Weng Kai Wei Architecture Portfolio
2013
Name /
翁愷威
Phone /
+886 975273723
E-mail /
sectionsconcept@gmail.com
Adress /
台南市永康區中華二路358
10號7樓3
Education / 私立 甲大學 建築系
Experience / 上海雅門聯合建築師事務所 水
經貿生態園區 開發願景館
2008-2013
Workshop / 美國南加州大學+ 甲大學建築系+淡江大學建築系
2010, 07-09 2010, 11 - 2012, 04
潘冀聯合建築師事務所
2011, 07-09
王銘鴻建築師事務所
2012, 07-09
國際學術交流工作坊
2011, 10
WORKSHOP Actuating Geometry in Design
2012, 02
「都發101活動成果展-台中舊城區空間活化再利用」 創意競賽工作坊
Skills /
AutoCad,Rhino3D,Grasshopper,V-Ray SketchUP, Illustrator,Photoshop
2012, 08
Name /
Weng Kai Wei
Phone /
+886 975273723
E-mail /
sectionsconcept@gmail.com
Adress /
Rm. 3, 7F., No.10, Ln. 358, Zhonghua 2nd Rd., Yongkang Dist., Tainan City 710, Taiwan (R.O.C.)
Education / Feng Chia University Department of Architecture
2008-2013
Workshop / USC School of Architecture (AAU) +FCU Department of Architecture +TKU Architecture International Workshop
2011, 10
2010, 07-09
WORKSHOP Actuating Geometry in Design
2012, 02
Taichung Gateway Park-Info Box / docent
2010, 11 - 2012, 04
Urban Development Bureau, Taichung City
J.J.Pan and Partners, Architects and Planners
2011, 07-09
Government-Regeneration of Taichung Old Town
Wang Architects and association
2012, 07-09
Experience / Archiman Architects & Associates (Shanghai)
Skills /
AutoCad,Rhino3D,Grasshopper,SketchUP Illustrator,Photoshop
2012, 08
CONTENTS /
A
B
ARCHITECTURE DESIGN Kuangcao
2009
01
Rubik House
2011
07
Guard Cells
2012
19
Developing The Invisible
2012
31
Breeding Boundary
2013
53
WORKSHOP
99
狂草 重生再造雲門舞集 Site : 台中火車站20號倉庫 Tutor : 朱柏成 老師 舞者以自身為筆墨,薄透的燈光為紙,用軀體流動的線條與深厚的影 子展現墨之濃淡五色,及書寫中筆法的蒼勁、柔和、抑揚頓挫,刻意的空白 讓人感受舞者呼吸間的流動,令人腦中不斷浮出不同的場景意象。時而文 人春遊、飲酒作詩的閒適快意,時而似見沙場上大將軍揮毫戰書、千軍萬 馬的磅礡氣勢,猶如一齣齣的經典電影場景在眼前飛躍。
1
2
雲門舞集在大火無情燒盡多年回憶後,在嶄新的建築中找回希望。基地位於台中火 車站旁20號倉庫,舊有的斜屋頂倉庫建築,在改建之下賦予了新的意義。將原有的 稍做切割
重強
移,突破原始空間的束縛,建築整體前後連續有如狂草字與字間連綿不斷的
特性,設計中曲面的屋頂與跳動的牆面表現舞者跳耀的身姿,雲門舞者舞動時擁有的流 暢,新的動線流動於歷史建築之中。
SITE
3
4
一層大部分空間與室外相連開放,使往來的民
梭於空間內外,時而
迴、時而
停頓,舞動的感受體現於整個空間動線之中,流暢的動線讓人不自覺的被帶往空中,在壓 抑的城市之中視野逐漸開闊,從深
到光明,猶如雲門舞集被大火
噬後到新的展演場
的誕生,希望開始萌芽。
5
6
Rubik House 三代同堂住宅+建築師事務所 Site : 台中 甲路X內新庄仔溪旁 Tutor : 梁世偉 老師 Rubik Cube :魔術方塊 翻轉的過程中會產生甚麼不一樣的空間? 在城 市高度發展的時代,建築的密度越高,在都市中能看到天空的面積是越來越 小,設計的理想在於抓住都市細縫間的一小片天空,並運用翻轉的動作使事 務所與住宅間的分合,公與私之間的拿捏,創造不同於以往的空間關係。
7
8
基地位於鄰近台中市 甲路與內新庄 仔溪交 口之角地,東面擁有溪邊行道樹 ,基地首要處理黃昏後人潮的湧現,如何 將封閉需求的住宅做最大的開放是設計 的要點。
4M道路
內新庄仔溪
4M道路
8M道路
9
住宅與事務所間切割的空間,在視線上卻又 能共享彼此景觀的角落 住宅 ¦ 地面層留給第一代的長者,錯層的空間讓房間 能兼具開放的視野與私密性,建築內的小庭院 卻能共享給每個空間
reception room
office parents bedroom
ce
事務所 ¦ 循環階梯般的空間產生進入後的序列性,錯層 始開放的空間兼具場域
an ntr
E
e nc
170cm
tra En
90cm
A
100cm
living room
20cm
show room
cts
e hit
c Ar
170cm
se
u Ho
0cm
20cm
nd
ou Gr
lan
170cm
flo
p or
meeting room
0cm
restaurant
A’
10
11
住宅 ¦ 二層為家庭主要的生活空間,為整個住宅的核 心,其中最獨特的地方便是由可轉變為半開放 的陽台銜接至戶外草坡的大型斜坡,提供兒童 遊樂空間及成人的休憩空間。 事務所 ¦ 錯層的辦公空間兼具開放的視野與場域空間, 最高層便是建築師辦公室,建築師走出辦公室 便可看 整個事務所,而辦公室的另一道門便 是通往家中最主要的生活空間。
office
restaurant
470cm
living room 320cm
ts
c ite ch r A
400cm
office
e us
Ho
470cm
or
o dfl
Architect office
n pla
on ec
320cm
S
320cm
amusement equipment study 12
13
住宅 ¦ 三層主要由臥室所組成,位於中間區塊的兒童 房,牆壁為活動式,當完全開啟時,兩間兒童房 與其間的空間廊道可成為一個大空間,並於孩 子長大之後可作不同用途
頂層擁有的露天浴池以與空中花園,其水平的 地面與傾斜的屋頂呈現獨特的空間感受
bedroom
th ur
lan
flo
p or
770cm
Fo
760cm
childroom 770cm
o
dfl hir
lan
p or
620cm
Home Theater living room
T
14
15
Fourth floor
Third floor
Second floor
Ground floor
16
17
Second oor
18
Guard Cells 林地再生移動溫室 Site : 台中大肚山 Tutor : 葉朝憲 老師 當城市高度發展,人類文明逐漸 噬大自然,建築的產生往往是縮減 綠地,沙漠化的問題逐漸擴大,該如何重新讓植物抓住大地是本設計重要 的課題。設計中利用名為Guard Cells的建築裝置,將乾燥的大地留住水分 ,由水構成的溫室不需要任何動力,靠著水的蒸散、凝結、滲透、 自重,即便 烈日下依然在溫室內下著雨,使其幼苗成長至足以抵抗氣候的程度後, Guard Cells便移往下一處乾枯的大地,開始重生林地。
19
Guard Cells
20
面臨全球暖化導致極端氣候加劇,暴雨增多與乾旱期漸 長,人為的濫墾與工業污染造成林地退縮、土地沙漠化,環境 惡性循環加速氣候異常,提出因應策略。 Faced with increased global warming leading to extreme weather, storms and dry spells amidst growing. Due to overforesting and industrial pollution, forest retreat and Desertification every second. Proposed a strategy to reduce climate change caused by environmental degradation.
21
Environmental issues
Cause
Extreme weather deteriorated Global warming Landslide Overused desertiďŹ cation
Drought
mountain on ďŹ re Industrial pollution Groundwater pollution Transportation Air Pollution
22
angle of sunlight
temperature in Surface
stoma size on Surface
water content in Guard Cell sunlight intensity terrain temperature of Guard Cell
pore size of Guard Cell
humidity in Surface
wind speed in Surface humidity
transpiration rate of plant
wind speed temperature Guard Cells設計架構,最外層為環境影響因素,第二層 為Guard Cells皮層可變因素,最內層為Guard Cells一個單元( 含水細胞)的變動因素,內外三層相互影響架構。
23
800 600
Excessive rainfall
400
Radish
Cassava
Peanut
Sweet Potato
Cane
200
drought 2010
2005
2000
m
100 50 0
1995
0 1990
Amount(mm)
1000
Dajia River
SITE
Chingshui Taichung Port
Coastal plain
15
0.5
Taichung
10
Dadu River
5
Shalu
0.4 0.3 20
0.2 km
Density (Strains/m2) Acacia forest area in 1976
in 2003
0.1
Acacia forest area in 1995
in 2004
0.0 24
Original
Guard cells
Evapotranspiration Rainfall Condensing system Rainfall
Rainfall
Evapotranspiration
Water drop
Collect water system
Water drop
Plant Land
Evapotranspiration
Plant Land Clean water
Groundwater
Groundwater
Groundwater extraction
植物在自然環境中白天烈日下快速蒸散水份,若 於降雨量低的時節,植物不易生長,當Guard Cells介 入後植物在幼苗時期便能得到最佳的水份調控。
Type 2
Type 3 25
Type 1
台中大肚山西側坡面部分地區因人為墾伐、工業污染等 因素,逐漸沙漠化,針對這些區域以沙漠化程度與地形以 Guard Cells機制進行林地再生。
26
Exuberant period of plant transpiration day
night
day
night
1000 g/unit
RH 100 75
750
50
500
25
250
0
14 16 18 20 22
0
2
4
6
8
0
10 12 14 16 18 20
Guard cells stomata closed
cool air fog water
warm air water
cool water fog water
Night
Day
fog
H2O H2O
H2O H2O H2O
O
H2
O
H2
H2O
H2O
O
H2
H2O
H2O
fog
H2O
H2O H2O
H2O H2O
藉由皮層凝結植物與大地蒸散的水分,由於不 同水溫與空氣中飽和度,水的滲透壓不同,Guard Cells可將水分儲存入單元內,皮層隨著水的自重改 變,氣孔張開與閉合,保護著植物也留住水分。
27
以Grasshopper設計裝置,應用於活動桿件、水體積變化 模擬、日照面積影響植物蒸散率時,水體積與裝置間互動產 生的開闔變化。
7.8cm
P = hd = 1gw/cm2 * 7.8cm = F/A
實驗材質透水率,將水注入裝置中,測量裝置中的水滲 透出表面瞬間時,所含水的體積、重量, 了解設計中灌溉需求 時內含水量所需的水體積。
28
t onen
p com
a stom
a stom
d
close
water
ed
open
e genc diver
cess
ro ent P lopm
Deve
unit
r luste
29
[protect plant in bud time]
[strong winds block by Surface ]
[Beneficial to soil and water conservation] [Forest retreat and Desertification]
[Soil stable hardly loss]
[Rebirth of land and increase the crops]
[Guard Cells Involved] [Irrigation in frequency stability]
[Reduce the probability of forrest-fire] [Appropriate plant Irrigation]
[Generate micro-rain] [control the micro-rain]
[different rainfall according to different plants required] 30
Developing the Invisible 台中舊城區復
Site : 台中中區中正路段 Tutor : 葉朝憲 老師 研究大台中都市發展,找出都市高度發展後沒落的區域,探討一個逐 漸被遺忘的城鎮要如何獲得重生,整合設計顧及的層面廣大,探討的各方 面以尋找可行的方案,克服的問題如: 壅塞的交通,擁擠的空間環境,老舊 建築的再利用,設計中運用此區域的高空屋率,以及建築密集的程度,形 成足以成為第二層的空中動線,藉此整合活絡整個區域,將整個城鎮視為 巨型的建築體做設計,縮放的思維之間,讓舊城區得以重生。
31
developing the invisible
32
33
Technology Nature Economic Commerce
TOPOGRAPHY
Urban Erosion [ METROPOLIS ]
Taichung 2012 residents per square kilometer 8,000+ 6,000 - 8,000 4,000 - 6,000 2,000 - 4,000 0 - 4,000
DENSITY BY DISTRICT
DENSITY BY DISTRICT
34
Tachia Train Station
Airport Fengyuan Train Station Wuqi
Port
New CBD Old CBD
Train Station HSR Station
Wu Ri
Taichung Port Taichung Airport
CTSP
Industrial District
Shuinan Gateway
Railway BRT Plan HSR Freeway Major Plan Gate Way Initial Core New Core Conjecture Core
TRASPORTATION & DEVELOPMENT 35
Tachia
Wuqi
Fengyuan
?Central District WuRi
Developing? 36
DOWNTOWN TAICHUNG 37
school relationship school Urban development core green area river
Urban Planning in 1944 38
A
B
C
D
39
中華夜市區
三民路婚紗區
A
自由路
區 繼光徒步區
B C
電子街
D
CENTRAL DISTRICT 2012
TRANSPORTATION PLAN 40
41
developing the invisible
42
1F
2F
3F
4F
5F
6F
7F
8F
9F
10F
11F
12F
13F
14F
15F
將樓層切片,觀察各樓層在整個區域所分布的情 形,了解同一高層的相對關係,其中也透露該區 域鮮少超過7層樓的建築
43
1F-4F Area
4F-5F Area
44
以分析需求度將地面層荒廢的建築釋放,而以舊 遠百大樓、第二市場等核心以三層樓高創造空中 層動線,紓解中區擁擠的交通,並將BRT車站設 置於空中層,活絡空中層的發展。
45
由各樓層面積分布觀察可能的動線構成,試圖於 非地面層創造出另一層漫遊空間
46
47
[5F Moving lines]
[4F Moving lines] Relation of flow[2F]
[3F]
[3F Moving lines]
[4F]
[2F Moving lines] [5F] 於空屋密集處分析可能的空中通道,並演算最短 距離構成的動線樣貌
48
以第二市場為中心發散的空中動線,結合新與舊 的串流,活絡舊城
49
New Ground Level (+1.5M~1.8M) BRT Level (+900cm) Ground Level (+0)
50
廢棄的遠百大樓解構成為培養都市綠地的溫室, 一小塊的綠地逐漸茁壯,慢慢的蔓延整個城市
51
[4F,5F Moving lines] [3F,4F Moving lines] [2F,3F Moving lines]
52
Breeding Boundary 兩岸交流下於海峽繁殖出的建築簇群 Site : 台灣海峽 Tutor : 業嘉 老師 探索古今海峽兩岸之間曖昧的關係,兩岸文化在這靜止的邊界上蓄 勢待發,順應著趨勢,海上建築的需求日益漸增,"繁殖場"便是以此邏輯之 下所設計的平台,運用海底沙漠資源與水的張力化合,在時間的淬煉下孕 育出marine architecture,這些prototypes將成為海上旅館、市集、賭場等 建築的基礎。 Breeding boundry就此開始..
53
Breeding Boundary
54
55
01 Issue 1/ Culture 分享一樣的語言,流著同樣的血,歷史上我們忽遠忽近,漸行漸遠中我們的文化及思想分道揚 鑣,隨著時代的演進,促使著我們融合的腳步,尋找什麼樣的契機讓會我們如此的契合? We drift apart and get together, come and go in our long history. Till present, the integration of both sides becoming a trend. Seeking for the key of our interdependent.
2/ Ecology 在海岸建設的各種的公共設施,如興建垃圾掩埋場、污水處理場、核能發電廠等,不但改變了海 岸的環境,也直接或間接地污染了海域,並造成海洋、海岸生態的破壞,適度地運用海洋資源, 藍色海洋資源利用與保護並列的空間格局,製造永續生態的海洋建築。 Various public facilities construct in the coastal, such as landfills, sewage treatment plants, nuclear power plants, etc. Not only changed the environment of the coast, directly or indirectly contaminated waters, causing destruction ecosystems. The marine resources utilization and protection of parallel spatial pattern. Manufacturing ecologically sustainable marine construction.our interdependent.
3/ Communication 隨著兩岸民間交流日益頻繁的趨勢,海峽兩岸的航空交流已成為世界上最頻繁的航線,因應經 濟貿易的發展,台灣海峽這片汪洋大海上,如何去運用,溝通及連結將成為重要的課題。
Dutch colonial International relationship
Instability
1949
1945
1895
Kingdom of Tungning
1683
1662
1624
As trend of cross-strait civil communication has been evolving, aviation has become the world's most frequent routes. In response to the economic and trade development, seeking for a better communication become essential.
Qing Dynasty
Japanese rule
After World War II
Republic of China
Domestic relationship
International relationship
Domestic relationship
Instability
Present
Instability of the [Taiwan Strait ]
56
02 Structure
兩岸港口 L
New Borderline 新海峽中線產生
海面上交通網絡
?
海面下地形結構
征戰 走私 偷渡
吐量
海底砂石 M Breeding Factory 建築繁殖場
貨運
海洋垃圾 海洋動力
直航 S
Self Assembly 自我構成
貨物
物流 走私
市集
文化交流
加工產業
互利共生
由海峽兩岸的曖昧情愫出發,探討兩岸交流的過程,順應著不同 時代的背景,發展出不同的交流模式,尋找兩岸交流的新趨勢。 Exploring the process of cross-strait communication. In the background of different period, developed different ways of communication. Seeking for a new relationship between Taiwan and China.
57
03 Program Ocean Resources
Salt
Wind Power Tidal power
Thermal power
Electricity
Garbage Gravel
Machinery Transport
fishing reef Shipping Self Assembly Anchor
Solidify Structural columns
breakwater 了解海洋中可利用的資源,企圖於時間的淬煉中逐 漸形成各種可供兩岸人們使用的建築。 Mooring
Understand ocean resources. as the time gradually.
58
03 Program 港口 吐量 Throughput
隨海流週期性轉動,海上的漂流市集,利用公海特性以及兩岸之間
航行路徑 Sailing routes
的交通運輸,服務有需求的人 With the ocean current cyclical rotation. A market float on the ocean, use characteristics of public ocean and transport between the two sides of Taiwan Strait, service the needs of people.
錨訂點 Anchor set point
海地地形 Topography under water
自然能源 Natural Energy
直航必經點 Waiting point
市集 Market
港口 吐量 Throughput
Before 中國大陸原料(台灣禁止進口) 陸運成本
它國加工 海運成本
陸運成本
台灣進口 海運成本
陸運成本
關稅
關稅
關稅
中國大陸原料(台灣禁止進口)
公海上浮島加工
台灣進口
航行路徑 Sailing routes
海地地形 Topography under water
After 陸運成本 關稅
海運成本
陸運成本 自然能源 Natural Energy
關稅
直航必經點 Waiting point
加工廠 Manufacture Factory
港口 吐量 Throughput
以縮減兩岸貨物運輸的時間及金錢成本為出發,在海峽中線上設 置物流中心,舒緩台灣海峽繁忙的交通運輸 To reduce the time cost of cross-strait cargo transportation, set several logistics center,to relieve the heavy traffic on the Taiwan Strait.
航行路徑 Sailing routes
海地地形 Topography under water
自然能源 Natural Energy
直航必經點 Waiting point
物流中心 Logistics center 59
04 Site Analysis 3.7 3.0
4.3
[Highest point]
6.1
2.4 1.2
5.5
1.8 1.2
1.8
4.9 3.7 4.3 3.0 2.4
20.0 m/s
Tide level range
[lowest point] 0.6
0.0 m/s
Winter Monsoon Wind Speed
1.2
[Tidal environment]
refers to cold warm water masses mixing zone, in particular, refers to the Western Pacific, the Kuroshioand the Oyashio seawater mixed. the plankton breed there, to attract migratory fish aggregation fish farms.
20.0 m/s 0.0 m/s
Summer Monsoon Wind Speed
A H B C
I
D E
Through point 24 Nautical miles 12 Nautical miles routes Into the harbor
Chinese White Dolphin conservation area Shoal fisheries Coastal fisheries Migratory fish fisheries
Port Container Traffic [TEU] 10M 50M 50M
30M
70M
10M
30M
Spring Summer Winter/fall
Sea sand distribution
10M
Topographic contours
60
1
2
Direct shipping ports, pick only with large cargo throughput (TEU). Shipping port Ports with lager TEU
[Fuzhou Port] 12,000,000/TEU
3
Find the middle point on each link. Link each ports together, show the routes of traffic in the ocean.
4
Delineate the scope of services in accordance with the throughput of the ports.
Contain the parameter inside Public water between Taiwan and China.
[Range corresponds to the size of the frequency of routh using.]
[ Keelung Port] 19,200,000/TEU [Putian Port] 90,000/TEU
[ Taipei Port] 6,500,000/TEU
[Quanzhou Port] 10,200,000/TEU [Xiamen Port] 58,200,000/TEU
[ Taichung Port] 11,900,000/TEU
[Zhangzhou Port] 1,000/TEU [Chaozhou Port] 500,000/TEU China's territorial waters
[ Mailiao Port] 700,000/TEU
Range of public sea area
[Shantou Port] 6,000,000/TEU [ Anping Port] 1,000/TEU
Taiwan's territorial waters
Last Glacial Maximum 20,000 15,000 10,000 5,000
-30M -58M
-65M
-68M
Minimum distance : 13,0000M 130m England
French Distance:50KM
Now (Years Ago)
Post-Glacial Sea Level Rise
-120M
-20M -49M
Sea Level Change(m)
[ Taichung Port] 11,900,000/TEU
-324M Aircraft line in 1990 Prohibited flight area
Cross-Harbour Tunnel 1802 Idea from Albert Mathieu 1994 opened
海底地形剖面 Section Anylisis 61
04 Site Analysis 5
6
Attract the position of shallower terrain. Shallow
7
Scope outside the busy routh.
Defined range by the depth of the seafloor topography.
8
Deep
Under the influence of wind, elected the final definition of the processing plant. [Strong ocean currents] can be use in natural energy source in the future future use of natural energy
Logistics center
1
Direct shipping ports of Taiwan and China, Waiting points before ships enter
2
Direct shipping ports of Taiwan and China,link to the waiting points before ships enter the harbor.
6
Choose the appropriate depth delineated range of services.
Direct shipping port
3
The midpoint of the route distance.
Ports with lager TEU
A
[Fuzhou Port]
B [ Keelung Port] [ Taipei Port]
C
[Putian Port]
[Quanzhou Port] [ Taichung Port]
D
[Xiamen Port]
E
[Zhangzhou Port]
F
[ Mailiao Port]
[Chaozhou Port] [Shantou Port]
[ Anping Port]
G
4
5
Contain the parameter inside international waters between Taiwan and China.
Defined range by the depth of the seafloor topography.
[ Taichung Port]
China's territorial waters
藉由兩岸協議的航運必經點、各港口相連航道、 等距中間點、公海範圍、海底深度 相互交錯比對 分析出有海上建築需求之位置與範圍。 Range of public sea area
Taiwan's territorial waters
Analysis of shipping routes, port Location, the waiting points before ships enter harbor, international waters and depth of seafloor topography. Use those information to figure out the location of offshore construction demand.
62
04 Site Analysis
將航運、自然力及生態三項分析疊合於模型中, 在其間做連線並安排操控點,觀察相互影響下的 海上建築群需求較高的位置。 Make a model which have three layer about the shipping, the forces of nature and ecological. In between make the connection and arrangement of control points. Observe the model to figure out the location of offshore construction demand.
63
04 Site Analysis
64
%QPEGRV
65
04 Concept
When the water is discharged, multi-line fixed architectural prototype
The top of the Breeding ground is higher than the sea level
Architectural Prototype Gravel from the seabed
Transformable Surface Limited to the shape of the water
Seawater poured into the Breeding Ground cause water inlets is lower than sea level
The mold is built by the water Using the characteristic pressure of water
Multi-line control the surface deformation purpose of changing the shape of the water
打破既有陸地建築的觀念思考海上建築,Bredding Ground 運用海 水體積做為構築空間模板的概念,結合海底沙漠中的資源,企圖產 生因應各種機能的建築雛型 Break the existing land-based architectural concept and think as offshore construction,Bredding Ground use the seawater volume template of buildings. Resources in the seabed desert, attempt to produce various of offshore Architectural Prototypes.
66
04 Concept
由水灌注的若干型體加以排列, 當石膏灌注周邊剩餘的縫隙, 待凝 固完全, 將水釋放洩流, 原先由水所充滿的部位形成空間 Arrange the water balloons. Perfuse the gypsum around the water balloons. When it solidification, puncture the water balloons. Then 67 the space appeared.
04 Concept
68
04 Concept
模擬在海洋中的情況, 水壓將膜撐起, 藉由水的張力與控制端收緊 與放鬆間尋找構築的可能性 Simulate situations in the ocean, the water pressure will hold up the film. With water pressure and the control side to find the possibility of offshore construction.
69
04 Concept
Breeding system
Moving, hoisting system
Deck
Working area
Surface Gravel Seawater
Raw materials of surface Surface collector
Water infusion
Surface controller
70
04 Concept
曝砂場 濾砂場 採砂場
錨訂在海底沙漠中,隨著海砂漂流在海洋之中 Anchored to the seabed desert, with sea sand drifting in the ocean.
71
04 Concept
Breeding ground
4. Mix concrete
3. Desalted sea sand
2. Sand Sieving
5. Breeding ground
1. Sand pumping
針對海沙此一元素的特性,設計其構成Architectural Prototype 所需要的流程 Simulate situations in the ocean, the water pressure will hold up the film. With water pressure and the control side to find the possibility of offshore construction.
Sea sand 72
Breeding Factory
73
05 Design
74
05 Design
75
05 Design
First Floor Plan
01
05 06
04
02 03
07
09 08
10 11
01. 02. 03. 04. 05. 06. 07. 08. 09.
Sand pumping Sand sielving First desalted sea sand Second desalted sea sand Mix concrete Breeding ground Dock Dormitory Tow boat
1
5
10
Second Floor Plan 76
05 Design
77
05 Design
04
02
08
Fourth Floor Plan
05 04
02
5
10
08
1
Third Floor Plan 78
05 Design
79
05 Design
A-A’ Section 80
05 Design
81
05 Design
B-B’ Section 82
05 Design
83
05 Design
84
05 Design
85
05 Design
86
04 Design Self assembly
Cradle to Cradle circulation
建築沒入水面下的部分以有機的型態呈現,隨著時間的演變, 將海洋垃圾,魚骨...等附上積累成為構造柱,同時固著海面上的 結構,所形成的珊瑚礁也使生態恢復,使荒蕪的沙漠海底,起死 回生。
Garbage, fish bones Ecological reefs
Biological nutrients. Undersea desert
Marine constructions, use ecological reefs as a formal concept of operations. Evolved over time, reefs will attach by the ocean garbage, fishbones... etc. Accumulated become structural columns. Fixed the constructions on the sea. Reefs also make ecological recovery in the ocean. Bring the barren undersea desert, back to life. 87
04 Design
依照機制控制點變換不同曲面,製造開放空間及半 開放空間 Surface transform in accordance with different control point to semi-open space and open space. 88
04 Design Type A
Type B
Type C
Type D
Spring
Summer
Winter
建築底部生態魚礁設計,模擬在各季節海流流經時 通過的流速及流量 Eco reef beneath, simulation currents flowing in different season when the flow rate and flow through.
89
04 Design
part A
Divided to pieces of each 10x30m unit, assembled and combined with tow boats.
Second Floor
part B First Floor
Input physical space according to program needs.
part C
Seabed ecosystems reef.
Exploded Diagram Analysis 90
04 Design
91
04 Design
01
04
03 02
A
A’
06 05 08
07
01. 02. 03. 04. 05. 06. 07. 08.
Room type 1 Room type 2 Open ketchien Lobby Dining area Outdoor space Dock Massage & Sauna
1
5
10
First Floor Plan 92
04 Design
93
04 Design
02
01 03
1
01. Room type 3 02. Room type 4 03. Restaurant
5
10
Second Floor Plan
94
04 Design
Roof Plan
1
5
10
Elevation 95
04 Design
A-A’Section 96
97
逢甲建築畢業展開幕-榮譽評圖(Top5) The Prize of Honour, FCU Department of Architecture Graduation Design. 98
99
Workshop /
USC School of Architecture (AAU) +FCU Department of Architecture +TKU Architecture International Workshop
2011, 10
WORKSHOP Actuating Geometry in Design
2012, 02
Urban Development Bureau, Taichung City Government-Regeneration of Taichung Old Town
2012, 08
100
101
充氣式的牆面與地面可在需要時改變整 個空間的型態,亦可形成階梯、 椅。
參數模型的應用,於展覽場時可依人數 流量對空間做變動,甚至出現新的出入 口以應對人數 多時段。
設計中的動態幾何 工作坊
透過Grasshopper, Processing 以及 Arduino來實現從數位思維到實體運 算的設計過程
Actuating Geometry in Design WORKSHOP
102
Arduino 程式碼 #include <Servo.h> int pinServo = 2; Servo myservo; void setup(){ //set the digital pin for servo myservo.attach(pinServo); myservo.write(0); } void loop(){
}
中心軸
myservo.write(5); //buffer delay(900); myservo.write(183); //buffer delay(700); //myservo.write(0); //buffer delay(15);
Arduino 軟體操作- 動態仿生設計 Tutor/ 王識源 老師
103
國際學術交流工作坊
美國南加州大學+ 甲大學建築系+淡江大學建築系 USC School of Architecture (AAU) +FCU Department of Architecture +TKU Architecture
International Workshop 104
1-100的家
於水
彭文苑 老師作品 經貿園區願景館 未來玩城市
展過程
105
106
107