PORT FOLIO ARCHITECTURE
JJ DAVIS 2021-2023
As an Architectural Technologist student at George Brown College, I am seeking opportunities to apply my passion for the field, strong work ethic, excellent communication and time management skills, and proficiency in computer programs. I aim to contribute to a company’s success by leveraging my abilities and making a positive impact. With a track record of dedication and a commitment to excellence and recognized by my peers for my hard work and reliability, I am eager to leverage my abilities to make a positive impact in the industry.
George Brown College
Diploma of Architectural
Work/Study Student
George Brown College, Toronto ON
Jun 2022 - Apr 2023 Innovation Spotlight Awards - CanBIM
•Planned and completed group projects, working smoothly with others
•Advanced research by organizing data, generating spread sheets and draftingreports
•Coordinated project files to support projects and enhance team success
•Assembled laser engraving machines for educational purposes
Sales/Corporate Store Keyholder
•Delivered excellent customer service and adhered
•Processed daily paperwork, balanced register drawers, produced staffing schedules and prepared deposits
•Balanced sales, reconciled cash and made bank deposits to facilitate opening and closing duties
•Enhanced customer satisfaction and store operations through relationship building and daily problem-solving
ASE Camp, Toronto ON Jul 2016 - Aug 2016 Jul 2015 - Aug 2015
•Trained and mentored associates to teach daily tasks and procedures.
D
A V I S ARCHITECTURAL TECHNOLOGIST J J
A B O U T M E C O N T A C T I N F O R M A T I O N TORONTO, ON M5A4P9 JOELDAVIS123456@GMAIL.COM (416)-833-6526 /JJDAVIS05 S K I L L S Critical Thinking Time Management Adaptability Microsoft Office AutoCAD SketchUp Autodesk Revit A W A R D S George Brown College Dean’s Honors List, Fall 2021 | 3.79 GPA Central Toronto Academy Mathematics Award H. Marie Smibert English Scholarship Dean’s Honors List, Winter 2022 | 3.86 GPA Dean’s Honors List, Winter 2023 | 3.95 GPA E D
O N
U C A T I
Technology
2021 - Present
Graduation Date
Apr 2024 Central Toronto Academy Ontario Secondary School Diploma Completed fifth year to further studies (2021) Sep 2016 - Jun 2020 V O L U N T E E R W O R K E X P E R I E N C E
Sep
Expected
-
ON
Bulk Barn, Toronto
to
standard practices to maximize sales and minimize shrinkage
Aug 2018 - Apr 2022
Building Transformations, Toronto ON Dec 2022
City of Toronto
4 RESIDENTIAL DESIGN RETAIL DESIGN PARAMETRIC DESIGN INDUSTRIAL DESIGN RESIDENTIAL DESIGN 12 18 20 24 CONTENTS RESIDENTIAL DESIGN 30 EDUCATIONAL DESIGN 44
RESIDENTIAL DESIGN
SPRING 2023 | SEMESTER FIVE
PROFESSOR
MARLENE SLOPACK
ARCHITECTURAL TECHNOLOGY & STUDIO 5
CONCEPT STATEMENT
The name of our building is Cascade Heights on the Lake and it was designed in a way that blends the functionality, the aesthetic, and the vibrant community experience together. We went with the concept of architectural cascading, which gives off a sort of natural appeal, while also maximizing the natural lighting and visual attraction of it.
Aside from the exterior of the building, our building has a range of community spaces, amenities, and many residential suites. Our lobby welcomes people with many retail units, which creates a lively shopping and eating place. On the second floor, there is an amenities space, where there is a spacious area filled with a mix of retail units and a variety of activities and relaxation spots. From party rooms, to game rooms (screen golf, poker, table tennis, pool), a fitness center with a view of the lake, and a movie room, the amenities floor sort of acts as a hub, which will allow for residents to socialize and enjoy many activities within the comfort of their community.
Overall, this Lexus dealership has a goal of meeting the sustainable needs, maximizing the use of curtain walls for natural lighting, and slanted overhang roofs for interior shading, while continuing to maintain the unique design approaches that follow with Lexus dealerships around the world.
GROUND FLOOR PLAN
AMENITIES FLOOR PLAN
TYPICAL SUITE FLOOR
RESIDENTIAL AREA
MAILROOM - 24m²
PROPERTY MANAGEMENT OFFICE - 21m²
UNIVERSAL WASHROOM - 12m²
LOBBY - 23m²
VESTIBULE - 11m²
24H CONCIERGE - 20m²
CENTRAL ALARM AND CONTROL FACILITY - 14m²
ELECTRICAL ROOM - 18m²
MOVING ROOM - 26m²
GARBAGE TRUCK ENTRANCE - 65m²
GARAGE ROOM RESIDENTIAL/RETAIL - 48m²
LOBBY 2 - 60m²
AMENITIES
BILLIARD ROOM - 123m²
ELECTRICAL CLOSET - 22m²
FITNESS CENTER - 231m²
JANITOR - 31m²
LIBRARY - 140m²
MOVIE ROOM - 76m²
PARTY ROOM 1 - 131m²
PARTY ROOM W/ BALCONY - 147m²
POKER ROOM - 107m²
SCREEN GOLF ROOM - 171m²
TABLE TENNIS ROOM - 151m²
YOGA ROOM - 61m²
TYPICAL SUITES
BARRIER-FREE SUITES
2 BEDROOM UNIT - 81m²
ASSISTED STUDIO UNIT - 75m²
ASSISTED 2 BEDROOM UNIT (1) - 106m²
ASSISTED 2 BEDROOM UNT (2) - 97m²
ASSISTED 1 BEDROOM W/ DEN UNIT - 70m²
STUDIO UNIT - 59m²
3 BEDROOM UNIT - 127m²
1. 2. 3. 4. 5. 6.
7. 8. 9. 10. 11. 12. 3 2 1 4 12 7 6 9 10 11 8 5
1. 2. 3. 4. 5. 6.
7. 8. 9. 10. 11. 12. 3 2 1 4 12 7 6 9 10 11 8 5
1. 2. 3. 4. 5. 6.
7.
3 2 1 4 7 6 5
SITE PLAN
ASSISTED 2 BEDROOM UNIT (1) - 106m²
ASSISTED 1 BED W/ DEN UNIT - 70m²
3 BEDROOM UNIT - 127m²
STUDIO UNIT - 59m²
AMENITIES BALCONY RENDERING
SOUTH ELEVATION NORTH ELEVATION
WEST ELEVATION
EAST ELEVATION
ENVIRONMENTAL BUILDING SECTION W/ BUILDING FEATURES
LEXUS CAR DEALERSHIP
PROFESSOR BRENTWOOD JOLLEY RETAIL DESIGN
WINTER 2023 | SEMESTER FOUR
ARCHITECTURAL TECHNOLOGY & STUDIO 4
Our Lexus Car Dealership has a focus on creating a warm and welcoming environment while continuing to incorporate the unique style that Lexus dealerships portray. The concept for the renovation of this dealership is to intertwine a newly-designed building with an already existing service/fast lane area. We aim to maintain the passion we have for the brand by containing the Lexus logo into the columns and the roof of the charging station.
Our dealership would like to capitalize on the location of the area. Being located off a main arterial road, we will make use of slanted roofs that hang over the building, as well as eye-catching columns and, all designed with various materials and textures. This idea would help draw more attention from drivers and passersby in the area.
The dealership is also designed with a layout hierarchy, which allows customers to walk around and smoothly flow through the building. The showroom for new vehicles is in a prominent space with the pre-owned vehicle showroom adjacent to that area, having the staff area in the rear of the building. This design will allow for people to efficiently maneuver through the dealership.
Overall, this Lexus dealership has a goal of meeting the sustainable needs, maximizing the use of curtain walls for natural lighting, and slanted overhang roofs for interior shading, while continuing to maintain the unique design approaches that follow with Lexus dealerships around the world.
CONCEPT STATEMENT
LOT 8 CONCESSION 2023 WEST OF ARCH2005 STREET ZONING DESIGNATION: GC - CITY OF VAUGHAN BY-LAW 001-2021 PROPERTY LINE 99.88m N86° 52' 16"E PROPERTY LINE 130.19m N9° 16' 59"W PROPERTY LINE 85.04m N81° 4' 37"E PROPERTY LINE 69.58m N10° 36' 29"W PROPERTYLINE 52.87m N8°3'22"E BRIDGEMAN AVENUE MACKEL ROAD KENDAL STREET EXISTING EXTENDED SERVICE WORKSHOP EXISTING VEHICLE DROPOFF & FASTLANE SERVICE PROPOSED BUILDING CHARGING STATION 8 12 36 5 24 6000 11 4.5m SETBACK 4.5m SETBACK 4.5m SETBACK 2600 6000 3900 14 6000 15 9 PROPOSED BUILDING PROPOSED BUILDING SECOND FLOOR ONLY www.autodesk.com/revit Scale Checked by Drawn by Date Project number Consultant Address Address Phone Fax e-mail Consultant Address Address Phone Fax e-mail Consultant Address Address Phone Fax e-mail Consultant Address Address Phone Fax e-mail 1 : 300 2023-06-13 1:26:13 AM Site 0001 Automotive Dealership Owner Apr 12 Author Checker K9 No. Description Date 300 GROUND FLOOR PLAN SECOND FLOOR PLAN SITE PLAN
EAST ELEVATION
SOUTH ELEVATION
WEST ELEVATION
NORTH ELEVATION
ARCHITECTURAL DESIGN DETAILS
L-SHAPED COLUMN SUPPORTING ENTRANCE CANOPY
NEW VEHICLE SHOWROOM WITH ACOUSTIC BOARD CEILING TILES AND SUN-BLOCK BLINDS
EXTERIOR L-SHAPED SLANTED COLUMN LEXUS-BRANDED CHARGING STATIONS WITH L-SHAPED COLUMNS
ADDITIONAL RENDERINGS
PRE-OWNED VEHICLE SHOWROOM SPACE WITH STAIRWAY TO SECOND FLOOR OFFICE AREA
NEW VEHICLE SHOWROOM FROM SECOND FLOOR
SECOND FLOOR OVERHAND VIEW FROM NEW VEHICLE SHOWROOM
DYNAMO RENDER
PARAMETRIC DESIGN
SPRING 2023 | SEMESTER FIVE
CONCENTRATIONS IN COMPUTATIONAL DESIGN 1
PROFESSOR HODA GANJI, PHD.
DYNAMO PARAMETRIC DESIGN SCRIPT
EXTERIOR RENDERING
DETACHED RESIDENTIAL HOUSE
RESIDENTIAL DESIGN
WINTER 2022| SEMESTER TWO
ARCHITECTURAL TECHNOLOGY & STUDIO 2
CONCEPT STATEMENT
PROFESSOR(S) JENNIFER ZAND GIANNI REGINA
This project was a residential detached house that embodied relaxation and charm. Its inviting brick and stone facade blended ikn with the surrounding neighborhood while also complying with the Ontario Building Code regulations. This concept provided residents with a peaceful and tranquil space to unwind. Through its thoughtful layout, abundant natural light, and carefully chosen materials, this residential home offered a spacewhere residents can find rejuvenation in the comfort of their own home.
LOCATION: TORONTO, CANADA
TYPE: RESIDENTIAL-DETACHED UNIT
UNIT: 178m²
REAR DECK
KITCHEN / EAT-IN FAMILY ROOM
DINING ROOM POWDER ROOM
LIVING ROOM RENDERING
STAIRS UP STAIRS DOWN FRONT
DECK
LIVING ROOM
STAIRS DOWN BATH BEDROOM
MASTER BEDROOM LAUN LINEN WIC ENSUITE BEDROOM
FIRST & SECOND FLOOR BUBBLE DIAGRAMS
1
2
BEDROOM 2
AXONOMETRIC 3D RENDERING
BEDROOM 1
DINING ROOM
LIVING ROOM
FRONT PORCH
WALKWAY
AXONOMETRIC EXPLODED VIEW
MASTER ENSUITE
MASTER BEDROOM
REAR DECK
REAR DECK
ROOM 1
ROOM 1 REC ROOM 2
2
MECHANICAL ROOM F HWT REC ROOM 1 PLAY ROOM 1 REC ROOM 2
ROOM 1
DW R
DW R
MECHANICAL ROOM F HWT
MECHANICAL ROOM F HWT
LIVING ROOM BATH
LIVING ROOM
REAR DECK DW R LIVING ROOM
DINING ROOM
DINING ROOM
KITCHEN / EAT-IN
KITCHEN / EAT-IN FAMILY ROOM
DINING ROOM
FAMILY ROOM
LAUNDRY LINEN KITCHEN / EAT-IN
POWDER ROOM
POWDER ROOM
POWDER ROOM
LIVING ROOM
LIVING ROOM
LIVING ROOM
FRONT DECK
FRONT DECK
FRONT DECK
BEDROOM 2 WIC
BEDROOM 2 WIC
BEDROOM 2 WIC
ENSUITE
LAUNDRY LINEN
BEDROOM 1
BEDROOM 1
BEDROOM 1
MASTER ENSUITE MASTER BEDROOM BATH
BATH
REC
PLAY
MASTER
MASTER
BEDROOM BATH
FAMILY ROOM
PLAY
BATH
REC ROOM 1
REC ROOM
MASTER
MASTER
ENSUITE
BEDROOM BATH
1.25 2.5 5 10 m 0 BASEMENT PLAN FIRST FLOOR PLAN SECOND FLOOR PLAN
LAUNDRY LINEN
SOUTH ELEVATION WEST ELEVATION
NORTH ELEVATION
1.25 2.5 5 10 m 0
EAST ELEVATION
HILLCREST NATURE
EDUCATIONAL DESIGN
FALL 2022 | SEMESTER THREE PROFESSOR CORBIN PATTEN
ARCHITECTURAL TECHNOLOGY & STUDIO 3
CENTRE
CONCEPT STATEMENT
The proposed sustainable nature center is designed to provide visitors with a unique and immersive experience in a natural environment, while also minimizing the center’s impact on the environment. To achieve this, the center will incorporate a range of sustainable materials and technologies, in-cluding monocrystalline solar panels to generate renewable energy, a rainwa-ter harvesting system to collect and reuse water, denim insulation to improve energy efficiency, maple wood exterior cladding to provide a natural and durable exterior finish, and heated floors powered by the photovoltaic systems to keep visitors comfortable. The center will also feature a green roof planted with Kentucky bluegrass, a low-maintenance and drought-resistant grass that helps to regulate temperature and reduce stormwater runoff. This green roof will not only provide a natural and attractive aesthetic, but it will also help to insulate the building and improve its overall energy.
ENTRY FOYER VESTIBULE UNIV. WASH GALLERY SPACE K’ETTE GEN. STORAGE MECH. ROOM EXT. COVERED AREA LEARNING SPACE SUPPLIES STOR. BUBBLE DIAGRAM
GALLERY SPACE RENDER
radiant floor heating (hydronic)
watts canada's Hydronic subfloor heating is a type of radiant heating system that uses hot water to heat a space. The hot water is circulated through pipes that are embedded in the subfloor, which then radiates heat up into the room. This type of heating system is energy efficient and provides a comfortable, even heat throughout the space. It is also relatively quiet and can be used in combination with other heating systems, such as forced air or baseboard heating.
learning space 198 sq. ft gallery space 155 sq. ft mech./util. room 24 sq. ft hwt general storage 9.75 sq. ft universal washroom 46.25 sq. ft kitchenette 20 sq. ft entry foyer 46.75 sq. ft vestibule 24 sq. ft supplies storage 29 sq. ft exterior covered area 80 sq. ft rainwater tank
3.13 6.25 12.5 25 ft 0
FLOOR PLAN
NORTH ELEVATION
SOUTH ELEVATION
EAST ELEVATION
WEST ELEVATION
BUILDING SECTION
Rainwater harvesting is a sustainable practice that involves collecting and storing rainwater for later use. This can be done using a variety of systems and technologies, such as rain barrels, cisterns, and underground storage tanks. Rainwater harvesting systems are considered sustainable because they can help reduce reliance on treated municipal water, lower overall water usage, and prevent water pollution. These systems can also be bene-ficial during times of drought, as they can help reduce the strain on local water sources. water harvesting is a sustainable practice that can provide many benefits for individuals, communities, and the environment
Passive solar design uses the natural heating, cooling, and lighting properties of the sun to create a comfortable and energy-efficient living space. It takes advantage of the sun’s position in the sky and the natural heat-absorbing and heat-releasing properties of building materials to regulate the temperature inside a building without the need for mechanical systems. This helps to reduce energy use and save money on heating and cooling costs. Some common features of passive solar design include south-facing windows, thermal mass materials, and shading devices.
RAINWATER HARVESTING SYSTEM
PASSIVE SOLAR DESIGN
materials and specifications
woodsafe pro
maple wood exterior cladding
hydronic floor heating system watts canada
bluetti
monocrystalline solar panels
recycled denim insulation ultrasound
black aluminum exterior door teza doors
type ultrasound rainwater harvesting tank watts canada
Hillcrest Community school nature centre
kentucky bluegrass
Kentucky bluegrass is a sustainable choice for green roofs because it is hardy and lowmaintenance, and has a deep root system that helps to anchor the soil and prevent erosion. Green roofs are sustainable because they reduce stormwater runoff, reduce the urban heat island effect, and provide habitat for plants and animals. They can help to improve air quality, reduce energy use, and provide a unique and attractive space for people to enjoy.
radiant floor heating (hydronic)
passive solar design
Passive solar design is a type of building design that uses the natural heating, cooling, and lighting properties of the sun to create a comfortable and energyefficient living space. Passive solar design takes advantage of the sun's position in the sky and the natural heat-absorbing and heat-releasing properties of building materials to regulate the temperature inside a building without the need for mechanical systems. This can help to reduce energy use and save money on heating and cooling costs. Passive solar design can be applied to new or existing buildings, and can be incorporated into a variety of building types, including homes, offices, and schools. Some common features of passive solar design include south-facing windows, thermal mass materials, and shading devices.
monocrystalline solar panels
monocrystalline solar panels generate very little waste, and have a long lifespan, which means that they can be used for many years before needing to be replaced. using solar panels to generate electricity can help reduce our dependence on fossil fuels, which are a major source of greenhouse gas emissions and contribute to climate change. Using renewable energy sources like solar power can help reduce our overall carbon footprint and make a positive contribution to the environment.
woodsafe pro maple exterior cladding
Rainwater harvesting is a sustainable practice that involves collecting and storing rainwater for later use. This can be done using a variety of systems and technologies, such as rain barrels, cisterns, and underground storage tanks. The collected rainwater can be used for a variety of purposes, including irrigation, washing, and even drinking water, depending on the quality of the collected water and the treatment it receives. Rainwater harvesting systems are considered sustainable because they can help reduce reliance on treated municipal water, lower overall water usage, and prevent water pollution. These systems can also be beneficial during times of drought, as they can help reduce the strain on local water sources. Overall, rainwater harvesting is a sustainable practice that can provide many benefits for individuals, communities, and the environment.
Sustainability is an important consideration when choosing materials for building construction. Maple wood is considered to be a sustainable choice for wood cladding due to several factors. One of the key factors is that maple is a fast-growing species of tree, which means that it can be sustainably harvested without causing significant damage to the environment. In addition, maple wood is durable and long-lasting, which means that it can be used for a long time before it needs to be replaced.
black aluminum framed doors
Black aluminum framed doors are a sustainable choice for this building, due to the fact that they are made from a durable material that is recyclable and can be reused. Additionally, they are energy efficient, as they help to keep the temperature inside the building regulated and reduce the need for additional heating or cooling
Grade
and other areas where
and more
Kentucky bluegrass is a sustainable choice for green roofs because it is hardy and low-maintenance, and has a deep root system that helps to anchor the soil and prevent erosion. Green roofs are sustainable because they reduce stormwater runoff, reduce the urban heat island effect, and provide habitat for plants and animals. In addition to its environmental benefits, Kentucky bluegrass is also popular on green roofs because it is aesthetically pleasing and can provide a pleasant and inviting space for building occupants and visitors. They can help to improve air quality, reduce energy use, and provide a unique and attractive space for people to enjoy.
Denim insulation is a type of insulation material made from recycled blue jeans. It is often used as an alternative to traditional fiberglass insulation in residential
commercial buildings.
insulation
made
shredding
bonding
insulation
benefits
fire-resistant.
and
Denim
is
by
and chopping up old jeans and mixing the resulting fibers with a
agent to create a fluffy, fiber-like material that can be easily cut and installed in walls, ceilings,
is needed. It has a number of
over fiberglass insulation, including being more environmentally friendly, easier to work with,
denim insulation
grass
jj davis 101 360 588 toilet and sink pipes equipped with filtration system 80μ filter sand filter main concrete tank 80μ filter water tank water to flow freely through soil after a certain level, through filter and valve system pipes attached to hot water tank (Mech./Util. ROOM) water pump pipe connected from above-ground rainwater holding tank Hydronic subfloor heating is a type of radiant heating system that uses hot water to heat a space. The hot water is circulated through pipes that are embedded in the subfloor, which then radiates heat up into the room. This type of heating system is energy efficient and provides a comfortable, even heat throughout the space. It is also relatively quiet and can be used in combination with other heating systems, such as forced air or baseboard heating.
rainwater harvesting system green roof
PRESENTATION BOARD
SINGLE STOREY WAREHOUSE
INDUSTRIAL DESIGN
PROFESSOR BRENTWOOD JOLLEY
WINTER 2023 | SEMESTER FOUR
ARCHITECTURAL TECHNOLOGY & STUDIO 3
W1 9” (229MM) PRECAST CONCRETE PANEL CURTAIN WALL SYSTEM (SANDWICH PANEL) W/ A 4” (100MM) LIGHT GREY GRANITE FINISHEXTERIOR, 2” (508MM) RIGID INSULATION, AND 3” (76.2MM) SMOOTH INTERIOR FINISH
W1 8” DEEP PREFINISHED ALUMINUM GLAZED CURTAIN WALL
W1 INSULATED METAL STUD CURTAINWALL CONSTRUCTION W/ 4” (100MM)TYPICAL STUD WALL BINDED BY VERTICAL STRAPPING, 2” (508MM) RIGID INSULATION, LIGHT STEEL STRUCTURE CAVITY FILLED W/ FIBREGLASS BATT INSULATION
WAREHOUSE RENDERING 3’ WIDE X 7’ HIGH STOREFRONT MAIN ENTRANCE DOOR 3’ WIDE X 7’ HIGH PEDESTRIAN MAN DOOR 12’ WIDE X 14’ HIGH DRIVE-IN DOOR 8’ WIDE X 10’ HIGH LOADING DOCK DOOR D1 D2 D4 D3 D5 D6 D7 3’ WIDE X 7’ HIGH INTERIOR SINGLE FLUSH DOOR 3’ WIDE X 6’-8” HIGH INTERIOR SINGLE FLUSH DOOR 6’ WIDE X 7’ HIGH INTERIOR DOUBLE FLUSH DOOR
DOOR SCHEDULE WALL SCHEDULE
NORTH STREET
95.00 S 16° 51 00" E 112.20 N 73° 09' 00" E 112.20 N 73° 09' 00" E 99.24 EXISTING PROPERTY LINE 95.00 S 16° 51 00" E 99.24 99.00 99.00 R 9.00 R 9.00 Center Line of Asphalt Road LANDSCAPED AREA 12.00 12.41 11.90 3.00 6.00 R 9.00 R 12.00 R 15.00 2.60 3.90 22 5 6.00 5 6.00 R 9.00 R 12.00 R 15.00 R 9.00 R 12.00 R 15.00 R 9.00 R 12.00 R 15.00 6.00 6.00 LANDSCAPED AREA PROP. NEW CURB PROP. NEW CURB LANDSCAPED AREA PROPOSED WAREHOUSE BUILDING 6.00 CONCRETE CURB 68.10 6.78 12.78 86.86 3.66 8.24 2.60 2.60 7.91 4.50 LANDSCAPED AREA LANDSCAPED AREA SIDEWALK SIDEWALK CONCRETE SIDEWALK 27.24 27.65 11.90 15.67 22.52 SITE PLAN 12.5 25 50 100 m 0
UP 1 2 3 4 5 6 7 8 8x A B C D E F H Hx Gx G 7x 1x Az 4x 5x 2.44 2.44 1.45 2.44 2.44 0.81 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 0.23 56.97 0.23 10.44 0.23 68.10 0.23 52.40 0.23 15.01 0.23 68.09 0.30 3.66 0.10 3.66 0.23 2.72 C1 C1 C1 C1 C1 C1 C1 C1 C1 C1 C1 C1 C1 C1 C1 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 C2 D2 D1 D2 D2 D2 D3 D3 D3 D4 D4 D4 D4 D2 D3 Ax Ay Bx WAITING AREA RECEPTION 0.23 33.03 0.20 20.78 0.20 32.00 ELEV. D3 7.29 8.18 8.81 8.76 8.76 8.76 8.76 7.95 2.72 4.57 4.01 4.75 5.11 0.58 3.07 3.66 70.94 D2 D2 D1 D1 VESTIBULE D2 STOR. WASHRM 29.40 0.91 11.42 1.01 2.17 1.01 11.42 0.91 28.41 0.41 10.86 10.86 10.86 10.86 10.86 10.86 10.86 10.03 0.21 8.89 1.97 5.07 5.79 4.92 5.94 5.65 5.21 10.03 86.05 LOBBY WASHRM WASHRM OFFICE SUPPLIES PHOTOCOPIER CONFRENCE ROOM KITCHENETTE OFFICE OFFICE OFFICE 54.52 0.91 2.00 OFFICE COMP. /SERV. EQUIPMENT WASHROOM WASHROOM PRODUCTION SHIPPING OFFICE OFFICE LUNCHROOM KITCHEN FIRST AID MAINTENANCE AREA 5.50 3.00 FORKLIFT CHARGING STATION 4 9.78 0.91 27.46 0.91 0.21 4.27 26.27 0.91 0.89 13.51 0.91 0.81 0.23 D4 D4 D4 D4 D4 OFFICE OFFICE OFFICE D4 D5 D5 D5 D4 D4 D4 D6 D6 D6 135m² D7 C1 C1 C1 C1 C1 C1 C1 C1 C1 C2 C1 C1 C1 C1 C2 C1 0.23 8.67 0.23 62.27 0.23 15.05 0.19 0.66 0.91 18.28 3.66 44.59 10.86 10.86 10.86 10.86 10.86 10.86 10.86 10.03 8.89 1.97 5.07 5.79 4.92 5.94 5.65 5.21 10.03 86.05 FORKLIFT CHARGING STATION 3 FORKLIFT CHARGING STATION 2 FORKLIFT CHARGING STATION 1 GROUND FLOOR PLAN 6.25 12.5 25 50 m 0
1 2 3 4 5 6 7 8 8x A B C D E F
Hx Gx G 7x 1x Az 4x 5x Ax Ay Bx RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 RD 0.10 0.42 10.86 10.86 10.86 10.86 10.86 10.86 10.86 10.03 8.89 5.07 4.92 5.65 10.03 0.42 8.76 8.76 8.76 8.76 8.81 8.18 7.29 7.95 7.95 4.57 4.75 0.58 3.07 3.66 0.42 10.86 10.86 10.86 10.86 10.86 10.86 10.86 10.03 86.05 0.42 0.42 7.95 7.29 8.18 8.81 8.76 8.76 8.76 8.76 0.41 7.95 4.57 4.75 0.58 3.07 3.66 ROOF PLAN 6.25 12.5 25 50 m 0
H
LOBBY/RECEPTION AREA RENDERING
NORTH ELEVATION
SOUTH ELEVATION
1 2 3 4 5 6 7 8 8x 7x 1x 4x 5x W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W2 W2 W2 W2 1 2 3 4 5 6 7 8 8x 7x 1x 4x 5x W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 1 2 3 4 5 6 7 8 8x 7x 1x 4x 5x W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W1 W2 W2 W2 W2 1 2 3 4 5 6 7 8 8x 7x 1x 4x 5x W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3 W3
BUILDING CROSS-SECTION
A B C D E F H Hx Gx G Az Ax Ay Bx MEZZ. OFFICES RCPT. VEST. OFFICE
DN 8 8x E F G 7x 14.85 9.00 1.22 1.54 0.92 1.34 1.81 1.34 0.92 1.69 0.92 0.54 1.10 2.02 2.23 0.92 0.60 0.92 0.30 0.92 0.62 0.92 3.50 4.79 4.26 3.50 5.60 4.92 4.47 3.17 3.17 4.47 1.22 2.01 0.86 0.26 0.86 2.11 FIRST AID OFFICE OFFICE OFFICE OFFICE OFFICE OFFICE MAINTENANCE AREA 3.71 3.81 3.71 3.81 4 5 6 A B Az 4x 5x Ay Bx 5.07 4.92 5.07 5.79 4.92 5.94 3.08 0.60 4.39 1.01 2.17 1.01 4.28 0.71 3.11 3.32 0.91 WAITING AREA RECEPTION ELEV. VESTIBULE STOR. WASHRM LOBBY WASHRM WASHRM OFFICE SUPPLIES & PHOTOCOPIER CONFRENCE ROOM KITCHENETTE OFFICE OFFICE OFFICE OFFICE OFFICE 0.91 0.91 0.91 1.47 0.91 1.57 1.76 0.58 3.07 4.75 0.41 4.75 5.11 3.66 0.91 7.61 5.57 OFFICE OFFICE OFFICE 0.30 1.09 1.05 1.05 0.39 1.22 0.39 2.43 0.20 0.59 0.64 1.83 1.23 1.90 1.22 0.10 0.92 0.20 0.91 2.49 0.40 0.91 0.50 2.15 2.04 2.44 3.03 1.90 0.54 0.92 0.54 0.91 3.94 1.70 1.60 4.24 0.10 2.30 0.10 2.47 0.10 2.30 0.20 2.52 1.22 2.52 2.52 0.80 0.91 1.58 0.91 1.58 0.91 0.70 0.91 4.95 2.59 3.682.29 5.00 2.97 2.33 4.28 0.20 3.84 D5 D5 D5 D5 D5 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D4 D1 D1
GROUND
GROUND FLOOR OFFICE CALLOUT
FLOOR WAREHOUSE CALLOUT
W410 X 60 STRUCTURAL BEAMS PLACED AT ROOF
W410 X 60 STRUCTURAL BEAMS PLACED AT ROOF
610MM DEEP OPEN WEB STEEL JOIST (OWSJ)
@ 6 -0" O/C SPANNING FROM GIRDER TO GIRDER
610MM DEEP OPEN WEB STEEL JOIST (OWSJ) @ 6 -0" O/C SPANNING FROM GIRDER TO GIRDER
203.2MM X WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING
203.2MM X 203.2MM WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING
9" (229MM) THICK REINFORCED CONCRETE SLAB ON GRADE
9" (229MM) THICK REINFORCED CONCRETE SLAB ON GRADE
GRANULAR FILL
GRANULAR FILL
PARAPET DETAIL ON NEXT PAGE
PARAPET DETAIL ON NEXT PAGE
4-PLY HOT ASPHALT AND GRAVEL ROOF SYSTEM 1/2" FIBREBOARD OVERLAY ON R36 POLYISOCYANURATE FOAM
INSULATION MECHANICALLY FASTENED TO CORRUGATED METAL DECK WITH FASTENERS & PLATE
4-PLY HOT ASPHALT AND GRAVEL ROOF SYSTEM 1/2" FIBREBOARD OVERLAY ON R36 POLYISOCYANURATE FOAM INSULATION MECHANICALLY FASTENED TO CORRUGATED METAL DECK WITH FASTENERS & PLATE
9" (229MM) PRECAST CONCRETE PANEL CURTAIN WALL SYSTEM (SANDWICH PANEL) W/ A 4" (100MM) LIGHT GREY GRANITE FINISH
EXTERIOR, 2" (508MM) RIGID INSULATION, AND 3" (76.2MM) SMOOTH INTERIOR FINISH
9" (229MM) PRECAST CONCRETE PANEL CURTAIN WALL SYSTEM (SANDWICH PANEL) W/ A 4" (100MM) LIGHT GREY GRANITE FINISH EXTERIOR, 2" (508MM) RIGID INSULATION, AND 3" (76.2MM) SMOOTH INTERIOR FINISH
EXTERIOR SEALANT WITH BACKING ROD
EXTERIOR SEALANT WITH BACKING ROD
GRADE
GRADE
10" (305MM) CONC. WALL
10" (305MM) CONC. WALL
14" THICK POURED TRENCH WALL BELOW GRADE AT EXTENDED TO 4 -0" (1.22M) BELOW FIN. EXT GRADE
14" THICK POURED TRENCH WALL BELOW GRADE AT PERIM., EXTENDED TO 4 -0" (1.22M) BELOW FIN. EXT GRADE
5 -0" DIA. (1.52M) REINFORCED
CONCRETE CAISSON FOUNDATION
EXTENDING TO 14 -0" (4.27M) BELOW GRADE
5 -0" DIA. (1.52M) REINFORCED CONCRETE CAISSON FOUNDATION EXTENDING TO 14 -0" (4.27M) BELOW GRADE
4-PLY HOT ASPHALT AND GRAVEL ROOF SYSTEM 1/2" FIBREBOARD OVERLAY ON R36 POLYISOCYANURATE FOAM
INSULATION MECHANICALLY FASTENED TO CORRUGATED METAL DECK WITH FASTENERS & PLATE
4-PLY HOT ASPHALT AND GRAVEL ROOF SYSTEM 1/2" FIBREBOARD OVERLAY ON R36 POLYISOCYANURATE FOAM INSULATION MECHANICALLY FASTENED TO CORRUGATED METAL DECK WITH FASTENERS & PLATE
203.2MM X 203.2MM WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING
203.2MM X 203.2MM WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING
610MM DEEP OPEN WEB STEEL JOIST (OWSJ) @ 6 -0" O/C SPANNING FROM GIRDER TO GIRDER
610MM DEEP OPEN WEB
STEEL JOIST (OWSJ) @ 6 -0" O/C SPANNING FROM GIRDER TO GIRDER
DRIVE-IN DOOR 12 -0" WIDE (3.66M) BY 14 -0" HIGH (4.27M)
DRIVE-IN DOOR 12 -0" WIDE (3.66M) BY 14 -0" HIGH (4.27M)
9" (229MM) THICK REINFORCED CONCRETE SLAB ON GRADE GASKET
9" (229MM) THICK REINFORCED CONCRETE SLAB ON GRADE GASKET
GRANULAR FILL
GRANULAR FILL
KEYED CONNECTION
KEYED CONNECTION
GRADE
GRADE
10" (305MM) CONC. WALL
10" (305MM) CONC. WALL
14" THICK POURED TRENCH WALL BELOW GRADE AT EXTENDED TO 4 -0" (1.22M) BELOW FIN. EXT GRADE
14" THICK POURED TRENCH WALL BELOW GRADE AT PERIM., EXTENDED TO 4 -0" (1.22M) BELOW FIN. EXT GRADE
5 -0" DIA. (1.52M) REINFORCED CONCRETE CAISSON FOUNDATION EXTENDING TO 14 -0" (4.27M) BELOW GRADE
5 -0" DIA. (1.52M) REINFORCED CONCRETE CAISSON FOUNDATION EXTENDING TO 14 -0" (4.27M) BELOW GRADE
A
KEYED CONNECTION
DOWEL
2 1x
GASKET
DOWEL
A
KEYED CONNECTION
DOWEL
2 1x
GASKET
DOWEL
PRECAST CONCRETE PANEL WALL SECTION PRECAST CONCRETE PANEL WALL MEETS DRIVE-IN DOOR WALL SECTION
WAREHOUSE INTERIOR RENDERING
9" (229MM) PRECAST CONCRETE PANEL CURTAIN WALL SYSTEM (SANDWICH PANEL) W/ A 4" (100MM) LIGHT GREY GRANITE FINISH EXTERIOR, 2" (508MM) RIGID INSULATION, AND 3" (76.2MM) SMOOTH INTERIOR FINISH
203.2MM X 203.2MM WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING
INSULATED METAL STUD CURTAIN WALL CONSTRUCTION W/ 4" (100MM) TYPICAL STUD WALL BINDED BY VERTICAL STRAPPING, 2" (508MM) RIGID INSULATION, LIGHT STEEL STRUCTURE CAVITY FILLED W/ FIBREGLASS BATT INSULATION STEEL PLATE
'C' CHANNEL HORIZONTAL SUPPORT
THREADED ROD WITH WASHERS AND NUTS
PLASTIC HORSESHOE SHIMS
EXTERIOR SEALANT W/ BACKING ROD AS PER MANUFACTURERS REQUIREMENTS
1 Gx 0.23 0.41 0.41
SLOTTED INSERT
METAL WALL MEETS PRECAST CONCRETE PANEL
EXTERIOR SEALANT W/ BACKING ROD AS PER MANUFACTURERS REQUIREMENTS
SLOTTED INSERT
PLASTIC HORSESHOE SHIMS
THREADED ROD WITH WASHERS AND NUTS
STEEL PLATE
ANGLE WITH SLOT
203.2MM X 203.2MM WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING
CURTAIN WALL TO STRUCTURAL FRAMING CONNECTION
9" (229MM) PRECAST CONCRETE PANEL
CURTAIN WALL SYSTEM (SANDWICH PANEL) W/ A 4" (100MM) LIGHT GREY GRANITE FINISH EXTERIOR, 2" (508MM) RIGID INSULATION, AND 3" (76.2MM) SMOOTH INTERIOR FINISH
1 A 0.02 0.23 0.23 0.41 0.41
TWO PRECAST CONCRETE PANELS MEET
4-PLY HOT ASPHALT AND GRAVEL ROOF SYSTEM 1/2" FIBREBOARD OVERLAY ON R36 POLYISOCYANURATE FOAM INSULATION
MECHANICALLY FASTENED TO CORRUGATED METAL DECK WITH FASTENERS & PLATE
610MM DEEP OPEN WEB STEEL JOIST (OWSJ) @ 6'-0" O/C SPANNING FROM GIRDER TO GIRDER
MEMBRANE ADHERED IN BONDING ADHESIVE 0.41
203.2MM X 203.2MM WIDE FLANGE COLUMNS ("I" COLUMNS) AT PERIMETETER WALL OF BUILDING 0.23
9" (229MM) PRECAST CONCRETE PANEL CURTAIN WALL SYSTEM (SANDWICH PANEL) W/ A 4" (100MM) LIGHT GREY GRANITE FINISH EXTERIOR, 2" (508MM) RIGID INSULATION, AND 3" (76.2MM) SMOOTH INTERIOR FINISH W410 X 60 STRUCTURAL BEAMS PLACED AT ROOF
A
CANT STRIP
PRECAST CONCRETE WALL MEETS PARAPET
4-PLY HOT ASPHALT AND GRAVEL ROOF SYSTEM 1/2" FIBREBOARD OVERLAY ON R36 POLYISOCYANURATE FOAM INSULATION
MECHANICALLY FASTENED TO CORRUGATED METAL DECK WITH FASTENERS & PLATE
MEMBRANE ADHERED IN BONDING ADHESIVE
610MM DEEP OPEN WEB STEEL JOIST (OWSJ) @ 6'-0" O/C SPANNING FROM GIRDER TO GIRDER
600MM X 1200MM COMPOUND ACOUSTIC CEILING TILES
MECHANICALLY FASTENED TO A CONCEALED SUSPENSION GRID
CANT STRIP
2" X 4" STUD WALL W/ R-22 FIBREGLASS BATT INSULATION
50MM X 150MM RECTANGULAR MULLION, TRANSITIONING VISION PANEL TO SPANDREL PANEL
Ax
GLAZED CURTAIN WALL MEETS PARAPET
RESIDENTIAL DESIGN
FALL 2021 | SEMESTER ONE
VISUAL COMMUNICATIONS 1
CONTAINER HOUSE
PROFESSOR SARAH LIPSIT
CONCEPT STATEMENT
This container house is a sustainable and affordable living solution that maximizes the potential of repurposed shipping containers. The design prioritizes functionality and comfort, with a layout optimized for efficient use of space and natural light. This house aims to create a modern and minimalist aesthetic that reflects the industrial roots of the containers, while also incorporating sustainable features. This container house is perfect for those who value both sustainability and affordability, without sacrificing style or comfort.
EXTERIOR RENDERING
SECOND FLOOR RENDERING STAIRS UP KITCHEN/ DINING LIVING ROOM FRONT PATIO ENTRY STAIRS DOWN SMALL OFFICE BEDROOM BATHROOM FIRST & SECOND FLOOR BUBBLE DIAGRAM
LIVING ROOM RENDERING
KITCHEN/DINING
FRONT PATIO
LIVING ROOM
BEDROOM SMALL OFFICE
STAIRS
STAIRS
UP
DOWN
PLAN
PLAN 1.88 3.75 7.5 15 ft 0 1.88 3.75 7.5 15 ft 0
BATHROOM FIRST FLOOR
SECOND FLOOR
SECOND FLOOR ROOF
BATHROOM
KITCHEN/DINING STAIRS
BEDROOM SMALL OFFICE SPACE
SOUTH ELEVATION
LIVING ROOM
NORTH ELEVATION
FRONT PATIO
EXPLODED AXONOMETRIC VIEW
FRONT PATIO RENDERING
WEST ELEVATION
EAST ELEVATION
