Slab 5 Cold Formed Steel Deck 6 32mm Stainless Steel Glass Frame Bracket 7 Steel I Beam
2 3 3 4 5
4 5 6 7
6 Fig 54.1 Glass Detail Wall Connection
Fig 54.3 Glass Detail Floor
Figures 55.0 Glass Box and Roof Top 55.1 Glass Box and Roof Floor 55.2 Glass Box Glass Box and Roof Top 1 Silicone Seal 2 32mm Stainless Steel Glass Frame Bracket 3 Polished Stone Block Support 4 Secure Nut, Washer, Resin Bolt 5 70mm Steel U Beam Containing Lock Base 6 Mastic Joint 7 30mm Insulated Strengthened Glass
1 2
1
2 3 4
Glass Box and Roof Floor 1 Steel U Beam Wall Tie 2 150mm Concrete Slab 3 Cold Formed Steel Deck 4 50mm Steel Mounting Brace 5 105mm Diaper Steel Piping Brace 6 100mm Diameter Lightweight Steel Tube Structure 7 32mm Stainless Steel Glass Frame Bracket 8 30mm Insulated Strengthened Glass
3 4 5
Glass Box 1 30mm Insulated Strengthened Glass 2 Silicone Seal and 32mm Gasket 3 Polished Stone Wall Support 4 Steel U beam Containing Lock Support Base 5 Polished Stone Tiled Flooring
6 7 Fig 55.0 Glass Box and Roof Top
1
2
3
5
4
5
6
7
8
Fig 55.1 Glass Box and Roof Floor
Fig 55.2 Glass Box
Figures
1
56.0 Rain Channelling 56.1 Exploded Axonometric of Pavillion 56.2 Material Section of Full Roof and Pavillion 56.3 Pavillion Roof Section Construction Detail 56.4 Pavillion Locations
2
3
4
5
Fig 56.4 Pavillion Locations 6 Roof Section Construction Details
Full Section Pavillion 1 Hollowed Steel Piping Structure 2 Plantation Roof Rim 3 Piping Support Cap 4 50mm Timber Desk 5 Cavity 6 Timber Slat Ties 7 Steel Frame 8 Timber Slat 9 Timber Boarding 10 Insulation 11 Setting Block 12 50mm Timber Desk
1 Setting Block 2 Connection Plate 3 Hollow Steel Piping Structure 4 30mm Steel Roofing 5 Insulation 6 Soil 7 Timber Slat Cable Ties 8 30mm Wooden Slats 9 Setting Block Connection 10 Lightweight Metallic Casing 11 PVC Membrane 12 Hollow Steel Piping Structure 13 Stainless Steel Cap Nut 14 Setting Block 15 50mm Timber Supporting Base 16 50mm Timber Roof Parapet 17 10mm Cavity
7 8 9 10 13
11
14
15
16
17
12
Fig 56.0 Rain Channelling
Fig 56.2 Pavillion Roof Section Construction Detail
30mm Lightweight Steel Roofing
PVC Damproof Membrane Soil Lightweight Steel Container
1
30mm Timber Slats 2
100mm Steel Hollow Piping Structure 50mm Timber Desktop Timber Structural Pillars
3
Curved Timber Structural Base
4 5 6
30mm Timber Slats Fig 56.1 Exploded Axonometric of Pavillion
7 8
11 12
10 9
Fig 56.3 Material Section of Full Roof and Pavillion
Figures 57.0 Plinth Location 57.1 Plinth Structure Construction Detail 57.2 Exploded Plinth Axonometric 57.3 Exploded Axonometric Structural Section Glazing 1
2 Fig 57.0 Plinth Location
3
Plinth Structure Construction Detail 1 30mm Timber Slats 2 32mm Steel Gasket 3 Setting Block 4 30mm Insulated Glazing 5 150mm Insulation 6 Setting Block 7 PVC Membrane 8 Internal Plasterboard 9 Timber Beam Structure
4 5 9
8
7
6
Fig 57.1 Plinth Structure Construction Detail
Wooden Roofing Structure
Timber Beam Structure
Wooden Wall Structure
Fig 57.2 Exploded Plinth Axonometric
Fig 57.3 Exploded Axonometric Structure Plinth
Figure 58.0 Render East Gate Entrance
Fig 58.0 Render East Gate Entrance
Figures 59.0 Tower Foam Model 59.1 Tower Foam Model 59.2 Market View 59.3 Market View from Balcony 59.4 North Tunnel Market View
Fig 59.0 Tower Foam Model
Fig 59.2 Market View
Fig 59.1 Tower Foam Model 2
Fig 59.3 Market Overview from Balcony
Fig 59.4 North Tunnel Market View
Figures 60.0 Market Tower View from Dovecot 60.1 3d Printed Tower Model With Acryllic Context Model 1 60.2 3d Printed Tower With Acryllic Context Model 2
Fig 60.1 3d Printed Tower Model With Acryllic Context Model 1
Fig 60.2 3d Printed Tower With Acryllic Context Model 2
Fig 60.0 Market Tower View From Dovecot