contextual works

Page 1

CONTEXTUAL WORKS


李政儒

Lee Cheng Ju

Taipei

LANGUAGE English / Chinese

Email: maxkai8187@gmail.com Contact: +886 932202082 Education: Bachelor of Architecture, National Cheng Kung University Dept. of Architecture

SKILLS PS / AI / ID /Autocad Rhino / Grasshopper / Sketchup V-ray / Maxwell / Office

EDUCATION / EXPERIENCE 2011

就讀國立成功大學 Started School at National Cheng Kung University(NCKU), Tainan

2014.9 - 2015.2

2014.7 2015.2

EXPERIENCE Architectural Design Interior Design

Landscape Design Exhibition

ACHIEVEMENTS 加泰隆尼亞理工大學In Flux國際工作營 In Flux: Barcelona, Infrastructure & Public Space Workshop

AA 台灣SURABU HOUSE 研究團隊 Architecture Association Taiwanese Surabu House Researching Team 滬尾藝文休閒園區 - 3D模型 / 立面設計 Huwei arts and culture leisure park - 3D modeling, Facade Design

ASSISTANT DESIGNER 九典聯合建築師事務所 Bio-Architecture Formosana 實習助理設計師/ Full Time Internship

台北中山意舍酒店外觀整建案 - 立面設計 Exterior Renovation of AMBA Taipei Zhongshan HOTEL - Facade Design 墾丁意舍酒店 - 室內設計 AMBA Kenting Hotel - Interior Design

台中自然水園區競圖 - 量體配置研究 (第一名) Taiwan Water Corporation Competition - Massing study (First Prize)

2015.9

2016.6

臺北市公共住宅規劃設計/ 公辦都更策略規劃 徵求創意方案 佳作 Taipei Public Housing / Urban Renewal Competition, Honorable Mention 成大建築畢業設計獎 NCKU Architecture Thesis Design Award

NCKU Architecture Thesis Project Show 展場設計團隊 NCKU Architecture Thesis Project Show Curating Team

CURATING TEAM 實構築 Tectonic Becoming 2016 Tectonic Becoming 展覽團隊/Curating Team

2016.9 – 2017.1 ASSISTANT DESIGNER 張鶴齡建築師事務所 / 好立設計 Holing Chang Architect Inc. 實習助理設計師/ Full Time Internship CURATING TEAM 2016 成大雙年展 2016 NCKU Biennale 策展團隊/Curating Team

2017.1

畢業於國立成功大學 Graduated from NCKU, Tainan

2016.8 2016.9

TEAM20兩岸建築與規劃新人獎建築組 入選 2016 TEAM 20 Architecture & Urban Planning Competition, Honorable Mention 2016實構築Tectonic Becoming 策展團隊 2016 Tectonic Becoming Curating Team

Arch Out Loud 國際競圖Tokyo Vertical Cemetery 佳作 Arch out Loud International Competition Tokyo Vertical Cemetery, Honorable Mention

台北捷運中山雙連段帶狀公園改造工程規劃設計案 - 地下街部分室內設計 (第一名) Taipei Metro Linear Park Competition - Underground Mall Interior Design (First Prize) (In Collaboration with Ecoscpoe Design & Fieldscape Design) 新竹農產運銷股份有限公司週邊環境改善工程規劃設計 - 立面設計 HsinChu Agricultural Market Environment Improvement - Facade Design 2016 成大雙年展 策展團隊 2016 NCKU Biennale Curating Team

The 6th LIXIL International Student Architectural Competition邀請賽成大參賽隊伍成員 The 6th LIXIL International Student Architectural Competition, NCKU Representative Team

寄生之廟 書籍出版/研究 團隊 Parasitic Temples, Book Publishing / Research Team


CONTENTS / In Flux / Re - Promenade / Playvilion [Competition Archive] / Long Live the Green / Balloon City / Memorial for the Future [Work Experience] /Exterior Renovation of AMBA Taipei Zhongshan Hotel /NCKU Architecture Thesis Project Show /Taipei Metro Linear Park - Underground Mall Interior Design



In Flux


In Flux / Luoyang Parking Lot, Ximending, Taipei / 2016/01 - 2016/05 /A combination of Logistic Center, Post office, & Hypermarket.

fig.1-1 / View from the bridge to the site

fig.1-2 / The relationship between the site and infrastructure in different era

The changes between infrastrucutre & cityscape.

The changes between infrastrucutre & cityscape.

fig.1-3 / Taiepi's highway

system

Luoyang Car Park is a parking lot which is 7600m2 and has a capacity of 1600 vehicles. It has multiple entrance which is connected to the highway at 5F and 7F, and connected to the city at B1F and 1F. It also has 2 exit at 1F & 7F which is connected to the highway. It is located at the edges of Taipei and has several entrance / exit which is connected to the different levels of city. I want to use the Luoyang Car Park as a template to discuss the

relationship between infrastructure (highway) and the architecture.

fig.1-4 / The original circulation of the parking lot


2007 萬華區運動中心 2003 玉泉公園完工

2000s 1997 市民大道通車 1989 第四代台北車站 1987 洛陽停車場啟用 1986 環河高架道路工程

1984 台北市鐵路地下化

1982 新生、建國高架通車 1982 西寧國宅完工

1982/05 忠孝橋完工

1980-2000

1980s台北車站專用區計畫 1979鐵路地下化通過 1978 北門高架橋

1976/01 峨嵋立體停車場 1975 環河南路五金街 (From1922) 1915防洪牆

1909台北工廠完工

1900台北城牆拆除

1900-1980

fig.1-5 / The archive of nearby infrastructure

fig.1-6 / Luoyang parking lot is a connection between context and infrastructure


Because of the connection with the highway, the site is considered as it has 2 contexts: the ground level & the mega highway level. According to the mapping, there are many other parking lots in 10 mins walking distance, so the Luoyang Car Park is not unreplaceable.

fig.1-7 / Analysis of parking lot and walking distance

fig.1-8 / Mapping of urban programs and using time

On the ground level, I replace the original parking lot by an elevated slope park and ground level public route to connect the urban space which is scattered by the urban infrastructure in the surrounding area. On the higher level, the elevated slope park is linked to an elevated passage that is also a gym to offer people another route to the riverbank park from regional sports center.

And on the high way level, I reprogram it into an internet logistics service center. By making the traditional storage shelves double-sided, the logistics center will open to public. New commercial activities will happen with the double-sided storage shelves and by means of the big data, the shelves itself turn into a vending machine. And also it offer the drive through service for people to receive their oders in the internet by vehicle. The logistics center will eventually turn into a 24/7 unstopping shopping center and control, measure the flux of internet shopping data.

fig.1-9 / Circulation after new programing


昆明街

忠孝橋 環河高架

萬華運動中心

堤外公園

+27m

EXCHANGE LEVEL

+23.1m +20.1m +17.1m +14.1m +11.1m +8.1m +5.1m +0.6m -3.4m

RETAILING DRIVE-THRU

PUBLIC PASSAGE/COMMERCAIL 立體停車

+18.6m +15.6m +12.6m +9.6m +3.6m -0.9m -4.9m

fig.1-10 / Program/Context exploded drawing

+21.6m +12.6m +6m


fig.1-11 / Short section

fig.1-12 / Long section



Public Housing

Regional Sports Center

Entrance to B1F

Urban passage & Gym Bridge

Entrance Exit on 7F

Exit on 1F

Entrance to 1F

Entrance to 5F

Riverbank Park


e to 7F

MAIN STORAGE

Direct Shopping in the Logistics

Logistics System


Re-Promenade / Yancheng District, Kaohsiung / 2015/09 - 2016/01

/Discuss about the new urban public space in Yancheng. From sea to land, from saltland to Kaoshiung's first do wntown.

fig.2-1 / Kaosiung's urban development

fig.2-2 / The process of salt production

fig.2-3 / Kaoshiung's first urban planning

fig.2-4 / Context changing, greenery changing, what's next?

Re-promenade is a project about turning the oversize post-modern street into human-scale public space. Yancheng is the first commercial area in Kaoshiung. By now, this district is trying to turn its old commercial area into new tourist sites, but the lack of public transportation and urban space makes the tourist sites unfriendly. By analyzing the urban activities and the road usage of traffic, people gain public space back from the vehicles. Five new urban linear parks not only connect the existing greenery and urban activities but also create new public space for the locals, students and the tourists. Just like the concentration of salt production, the design create new urban space and greenery reversed-inflow into the old-lack of public space district.

fig.2-5 / The concentration of salt prodution

fig.2-6 / Urban program mapping


fig.2-7 / Masterplan


fig.2-9/ Section 18.18m →


→ 8.18m+10m

fig.2-8 / Daily Life Route: View to the temple

fig.2-10 / Section 18.18m → 5m+8.18m+5m

fig.2-11 / Urban Section Diagram


fig.2-12 / Public Route: View from the library

fig.2-13 / Section 18.18m → 8.18m+10m

fig.2-14 / Section 20m → 9m+11m


fig.1-15 / Tourist Route: View from the street

fig.2-16 / School Route: View from the street


fig.2-17 / Section 25m → 4.5m+16m+4.5m

fig.2-18 / Section 40m+40m → 20m+60m


fig.2-19 / Public Route: View from the street

fig.2-20/ Section 20m → 10m+10m



Playvilion


Playvilion / No Site / 2015/02 - 2015/06

/Discuss about digital fabrication and tensigrity system.

FORM FINDING

Form Finding Use vaccum machine to create new form.

fig.3-1 / We set some We set some triangle triangle grid grid and then and then randomly pick randomly pick up some up some points to conpoints to And connect nect into lines. when into l ithe n efoam s . attach A n dthe wlines hen the , it will attach be divided into foam the lines, segments and itsmall will be ,divided into maybe it will create some small segments, and maybe unexpectable geometry. it will create some Unexpectable geometry.

fig.3-2 / We try to try to this kind of useWethis kind of mould mould that has elasticity to that has elasticity to create much smoother and create much smoother landscape-like shape. And and landscape-like shape., And because it was overlayed it will create because it some was holes overlayed that has different heights some . , it will create holes that have different heights.

fig.3-3 / We try to use We try tokind this kindof of mould another mould has elasticity to create thatthathas elasticity to much smoother and landcreate muchshape. smoother scape-like And be- and landscape-like shape. And cause it was overlayed , it will create it somewas holesoverlayed that has because . , itdifferent willheights create some holes that have different heights.

fig.3-4 / We try to make a We try to makethat a figure figure ground respond t o ground t h e that e n vrespond i r o n to m ethe nt's site’s context. After that, we context. add moreAfter cubes tothat, adjust we add the more cubes touseadjust height. Then we pressure to we use the weaker height. Then vaccum form it. to vaccum weaker pressure form it.


Units of Tensegrity #01 GEOMETRY PROTOTYPE TYPE A Octahedron

TYPE B Tetrahedron

perspective

front view

COMPONENTS TYPES TYPES #02 COMPONENTS

PHYSICAL ABILITY

TYPE C Icosahedron


#03#03 PHYSICAL PHYSICAL ABILITYABILITY

#03 PHYSICAL ABILITY

TOTALLY ELASTIC TOTALLY ELASTIC TOTALLY ELASTIC point symmetry point symmetry point symmetry

S

line symmetry line symmetry line symmetry

TYPES

TY

STIC

SEMI ELASTIC

SEMI ELASTIC opposite surface line symmetry opposite surface

SEMI ELASTIC

opposite adjacent surface surface

adjacent surface adjacent surface

opposite surfa op


Connection

GROUP of TENSEGRITY #04 COMBINATION

String type

Rigid

Semi-elastic

Elastic

50%

0%

100%

rigid joint stick to stick

100% + 50% + 20% +

100% 20%

2 points

20%

rigid joint surface to surface

[ Celluar Packing ]

6 points

surface to surface

3 points

GROUP GROUP of of TENSEGRITY TENSEGRITY GROUP of TENSEGRITY #04 COMBINATION #04 COMBINATION #04 COMBINATION Group of Tensegrity 100% + 50% + 20% + #04 COMBINATION 100% + 50% + 20% +

100% + 50% + 20% +

[ Celluar Packing ] [ Celluar Packing ]

[Celluar Packing]

0%

0% 0%

50% 100% 100% ] [ Connection 100% 50% 20% Vacuum Forming 100% 20% 20% Vacuum Forming 50%20% 100% 100% 20% Vacuum Forming 20%

[ Celluar Packing ]

?? ?

Point to Point

Point to Edge

(surface to suface)

(surface to suface)

It’s free to rotate and squeeze in all directions.

This type of connection limits the rotation between the two units.

[ Connection ] [Connection] [ Connection ]

[ Connection ]

Point to Edge Point to surface) Edge (surface (surface Point tototosuface) Edge

(surface to suface) free to andand squeeze in all It'sIt’sfree torotate rotate squeeze directions. It’s free to rotate and squeeze in all in all directions.

directions.

Point to Edge (surface to suface)

Point to Point Point totoPoint (surface surface) (surface to suface) Point to Point

(surface to suface) Thiskind typeof of connection the the rotaThis connectionlimits limits tion the two units. Thisbetween type of connection limits rotation between the two units.the rota-

tion between the two units.

Point to Point (surface to suface)

Point to Point Point to Point (edge to edge) (edge to Point toedge) Point (edge to edge)

This of connection limitslimits the Thistype kind of connection the rotation the two units. This typebetween of connection limits the rotation between the two units. rotation between the two units.

Point to Point (edge to edge)

Th ro


DESIGN by VACUUM Design by Vacuum - Forming #05 FORMING #05 FORMING

Because of the way they are connected, Because ofsystem the wayisthey are connected, the whole transformed. And according to that, there are two kinds the wholeunits, system is transformed. of elastic which will generate unpreAnd according to that, arecurvature two kinds dictable geometry withthere special of elastic which will generate unprewhen it isunits, vaccum-formed. dictable geometry with special curvature when it is vaccum-formed.

Because of the way they are connected, the whole system is transformed. And according to that, there are two kinds of elastic units, which will generate unpredictable geometry with special curvature when it is vaccum-formed.

Forming the tensegrity system to get the m

Because of the way they are connected, each elastic unit affect each other when the whole system is transformed. And according to that, there are two kinds of elastic units, which generate unpredictable geometries with special curvature when it's vacuum formed.

Vacuum-forming produces unique surface, that covers our tensegrity structural system. Vacuum-forming produces unique surface, This ability isthat not just good-looking, but could covers our tensegrity structural system. be also useful. Weability are using vacuum-former as This is not just good-looking, but could

be also useful. We are using vacuum-former as

based on the shape of formed surface, we can Vacuum-forming produces unique surface, see is the surface divided, what is the thathow covers our tensegrity structural system. Vacuum-forming surfaces based on the shapeproduces of formedunique surface, we can that level of tense on every This ability iscovers not justour good-looking, butstructural could tensegrity This see how issubsurface, the surfaceetc. divided, what issystem. the ability not vacuum-former just good looking, be also useful. We areisusing as but could be also

level of tense onusing every subsurface, etc. as a design useful. We are vacuum-formier tool. It influences our design because based on based on the shape of formed surface, we can the shape of formed surfaces, we can see how the see how is the surface divided, what is the surfaces divided according to the tense level on level of tenseevery on every subsurface, etc. surfaces. Forming the tensegrity system to get the mode.

Forming the tensegrity system to get the mode.

Forming the tensegrity system to get the mode.

Combine with the original tensegrity

Forming the tensegrity system to get the mode.

Combine with the original tensegrity part. Combine with the original tensegrity part.

Putting the original mode as the shell. For the former structure, turning the rigid tensegrity units Putting the original as the shell. intomode elastic one and remove the original elastic For the former structure,turning the rigid tensegrity units units. into elastic one and remove the original elastic units.

Putting the original mode as the shell.


CONCEPT Concept

SITE

VACUUM FORMING [Finding the minimum surface]

PLAYGROUND for ALL

+

VACUUM FORMING Vacuum Forming [Finding the minimum surface]

Playground for PLAYGROUND forAllALL

[Finding the minimum surface]

DIAGRAM Diagram

[TENSEGRITY] [Tensegrity] MINIMUM STRUCTURE

Minimum Strucuture

+

Totally Elastic SEMI ELASTIC

[TENSEGRITY] MINIMUM STRUCTURE TOTALLY RIGID

[MANBRANE] MINIMUN SURFACE

MAXIMUM SPACE

PLAYGROUND for ALL

+

ENSEGRITY] M STRUCTURE

[MANBRANE] MINIMUN SURFACE

MAXIMUM SPACE

[MANBRANE] [Manbrane] MINIMUN SURFACE

Minimum Surface

Maximum Space MAXIMUM SPACE


South elevatio

Fabrication FABRICATION FABRICATION

3m 3m

#05 FABRICATION / #06 FABRICATION/SHIPPING/INSTALL SHIPPING / INSTALL #06 FABRICATION/SHIPPING/INSTALL

CNC CUTTING the GAP CNC Cutting the Gap

x 36 x 36

x 36

FIXED STRING FIXED STRING Fixed String

3D PRINTING the JOINTS 3D PRINTING the JOINTS

3D Printing the Joints

ELASTIC STRING ELASTIC STRING Elastic String

South elevation

CNC CUTTING the GAP

PROJECT the MEMBRANE SHIPPING ShippingbybyCONTAINER Container

PROJECT the MEMBRANE

Project the Membrane

SHIPPING by CONTAINER

fig.3-5 / Plan

Scale = 1/50

lan

Considering the Accessibility of the pavilion, we design simple components to construct the pavilion. Using fabrication techniques to help us to produce the components, all the components are prefabricated in the studio.


fig.3-6 / South Elevation Scale = 1/60

fig.3-8 / Short Section

Scale = 1/50

fig.3-9 / Long Section

Scale = 1/50

fig.3-7 / Long Elevation

Scale = 1/60



Competiotion Archive











WORK EXPERIENCE


Exterior Renovation o f A M B A Ta i p e i Zhongshan Hotel Project Info [RENOVATION] Site: Taipei

Schematic Design Entrance elevation design Design mark up


NCKU Architecture Thesis Project Show Project Info Site: Taipei

Exhibition space design Design mark up


Taipei Metro Linear Park - Underground Mall Interior Design Project Info [Renovation] [Competition] Site: Taipei

Schematic Design conceptual design Rendering





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