Weekend House in Erzurum

Pattern 2# Safe Edges

ARCH 351 Building Detail Modelling Midterm Examination Revised Weekend House in Erzurum Alp Fahri Ardic 2138345

Roof Edge Connection Detail

Landing Connection Detail

Staircase

Midterm Examination

Pattern 3#

Pattern 1# Fall protection

-Overlapping roof covering -Vapour Proofing Layer -Glass wool -Steel Roof Structure with fireproofing layer Pattern 6# -2nd Vapour Proofing Layer Wash -Fire resistant Gypsum Boards Pattern 5#

Roof

ARCH 351 Building Detail Modelling

Overlap

Should be; Fire Proof Ventilated Insulated Controlling moisture

Weekend House in Erzurum

Should be sustainable +Standart joints and wooden members will provide easy repair and change Should be easy to apply +Easy application via simple bolt details Should be fire-safe Fast and easy +Non toxic materials (Pattern 3#) application via 1# +InPattern case of fire aliminium beams and wooden simple boltstairs detailswill not Fall protection Pattern 2# release toxic materials andSafe health safety will be ensured. Edges

Pattern 7# Cold Roof

Pattern 6# Wash

Pattern 5# Overlap

Alp Fahri Ardic 2138345

Pattern 7#

Pattern 8# Drain In Erzurum, where winters are extremely cold, Insulation of the roof is important. Ice stalectiles hanging from the roof are also a In Erzurum, where winters are Cold extremely problem in Erzurum. roof prevents inbalanced accumulation and prevents ice stalectiles. cold, insulation snow of the roof is important.

Mezzanine Floor

Non toxic materials In case of fire aliminium beams and wooden stairs will not release toxic materials and health safety will be ensured.

Drain

Roof Top Detail

Exploded View

Fire Proof +Fireresistant Gypsum Layer +Fire Proofing adhesive on steel

Structurally Strong +Roof Structure

Front Faรงade

Ventilated +Cold Roof

Overlapping roof covering

Faรงade should be insulated and make use of the daylight A roof should be +Double skin facade is a good solution for both Steel Roof Structure(with) Insulated fireproofing layer Faรงade should be water tight and fire resistant as Controlling +Glass Wool moisture well Vapourand Proofing Layer +Vapour +Capillary breaks tempered glass facade, Barriers strong against fire Pattern 9# Capillary Break

Glass wool

Vapour Proofing Layer

Anchors for connecting the two skins Be safe +Metal Railings added

Fire resistant Gypsum Boards

Insulation of the Facade is important but at the same time making use of the daylight is also a problem. To have provide both insulation and sunlight, Double skin facade is a good solution.

Mezzanine floor needs to Provide Daylight inside of the building +Glass facade

Provide sound insulation. Be able to carry moving loads +Raised floor application +Stable structue provided

Structural Connection Details

Pattern 8#

Ice stalectiles hanging from the roof are also a problem in Erzurum. Cold roof prevents inbalanced snow accumulation and prevents ice stalectiles.

Should provide sound insulation. +Raised floor application Be sustainable Since it is a weekend house, should bolts Should be able to carry moving loads +Standart joints and wooden members have feeling of domesticity will provide easy repair and change in the future. +Stable structue provided +Wood Shoul be safe +Metal Railings added A Staircase needs to wooden landing wooden stairs aluminium box Pattern 4# Sound profile Be Ergonomic and safe and stable. Have be easy and fast Application. steel beam Obsorbing Surfa+14cm stair height is provided +Simple bolt system used ces +Fall protections added

-Granite Tiles -Cavity -Plywood -Aliminium box profiles

Cold Roof

Isometric View

-Tempered Glass -Cleaning space -Tempered Glass

Have Thermal insulation +Double Skin Facade

A Facade Should Provide Water tightness

Be Fire resistant +Tempered glass facade, strong against fire

Double Skin Faรงade Connection Detail

Capillary break in facade profiles

1

2

3

Top of Roof

A B

+10.00

C

200 Steel Gusset Plate

2471

+7.28

Bottom of Roof

-Composite Cover -Glass Wool -Fire Resistive Gypsum Boards -Steel I Beam

-Overlapping roof covering -Vapour Proofing Layer -Glass Wool -Vapour Proofing Layer -Fire resistant Gypsum Boards -Steel I Beam with Fire Proofing Spray

115

100 60

267

+6.08

-Ventilation Grille -Wind Director -Double Skin Cavity -Glazing Panels

-Composite Cover -Glass Wool -Transom -Double Skin Cavity -Transom

1204

1016

-Composite Cover -Glass Wool -Fire Resistive Gypsum Boards -Steel I Beam

W1

-Plywood Covering -Raised Floor Cavity -Plywood -Aluminium Box Profiles

Width: 50 Height:100

+5.06

-Composite Cover -Glass Wool -Composite Cover -Double Skin Cavity

Double Skin Façade-Roof Connection Detail

D1

2067

Double Skin Façade-Mezzanine Floor Connection Detail

Width: 5 Height: 210

Mezzanine Floor Level

G1 Width: 110 Height: 63

+2.96 +2.23

Top of Door

Width: 5 Height: 200

D1

A B

-Ventilation Grille -Wind Director -Double Skin Cavity -Glazing Panels

D2

2845

Width: 5 Height: 210

-Plywood Covering -Raised Floor Cavity -Plywood -Aluminium Box Profiles

D1 0.00

Width: 5 Height: 210

W1 Width: 50 Height:100

-Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

-Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

Frost Line

-Plywood Covering -Raised Floor Cavity -Plywood -Aluminium Box Profile -Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

850

90 120 200 400

-0.60

Partial Elevation

100 60

50 83 400

1007

+0.20

2438 1431

+0.10 0.00 -0.20

C

-0.60 -0.65

-0.67

-0.80

-Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

System Section N

Final Exam - Building System Detail Drawing 1166

2533

Floor-Mezzanine Floor-foundation Connection Detail

TBM: 58

Partial Plan 1363

Double Skin Façade-Floor-Foundation Connection Detail

Key Plan

Date: Drawn By:

16.01.2019 Alp Fahri Ardıç

ARCH 351 Building Detail Modeling

A

1

BC D E

N

1

TBM:1900 WC

F2

1 3500 1000

Window Sill Height: 72 W:3 Height 25

+-0.00

Door W:5 Height 90

F1

1416

F1

D1 Door W:5 Height 90

300 97

1488 1780

A

97

767 97

1264

864

1361 5300

97

1000

97 300

1300

BC D E

1011

1750

5 6

D1

250

4

Double Skin Cavity

1

2

2

3

3

4

4 Section 5 6

5 6

3

2000

W1

Window Sill Height: 72 W:3 Height 25

Enterence

9930

250 818

8000

3

2

W1

F1

BC D E

Study Room Hall

2

A

Longitudinal Section

4 5 6

Short

A

BC D E

Key Plan F1: -Wooden Planks -Raised Floor Cavity for cables and pipes -Screed -Concrete Slab -Reinforced Concrete Foundation

F2: -Seramic Tiles -Raised Floor Cavity for cables and pipes -Screed -Concrete Slab -Reinforced Concrete Foundation

Ground Floor Plan Drawing Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

A

BC D E 4520

1

250 560

1

W1

Bedroom

Window Sill Height: 72 W:3 Height 25

+1.53

3500

Double Skin Cavity

2

2000

2

9930

3

3

+2.93

F1

4

1416

4

Door W:5 Height 90

+-2.93

F2

300 97

1488 1780

A

97

767 97

1264

864

1361 5300

97

1000

97 300

1300

BC D E

F1: -Plywood covering -Raised Floor Cavity for cables and pipes -Plywood first layer -Box Profile Beams

TBM:1900

1

A

BC D E

1

2

2

3

3

4

4 Section 5 6

5 6

F2: Double Skin's Steel Mesh Floor carried by the mullions

Longitudinal Section

Short

A

BC D E

Key Plan

5 6

D1 1011

5 6

2000

+-0.00

N

D1 Door W:5 Height 90

First Floor Plan Drawing Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

A

+10.00

BC D E

Top of Roof

+10.00

Double Skin Façade-Mezzanine Floor Connection Detail Scale: 1/20

200

C4 2471

+6.08

Drainage Pipe

C3

GL1

+2.96

C3 GL2

C2 GL3

Top of Door

2845

TBM:1900

Composite Façade Covering H:63 W:1280

GL1

Drainage Pipe End

Grille Width: 110 Height: 63

N

D1 Door Width: 5 Height: 210

0.00

BC D E

Composite Façade Covering H:63 W:1280

A

G1

5 6

C2

Mezzanine Floor Level

Short

GL1

+2.96

2067

4 Section 5 6

GL1

4

Composite Façade Covering H:950 W:1050

3

GL3

3

GL2

+5.06

2

C3

1016

2

C1

Composite Façade Covering H:950 W:1050

-Plywood Covering -Raised Floor Cavity -Plywood -Aluminium Box Profiles

1

GL4

Composite Façade Covering H:950 W:1280

0.00

1204

GL6

1

Window Sill Height: 72 W:117 Height 103

GL6

100 60

BC D E

+5.06

W2

GL5

+7.28

A

+6.08

Bottom of Roof

Gutter

Longitudinal Section

+7.28

Frost Line

-0.60

-0.60

Key Plan

Water Table

South Elevation Drawing

A

BC D E

Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

Drainage Pipe

+6.08

1016

+2.96

Window Sill Height: 72 W:500 Height 820

Mezzanine Floor Level

1040 2845

1040 150

1330

+2.96

825

1524

5077

Drainage Pipe End

0.00 Frost Line

0.00

BC D E A 5 6

Floor-Mezzanine Floor-foundation Connection Detail Scale:1/20

-0.60

-0.60

Short

-Plywood Covering -Raised Floor Cavity -Plywood -Aluminium Box Profile -Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

W1

2067

4 Section 5 6

Key Plan

1204

+6.08

4

N

+7.28

3

Gutter

3

Bottom of Roof

1

+7.28

2

TBM:1900

2471

A

C4

Composite Façade Covering H:950 W:1050

2

200

1

+10.00

BC D E

Top of Roof

A

E D CB

Longitudinal Section

+10.00

Water Table

North Elevation Drawing

E D CB A

Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

RF1

RF1

RF1

RF1

RF1

RF1

RF1

RF1

RF1

RF1

2720

Sill Height: 72 W:2000 Height 600

Short

4 Section 5 6

3

BC D E

RF1

A

RF1

+7.28

Bottom of Roof

5 6

RF1

4

RF1

Overlaping Roof Covering

3

RF1

RF1

2

RF1

1

RF1

BC D E

RF1

+10.00

Roof Top

2

+7.28

RF1

5 6

1

RF1

4

A

+10.00

3

Longitudinal Section

2

1

Key Plan

Gutter

TBM:1900

N

-Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

WA1

90 120

Reinforced Concrete Wall

400

W1

Direnage Pipe

50 83

Window Sill Height: 72 W:3 Height 25

400

Fnish Grade +0.25 Existing Grade Frost Line

-0.60 Water Table

1

200

10000

6680

2

3

0.00

232 200 400

Double Skin FaadeFloor-Foundation Connection Detail Scale:1/50

West Elevation Drawing

4

5 6

Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

RF1

RF1

RF1

RF1

RF1

RF1

RF1

RF1

RF1

RF1

2720

Sill Height: 72 W:2000 Height 600

Short

4 Section 5 6

3

BC D E

RF1

A

RF1

+7.28

Bottom of Roof

5 6

RF1

4

RF1

3

RF1

Overlaping Roof Covering

2

RF1

RF1

1

RF1

BC D E

RF1

+10.00

Roof Top

2

+7.28

RF1

1

1

RF1

2

A

+10.00

3

4

Longitudinal Section

6 5

TBM:1900

N

Key Plan

Gutter -Composite Cover -Glass Wool -Fire Resistive Gypsum Boards -Steel I Beam

WA1 Reinforced Concrete Wall

6680

10000

115 267

W1

Direnage Pipe

Window Sill Height: 72 W:3 Height 25

Double Skin Façade-Roof Connection Detail Scale:1/50

Fnish Grade +0.25 Existing Grade Frost Line

-0.60 Water Table

6 5

4

3

2

0.00

232 200 400

East Elevation Drawing

1

Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

A

+10.00

BC D E

Roof Top

+7.28

F1: -Plywood covering -Raised Floor Cavity for cables and pipes -Plywood first layer -Box Profile Beams

R

Overlaping Roof Covering

Bottom of Roof

Gutter

+7.28

+6.08

+6.08

7000

W1 Window Sill Height: 72 W:3 Height 25

Mezzanine Floor Top

+2.96

10000 +2.96

350

F1 2400 F2

Fnish Grade +0.25 Existing Grade

+0.25 0.00

0.00 Frost Line

-0.60

-0.60

TBM:1900

1

F2: -Wooden Planks -Raised Floor Cavity for cables and pipes -Screed -Concrete Slab -Reinforced Concrete Foundation

+5.06

+5.06

N

+10.00

232 200 400

A

Longitudinal Section

BC D E

1

2

2

3

3

4

4 Section 5 6

5 6

R: -Overlapping roof covering -Vapour Proofing Layer -Fire resistant Gypsum Boards -Glass wool -Steel Roof Structure with fireproofing layer

Short

A

BC D E

Key Plan Bedroom Study Room Staircase

Water Table

300 97

1488 1780

A

97

767 97

1264

864

1361 5300

97

1000

97 300

1300

BC D E

Short Section Ground Floor PlanDrawing Drawing Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

6 5

+10.00

Steel Gusset Plate

+7.28

3

4

2

1

N

+10.00

-Overlapping roof covering -Vapour Proofing Layer -Glass Wool -Vapour Proofing Layer -Fire resistant Gypsum Boards -Steel I Beam with Fire Proofing Spray

-Composite Cover -Glass Wool -Fire Resistive Gypsum Boards -Steel I Beam

1

+6.08

1016 +5.06

-Composite Cover -Glass Wool -Composite Cover -Double Skin Cavity

BC D E

1

2

2

3

3

4

4 Section 5 6

5 6

W1

Short

A

BC D E

Key Plan

Width: 50 Height:100

10000

D1

2107 6 5

Width: 5 Height: 210

+2.96

+2.96

F2 -Ventilation Grille -Wind Director -Double Skin Cavity -Glazing Panels

D2 Width: 5 Height: 200

0.00

A

+7.28

+6.08

+2.23

Longitudinal Section

2671

1204

+5.06

TBM:1900

D1

W1

Width: 5 Height: 210

Width: 50 Height:100

729 +2.23

-Plywood Covering -Raised Floor Cavity -Plywood -Aluminium Box Profiles -Wooden Planks -Cavity -Screed -Concrete Slab -Reinforced Concrete Foundation -XPS insulation -Water Proofing Membrane -Sand fill -Gravel

Bedroom Study Room

4

3

2

1

4

3

2

1

+10.00

WC 2233

F1

6 5

Key Section

0.00

Frost Line

Frost Line

-0.60

-0.60

Water Table

Water Table

1011

1441

1931 6382

2002

Longitidunal Section Drawing Date: Drawn By: Scale:

18.01.2018 Alp Fahri Ardıç 1/50

ARCH 351 BUILDING DETAIL MODELLING

Alp Fahri Ardıç Weekend House in Erzurum Arch 351 - Fall 2018