PAVILION DESIGN Milan Wecolme City
THE GEOGRAPHICAL DISTRIBUTION The geographical geographical distribution distribution ofcitizenship citizenship ininSan San Siro Siro TheThe geographical distribution of of citizenship in San Siro OF CITIZENSHIP IN SAN SIRO Countries Countries ofof of origin origin of foreign foreign citizens citizens Countries of origin of foreign citizens Countries origin ofof foreign citizens
Areas Areas oforigin of origin origin of of foreign foreign citizens citizens proportion proportion ofof foreign foreign population population Areas of of origin ofofforeign citizens proportion of foreign population Proportion of foreign population Areas foreign citizens
AAss As As
A Affrriiccaa Africa Africa As Africa
%% 44..33 d d nn 3% 4. nd 4.3% nd %% 55..44 s s nndd .4% s5 % nds 5.4 nd her Ot
M
.2% ypt 3 Eg
female female female male malefemale malemale
.4% s5 nd
Net he rla
6% 8.9
% 4.3 nd
year of of of birth birth birth ofyear birth single single single divorced divorced divorcedyearyear married married married widow widow widow single divorced married widow
male male malemale
Ukr ain e
The number of foreigners
Population distribution San Siro in 2020 Population Population distribution distribution ofSan San Siro Siro inin2020 2020 Population distribution ofofof San Siro in 2020
age age age year of of of birth birth birthage yearyear ofyear birth y 6. rman 5% Ge
age age age age
Public space
Britain9 .7%
Distribution Distribution Distribution of of of foreign foreign foreign population population population byby by age age age and and gender gender gender in in 2020 in 2020 2020 Distribution of foreign by age and gender in gender 2020 Distribution ofpopulation foreign population byand age and in 2020
Buildings
..22%% yypptt 33 g g EE .2% ypt 3 % g E ypt 3.2 Eg
IIttaalliiaann cciitt Italian iizz Italian citiz cit iz Italian cit iz
Romania 12 .9%
SSw wSiissw ss isSs wiss
erica Am
o11.8% occ or
en
ia
ean Europ
Public space
Countries of origin of foreign citizens
Areas of origin of foreign citizens
Foreigners 5.3 %
PPoo Po Po llaa la la
proportion of foreign population
N NeeNe Ne t t h h eetrrhll erl therl aa a a
The geographical distribution of citizenship in San Siro
Ukr Ukraine ain U U e k k r r aaiinn ee
The The number number number of of of foreigners foreigners foreigners The The number of foreigners The number of foreigners
Britain9 Britain9.7% .7% BBrriittaaiinn99 ..77%%
School Restraurant Hosptial Shop Sport
M MM
66%% 6% 6% 88..998.9 8.9
ia
opean Eur ean Europ eeaann EEuurroopp
Format distribution
maa Ri ooam RomRaonRm a12niann1i2iaa1122 M .9% .9% ..99%% ettrhheerr theOr thO O O
riecearriiccaa caem m meArim A A A a a a i ii
o11.8% occ 1.8% orocco1 or oo1111..88%% oocccc oorr
rnseerrss ForeFigonrFFeeooirrgrseeni5igeg. n 3% 5.35%5..33%% en en eenn
y..55a6%%n.5y%6.5% nnyyanr66m maram rrm GGeeGe Ge
SITE ANALYSIS
female female female female
Po la
Swiss
Population distribution of San Siro in 2020
Distribution of foreign population by age and gender in 2020 male
age
female
year of birth age
single
married widow divorced
male
year of birth
female
Traffic Major roads Minor roads Path Bus stop Tram station Subway station Children28.1%
Middle-aged women 0.33%
SAN SIRO
The elderly 9.3%
Location
Foreigners 5.3%
DAILY LIFE OF DIFFERENT PEOPLE
CASE STUDY
BIG "bubble-like cloud pavilion" at Roskilde 2016
Sou Fujimoto Serpentine Gallery Pavilion 2013
SKNYPL New Korean Garden
Kengo Kuma & Associates GC Prostho Museum Research Center
GENERATION PROCESS The original site has not been designed, people in which there is no target in the state of movement.
DCS21
Politecnico di Milano School of Architecture Urban Planning and Construction Engineering
Set some functional space in the center of the site, and people will gather in these places.
Through the location of three entrances and exits, the two most convenient human flow lines are determined, and the functional space is reorganized according to the human flow lines.
Academic Year 2021 Professors: Ingrid Paoletti, Elena Mola - Teaching Team: Giorgio Castellano, Edoardo Copelli, Giulia Grassi, Tommaso Pagnacco, Michele
According to the two flow lines, the rest of the landscape is designed to m a ke t h e p av ilio n better integrate with the surrounding.
Connect the four function blocks to make the building a whole, and add s o m e s i m p l e re s t a n d entertainment functions in the connected part.
Chen Boshi
961902
Tong Yihao
961814
Cui Ziqi
961896
Zhang Xinjie
975005
01
PAVILION DESIGN Milan Wecolme City
PROJECT
3
2
4
1
1, Reading Room 2, Meeting Room 3, Rest Room 4, Play Room
Mater Plan
Plan
Section A-A'
A
A'
4.5m
1, Reading Room 2, Meeting Room 3, Rest Room 4, Play Room
1
3
3.0m
2
3.5m
4
1
2
Section B-B'
3
Evelation View
4
DCS21
Politecnico di Milano School of Architecture Urban Planning and Construction Engineering
Academic Year 2021 Professors: Ingrid Paoletti, Elena Mola - Teaching Team: Giorgio Castellano, Edoardo Copelli, Giulia Grassi, Tommaso Pagnacco, Michele
Chen Boshi
961902
Tong Yihao
961814
Cui Ziqi
961896
Zhang Xinjie
975005
02
PAVILION DESIGN Milan Wecolme City
FUNCTION OF INFLATION BLOCK
Deflation status
Deflation status
Inflation status (It can be a wall to divide a space.)
Inflation status (It can be used as a seat.)
Deflation status
Deflation status
Inflation status (It can be used as a sunshade.)
Inflation status (It can be used as a stair.)
DESIGN OF ENTERTAINMENT FACILITIES IN CONNECTION PART
Swing
Relaxing
Climbing
Jumping
PLAYING ROOM C' 800cm 50cm
50cm
50cm
50cm
50cm
300cm
50cm
50cm
50cm
C
50cm
50cm
50cm
50cm
1, Graffiti area
50cm
1
2
50cm
50cm
50cm
350cm
50cm
3
Height/cm 150 36
100
Section C-C'
34 30 27 50
50
5
10
8
12
1, Graffiti area/ 2, Game house/ 3, Climbing area
Age
DISTRIBUTION OF INFLATABLE BLOCKS WITH DIFFERENT FUNCTIONS
Ceiling
Sit
Ceiling
Wall
Supporting membrane
Wall
Meeting Room
DCS21
Sit
Relax Room Politecnico di Milano School of Architecture Urban Planning and Construction Engineering
2, Game house
Ceiling
Sit
Ceiling
Sit
Wall
Supporting membrane (bookshelf)
Graffiti Wall
Stair
Reading Room
3, Climbing area
Play Room
Academic Year 2021 Professors: Ingrid Paoletti, Elena Mola - Teaching Team: Giorgio Castellano, Edoardo Copelli, Giulia Grassi, Tommaso Pagnacco, Michele
Chen Boshi
961902
Tong Yihao
961814
Cui Ziqi
961896
Zhang Xinjie
975005
03
PAVILION DESIGN Milan Wecolme City
APPLICATION SYSTEM
Step 1
Step 2
Step 3
Step 4
DEVICE CONTROL LOGIC
DEMOLITION OF PAVILION Step 5
Step 6
RENDERING/ DAYTIME
DCS21
Politecnico di Milano School of Architecture Urban Planning and Construction Engineering
RENDERING/ NIGHT
Academic Year 2021 Professors: Ingrid Paoletti, Elena Mola - Teaching Team: Giorgio Castellano, Edoardo Copelli, Giulia Grassi, Tommaso Pagnacco, Michele
Chen Boshi
961902
Tong Yihao
961814
Cui Ziqi
961896
Zhang Xinjie
975005
04
PAVILION DESIGN DETAILS OF PAVILION
28
29 31
33 30 32
13 14
4
27
1
11
5
17
30
55
120 40
55
30
5
16
2
15 5
10
1
1 10
18
5
50
9
19 13
1 5
18
15
14
16
10
1
18
1
10
5
310
9
21 22 23
3
1 5
6
4
7
2
5
19 11
75 10
10
12
5
8
24
120
9
20
26
25
20 5
205
110
50 35 15
450
15 25
17
5
150
15 5
130
20
4
1.ETFE cube 2.Special-shaped steel pipe 3.Transit trachea and Shaft 4.ETFE membrane 5.Bidirectional trachea 6.valve 7.vent 8.Induction air pump 9.Fixing bolt
WORKING PRINCIPLE OF AIR BAG
19.Transit trachea 20.Curbstone-precast concrete block 21.Grass 22.Planting soil 23.Packed soil 24.Concrete foundation 25.Concrete cushion 26.Stone pavement
27. PVC shell 28. Electric wire 29. Filament 30. Screw fixation 31. Halogen gas 32. Glass shell33 33. Steel pipe
DETAIL COMPONENT
Inflation
Through the control of the application, open the gas valve and increase the threshold of the induction barometer,turn the shaft and eject the airbag
10.Retaining plate 11.Induction barometer 12.Anchor bolt 13.Bearing fixing seat 14.Bearing 15.Micromotor 16.Metal fasteners 17.Key clamp 18. Electronic controller
Since the air pressure in the transfer air pipe is less than the set air pressure threshold, the induction air pump starts to inflate the air bag and the shaft continues to turn
When the airbag is full of air, the air pressure in the pipe reaches the threshold, the air pump stops inflating, and the air valve is automatically closed
Since the air pressure in the transfer air pipe is more than the set air pressure threshold, the induction air pump starts to deflate the air bag and the shaft continues to turn
When the air in the airbag is evacuated, the air pressure in the pipe reaches the threshold, the air pump stops delating, and the air valve is automatically closed
Deflation
Through the control of the application, open the gas valve and decrease the threshold of the induction barometer,turn the shaft and retract the airbag Induction air pump
Transit trachea
ETFE membrane
Air valve
Induction barometer
Airbag
PHYSICAL MODEL Models from different perspectives
DCS21
Behavior in the model
Politecnico di Milano School of Architecture Urban Planning and Construction Engineering
Academic Year 2021 Professors: Ingrid Paoletti, Elena Mola - Teaching Team: Giorgio Castellano, Edoardo Copelli, Giulia Grassi, Tommaso Pagnacco, Michele
Chen Boshi
961902
Tong Yihao
961814
Cui Ziqi
961896
Zhang Xinjie
975005
05