SookyanWONG //UndergraduatePortfolio

SOOK YAN WONG University of Sydney Master of Architecture Yr 1

UNDERGRADUATE DEGREE PORTFOLIO

Tutor: Thomas Stromberg

[Coffee Roasting House & Archery Range]

Habitable Bridge Site Unspecified

[Habitable Bridge]

Connection of Two Architectural Programs Coffee-Roasting House and Archery Range

Mass becomes smaller

Coffee-Roasting House

Archery Range

Community Safe Relaxed Enclosed

Individual Dangerous Competitive Open

DESIGN THINKING:

Using the heat energy released by combustion process (coffee-roasting) from CRH, the structure can change its form to give access or to create the 2nd space. Heat is used as the catalyst (joint) for the process of creating another space (archery range).

PROCESS & CYCLE Both programs consist of energy release and absorption processes. CRH: combustion; heat energy; coffee bean roasting; machinery; production; phase change AR: respiration; physical energy; joint movement; stretching; releasing; aiming; shooting Functional Programs: - Coffee roaster(s) - Service counter - Storage (ingredients/coffee bean) - Seating area - Bathrooms

No. of visitors

Functional Programs: - Shooting ground - Service counter - Equipment Storage - Lockers - Bathrooms

Coffee bean roasted

Heat energy

CRH

AR

Weight accumulates at both ends, forcing the structure to change its form.

Force

Space

PRELIMINARY FUNCTIONAL DIAGRAM Energy Release & Competition between CRH and AR Seating

Shared: Bathrooms Storage

CRH Shooting Ground

AR

Lockers

Coffee Roaster

SIMILARITIES AND DIFFERENCES BETWEEN TWO PROGRAMS

No. of visitors

Force

Space

INTERCONNECTION BETWEEN COFFEE-ROASTING HOUSE AND ARCHERY RANGE Using exhausted hot gases from CRH to open up archery range

02

[Habitable Bridge]

Conceptual Model and Diagram Point of Connection between Two Programs

03

Third material: Heat Second material: Wax First material/support: Timber

MODEL-MAKING: 1. Place wax (candle) above the timber structure. 2. Light up the candle and observe the flow of wax. 3. Weight of wax creates a force that tilts the structure even further. 4. Timber structure meets the ground if the process continues.

CONCEPTUAL MODEL

Joint

CONCEPTUAL DIAGRAM

Point of Connection as Point of Origin

[Habitable Bridge]

Form-finding I: Conceptual Diagrams Design Thinking and Process

Origin Point to connect two both ends

Plane B to form double cable system Plane A

Intersection point

2 Another plane added to form spaces, roofs and floors.

1 Line extended to join both ends in a single plane.

Heavy Load

3 Location of functional spaces determined. All floors/roofs are walkable.

4. Structural strategies applied.

CONCEPTUAL DIAGRAM Design Thinking and Process

04

[Habitable Bridge]

Form-finding II: Planning Diagrams Structural, Spatial & Circulation Distribution

05

Diagonally shooting to resolve the issue of a huge archery range. - Bull’s-eye(s) are attached to movable doors for degree adjustment (distance of shooting range).

- Archers choose the position and distance along the bridge (starting line).

Archery Range Underground Corridor Underground corridor to enable arrowcollecting and equipment storage.

Coffee-roasting House

Interchange DIAGRAMMATIC PLAN Cliff wall Load to hold the Plane B back and down onto the site

Double-function Space

C

Two intersecting planes extended into the cliff like a cantilever beam

Plane A

Plane B

Supporting structures at lower end to hold Plane A and B in shape (columns or part of the heavy load)

STRUCTURAL DIAGRAM

Embedded load-bearing wall at higher end (20m) to transfer load to ground and to hold Plane A and B in shape Extension of Plane B to enable access to the bridge (as the starting point) with the principal beam extended into the ground for a vertical depth of 2500mm to hold down the structure.

End to end: AEC/ CEA; BEC / CEB Entrance to functional space: AED; BED; CED

E

Intersection point A, B, C and D are all accessible with E as the interchange point (origin point).

A B D

CIRCULATION DIAGRAM

[Habitable Bridge]

Form-finding III: Design Sketches Final Design: 1:400 Section

Chosen form: to show lines of tensional forces.

DESIGN SKETCHES

Different forms considered to hold down massive structure

1:400 SITE SECTION

06

[Habitable Bridge]

1:200 Axonometric Structures & Materials

07

Cross-bracing to resist lateral forces

In-situ concrete wall

Timber crossbeams as secondary structure in between

4 x curved Glulam Beams

4 x curved Glulam Beams

Primary support that holds the structure in place by clamping at both sides

Structure extended and embedded in ground Structure extended and embedded in ground

[Habitable Bridge]

Final Design: Scaled Drawings Plans and Elevations

Slope

River

08

N

20m

15m

1:200 SOUTH ELEVATION

20m

1:400 SITE PLAN

1:200 NORTH ELEVATION

Tutor: Sarah Breen-Lovett/Zainab Tinwala

[Extension of Art Gallery of New South Wales]

Domain Car Park 2 St Marys Road Sydney NSW 2000 a LIVING THEATRE ABSTRACT WORKING from the initial concept for communications we began further investigation of an architectural ‘SPINE’ and the connection of movement, sound and sight within the space. The concept begins with the idea of architecture as a living theatre and each module becomes an interactive art piece. A change of physical understanding, architecture shifts from being a static object to a dynamic environment for happenings and performances. Being ‘a theatre of the real’, it introduces cross-programming and unexpected functions within spaces. The theatre is both an old and a new piece of art that is not conceived as a finished work; it grows and works by extension, addition and subtraction. Theorist Guy Debords proposed the idea of ‘SITUATIONISM’ that makes it impossible to conceive architecture without people, movement or desire by randomly juxtaposing incongrous elements which in turn creates a new coherent whole that critiques both the existing world and its relation to the world. ‘The arts of the future can be nothing less than disruptions of situations.’ Architect Bernard Tschumi writes about MASKS, a double role in the act of veiling and and unveiling, simulating and dissimulating, and cannot be dissociated from architecture.The mask or facade may acclaim appearances, however by its very presence, it exclaims that in the background there is something else. Our fragments of architecture create bits of walls, rooms, ideas and of streets. These fragments are like beginnings or in-between traces. It is not how such fragments are organised, but more about the volume, height, surface and degree of enclosure. They are the sentences between quotation masks, yet they aren’t quotations. Theorist Henry Lefebvre argues that architecture must produce activities and experiences of social and cultural importance. Sight and sound are not the only senses that can be used to determine a relationship to spatial elements of a place. Lefebvre’s concept of space, posits that spaces are produced. It is experienced by people interacting, intersecting, producing and reproducing relationships to and with each other. Lefebvre believes that this phenomenon is both the interaction and what is created by the interaction. The interaction is reciprocal - it is being created by but also create social interaction. It is a form of preformed communication. A spatial language that can be observed, repeated and remembered. Space creates and is created by interactions with others. History and knowledge of space is created through its users and its use. SPACE IS PREFORMED AND CREATED BY INTERACTIONS OF AND WITH PEOPLE. WE EMPLOY INTERACTIONS WITH OTHERS TO GAIN KNOWLEDGE OF SPACE.

[Extension of Art Gallery of New South Wales]

Carpark-Gallery Flexible Usage Site Analysis and Spatial Planning Chosen Site for Planning

DIGITAL ART SPACE Interactive text/3D Imaging,multimedia SERVICE AREA

Royal Botanic Gardens The Domain

PERFORMING SPACE

Art Gallery of New South Wales

INSTALLATION SPACE

Sunpath

Hyde Park

Domain Car Park (SITE) walkway to city

RELATIVE DIMENSIONS OF DIFFERENT GALLERY SPACES

St. Mary’s Cathedral

View from Train

JOINT: 1. 90 DEGREES ROTATION 2. Only rotate in 1 direction 3. Pushing force Gallery Space Train line

N INTERSECTING CAR PARK-GALLERY SPACE DYNAMIC SPACES

INTERIOR SPATIAL PLANNING DIAGRAM

SITE CONTEXT

12

[Extension of Art Gallery of New South Wales]

Carpark-Gallery Interchangeable Spaces 1:2000 Floor Plans

Iterative Model 002 (w/ rotating arms)

Existing Configuration (before)

Iterative Model 003 (w/ removable members)

Possible Configuration (after) 1:2000 GROUND FLOOR PLAN

Section

Existing Configuration (before)

Car Exit

SPACE PLANNING TO CATER FOR DIFFERENT NEEDS: GROUND FLOOR (BEFORE)

Section

1:1000 INTERMEDIATE FLOOR PLAN

1:2000 INTERMEDIATE FLOOR PLAN

Section

Retained VIsitor Entrance

Possible Configuration (after) 1:1000 GROUND FLOOR PLAN

1:2000 TOP FLOOR PLAN

SPACE PLANNING TO CATER FOR DIFFERENT NEEDS: GROUND FLOOR (AFTER)

Section

Extended walls pushed towards boundary of void

N

13

[Extension of Art Gallery of New South Wales]

Gallery Space Vertical Planning 1:200 & 1:50 Sections

Visitor Entrace from City

Car Entrance

Car Exit

1:200 SECTION

1 Decomposed Facade w/ Removable Blocks

2b Pushed/Rotated High Walls

hollow core to reduce weight of moving walls and to place wheels inside

Red Western Cedar with treated surface 15mm dia. G316 stainless steel plain finish sqaure nut

Top Floor VIEWING PLATFORM

15mm dia. G316 stainless steel threaded rod bar into drilled holes

Unhinged High Walls Pushed to Void’s Boundary

13mm dia. G304 stainless steel O-ring lock nut Intermediate Floor INSTALLATION SPACE

950mm (l) x 13mm dia. G304 stainless steel rod bar inserted into centre bore of the wheels 75mm dia. x 50mm (w) zinc alloy caster wheel with 13mm centre bore 2a Rotated Low Walls

Intermediate Floor ‘PERFORMANCE’ SPACE

concrete floor slab D-02

D-01 RETAINED UTILITY AREA

1:5 DETAIL SECTION

2A & B. INTERNAL MOVING WALLS

Expandable Car Park-Gallery Space

1:50 SECTION

D-02

14

[Extension of Art Gallery of New South Wales]

Modulated Screen Development Facade Decomposition and Recomposition Floor Level (+2500mm)

Floor Level (2500mm)

Adult’s Height (1800mm)

Teen’s Height (1500mm)

Floor Level (0mm)

1:25 ELEVATION (1 FLOOR)

Interaction between exterior and interior spaces Interaction between visitors and architecture

D-01

15mm dia. G316 stainless steel plain finish sqaure nut 15mm dia. G316 stainless steel threaded rod bar into drilled holes

1:20 SECTION INTERSECTING FOLDING PATTERN mock screen plan view (partial)

Overlapping layers

Red Western Cedar with treated surface

300mm (l) x 13mm dia. hot-dipped galvanised L-type 90 degrees bend anchor bolt bolted into concrete slab

at least 100mm deep

concrete floor slab ZIG-ZAG WEAVING PATTERN modules being joined together to form a screen

1:5 DETAIL (SECTION) 1. FACADE

1:20 SCREEN PROTOTYPE elevation view

15

First Level Installation Space Overviewing Car Movement

Lower Level Car Park-Gallery Interchageable Spaces

Facade in Decomposition

[Extension of Art Gallery of New South Wales]

19

Module Design Initial Design Concept and Working System

Pivot: centrally-located rods to allow 360 degrees rotation

Extracted Concept Co-experience

Opening: to allow penetration of light (sight) and sound

Extracted Geometry Fragmented Spine

Incision: to lock modules above & below

1:10 Axonometric

FURTHER DEVELOPMENT ON SOPHISTICATION & FABRICATION OF MODULE: - horizontal layering and stacking of the diamond-shaped blocks - utilizing the patterns and grains on timber - explore different materials to achieve design purporse: 1. timber 2 glass (perspex) 3. corrugated cardboard (perforation) Iterative Model 001 x2

x5

Layers 1- 5

varied degree of rotation produces different lighting/shadow effects x 32 Layers 7-14 Openings

Extracted Geometry Spine Element

Module Operating Diagram

Module Design Concept and Working System

x 16

Layers 7 - 14

Layers 6 & 15

x8

x 16

x8

Layers 16 - 20 Joining Gaps

USING MODEL-MAKING PROCESS TO EXPLORE DIFFERENT JOINING METHODS AND POSSIBLE FORMS Layrering and stacking method is discovered due to the limitation of material’s thickness - 6.0mm balsa wood/plywood - during digital fabrication process.

x4

5mm dia. rod

Layers

[Extension of Art Gallery of New South Wales]

System

1

Fixed Frame

2 3

[1, 2, 2]

4

[2, 1, 2]

5

[3, 2]

6

[2,1, 2]

7

[1, 1, 2, 1]

8

20

Iterative Model 001, 002 & 003 Layering and Joining System

Removable Members

Fixed Frame

9 10

FORMATION & SHAPING OF WOOD BLOCKS FragmentatioN: HORIZONTAL AND VERTICAL INCISIONS

5.0mm SS threaded rod to fix all layers together

SS anchor bolts to mount transparent glass to timber 12,0mm transparent, low reflectivity glass

VERTICAL INCISION: CONSTRUCTION OF REMOVABLE MEMBERS PLAN VIEW

5.0mm hex nut to lock all layers

WORKING DIAGRAM Shaping of Module

15mm dia. G316 stainless steel plain finish sqaure nut 15mm dia. G316 stainless steel threaded rod bar into drilled holes Overlapping layers

Slot to lock module from next row

Iterative Model 003 Tentative Fixings: Development from Model 001

Slot to lock module from next row

ONE MODULE Render w./ Complete Module

1:10 DETAILS (ELEVATION)

Finalised Joining Method: Assemblage of fragments

M-01 Final Screen Module M-02 Internal Wall Module M-03 Unapplied Design

Render w./ Members Removed

Iterative Model 001 Facade w./ Removable Blocks i. static wall ii. removable components - push and pull from both sides - removable members at the centre - unveil both sides at the same time

M-01

Iterative Model 002 Internal Walls (High/Low)

ITERATIVE MODEL 004

2a. Hinged Low Walls i. on-grid [max.] 90 degrees rotation 2b. Unhinged High Walls i. off-grid 360 degrees rotation ii. pushed against void boundary for upper floor wall interaction - 90 degrees rotation - hinged on either side of the block - opening and closing at both faces - hollow core; non-removable members

M-02

FURTHER DEVELOPMENT ON PRACTICALITY/GLAZING FOR ITERATIVE MODEL 003: - to protect artwork from damage - to keep the weather out * not applied to design project due to failure to achieve design objective of having members being removed from both sides for dual-interaction, not one.

M-03

[Extension of Art Gallery of New South Wales]

Iterative Model 001, 002 & 003 Exploration of Materials and Joinery System

DIFFERENT PROJECT MATERIALS w/ SIMILAR METHODS: LAYERING & STACKING

PERSPEX (GLASS)

REAL-LIFE PROJECT MATERIAL: TIMBER (RED WESTERN CEDAR)

01

04 LAYERING OF DIFFERENT MATERIALS: 01. PERSPEX (GLASS) Opportunities: distortion as visual effects; can be stained in different colours Limitations: transparency/translucency revealing interior space; glasshouse effect; disturbing reflectivity

PLYWOOD (TIMBER)

02

05

02. PLYWOOD (TIMBER) Opportunities: lightweight (removable members); different grain pattern on surface; natural colour; solid/opaque (obstructing views as desired for the design project) Limitations: introduction of new material to existing works of the site and its urban fabric (concrete and brickwork) 03. CORRUGATED CARDBOARD (CERAMIBOARD) Opportunities: rawness of material; lightweight Limitations: perforated; not a common building product * Ceramiboard is a carboard-based product being hardened and stiffened by a mix of chemicals.

CORRUGATED CARDBOARD (CERAMIBOARD)

03 SKETCH MODELS Exploring different material properties

06 1:10 WORKING MODELS 6.0mm Plywood

USING MATERIAL TO EXPLORE DIFFERENT FORMS OF A SINGLE MODULE 04. Timber frame. 05. Timber frame with hollow core (removable members at sides). 06. Timber frame with solid core (removable members at the centre).

21

1:5 Screen Prototype

DA DOCUMENTATION

Tutor: Brent Trousdale

[Addition and Alteration]

43 Macdonald Street, Erskineville NSW 2043 DESIGN DIAGRAMS SELECTED DA SET DRAWINGS 01 02 03 04 05

Ground Floor Plan First Floor Plan Section A Section B Shadow Diagrams

INTERIOR PERSPECTIVES

Transformed Terrace Streetview

[Addition & Alteration 43 Macdonald Street Erskineville]

Conceptual Thinking Design Diagrams

Living Resting Cleaning Conceptual - Incisions

Circulation - Open & Enclosed Spaces

Working

Function - Spatial Arrangement

Opening - Cross-ventilation

DESIGN DIAGRAMS

24

Planting Schedule Qty 50 43

Pot Size 200mm 150mm

balcony rl 11.52

Common Name Weeping Dwarf Lilly Pilly Dwarf Osmanthus

8 x Osmanthus (heavan sent)

TWO-STOREY WEATHERBOARD RESIDENCE

3,000

ridge rl 15.60

TWO-STOREY BRICK RESIDENCE METAL ROOF NO. 41

2,300

0.3/12/8

950

0.1/4/8

900

2m high fence

top of gutter rl 14.74

ridge rl 15.30

METAL ROOF SINGLE STOREY

top of gutter rl 10.68

16 x Xsyzyium 'cascade' (weeping dwarf lilly pilly)

0.3/8/10

balcony rl 11.53

15 x Osmanthus (heavan sent)

8 x Osmanthus (heavan sent)

top of gutter rl 13.91

B

Botanical Name Xyzygium ‘Cascade’ Osmanthus ‘Heaven Sent’

W4

D5 0.2/8/10

DINING ROOM

43 DP 1110472 244.2sqm by calc.

D8

LIVING ROOM

W

D7

DR

LAUNDRY/STORAGE

960

BEDROOM 1

D2

BATHROOM 2

A

D1

retained door

new verandah rl 8.77 similar to existing ffl rl

18

17

16

15

14

13

12

4180

existing setback 3030

roof rl 16.48

1

2

3

4

5

6

7

8

D3

W6

300mm cavity brick wall rendered with paint on both sides

W2

18 x 192 = 3,460

11

370

1,000

W3

13 x Xsyzyium 'cascade' (weeping dwarf lilly pilly)

W1 retained window

D4

BATHROOM 1

110mm single brick partition rendered with paint

TWO-STOREY BRICK RESIDENCE METAL ROOF NO. 45 head 14.01

01

top of gutter rl 14.31

sill 12.63 head 14.00

ridge rl 17.99

balcony rl 11.86

8 x Xsyzyium 'cascade' (weeping dwarf lilly pilly)

ridge rl 18.35

12 x Osmanthus (heavan sent)

roof rl 16.04

B

Timber stairs w/ 18 threads: - polished Blackbutt timber threads and risers [rising: 192mm; going: 244mm] - 12mm thick/1000mm height clear toughened glass balustrades mounted with stand-off bolts - 50mm polished pine dowel handrail

MACDONALD ST REET

A

9

10

D6

verandah rl 8.60

Treated pine deck for steps leading to backyard Rising: 172mm; Going:250mm

F

KITCHEN

boundary line

Floor area extension: timber strip flooring nailed to old timber strip flooring over joists

New verandah: treated pine decking Incision to improve light penetration/ventilation: existing floor demolished to be replaced by treated pine decking

existing setback 4540

new verandah rl 8.60

W5

12 x Xsyzyium 'cascade' (weeping dwarf lilly pilly)

top of gutter rl 14.48

3020

10680

exg ffl rl 8.77

brick wall

2120

balcony rl 11.64

sill 12.63 head 14.00

TWO-STOREY BRICK RESIDENCE METAL ROOF

Proposed Ground Floor Plan [1:100]

Legend

43 MACDONALD STREET ERSKINEVILLE

Rev

Date

Description

Drawn

Project No Stage

Measured Drawing

Drawn

SY WONG

Checked

Scale

1:100 at A3

Date

Drawing

Proposed Grd. Floor Plan

13.10.2014

balcony rl 11.52

3000

2m high fence

balcony rl 11.53

11700

1340

0.3/12/8 0.1/4/8

existing setback 4540

950

640

balcony rl 12.25

D11 0.2/8/10

W10

RECREATIONAL SPACE

D12

New balcony - treated pine decking - 1000mm height treated pine balusters - 50mm dowel treated pine handrail

7

D14

Overhead fixed clerestories [refer window schedule W8]

WORKING SPACE

pitch 1 deg.

ADDITION Metal roofing profile [R-value: 1.5; SRI: 85]

balcony rl 12.06

4000 18

17

16

15

top of gutter rl 11.69

14

12

W7 retained window

BEDROOM 2 BATHROOM 2

D13

960

D9

110mm single brick partition Timber stairs w/ 18 threads: rendered with paint - polished Blackbutt timber threads and risers [rising: 192mm; going: 244mm] - 12mm thick/1000mm height clear toughened glass balustrades mounted with stand-off bolts - 50mm polished pine dowel handrail

roof rl 16.04

ridge rl 17.99

TWO-STOREY BRICK RESIDENCE METAL ROOF NO. 45 head 14.01

01

Proposed First Floor Plan

balcony rl 11.86

sill 12.63 head 14.00

top of gutter rl 14.31

Balustrades: 12mm thick/1000mm height clear toughened glass panels anchored with stand-off bolts

B

300mm cavity brick wall rendered with paint on both sides

ridge rl 18.35

370

8

11

W6

A

W8

18 x 192 = 3,460

4300

43 DP 1110472 244.2sqm by calc.

13

A

9

10

demolished single storey metal roof

existing setback 3030

roof rl 16.48

W9

MACDONALD ST REET

Floor area extension: timber strip flooring nailed to old timber strip flooring over joists

D10

balcony rl 12.25

Overhead fixed clerestories [refer window schedule W10]

top of gutter rl 14.48

1850

balcony rl 11.64

top of gutter rl 14.74

top of gutter rl 10.68

ridge rl 15.30

TWO-STOREY WEATHERBOARD RESIDENCE

top of gutter rl 13.91

B

TWO-STOREY BRICK RESIDENCE METAL ROOF NO. 41

0.3/8/10

sill 12.63 head 14.00

TWO-STOREY BRICK RESIDENCE METAL ROOF

[1:100]

Legend

43 MACDONALD STREET ERSKINEVILLE

Rev

Date

Description

Drawn

Project No Stage

Measured Drawing

Drawn

SY WONG

Checked

Scale

1:100 at A3

Date

Drawing

Proposed 1st Floor Plan

13.10.2014

Roof [SRI:85] - timber-framing: structural LVL pine rafter - metal roofing: Stratco Cooldeck cret-fixed to timber rafter w/ screws - insulation: 1.5 R-value; 75mm thick - ceiling lining: polished Western Red Cedar boards

max building height 9.0m

parapet rl 17.23

New balcony - treated pine decking - 1000mm height treated pine balusters - 50mm dowel treated pine handrail

620

roof rl 16.50

top of gutter rl 15.38

W10

WORKING SPACE

top of gutter rl 14.89

720

roof rl 16.71

370

W9 D11

BEDROOM 2

RECREATIONAL SPACE

6120

6620

exg first floor ffl rl 12.25

W4

exg ground floor ffl rl 8.77

D2

DINING ROOM KITCHEN

Balustrades: 12mm thick/1000mm height clear toughened glass panels anchored with stand-off bolts

01

Section A

Timber stairs w/ 18 threads: - polished Blackbutt timber threads and risers [rising: 192mm; going: 244mm] - 12mm thick/1000mm height clear toughened glass balustrades mounted with stand-off bolts - 50mm polished pine dowel handrail

LIVING ROOM

boundary

boundary

Treated pine deck for steps leading to backyard Rising: 172mm; Going:250mm

W2

W3

W5

7,940

1,280

7,730

2440

2080

BEDROOM 1

Incision to improve light penetration/ventilation: existing floor demolished to be replaced by treated pine decking 300mm cavity brick wall rendered with paint on both sides

[1:100]

Legend

43 MACDONALD STREET ERSKINEVILLE

Rev

Date

Description

Drawn

Project No Stage

Measured Drawing

Drawn

SY WONG

Checked

Scale

1:100 at A3

Date

Drawing

Section A

13.10.2014

Roof [SRI:85] - timber-framing: structural LVL pine rafter - metal roofing: Stratco Cooldeck cret-fixed to timber rafter w/ screws - insulation: 1.5 R-value; 75mm thick - ceiling lining: polished Western Red Cedar boards

WORKING SPACE

D12

New balcony - treated pine decking - 1000mm height treated pine balusters [central spacing 200mm] - 50mm dowel treated pine handrail

D14

RECREATIONAL SPACE

7440

D13

roof section rl 16.21

640

BATHROOM 3

300mm cavity brick wall rendered with paint on both sides

max building height 9.0m

6120

exg first floor ffl rl 12.25

110mm single brick partition rendered with paint

W4

retained wall: new window installed boundary

exg ground floor ffl rl 8.77

D6

DINING ROOM

boundary

LIVING ROOM

W6

Timber stairs w/ 18 threads: - polished Blackbutt timber threads and risers [rising: 192mm; going: 244mm] - 12mm thick/1000mm height clear toughened glass balustrades mounted with stand-off bolts - 50mm polished pine dowel handrail

01

Section B

[1:100]

Legend

43 MACDONALD STREET ERSKINEVILLE

Rev

Date

Description

Drawn

Project No Stage

Measured Drawing

Drawn

SY WONG

Checked

Scale

1:100 at A3

Date

Drawing

Section B

13.10.2014

21st June 9am

01

21st June 12pm

21st June 3pm

Shadow Diagram [1:100]

Legend

43 MACDONALD STREET ERSKINEVILLE

Shadow casted by proposed development Shadow casted by existing dwelling Overlapping shadow Rev

Date

Description

Drawn

Project No Stage Drawn

SY WONG

Checked

Scale

-

Date

Drawing

Shadow Diagrams

13.10.2014

Living Spaces Lower Level

Recreational Space Upper level