Maho Akita_Work Sample

C o mp eti ti o n > Medi c al Sc h o o l fo r Un iver s it y o f C y pr us

SHADING ROOF

ORGANISING ROOF POSITION

SHADING ROOF

N

N

DEANERY & ADMINISTRATION MODULE DIVIDING FUNCTIONALITY OF BUILDING

GETTING NATURAL LIGHT TO COURTYARDS

GREEN ROOF TEACHING ENTITY MODULE

COMMUNICATION BETWEEN BUILDINGS

COLLECTING RAINWATER

INTENSIVE GREEN ROOFS (COURTYARDS)

COLLECTING SOLAR ENERGY

RESEARCH MODULE

DOBLE SKIN FACADE

MAIN STRUCTURE STEEL COLUMNS EXTENSIVE GREEN ROOFS

WIND TURBINE

2015 [ N icosia, Cypr us ] >design compet it io n Ar ea : 9942m2

0

BUILDING COMPONENTS

-1 LEVEL FLOOR PLAN

The University aspires to become an institution that will foster and amplify environmental consciousness and also to become a leader in Cyprus in terms of sustainability and environmentally friendly construction and operation in Athalassa Campus. The campus is located near the centre of the Mesaoria plain, on the banks of the River Pedieos. The area has a subtropicalhot semi-arid climate with long, hot and dry summers and most of the rainfall occurs in winter. In such a specific climate the major issue will be the system of heat avoidance. The proposal

includes passive design methods as a basic approach to minimize involvement of mechanical systems. By dividing one surface of the roof into three and locate them on different level, the building gets shaded space with controllable sunlit areas. The spaces between roofs allow the removal of heated air out of buildings. They also make easy way for local hot winds to get through the area. The form of the proposed design came out from the idea of use the shading

THERMAL ENERGY

Me d i c a l S c h o o l f o r U ni v e r s i t y o f C y p r u s |

GREEN ROOF (COURTYARD)

5

15 (M)

1ST FLOOR PLAN

roof and take the advantage of the terrain. It is organisd with three blocks as Administration, Teaching entity and Research laboratories. Communication between modules is provided by two sides communications spaces. These two lines generated two open spaces between functional modules. All designed material are proposed as a local materials and with light colors as they reflect the light and reduced heat gain. From the structural point of view, there will be several steel columns supporting

N

REAR ELEVATION (SOUTH-EAST)

SIDE ELEVATION (SOUTH-WEST)

0

5

SECTION AA

15 (M) 0

GROUND FLOOR PLAN

the roof structure located at the external walls of each modules. This makes the proposed internal areas free of obstacles and more adaptable to deferent requirements and changes.

5

15 (M)

C o m p eti ti o n > Th e Fu tu re o f H o us in g C o m plex Pr o jec t

N E-lounge

E-lounge

SOUTH ELEVATION

public toilets staff room Office

meeting space

Japanese style communication space （Doma）

Event space (Sankun Garden)

Entrance space Main staircase

large meeting space

Entrance (doma)

office

B-B SECTION

community / activity area Main line Look down to the event space

PLAN

Th e F ut ure of Ho u s i n g C o m p l e x Project | 2015 [ Yo ko h am a, Jap an ] > de sig n co m p e t it io n A re a : 350m 2

After World War II, Japanese economy developed remarkably. During that period, Japanese local government built housing complex buildings to attract workers and their families. Those houses were ideal place to live for previous as they were applied modern design within specious area with reasonable price. However, as the style of standard family has been changing, those houses face to difficulty to attract current generation. In fact, the average age of residents are getting higher.

ROOF PLAN

This competition aims to organise a community centre in the area of housing complex buildings for future generations to expand new vision of living in those houses with other people. I set the design concept as attracting young mothers. By organising events and meeting space, mothers would find advantages of growing up own children in the housing complex with other families helping each other. I proposed to rebuild office and storage buildings and create new entrance to the

A-A SECTION

main open space from the direction of nearest train station as considering that they will be able to have various events around the community centre. The entrance area is covered by timber framed structure with a symbolic shape of house, to softly divide the space. The house shape also implies that "everyone is a same family".

C o m p e ti ti o n > Mus ic Sc h o o l o f Po zn an

educational area educational area for young students concert area technical area for concert feature office area cafe & shops technical area communication area toilet parking green area

roof top

M usi c S ch o o l o f P o z n a n | 2015 [ Po z nan, Poland ] >design compet it io n Ar ea : 9450m2

floor 0 - Entrance hall/Technical rooms This is a proposal for Music School of Poznan in Poland. Poznan is one of the oldest cities and also the most important, historical part of Poland. Hence the regulation for new building is strict. One of the most important regulation is about the height which makes this building cannot be higher than surrounding buildings. Therefore the shape of the building has been almost set. I got a clue from this specific shape led by the surrounding environment,

A-A’ SECTION create 2 islands inside the building. The area between 2 islands is shifted from bottom to top and create open communication area.

diagram) to help creating flexible space around entrance area and pavement. Upper floors are for private classrooms and offices.

This area also brings light from from roof top opening.

The third and fourth floors have green roofs. Those green roofs are surrounded by second walls, so student can be relaxed with having a rest or even studying and practice in there.

This music school is included a concert hall, a theater hall, music class rooms, practice rooms etc., so that it is open for both local visitors and students. I designed ground and first floor more open and easily access for local visitors as 2 main halls are placed. Especially on the ground floor, existing trees are held by second wall (as on a

Pro fessi o n al e x p e ri e n c e > Ho us e in As a m ay am a

entrance

4400

south-east elevation

N

20 9880 170

125 2000

12530

1930

2000 1100

2270

60

1132

60

2033

60

1132

60

3558

3850

60

1132

60

2033

1969

185 450

600

600

900

450

925.5

15

WIC 7.5m2/4.5J CH=2250/FL+0

15

730

90

195 675

119 450 119

CH=2270/FL+0

鏡貼り

445

ﾄﾞﾚｲﾝ

ﾄﾞﾚｲﾝ

119

1545.5

10

2705

805

2220

915

195

15

DW=720

15

700

1650

FL-41

15

400 ベンチ

70

40

910

ESTX900 Sharp W600xD595xH845

4645

719.5

薪ストーブ ﾈｽﾀｰﾏｰﾃｨﾝ NM33

ﾘﾋﾞﾝｸﾞ ﾀﾞｲﾆﾝｸﾞ 64.9m2/39.3J FL+0

100

ﾄﾞﾚｲﾝ ﾌﾛｰﾘﾝｸﾞ下 1439

φ200 702

47 45

45

20

150 89 150

910

40

885

195

719.5

890

765

430

1635

250

1252

1192

15 730

445

70

195

175

50

15 660

1380

Y2

主寝室

17.8m2/10.8J CH=2350/FL+0

25

1235

940

275

15

15

3935

60

710

15

10

15

1114

445

195

15

730

1136

DW=750

1010

1330

1330

15 80

390

860

1400

4660

945.5

冷蔵庫

472.8

置き型電子ﾚﾝｼﾞ

BOSE

3663

472.8

2040

15

50

5079

2160

DW=750

250

15

1335

コート掛け

ﾄﾞﾚｲﾝ

靴収納

99

3225

WC

1426

394

ﾗｲﾌｨﾆﾃｨ ｺﾝﾄﾛｰﾙﾊﾟﾈﾙ

ﾄﾞﾚｲﾝ

380 FL-0

1016 FL-0

215

170

150

561 100120

1000

70 195

466

400

685

380

310 275 150

895.5

870

195

木口石トメ加工 20

6767

70

1200

195

150

70

3188

70

292.5

550

3461

FL-31

Y3 2160

上部 棚

10.6m2/6.4J CH=2260/FL+0

1390

2079

2470

3.1m2/1.9J CH=2260/FL+0 2199

2744

10.52m2/6.4J CH=2275/FL+0

棚板 コート掛け4枚

450

ﾕｰﾃｨﾘﾃｨ

ｹﾞｽﾄﾙｰﾑ

ｷｯﾁﾝ

730

1785

玄関

FL-15

2000

1240

250

布団収納

1650 1200

1785

70

750

165.5

CH=2260/FL-30

Y3A

1000

浅間山

1560

1054

1058

FL-41

195

70

45

195

210

70

SC2a

15

150

292.5

165.5

250

70

250

55

195

Y4

300

175

60

離山

230

70

170

972.7

100

432

930

洗面脱衣 9.4m2/5.7J CH=2550/FL+0 305

910

195

3465 1120

FL+350

1570

45

970

浴室

1710

1000

163

Y1A

918

430

10.4m2/6.3J CH=2550/FL-10

160 42 160

200

325

90

FL+350

38

100

52

308

97

164.5

42 160 85

ﾄﾞﾚｲﾝ

Y1

130 1280

10

2782.5

10

2782.5

10

2208.5

10

2208.5

45

910

45 153

210

200

2420

1030

200

930

2470

2000

385

496

FL-15

1685

1321.5

1520.5

1000

FL-15

U02

155

2704

44

U02

1500

12591

8350 U02

156

U02

2640

2765

3335

2250

3850

1735

2830

1535

1965

1350

860

20265

X1

X2

X2A

X3

X3A

X4

X5

X5A

X6

plan

House in Asamayama | 2012 >Kidosak i Ar chit ect s St udio N agano , Japan

Private residential project in Asamayama. The concept of this project is to link surrounding nature with building interior. The building overhangs towards the forest, therefore, the view from the terrace is amazing as you could feel a part of nature.

living-dining room

view from living-dining room

Pro fe s s i o n al e x per ien c e > K r es id en c e

N 建築地：愛知県一宮市桜二丁目3番1

77000000

77000000

33550000

網戸不要 空気の流れ

4466

771100

11775500

空気の流れ

445522

22553333

空気の流れ

11222200

771100

11775500

4466

664411

33550000

樋2

11775500

樋2

777755

11775500

664411

FIX Y7

11885500

775566 114444

空気の流れ 樋1

885566

22113344

772222

11000000

114444 665500

クローゼット

114400

樋1

鏡

天井高=2240 廊下

22886666 22886666

556600

11000000

772200

クローゼット

114400

88660000 予備室 （6.2㎡/3.7J）

22550000

寝室 （10.3㎡/6.2J）

22550000

555500

33550000

55885566

11665500

114444

88660000

WD 11

22557788

885566

Y5

22113344

天井高=2230 光り取り窓（要遮光） FIX

11885500

11332244

11777755

Y6 浮型収納

9900

Y5

浴室 タオルウォーマー/PSヒーター

WD 10

11000000

猫用品収納

330000 114444 330000

11555566

空気の流れ

別途タオル掛け要

11005566

WD 09

Y6

772255

33228866 洗面脱衣 天井高=2250

114444

11660066

550000

ガラリ扉

11882200

22000000

11885500

880000

114444

882266

11660066 天井高=2230

洗濯機

11885500

11335500

納戸 （2.28㎡/1.4J） 空気の流れ 網戸不要

下部オープンで 洗い物カゴ収納 11776611

22000000

11335566

552200

444499

Y7

Y4

Y4

Y3

774466 2FL-40

22225500

11660088

119933 444499 11660088

554444

11335500

Y2 22225500

トップライト 遮光要検討 22661166

444422 Y2

空気の流れ

119933 444499

空気の流れ

トランクなど

22225500

11000000

予備布団

Y3

天井埋込み ロールスクリーン

テラス

444499

444499

樋3-1

樋3-2

樋3-2

Y1

Y1 透明な屋根

11660088

X1

延焼のおそれのある部分（2F）

444499

X2

X3

X4

X1

X2

X3 227755

X4

2F

（2F床面積：44.5㎡）

屋根伏図 north-west elevation / entrance

study space

77000000 11775500

33550000

664411

22339922

664411

樋2

空気の流れ

223388

11885500

444499

330033

665500

天井高さ=2400 キッチン レンジフード高さ=1700 （6.5㎡/3.9J）

FIX

レンジ・炊飯器 天井高さ=2250 パントリー （3.2㎡/1.9J） 778811

W900

11885500

554488

空気の流れ

550066

557788

557788..55

771100

11885500

冷

667755

333300

335599

T O T O妻 板 勝 ち

2200

449955

444499

99

7722

6633

Y7

11775500

キッチンパネルの面、PB12.5+キッチンパネルt=4 空気の流れ 11662200 995500 771100 4466 シンク上部は隠す物干しスペース

※オーディオ用ブレーカーは 個別に設けてほしい。

樋1

11775500

660000

11448855

22002200

WD 06

レンガ壁 88660000

11775500

11113355

リビング・ダイニング （18.3㎡/11.1J）

季節外れのラグ 暖房など

スピーカー W450×H700×D300

662211

オーディオ ルーム （8.2㎡/5.0J）

下部ストレッチ用具

階段下 収納

空気の流れ

天井高さ=2250

FIX

巾木、壁のキズ対策、要検討

336611

22550000

42インチTV テレビ台 （上下扉付き収納） アルバム、小物

天井高さ=2250 空気の流れ 119922 335500

553300 5500

33335566

114444

WD 08

フリッパー扉 作業スペース （5.3㎡/3.2J）

22225500

書庫

高天井 天窓より採光

天井高=2400

空気の流れ

11660066

775500

660000

9955

オープン収納

9955

7755

660000

※お仏壇のサイズ、扉の有無要確認

Y2

工作室

空気の流れ 114444

7700 118811

上部棚

X2

（1F床面積：62.4㎡） （延べ床面積：106.9㎡） （32.3T）

上部棚

樋3-2

FIX 33330022

119988

66111144 X1

11660066 444499

33335566

444499

116699 444433

空気の流れ 11220088 119988

660000

114444 771100

11660066

Y1

11550000

772200

天井高=2400

881111

オープン収納

WD 07

タペガラス

延焼のおそれのある部分（1F）

775500

中段：FAX 下段：紙類 7722 11007755

669955

Y3

天井高=2390

112200 550000 7755 221122

H700

空気の流れ

11000000

221122

Y4

11000000

113355 229900

115500

11000044

33550000

便所

221122

5599 335544

7700 2255

775500

775500

11337766

11550000

上部棚

WD 05

下部 ゴミ置き場

883366

552255

WD 03

33550000

空気の流れ

445500

445500

11000000

112200

7722

335500

660066

上着 帽子 665555

227733 227755

WD 02

22556600

221122

11000000

772200

扉に全身鏡

22227755..11

WD 04

775500

天井高さ=2400 FIX

7722 2255

22000000

Y5

11662200

114444

667788

11000000

775500

114400

玄関

114444 ゴミ箱 11221111

885566

WD 01

776622

Y6

11660066

557777

7722

X3

11220088

444433 116699

X4

1F ground floor plan

K residence |

study model

PROJECT

NO

Private residential project for a designer couple. A03 平面図 1:100 11 08 2012 The ground floor is mainly their working space and the first floor is １級建築士登録第58773号 城戸崎博孝 >Kidosak i Ar chit ect s St udio private bedroom. Aichi, Japan TITLE

原田邸 新築工事

SCALE

DATE

CHECKED

01

south-west elevation

audio room

Pro fessi o n al ex p e ri e n c e > Yo sh id o m e d en t a l c lin ic

entrance for the gallery

1705

1790

waiting room

counselling room

2397

本工事外

950 3650

3100 1183

8318

400

250 洗面カウンター 間接照明付鏡

210 240

4030

本工事外

1130

2170 3300

1225

2405

6900

下地;

8440

2450

1955

下地;

(ベッド)

X3 男子WC

1085

キッズコーナー 10.81㎡ セレック

FL±０

2240

1000

4000

3190

6090 Y3

X2

A階段

1390

4990

6090

6090 Y4

身障者WC

120

2200

1810

多目的WC

3600 120

ギャラリー建具の形状変更

2010.2.23 キッズコーナー建具追記

1170 6125

2010.2.23 治療室 収納4の追記 2010.2.23

2400

4050

ガラス壁

250

1050 3000

本工事外

365

PS

PS

6900

受付カウンター形状の変更

診察室 収納1上部飾り棚の設置

1931

壁 ラ ス ガ

330

下部収納

カウンター1

1900

上部吊戸棚2 洗面付カウンター

1950

1470

本工事外

什器 什器

フィルム張

カウンター

什器

2010.2.23 準備室1 吊戸棚1吊戸棚2の追記

+300

+300

2010.2.22 コンサルルーム2コンサルカウンター形状の変更

2010.2.23 滅菌準備室 吊戸棚の追記

500 シャワー 1.36㎡

男子更衣室兼事務室 8.18㎡

本工事外

370 1100

上 の ド ー 張 ボ ム ル

カルテ棚

+300

FL±０

石膏ボードの上

セレック 操作PC

ウェイティング

什器

2010.2.23

キャビネット

ィ フ

兼

2465

FL±０

流し台

貯湯式

膏

商品陳列棚

2010.2.18

手術室 12.29㎡

ギャラリー （セミナールーム）

待合

ソファ席 マガジンラック

レセプション

手術室用 機械室 2.02㎡

X1

石

FL±０

洗

洗面器 給湯器 ミラー

+300

+300

FL±０

ホワイトエッセンス 49.37㎡ プレイ台 ※将来、ケア個室として使用する可能性あり 給排水、床点検口用意しておくこと

1580 ショップ

準備室2 4.29㎡

機械室 4.73㎡

1225

間接照明付鏡

上部吊戸棚

冷 更衣室兼 職員便所 3.44㎡

+300

収納

上部吊戸棚1 収納付カウンター

FL±０

洗面カウンター

ディス

320 +300

2.95㎡

+300

収納

+300

流し台

スタッフルーム 15.92㎡

410

ルーム +300

90

3000

パウダー

7.4㎡

FL±０

1450

1425

受付

FL±０

PC台

パウダー コーナー1

+300

350

カルテ棚2

スロープ

8.28㎡

400

+300

650

カルテ室

885

ケア個室2

予備室

棚

4030

510

+300

1490

7.33㎡

カルテ棚1

便所

準備室1 6.47㎡ +300

収納付カウンター 上部吊戸棚2

下がり天井

カウンター

+300

上部吊戸棚1 流し台付カウンター

220 330

2950

PC設置 カルテカウンター

3000

ケア個室1

廊下2

+300

PC台

250 本工事外

1535

500

(靴箱)

+300

廊下1 90

1378

2700 廊下3

収納付カウンター 上部吊戸棚

上部吊戸棚 洗面器

上部吊戸棚

フィルム張

2005

下部収納、上部飾り棚

1100

ソファ

飾り棚

院長室 10.83㎡

+300

石膏ボードの上

1183

2890

2500 カウンター

洗面付カウンター

収納4

7255.4232

+300

空調機室１

500

特別診察室2 10.71㎡

+300

820

+300

上部吊戸棚

+300

10.42㎡

+300

+300

8.44㎡

ソファ

収納付カウンター

カウンセリング コーナー1 8.37㎡

CT・X線室 6.75㎡

フォトステーション

間接照明付鏡

特別診察室1

+300

治療室 45.42㎡ +300

予防室

+300 洗面カウンター

3400

2300

+300

洗面器

+300

流し台

廊下4

上部吊戸棚 収納付カウンター

滅菌・準備室 12.15㎡

2300

上部飾り棚

ゴミ収納

収納1

収納2

+300

+300

パウダー コーナー2

中待合

8.44㎡

壁 ス ラ ソファ

250

上部吊戸棚

カウンセリング コーナー2

ガ

5820

3300 1505

1455

上部吊戸棚

収納3

+300

show window

本工事外

90

+300

1125

流し台 上部吊戸棚

2850

2710

カーテン

2320

コンサルルーム1 7.92㎡

コンサルルーム2 10.31㎡

+300

石 膏 フ ボ ィ ー ル ド ム の 張 上

技工室

13.33㎡

450550

3010 4110

785 475

3360

200

750

435

3805

3080 1260

1540

3100

3235

2490

5000 4015

1350

4110

250

1145

コンサルカウンター ガラス壁

365

6090 6795

3670

treatment room

Y8

1945

6090

6525 2855

Y7

ガラス壁

6090

Y6

カウンター2

6090

Y5

本工事外

Y4

キャビネット

Y3

Y5

5000

4805

Y6

Y7

本工事外部分を示す ※

Y8

2010.2.24 予防室 吊戸棚の設置 は床下点検口を示す。(15カ所) ※

2010.2.26 本工事別途工事の別の追記 2010.2.26 滅菌準備室壁端部の形状変更 2010.2.26 床点検口の追記

和

田

吉

貴

建

築

事

務

所

検図 一 級 建築 士事 務所 一 級 建 築 士

2010.2.26 内部仕上げの別の記載

Yoshidome dental clinic | 2010 > y aw aa. Yos h it ak a Wada and Asso ciat es Kago shima, Japan

東京 都 知事登 録

第 296625 号

和

第 48061号 田

吉

貴

製図

工事名称 （仮称）よしどめ歯科マルヤガーデンズクリニックテナント工事

年月日

図面名称

縮尺

平面図

図面番号

1:100

A-07

This dental clinic is designed as a part of renovation project in an old shopping centre in Kagoshima, Japan. Because the client wants to make this clinic more open for public, the main design concept is using curtains rather than proper walls and doors.

Moreover, although the site has existing mechanical installations under the ceilings, as this is for a dental clinic, customers have more chances to look up them. To avoid showing those installations directly and to make more spacious, comfortable environment, we add curtains on the interior ceilings.

A c ade mi c re s er c > MI C R OST R ATA

Compression Stress Lines

Stress Value Points

Calculating Structure Value

Compression Adding Material

compression structure adding connection

higher stress

tension network

connection air ventilation

lower stress

adding vertical support

Branching Algorithm

Tension + Compression Network Agent

Material Arrangement

MI C R OS T R ATA |

2013- 2014 > th e B artlet t school o f Ar chit ect ur e pix elst o ne pr o ject Go lden pr iz e in GAD, 2014

Gravitational Response / Reinforcement Materials

The project investigates the dichotomy between additive manufacturing fabrication and generative design through computational methodologies. Reconciliation of these two realms as a single bottom-up process in architecture could initiate a paradigm shift in the way building industry works in the future particularly in reinforced concrete structure. The research objective is to establish a prototypical ‘reinforced concrete’ structure system by integrating digital and 3D printing tool. This design

research encompases several phases of excercise and workshops that investigate the Gothic elements, structural analysis, computational tools, material research and the physical fabrication. Although a wide variety of material has been used in 3D-printing, they all shares one common trait; they all only work in compression. This put a limit into the produced object to perform in tension. Like masonry and concrete construction, the only solution to surpass this problem is to have

reinforcement embedded within the structure itself. Modern architecture solved this problem by the invention of reinforced concrete, in which metal reinforcement bars are layed within the concrete mass to perform in both tension and compression. This solution enables builders to design in a more robust and versatile way. However, despite of its robust quality, reinforced concrete construction proves to be highly unsustainable and consumes excessive amount of

3M building model render

time and human labour considering the rebars' physical limitation. Heinz Isler's tension network following tension stress direction, is an optimum response to the constraint of the rebar. However, the execution requires long hours of work and high level of expertise in order to arrange material with precision.

Top & Side views / Printing model

MICROSTRATA researches fabrication technique to create artificial sandstone with casted rebar, reinventing reinforced concrete. The computational logic of agent-based algorithm is employed in the creation of interconnected, fine networks of venation with high-resolution according to tension structural data. The idea of reinforced concrete is reinterpreted into metal casting technique which results in tension networks with structural performance adequate to that of conventional

rebar. Compression blocks are fabricated by additive manufacturing method with high precision, leaving interconnected networks of cavities for tension material casting. MICROSTRATA investigate micro-organization system, turning sand into performative structures. Sand is an abundantly available substance with high potential for compression-based construction. Considering the micro unit of a grain of sand, MICROSTRATA researches into an optimized

method of architectural scale 3D printing in respond to material behaviour in the creation of high resolution structure. With the application of robot, MICROSTRATA algorithm directly transcoded the design as voxel output, generating micro layers of toolpath. From design to fabrication, the data flow does not dwell solely in the realm of virtuality, it is translated into material reality.

> c o n t ac t

MAHO AKITA MArch / The Bartlett School of Architecture, UCL MOBILE +447930854864 EMAIL mahoakita@gmail.com ADDRESS 48 Peter Avenue London NW10 2AN