1:20.000 on A1
1:20.000 on A1 1:20.000 on A1
Bourke St.
Bourke St.
Elizabeth Elizabeth St. Elizabeth St. St.
Swanston Swanston St. Swanston St. St.
Bourke St.
Car
Bicycle
Pedestrian
Tram
Car
Bicycle
Pedestrian Car
Tram Bicycle
Pedestrian
Tram
TRANSPORT USERS (layered by rights of way)
SHADOW ANALYSIS (summer equinox)
SHADOW ANALYSIS (winter equinox)
TRANSPORT USERS (layered by rights of way) TRANSPORT USERS (layered by rights of way)
SHADOW ANALYSIS (summer equinox)
SHADOW ANALYSIS (winter equinox)
3000
average users during peak hours
2000 3500 1500 3000 3500 1000 2500 500 3000 2000 0 2500 1500 200000:00 1000 1500 500 1000 0 500 00:00 0 40
00:00
50:00
10:00
15:00
20:00
00:00
BOURKE STREET ANNUAL PEDESTRIAN DATA 50:00
10:00
15:00
20:00
00:00
BOURKE STREET ANNUAL PEDESTRIAN DATA
20
50:00
10:00 0
0
15:00 20
20:00 40
00:00 60
BOURKE STREET ANNUAL PEDESTRIAN DATA JAN
Bourke St.
FEB
Canopy
Vegetation
Amenity
Heritage
Contour line (1m)
Established Grid
Defensive
Art
Performance
Design Area
Canopy
Vegetation
Amenity
Heritage
Contour line (1m) Design Area
Established Grid Canopy
Defensive Vegetation
Art Amenity
Performance Heritage
Contour line (1m)
Established Grid
Defensive
Art
Performance
Swanston Swanston St. Swanston St. St.
Elizabeth Elizabeth St. Elizabeth St. St.
Bourke St.
GREEN STITCH GREEN STITCH HERO SHOT HERO SHOT HERO SHOT
40
20
0
40
20
0
SITE FEATURES
1:750 on A1 SITE FEATURES SITE FEATURES 1:750 on A1 1:750 on A1
THE THE THE
SHADOW ANALYSIS (winter equinox)
2500
Bourke St.
Design Area
3500 + 3500 + 3500 +
SHADOW ANALYSIS (summer equinox)
3500
AVG TEMP (°C)
MAR 0 APR JAN
0 MAY FEB JAN JUN MAR FEB JUL APR MAR AUG MAY APR SEP JUN MAY OCT JUL JUN NOV AUG JUL DEC SEP AUG OCT SEP &NOV RAINFALL OCT DEC NOV
20
40
60
20
40
60
AVG + DAYLIGHT (mm)
DEC
AVG TEMP (°C) & RAINFALL AVG + DAYLIGHT (mm) AVG TEMP (°C) & RAINFALL AVG + DAYLIGHT (mm)
average users during peak hours average users shading reaches during peak hours
80% 80% 80%
shading reaches during the wettest and coldest weather shading reaches
during the wettest and coldest weather during the wettest Intersection of and coldest weather multiple means of transport Intersection of multiple means of Intersection of transport multiple means of transport Scattered elements of urban furnitures and no consideration of the living systems Scattered elements of urban furnitures and no Scattered elements consideration of theof urban furnitures and no living systems consideration of the living systems
INTENT
The analysis of the site has revealed that the site is in a messy state where the street life and its elements are not conversing. INTENT
This project will stitch Bourke St.INTENT together by injecting a green space The analysis of the site has revealed that the site is in a messy state into the street; creating a coherent and iconic street whilst where the street life and its elements are not conversing. acknowledging its site complexity, from celebrating to The analysis of the has revealed that the site istheinstreetscape a messy state addressing the concern of safety. wherewill thestitch streetBourke life andSt.itstogether elementsbyare not conversing. This project injecting a green space into the street; creating a coherent and iconic street whilst Thus,project the Green Stitch canSt.become Melbourne’s future space street This will stitch Bourke together by injecting green acknowledging its complexity, from celebrating the astreetscape to Streets that protects both people and livingstreet systems. intotypology. the street; creating athecoherent and iconic whilst addressing concern of safety. acknowledging its complexity, from celebrating the streetscape to concernMelbourne’s of safety. Thus, the Greenaddressing Stitch canthebecome future street typology. Streets that protects both people and living systems. Thus, the Green Stitch can become Melbourne’s future street typology. Streets that protects both people and living systems.
Initial condition
Insertion of green space to stitch the disconnect
Insertion of furnitures
Expanding the typology to Melbourne steets
Initial condition
Insertion of green space to stitch the disconnect
Insertion of furnitures
Expanding the typology to Melbourne steets
STREET ENTRANCE
TRAM STOP
STREET ENTRANCE
TRAM STOP
STAGE AREA SECTION 1
STAGE AREA
SECTION 1
Canopy
Canopy
Platform
Vegetation
Contour line (100m) Design Area
Established Grid Canopy
Seaters Canopy
Bollard Platform
Vegetation
Contour line (100m)
Established Grid
Seaters
Bollard
PARTI DIAGRAMME
BENCH AREA SECTION 2
SECTION 3
BENCH AREA
SECTION 2
Design Area
PARTI DIAGRAMME
SECTION 3
Berry Saltbush Red-leg Grass Kidney Weed Berry Saltbush Weeping Grass Red-leg Grass Stiped Wallaby-grasses Kidney Weed Kangaroo Grass Weeping Grass Stiped Wallaby-grasses Kangaroo Grass
Atriplex semibaccata Bothriochloa macra Dichondra repens Atriplex semibaccata Microlaena stipoides Bothriochloa Rytidospermamacra racemosum Dichondra repens Themeda triandra Microlaena stipoides Rytidosperma racemosum Themeda triandra
Raingarden Raingarden
Banksia integrifolia Carex appressa Eleocharis acuta Banksia integrifolia Eleocharis sphacelata Carexlabillardierei appressa Poa Eleocharis acuta Eleocharis sphacelata Poa labillardierei
Coast Banksia Tall Sedge Common Spike Rush Coast Banksia Tall Spike Rush Tall SedgeTussock-grass Common Common Spike Rush Tall Spike Rush Common Tussock-grass
Canopy Canopy
Acacia implexa Acacia melanoxylon Allocasuarina verticillata Acacia implexa Eucalyptus behriana Acacia melanoxylon Allocasuarina verticillata Eucalyptus behriana
Lightwood Blackwood Drooping Sheoak Lightwood Bull Mallee Blackwood Drooping Sheoak Bull Mallee
SITE FEATURES 1:10.000 @A1 SITE FEATURES 1:10.000 @A1
SPACE TYPOLOGY
P TO S M
TRA
E
T
N TE
E E R ST
C N A R
H
C N E B
EA
G A T S
R EA
EA R A
SECTION 1
SECTION 2
BENCH TYPOLOGY
SECTION 3 1:200 on A1
Single bench
Planter bench
Long bench Single bench with backrest
VARIATION 1:100 on A1
100
165
400
165
850
Small area to rest while standing
510
100
170
300
169
500
100
Angle allows visual connectivity O
2750
170
80
O
O
Resin tubes 100x40 grid
225 80
Embeded resin bar
Planting Substrate
175
Strip footing 175x600
450
380
High Strength 50MPa concrete mix 16mm Rebar
240
10mm LED strip-light
Polypropylene deep root barrier
3. Top piece bolted in with brackets 2. Top concrete piece casted off-site including the resin tubes and LED fixture, then drilled 6mm holes with 200mm spacing 1. Concrete casted on-site, steel member casted with the concrete
1. Concrete casted on-site
TIMBER SEATING TO CONCRETE CONNECTION 1:10 on A1
3. Steel dowels inserted after concrete is close to curing
2. Rubber joints are put in to be removed after concrete cures for LED strip instalation
2. Rubber joints are put in to be removed after concrete cures for LED strip instalation
2. Resin tubes placed in and secured in place with mesh reinforcement
1. In-situ concrete casting, Chamfer Strips put in the edges to create 1 inch chamfer
1. Concrete made and poured off-site, then brought in and bolted together
TOP CONCRETE TO BOTTOM CONCRETE 1:10 on A1
BENCH FORMWORK AND INSTALATION 1:50 on A1
PLATFORM TYPOLOGY
600 215
1090
2530
1980
80
4. Timber deck installed with 5mm spacing then bolted into the steel frame
O
SECTION 1
SECTION 2
PLATFORM ELEVATION 1:20 on A1 280
700
600.7
600.7
26mm Bevel is cut to allow hinge mvement steel frame then bolted into concrete
600.7
470
45
25x100 Spotted Gum Hardwood
3. Butt hinge connects to the steel support
45
175
Strip footing 175x600 Concrete Blinding Compacted Base
PLATFORM SECTION 1 1:20 on A1
2. Hydraulic Cylinder will slide back Keep hands clear until movement is complete
1. 100x675x75mm negative space is to be detailed in formwork for sliding rails to be bolted in after concrete is casted
175
240
100mm LED strip-light
240
470
High Strength 50MPa concrete mix
470
45
2. 50mm hydraulic cylinder for back support hinge
316L Stainless Steel rails as decking fix
1. Push until a noticable click is heard
O
PLANTER BENCH ELEVATION 1:20 on A1
PLANTER BENCH SECTION 1:20 on A1
2. Timber seating installed with 5mm spacing, then bolted in
0
SECTION
Concrete Blinding Compacted Base
3. Seating unit bolted into the casted concrete
11
478
316L Stainless Steel rails as decking fix
432
250
50x 50 Spotted Gum Hardwood
2500
760
525
85 100mm LED strip-light
PLATFORM SECTION 2 1:20 on A1
3. Once movement is complete a click will be heard To fold back into original position, a push with slight force is required
BACK MECHANISM 1:20 on A1
EXPLODED ASSEMBLY DETAIL 1:5 on A1
Tree bollard can be integrated to the platform for night lamp for late performances
The shape also allows trees to serve as a canopy for the platform
VARIATION 1:20 on A1
TREE BOLLARD
2090
90x 90 Spotted Gum Hardwood
Street Lamp 150W 40000 Lumen
4.
Light wiring done after the structure is complete.
3.
Top RHS welded on-site unto the casted bottom part
Corten Steel Branch Modules
TIMBER TO TIMBER CONNECTION 1:5 on A1
Modules length include 3 variation for a wider set of final outcome
900
Scoring into timber for wiring
130
140
O
150
5130
170
O
O
200x200 Corten Steel RHS Welded connection
3200mm - canopy suspending tree 2100mm - freestanding tree
Timber scored and drilled off-site; then, connection bolted on-site
2100
Welded connection off-site M12 Bolts
TREE BOLLARD STEEL TO TIMBER CONNECTION 1:5 on A1
2.
Concrete is poured into the bottom RHS during casting to increase connection strength.
300
178
O
Footing reinforcement is put in and bolted until level
Welded Connection @2
o
300
Concrete Fill Welded Flanges
1.
Welded connection off-site
Accoustic Isolator Resin anchored bolt High Strength 50MPa concrete mix 1030
Bolted until level then trimmed
Cast in-situ
Concrete casted on-site, bottom RHS and steel plate to be put in and propped on-site. PVC pipe is embedded as lost formwork for cable entrance.
Gap filled with concrete
TREE BOLLARD STEEL TO CONCRETE CONNECTION 1:5 on A1 500
Pad footing for security and structural bollards. Mass concrete for decorative bollards. Concrete blinding Compacted base 200
200
200
200
200
TREE BOLLARD SECTION 1:20 on A1
EXPLODED AXONOMETRY 1:20 on A1