VINCENT LAI SELECTED WORKS 2011_2014
2
DATA PROCESSING
ACCURACY
RECURSIVE MANIPULATION
3
projects by Alisa Andrasek
4
5
import rhinoscriptsyntax as rs def main(): line = rs.GetObject(“select first curve”) mlength = rs.GetReal(“define the minimum length of the curve”, 5) scale = rs.GetReal(“what scale do we use per branch?”, 0.8, 0.5, 1.5) angle = rs.GetReal(“what is the angle between branches”, 20) rs.EnableRedraw(False) result = branch(line, mlength, scale, angle) rs.EnableRedraw(True) def branch(line, mlength, scale, angle): length = rs.CurveLength(line) if length > mlength: endPt = rs.CurveEndPoint(line) startPt = rs.CurveStartPoint(line) vec = rs.VectorCreate(endPt, startPt) vec = rs.VectorScale(vec, scale) vec1 = rs.VectorRotate(vec, angle, [0,0,1]) vec2 = rs.VectorRotate(vec, -1 * angle, [0,0,2]) endPt1 = rs.VectorAdd(endPt, vec1) endPt2 = rs.VectorAdd(endPt, vec2) newline1 = rs.AddLine(endPt, endPt1) newline2 = rs.AddLine(endPt, endPt2) branch(newline1, mlength, scale, angle) branch(newline2, mlength, scale, angle) main()
RECURSIVE BRANCHING COMMUNICATION 3
RECURSIVE BARNCHING 6
RECURSIVE BARNCHING 7
import rhinoscriptsyntax as rs import random as rnd def main(): listobjs = [] listobjs.append(rs.GetObject(“select large tile”)) listobjs.append(rs.GetObject(“select first small tile”)) listobjs.append(rs.GetObject(“select second small tile”)) listobjs.append(rs.GetObject(“select third small tile”)) listobjs.append(rs.GetObject(“select fourth small tile”)) maxgens = rs.GetReal(“what are the maximum genertaions?”, 3) targetobjs = rs.GetObjects(“select target objects”) for i in range(len(targetobjs)): replacetile(listobjs, targetobjs[i], maxgens) def replacetile(listobjs, targetobjs, maxgens): if maxgens > 0: listnewobjs = [] listvtx = rs.PolylineVertices(listobjs[0]) listtargetvtx = rs.PolylineVertices([targetobjs]) vec = rs.VectorCreate(listtargetvtx[0], listvtx[0]) for i in range(1, len(listobjs)): listnewobjs.append(rs.OrientObject(listobjs[i], listvtx, listtargetvtx,1)) distorig = rs.Distance(listvtx[0], listvtx[1]) disttarget = rs.Distance(listtargetvtx[0], listtargetvtx[1]) scalefactor = disttarget/distorig newobjs = rs.ScaleObjects(listnewobjs, listtargetvtx[0], (scalefactor,scalefactor,scalefactor)) for i in range(len(newobjs)): replacetile(listobjs, newobjs[i], maxgens-1) main()
RECURSIVE SUBDIVISION COMMUNICATION 3
RECURSIVE SUBDIVISION 8
RECURSIVE SUBDIVISION 9
import rhinoscriptsyntax as rs def curveSelfOrg(): curves = rs.GetObjects(“select curves”) rangeOfVis = rs.GetReal(“range of vision”, 80) moveRatio = rs.GetReal(“ratio of point movement”, 0.5) min = rs.GetReal(“minimun range”, 50) steps = rs.GetInteger(“how many steps?”, 6) for i in range (steps): for j in range (len(curves)): #til how many curves in this list rs.EnableObjectGrips(curves[j], True) gripCt=rs.ObjectGripCount(curves[j]) for k in range(1, gripCt-1): cPt = rs.ObjectGripLocation(curves[j], k) listClosePts = [] for l in range (len(curves)): if not j == l: param = rs.SurfaceClosestPoint(curves[l], cPt) closePt = rs.EvaluateSurface (curves[l], param[0], param[1]) listClosePts.append(closePt) closestPt = rs.PointArrayClosestPoint(listClosePts, cPt) vec = rs.VectorCreate(listClosePts[closestPt], cPt) vecLength = rs.VectorLength(vec) if vecLength < rangeOfVis: if vecLength > min: vec = rs.VectorScale(vec, 0.5 * moveRatio) else: vec = rs.VectorScale(vec, moveRatio) newPt = rs.VectorAdd(cPt, vec) rs.ObjectGripLocation(curves[j], k, newPt) rs.EnableObjectGrips(curves[j], False) curveSelfOrg()
RECURSIVE SELF-ORGANIZATION COMMUNICATION 3
RECURSIVE SELF-ORGANIZATION 10
RECURSIVE SELF-ORGANIZATION 11
COHESION
ALIGNMENT
SEPARATVION
SWARM BEHAVIOUR TEST SWARM/CHUNK/OBJECT
SWARM BEHAVIOUR 12
SWARM BEHAVIOUR 13
FROM OSSIFICATION TO CITY SYSTEM 2112AI_CYBERJAYA
CYBERJAYA 14
1 hour 35 mins train route direct
via highway 39 mins
Kuala Lumpur
Kuala Lumpur
proposing monorail 17 min + 10 min frequency via highway 28 mins
via highway 42 mins
Port Klang
Port Klang
via highway 46 mins
via highway 46 mins
Putrajaya
Putrajaya
via highway 28 mins +meglev 3 mins
proposing monorail 12 min + 10 min frequency via highway 24 mins
via highway 24 mins via meglev 3 mins
major highway
major highway exiting infrastructure via highway 49 mins
exiting infrastructure
major transit hubs
KL international airport
via highway 58 mins via highway 42 mins +meglev 3 mins
KL international airport
proposing infrastructure major transit hubs proposing transit hubs
Population Amount (person) Population Amount (person)
Population Amount (person) Population Amount (person)
200,000
200,000
200,000
200,000
100,000
100,000
100,000
100,000
55,000
Time Frame (year)
55,000 2013
2013
2060
2060
2112
Carbon Footprint Carbon (original) Footprint (original)
Time Frame (year)
55,000
2112
Time Frame (year)
55,000 2013
2013
2060
2060
2112
Time Frame (year) 2112
Carbon Footprint Carbon (developed) Footprint (developed) Population Amount (person) Population vs Carbon AmountEmission (person) Amount vs Carbon (ton) Emission Amount (ton) CYBERJAYA 15
Population Amount (person) Population vs Carbon AmountEmission (person) Amount vs Carbon (ton) Emission Amount (ton)
Private Vehicles
2060
2070
2020
2050
2080
2030
2040
2112
2013
Carbon Footprint Population Amount
Public Transportation
CYBERJAYA 16
Major City Centre, Commercial zone, administrative facilities, civic spaces, High landuses, high-rise, high density, 1 km 775 acres, 35,000 population, 45.06 per acre,
2013 Cyberjaya, 7000 acres, 55,000 people, 7.85 per acre r 3.5 km
2030 Cyberjaya, 7000 acres, 110,000 people, 15.71 per acre
Sub City Centre, Office, residential, public, High landuses, high-rise, high density, 500 acres, 20,000 population, 0.8 km 40 per acre,
2060 Cyberjaya, 7000 acres, 150,000 people, 21.42 per acre
2112 Cyberjaya, 7000 acres, 200,000 people, 28.57 per acre
Residential Clusters, Retails, residential, limited amount of offices, Average landuses, low-rise, high density, low FAR,
400 acres, 80,00 population, 20 per acre
130 acres, 2,600 population, 20 per acre
70 acres, 1,400 population, 20 per acre
CYBERJAYA 17
CYBERJAYA 18
Interior
2112Ai Cyberjaya - Transportation
2112Ai Cyberjaya - Tra
CYBERJAYA 19
CYBERJAYA 20
CYBERJAYA 21
CYBERJAYA 22
CYBERJAYA 23
CAVE FORMATION THE FORKING PATHS
THE FORKING PATHS 24
THE FORKING PATHS 25
Top: simulation of cave crystalizatioin Bot: natural reference
THE FORKING PATHS 26
Garden of Forking Paths
Ben Verzijl - s3380536 Vincent Lai - s3389875
Garden of Forking Paths
Ben Verzijl - s3380536 Vincent Lai - s3389875
Week 9
Refinement
cave form & pattern study Week 9
Refinement
SKIN DEEP 27
core with colored patterning
THE FORKING PATHS 28
3d prtint THE FORKING PATHS 29
hall
entrance THE FORKING PATHS 30
corridor THE FORKING PATHS 31
lightshaft
crack THE FORKING PATHS 32
room THE FORKING PATHS 33
SKIN DEEP_DOCKLANDS LIBRARY SKIN DEEP II
SKIN DEEP 34
Left: street view Below: skin reference
SKIN DEEP 35
geometry test SKIN DEEP 36
SKIN DEEP 37
reading area
SKIN DEEP 38
west facade
reading room
SKIN DEEP 39
open corridor
Lanxi Curtilage by Archi Union Architects 40
the Silk Wall by Archi Union Architects 41
RECURSIVE SELF-ORGANIZATION COMMUNICATION 3
DESIGN HUB SKIN REDESIGN 42
Left: west facade view Below: early stage folding test
DESIGN HUB SKIN REDESIGN 43
digital models of folding motifs
Collective Radiation
107.14
125.0
142.86
160.71
178.57
196.43
214.29
232.14
Afternoon Radiation 12:00 - 18:00
Summer (North) June - August
Legend
(kWh/m2)
250.0 < =
89.29
71.43
53.57
35.71
17.86
< = 0.0
Morning Radiation 06:00 - 12:00
thermal analysis for different motifs
1
2
n W n o Ju o pm 6 rn e To ft A pm
i
A
West North
y a
DESIGN HUB SKIN REDESIGN 44
D le s o hr h24 W
South
parametrized iterations based on open area
Collective Radiation
Collective Radiation
Morning Radiation 06:00 - 12:00
Morning Radiation 06:00 - 12:00
LEGEND (kWh/m2)
500.00<=
Afternoon450 Radiation 12:00 - 18:00 400 350
Summer (West) 300 June - August 250 200 150 100 50 <=0.00
LEGEND (kWh/m2)
500.00<=
Afternoon Radiation 450 12:00 - 18:00 400 350(East) Summer 300 June - August
LEGEND (kWh/m2)
500.00<= 450 400 350 300
250
250
200
200
150
150
100
100
50
50
<=0.00
<=0.00
DESIGN HUB SKIN REDESIGN 45
W N
TO N
ST ET RE
CIRCULATION
SW AN S
IA
FOYER
ST
OR CT VI
RE ET
WORKSPACE
OFFICE EXHIBITION AMENITIES LECTURE THEATRE CAFE
VIEW CORRIDOR
Left: assumed openess based on program Right: thermal analysis on each facade RMIT DESIGN HUB : Botton: elevations
S
E
Program, Views and Sunstudies
Level 10 30800
Level 9 26600
Level 8 22400
Level 7 18200
Level 6 14000
Level 5 9800
Level 4 5600
Level 3
46
0
South
East
250.00 < =
West
South
Morning
Legend
(kWh/m2)
North
6am To 12pm
West
Legend
(kWh/m2)
250.00 < =
232.14
232.14
214.29
214.29
196.43
196.43
178.57
178.57
160.71
160.71
107.14
Jun Aug
125.00
Winter
142.86
142.86
Afternoon
North
12pm To 6pm
East
125.00 107.14
89.29
89.29 71.43
53.57
53.57
35.71
35.71
17.86
17.86
Level 10 30800
Level 10 30800
Level 8 22400
Level 8 22400
Level 7 18200
Level 7 18200
Level 6 14000
Level 6 14000
Level 5 9800
Level 9 26600
Level 8 22400
Level 7 18200
Level 6 14000
Level 5 9800
Level 4 5600
Level 3
Level 10 30800
Level 9 26600
Level 9 26600
Level 5 9800
Level 4 5600
0
Level 4 5600
Level 3 0
Level 2
< = 0.00
24hrs
< = 0.00
Whole Day
71.43
SKIN DEEP 47 -4200
Level 3 0
Level 2 -4200
grid distortion test DESIGN HUB SKIN REDESIGN 48
south facade
Top: corner interior Right: view from Swanston St.
DESIGN HUB SKIN REDESIGN 49
Left: scale & detail test Below: shadow test
DESIGN HUB SKIN REDESIGN 50
60°
60° 120°
120°
60° 120°
60°
60° 60°
60°
120°
120°
60°
60°
120°
60° 120°
120°
fold detail 60° 120°
FOLD
D E T A IFLO L D
60°
60° 120° 120°
60°
60°
120° 120°
60°
120°
facadeFIXING detail TO MULLION
D ETAI L
FIXING TO MULLION
F A C A D E D E TFAAI C L AD E D ETAI L
STAGE 01
STAGE 01
STAGE 02
STAGE 02
STAGE 03
STAGE 03
FOLD CONNECTION
60 °
60 °
60 °
60 °
BACK STAGE 04
STAGE 04
fold process STAGE 05
FOLD
FRONT BACK
30 °
PROCESS
60 °
PAN E L A
P A N EL B
P A N EL B
FRONT
P A N EL C
P A N EL C
P A N EL D
P A N EL D
30 °
STAGE 05
P R O C FE OS LS D
PAN E L A
FOLD CONNECTION
60 °
F A C A D E SECTION F A C A D E SECTION
facade section
DESIGN HUB SKIN REDESIGN 51
FRONT ELEVATIONFRONT ELEVATION
skin component fabrication
DESIGN HUB SKIN REDESIGN 52
DESIGN HUB SKIN REDESIGN 53
PCB TOWER TECHNOLOGY 4
PCB TOWER 54
PCB geometry
PCB TOWER 55
facade design process
PCB TOWER 56
night view PCB TOWER 57
A A300
1
2
3
A201
8128
4
6472
1
A201
2
5400
8128 124 LT LA TROBE ST, MELBOURNE, 3000 VIC.
W01
A
GENERAL NOTES
A
OUTDOOR CAFE GL 0.00
FS
THE CONTRACTOR SHALL VERIFY ALL JOB SITE CONDITIONS AND RELATED DIMENSIONS.
D6
ALL CONSTRUCTION SHALL BE IN ACCORDANCE TO THE LASTEST EDITION OF THE UNIFORM BUILDING CODE.
W04
CAFE BAR
LEGEND
FFL 0.30
ENTRANCE
W01
FFL 0.30
PF
SUSTATION
W01
300
15556 10250
W03
140mm TIMBER STUD WALL WITH PLASTERBAORD FINISH
W04
6mm SINGLE GLAZED WALL
RAMP
FS
UP
A200
GRADE 1:4
D5
RAMP
FFL 0.30
150mm CONCRETE FLOOR SLAB
CP
300mm ELEVATED FLOOR WITH CARPET FINISH
PF
A202CONCRETE FLOOR SLAB WITH PLASTIC FLOOR
TI
UP
PARKING SPACE 2
FINISH
CERAMIC FLOOR TILING
LIGHT TYPES
D10
FOYER
FFL -3.00
20mm PLASTERBOARD WITH CERAMIC TILES FINISH
FS
W02
GL 0.00
300mm CONCRETE LOAD-BEARING WALL WITH PLASTERBOARD FINISH
W05
CARPARK FS
W02
FLOOR FINISHES
6100
A202
W02
PARKING SPACE 3 300mm THERMOMASS PRECAST CONCRETE PANELS WITH POLYSTYRENE INSULATION
WALL TYPES
3975
PF
15556
300
ALL OMISSIONS OR CONFLICTS BETWEEN THE VARIOUS ELEMENTS OF THE CONTRACT DRAWINGS AND OR SPECIFICATIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ENGINEER BEORE PROCEEDING WITH ANY WORK INVOLVED.
3158
3093
UNLESS OTHERWISE NOTED, ALL DETAILS, SECTIONS AND NOTES SHOWN ON THE CONTRACT DRAWINGS ARE INTENDED TO BE TYPICAL AND SHALL APPLY TO SIMILAR CONDITIONS ELSEWHERE.
DN
GRADE 1:4
C
CEILING LIGHT - FLAT ROUND - 110W 277V
D
DOWNLIGHT - RECESSED CAN - 152mm INCANDESCENT 120V
E
PENDANT LIGHT - LINEAR - 1 LAMP - 2400mm 277V
DN
PF
Boutique Speculative Office Tower
D9 FEMALE TOILET FFL 0.30
TI
D9
D8
TI D3
C 2008
W01
2778
1442
UP DISABLE TOILET FFL 0.30
W05
B
D2
MALE TOILET FFL 0.30
D3
PARKING SPACE 1
81-89 BOUVERIE ST, CARLTON, 3053 VIC.
D8
RISER
TI
LIFT 1
LIFT 2
FS
18 RISERS @ 183.5mm
B
DN
GROUND FLOOR 2454
A301
D1
2304
B
2454 2304
B
1472
D1 D1
A301
Project number Date
2602
1025
2262
2275
5100
C
20/05/2014
DFV Author
Drawn by
CHRISTINA Checker
Checked by
A404
Left: ground floor plan Middle: first basement plan Right: typical floor plan A1
RISER
001
A101 Scale
PCB TOWER 58
1:100
8128
1185
2
A
A A300
A300 A201
1
3
1
4
6472
5410
2
1 124 LT LA TROBE ST, MELBOURNE,A400 3000 VIC.
GENERAL NOTES
3
5228 5068 60
A
4
9382 12140
5400
61
UNLESS OTHERWISE NOTED, ALL DETAILS, SECTIONS AND NOTES SHOWN ON THE CONTRACT DRAWINGS ARE INTENDED TO BE TYPICAL AND SHALL APPLY TO SIMILAR CONDITIONS ELSEWHERE. PARKING SPACE 4
PARKING SPACE 5
2652
GENER
67
UNLESS O NOTES SH TO BE TYP ELSEWHE
FD
ALL OMISSIONS OR CONFLICTS BETWEEN THE VARIOUS ELEMENTS OF THE CONTRACT DRAWINGS AND OR SPECIFICATIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ENGINEER BEORE PROCEEDING WITH ANY WORK INVOLVED.
ALL OMISS ELEMENT SPECIFICA THE ENGI INVOLVED
FALL 1째
THE CONT AND RELA
64
7825
WALL TYPES
300mm THERMOMASS PRECAST CONCRETE PANELS WITH POLYSTYRENE INSULATION
W02
300mm CONCRETE LOAD-BEARING WALL WITH PLASTERBOARD FINISH
W03
140mm TIMBER STUD WALL WITH PLASTERBAORD FINISH
300mm ELEVATED FLOOR WITH CARPET FINISH CONCRETE A202 FLOOR SLAB WITH PLASTIC FLOOR FINISH
TI
CERAMIC FLOOR TILING
FS
16 RISERS @ 187.5mm
DN
CEILING LIGHT - FLAT ROUND - 110W 277V 63 DOWNLIGHT - RECESSED CAN - 152mm INCANDESCENT 120V
4092
868
BASEMENT 1
Project number
C
FFL 4.00
CP
TI
62
D E
Bo D4
LOBBY
W03
FFL 4.00
CP D9 FEMALE TOILET FFL 0.30
001
TI
D3
D9
D8
D2
UP
MALE TOILET FFL 0.30
TI D3
W05
DISABLE TOILET FFL 0.30
D8
RISER
TI
LIFT 1
LIFT 2
FS
18 RISERS @ 183.5mm
DN
81
T
Project n Date
20/05/2014
2008
2778
W01
2602
1025
2262
2275
5100
Drawn by
Checked
CHRISTINA Checker
Checked by
A102 Scale
PANTRY
CP
CP
DFV Author
Drawn by
PF
A200
W02
FFL 4.00
FFL 4.00
81-89 BOUVERIE ST, CARLTON, 3053 VIC.
A301
RECEPTION
W02
MEETING ROOM
Boutique Speculative Office Tower
B
CP
W04 D6
PENDANT LIGHT - LINEAR - 1 LAMP - 2400mm 277V
Date
2275
W04
1620
1442
2262
LIFT 2
D1
D1
C
C
B
2144
LIFT 1
W05
FLOOR FIN
LIGHT TYP
D
D2
UP
W03
150mm CONCRETE FLOOR SLAB
CP
E
GRADE 1:4
W04
D7
5821
6080 RAMP
W02
FS
PF
LIGHT TYPES
WALL TYP W01
W03
20mm PLASTERBOARD WITH CERAMIC TILES FINISH
2454 2144
A200
GRADE 1:4
PF
FALL 1째
15556 140
W05
LEGEN
FFL 3.70
CP
6mm SINGLE GLAZED WALL
FLOOR FINISHES
ALL CONS LASTEST
BALCONY
D1
1330
300
W04
W04
FFL 4.00
CP
W01
FS RAMP
FFL 4.00
FD
OFFICE
W04
4826
LEGEND
PARKING SPACE 6
MANAGER ROOM
9115
ALL CONSTRUCTION SHALL BE IN ACCORDANCE TO THE LASTEST EDITION OF THE UNIFORM BUILDING CODE.
2504
7133
THE CONTRACTOR SHALL VERIFY ALL JOB SITE CONDITIONS AND RELATED DIMENSIONS.
Scale
1:100
PCB TOWER 59
B
4
A
3
Roof
Roof
RL 56.00
4000
3850
RL 56.00
124 LT LA TROBE ST, MELBOURNE, 3000 VIC.
GENERAL NOTES Level 13
Level 13
4000
FFL 47.70 PF
3530
UNLESS OTHERWISE FFL 52.00NOTED, ALL DETAILS, SECTIONS AND NOTES SHOWN ON THE CONTRACT DRAWINGS ARE INTENDED TO BE TYPICAL AND SHALL APPLY TO SIMILAR CONDITIONS ELSEWHERE.
FFL 52.00 BALCONY
4000
3530
ALL OMISSIONS OR CONFLICTS BETWEEN THE VARIOUS ELEMENTS OF Level THE 12 CONTRACT DRAWINGS AND OR FFLSHALL 48.00 SPECIFICATIONS BE BROUGHT TO THE ATTENTION OF THE ENGINEER BEORE PROCEEDING WITH ANY WORK INVOLVED.
Level 12 FFL 48.00
THE CONTRACTOR SHALL VERIFY ALL JOB SITE CONDITIONS AND RELATED DIMENSIONS. Level 11
Level 11
4000
3530
470
FFL 44.00SHALL BE IN ACCORDANCE TO THE ALL CONSTRUCTION LASTEST EDITION OF THE UNIFORM BUILDING CODE.
FFL 44.00
LEGEND
470
W04
CP
4000
470 4000 4000
3530
DOWNLIGHT - RECESSED CAN - 152mm INCANDESCENT 120V PENDANT LIGHT - LINEAR - 1 LAMP - 2400mm 277V
470
FFL 20.00
Boutique Speculative Office Tower
BALCONY FFL 15.70 PF
470
4000
FFL 16.00
81-89 BOUVERIE ST, CARLTON, 3053 VIC. 3530
470 4000
3530
FFL 16.00
Level 3
PF
PF
4000
3530 470
470 3530
FFL 3.70
4000
BALCONY
EAST ELEVATION
Level 2 Project number
Level 2 FFL 8.00
Date
4000
FFL 7.70
FFL 12.00
20/05/2014
Drawn by
Author
Level 1 FFL 4.00
Checker
4000
300
3230
Checked by FFL 0.30 Ground
Ground
GL 0.00
GL 0.00
Scale
D6
Ground Floor 150
3230
Ground Floor
4000
470
470
Level 1 FFL 4.00
001
FFL 8.00
3530
3530
BALCONY
4000
470
470
Level 3 FFL 12.00
PCB TOWER 60
PF
Level 5
4000
BOUVERIE ST
D E
FFL 23.70
FFL 24.00
Level 4
Level 4
FFL 0.30
BALCONY
Level 6 LIGHT - FLAT ROUND - 110W 277V CEILING
3530
3530
FFL 20.00
4000
470
Level 5
QUEENSBERRY ST
470 3530
4000
FFL 24.00
PF
CERAMIC FLOOR TILING
470
C
FFL 19.70
D10
300mm ELEVATED FLOOR WITH CARPET FINISH Level 7 CONCRETE FLOOR SLAB WITH PLASTIC FLOOR FINISH FFL 28.00
LIGHT TYPES
Level 6
D1
150mm CONCRETE FLOOR SLAB
3530
470 4000
3530
TI
BALCONY
PF
Level 8
PF
Level 7 FFL 28.00
FFL 31.70
20mm PLASTERBOARD WITH CERAMIC TILES FINISH 470
470 4000
3530
PF
BALCONY
6mm SINGLE GLAZED WALL
FLOOR FINISHES FFL 32.00 FS
FFL 27.70
140mm TIMBER STUD WALL WITH PLASTERBAORD FFL 36.00 FINISH
W05
Level 8 FFL 32.00
BALCONY
300mm CONCRETE LOAD-BEARING WALL WITH PLASTERBOARD FINISH Level 9
W03
4000
3530
FFL 36.00
3530
W02
Level 9
Level 10 FFL 40.00
300mm THERMOMASS PRECAST CONCRETE PANELS WITH POLYSTYRENE INSULATION
470
PF
4000
FFL 35.70
4000
3530
BALCONY
W01
3530
FFL 40.00
3530
Level 10 470
PF
4000
FFL 39.70
470
WALL TYPES
BALCONY
300
C
150
Left: east elevation Middle: north elevation Right: west elevation
A200 1:250
1
A
B
C
Roof RL 56.00
4000
3850
124 LT LA TROBE ST, MELBOURNE, 3000 VIC.
GENERAL NOTES
GEN
UNLESS OTHERWISE NOTED, ALL DETAILS, SECTIONS AND FFL 52.00 NOTES SHOWN ON THE CONTRACT DRAWINGS ARE INTENDED TO BE TYPICAL AND SHALL APPLY TO SIMILAR CONDITIONS ELSEWHERE.
UNLE NOTE TO B ELSE
ALL OMISSIONS OR CONFLICTS BETWEEN THE VARIOUS ELEMENTS OF THE CONTRACT DRAWINGS AND OR Level 12 SPECIFICATIONS SHALL BE BROUGHT TO THE ATTENTION OF FFL 48.00 THE ENGINEER BEORE PROCEEDING WITH ANY WORK INVOLVED.
ALL O ELEM SPEC THE INVO
4000 4000
3530
3530
Level 13
THE CONTRACTOR SHALL VERIFY ALL JOB SITE CONDITIONS AND RELATED DIMENSIONS.
THE AND
Level 11
ALL C LAST
LEGEND
LEG
4000
3530
470
ALL CONSTRUCTIONFFL SHALL BE IN ACCORDANCE TO THE 44.00 LASTEST EDITION OF THE UNIFORM BUILDING CODE.
WALL TYPES
WAL
470
Level 10
4000
W02
FFL 40.00 300mm THERMOMASS PRECAST CONCRETE PANELS WITH POLYSTYRENE INSULATION
W01
300mm CONCRETE LOAD-BEARING WALL WITH PLASTERBOARD FINISH
W02
3530
W01
Level 9
140mm TIMBER STUD WALL WITH PLASTERBAORD FINISH FFL 36.00
W03
W04
6mm SINGLE GLAZED WALL
W04
4000
W05
3530
470
W03
20mm PLASTERBOARD WITH CERAMIC TILES FINISH
470
FLOOR FINISHES
W05
Level 8
FLOO
FFL 32.00
4000
150mm CONCRETE FLOOR SLAB
CP
300mm ELEVATED FLOOR WITH CARPET FINISH
CP
CONCRETE FLOOR SLAB WITH PLASTIC FLOOR Level 7 FINISH
PF
470
PF
FFL 28.00
CERAMIC FLOOR TILING 4000
TI
FS
3530
FS
TI
CEILINGLevel LIGHT - FLAT ROUND - 110W 277V 6 470
C
LIGH
3530
LIGHT TYPES
4000
E
C
FFL 24.00
DOWNLIGHT - RECESSED CAN - 152mm INCANDESCENT 120V
D
3530
D
E
PENDANT LIGHT - LINEAR - 1 LAMP - 2400mm 277V
470
Level 5 FFL 20.00
4000
Boutique Speculative Office Tower
B
3530
QUEENSBERRY ST
470
Level 4
FFL 16.00
4000
3530
81-89 BOUVERIE ST, CARLTON, 3053 VIC. Level 3
FFL 12.00
3530
4000
470
NORTH ELEVATION Level 2 FFL 8.00
3530
Date
4000
470
Project number
Drawn by 470
Level 1 FFL 4.00
4000
3230 300
Proje
001 20/05/2014
Date
Author
Draw
Checker
Checked by
Chec D5
Ground Floor 150
2
D1
FFL 0.30 Ground
A201
GL 0.00
Scale
1:250
PCB TOWER 61
Scal
facade panels schedule
2927
3120 391
2730 581
2740
2665
2484
2585
2000 2000
924
740
412
733 4404
4727
665 5396
478
585
4976
2000 2000
740
581
733
714
2000 2000
2740
2585
4405
4976
2000 2000
714
924
733
665
2000 2000
2829 2714
W1-F 2581
2585
W2-F 2404
2665 E2-b
PCB TOWER 62
GENERAL NOTES
404
UNLESS OTHERWISE NOTED, ALL DETAILS, SECTIONS AND NOTES SHOWN ON THE CONTRACT DRAWINGS ARE INTENDED TO BE TYPICAL AND SHALL APPLY TO SIMILAR CONDITIONS ELSEWHERE.
977
ALL OMISSIONS OR CONFLICTS BETWEEN THE VARIOUS ELEMENTS OF THE CONTRACT DRAWINGS AND OR SPECIFICATIONS SHALL BE BROUGHT TO THE ATTENTION OF THE ENGINEER BEORE PROCEEDING WITH ANY WORK INVOLVED.
W2-R
3396
2976 W3-A
THE CONTRACTOR SHALL VERIFY ALL JOB SITE CONDITIONS AND RELATED DIMENSIONS.
W4-A
ALL CONSTRUCTION SHALL BE IN ACCORDANCE TO THE LASTEST EDITION OF THE UNIFORM BUILDING CODE.
LEGEND 936
714 N1-B
2716
N2-B
2475 N3-B
WALL TYPES
2829 4731
4581
2829 2714
W01
300mm THERMOMASS PRECAST CONCRETE PANELS WITH POLYSTYRENE INSULATION
W02
300mm CONCRETE LOAD-BEARING WALL WITH PLASTERBOARD FINISH
W03
140mm TIMBER STUD WALL WITH PLASTERBAORD FINISH
W04
6mm SINGLE GLAZED WALL
W05
20mm PLASTERBOARD WITH CERAMIC TILES FINISH
E3-B
2581
FLOOR FINISHES FS
150mm CONCRETE FLOOR SLAB
CP
300mm ELEVATED FLOOR WITH CARPET FINISH
PF
CONCRETE FLOOR SLAB WITH PLASTIC FLOOR FINISH
TI
CERAMIC FLOOR TILING
LIGHT TYPES
2976
C
CEILING LIGHT - FLAT ROUND - 110W 277V
D
DOWNLIGHT - RECESSED CAN - 152mm INCANDESCENT 120V
E
PENDANT LIGHT - LINEAR - 1 LAMP - 2400mm 277V
5
Boutique Speculative Office Tower 81-89 BOUVERIE ST, CARLTON, 3053 VIC.
CONCRETE PANEL SCHEDULE Project number Date
PCB TOWER 63
Drawn by Checked by
001 20/05/2014 Author Checker
PARAMETRIC MODEL FOR 3D PRINT PENUMBRA FACADE PROTOTYPE
PENUMBRA FACADE PROTOTYPE 64
parametric modelling process PENUMBRA FACADE PROTOTYPE 65
fabrication PENUMBRA FACADE PROTOTYPE 66