YANG,CHIH-HSU School of Architecture, Feng Chia University PORTFOLIO 20142018
TABLE OF CONTENTS P01 Slow City, Inner Town 002 008 014 020 P02 Urban Infill P03 Responsive Vault P04 _ Work 4.0 030P05 G-Form Wall 001 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
The urban renewal plan – “Slow-City” introduces a new life-style to the local people of Taichung. This plan provides people more opportunities to have another look at the local life-style.
More public outdoor spaces are being opened for the pedestrians and bicyclists, which bring more people here to explore these local neighborhoods with its unique represen tatives. This district will be the first place where travelers and tourists meets the locals, and will be introduce to its beautiful and comfortable pace and weather.
Slow-city creates more buffering space for the busy town in order to make more space for enjoying life, it also connects the exist greenery and parks with a simple grid. We want to light up the district by this grid to bring more people in to the blocks to increase activi ties and commercial activities.
Taiwan Central Dist. - Taichung
Slow City, Inner Town
:
B. Arch (2016)
2nd price for Light Up City Competition Taichung
Taichung City Government Urban Development Bureau
Project Year
3rd
YANG,CHIH-HSU School of Architecture, Feng Chia University 002 PORTFOLIO 20142022
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SYSTEM
MODEL FOR SLOW-CITY
Central district of Taichung was a prosperous part of the town from Japanese colonial period to the 1990s, full of commercial activities in the central Taiwan are held in the district. Department stores, traditional snacks stores, electronics stores, and jewelry stores created representative of the streets that is preserved from then. Twenty years ago the central district has grown to its high peak, and saturated. The rental fee of the stores came to be too high, and the living style become worse as the density of the buildings which built in those days.
Nowadays central district has become a place only when people are taking the train will stop by for a minute to grab a traditional snack for souvenir. We tempt to create a place where these travelers can stay while they are heading to the train station and also provides comfort living style for the residents.
ION OF COMMERCIAL ACTIVITIES COMMERCIAL PLAZA YW 1st issue 2nd issue 3rd issue Social interacting spacing Over Developed District Automobile Dependency Forgotten Tradition Industrial agglomeration Create buffering space Divide pedestrian and veichle lanes Create plaza for events : rental fee too high / building density too high / uncomfortable / migrating to new city : non-stop car flow / lack of parking space / no pedestrian friendly space / air pollution : new shopping mode / no attractive events for physical shopping / no space for events : slower city for pedestrian / more & wider plaza for events / less car, less airpollution SLOW-CITY 350 meters Main network : 50 ~ 60 km/hr 350 meters New network 10 ~ 15 km/hr PRIORITY AUTOMOBILE Y, NON-STOPPING TRAFFIC, LESS COMERCIAL ACTIVITY PRIORITY PEDESTRIAN PROBLEMS MORE PEDESTRIAN WALKWAY PLAZAS TRAFFIC, MORE COMERCIA CURRENT SITUATION SLOW-CITY SLOW-CITY I. Connection between Greenry II. Parallel Corridors to Conmercial Zones III. New Urban Green Corridor IV. New Parks & Plaza With Renovated Programs URBAN
ISSUE SUPER-BLOCK
YANG,CHIH-HSU School of Architecture, Feng Chia University 004 PORTFOLIO 20142022
P1 Market P2 Performance P3 Greenery P4 Commercial PLAZA 1 MARKET ACT IVITIES USEP1 PLAZA 2 PERFORMANCE CONCERT USEP2 PLAZA 3 PARK USEP3 PLAZA 4 COMMERCIAL ACTIVITIES USEP4 TY POLOGY OF PLAZAS SUPER-BLOCK MODEL FOR SLOW-CITY 005 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
PUBLIC USE
PRIVATE
PUBLIC USE (CULTRUAL & CREATIVE MARKET) 2F-4F 2F PLAN 3F PLAN 4F PLAN 5F PLAN UPPER PUBLIC USE (RESTAURANT, CAF’E, LOUNGE) 4F-5F
(COMMERCIAL ACTIVITY PLAZA) B1F-1F
USE (OFFICE, CULTRUAL & CREATIVE STUDIO) 7F-12F FUNCTIONAL AXONMETRIC DIAGRAMS YANG,CHIH-HSU School of Architecture, Feng Chia University 006 PORTFOLIO 20142022
PROGRAM SECTION
LOWER TERRAIN CREATE INNER PLAZA 6F PLAN 7F PLAN 8F PLAN 9F PLAN 10F PLAN PRIVATE & PUBLIC DISTRIBUTION EXTRUDE TO SURROUND SPACE TO ACCESS CONNECT UPPER PLAZA PLANS SPACE DEVELOPMENT
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Urban Infill
Collective Living as an Approach Place-Making
Year
of Architecture,
Chia University
The project is a rennovation project of a old village current set tle in the new city centre of Taichung City.”Teachers Village” was a mil itary kindred village when the Chinese government moved to Taiwan, which is arranged for soldiers and thier families. However, the unique population strategy came up with conflicts that gradually formed the vil lage as an isolated island in the city. It turned out to be abandoned when the descendants of the soldiers moved out from the village.
Policy makers then decided to replace the village with a new group of people, planed as a collective living village for teachers, not know ing it might cause the same effect if the population is as unique as it was. After decades the same result showed how this unique can effect the area. Overdeveloped adds-on of the area made the place uncomfortable to live. The population growth of Taichung has rapidly grew in the past decade, and the overall ditribution of the new comers are basically at the age be tween 20-40, indicating more career opportunities are flooding in the city.
The main focus of the project is to create a new collective living place for the new comers of Taichung City with new policies avoiding the same result of pupulation uniqueness had cause. The strategy is to cre ate new cycle for the living area, within new participants coming every three years, we also created more communal space where they can ex change experiences helping each other fitting in the new city they are in.
Project
: 3rd year undergraduate (2016)
School
Feng
1st issue 2nd issue 3rd issue Metabolism of village Isolated district Lack of maintance Repeating living mode Infill new residents Create mesh and climate boundary New living mode rental replace buying : resident restriction / no new residents / fading : old illegally constructions / no designed public space / crowded streetscape : newly built residence / population grow / illegally constructions / abandon : infill new comers / placing exist residents / more interaction by connecting terrace Original New living strategy after renew or planned new village a. a. 1050(40) diversity, more activities existing residents newly moved in residents newly moved in residents existing residents population growing type residents for 5 years type b residents for years type b residents for years type residents for years type residents for 5 years type d residents for years type residents for 5 years type a residents
YANG,CHIH-HSU School of Architecture, Feng Chia University 008 PORTFOLIO 20142022
5 years 5 years 10 years 10 years population grow population grow become crowded become too crowded, abandoned new residents, old residents move new residents, old residents move diversity of people maxium of people diversity preserved b. c. b. c. 15 2520 30 35 40 diversity, more activities newly moved in residents existing residents population growing population maxium newly moved in residents newly moved in residents newly moved in residents existing residents population growing population maxiumexisting residents population growing existing residents existing residents existing residents type b residents for years type c residents for years type residents for 5 years type c residents for years type residents for 5 yearstype c residents for years type residents for 5 years type d residents for 5 years type residents for 5 years type residents for 5 years type b residents for years type b residents for years type residents for 5 years for years type residents for 5 years type residents for 5 years type a residents for 5 years type residents for 5 years 009 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
YANG,CHIH-HSU School of Architecture, Feng Chia University 010 PORTFOLIO 20142022
The new collective living strategy is to increase the com plexity of the population kinds of the new village. We set the maximun duration living in the complex to three years letting new comers varies every year. In order to keep the village renew as a metabolism of living group, the strategy seperate the time of each group of new comers creating a long term policy for the collective living community.
Original
living
Conventional terrace too hot, no activity activities only under shades 5 years 10 years
New
strategy population grow after renew or planned become crowded new residents, old residents move new village diversity people a. b. a. b. 10 1550(40) 20 renewrenew diversity, more activities existing residents newly moved in residents newly moved in residents newly moved in residents existing residents population growing population maxiumexisting residents population growing newly existing residents type a residents for 5 years type b residents for 5 years type b residents for 5 years type b residents for 5 years type c residents for 5 yearstype c residents for 5 yearstype c residents for 5 years type d residents for 5 years type d residents for 5 years type d residents for 5 years type d residents for 5 years type c residents for 5 years type b residents for 5 years type a residents for 5 years type a residents for 5 years
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Units
type A 30m2 type A 30m2 type C 60m2 type B 40m2 type C 65m2 type B 45m2 type D 95m2
Configuration Project Data : Site coverage : 57.2% Plot Ratio : GFA 200% Floor Height : 7 floors Living Units 83 units Parking : 110 cars YANG,CHIH-HSU School of Architecture, Feng Chia University 012 PORTFOLIO 20142022
Original Step 1 Step 2 Step 3 Step 4Bend up, bend in publicIsolated from public Pull up, pull in public Push down, create shelter Cut out, create courtyard Mesh shelter 013 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Responsive Vault
Agent-Based Form Finding Tool
Architectural elements has been segre gated between each other from the past, we are trying to intergrate these elements to create a gradient change between these elements, we believe we can push our future world to a nice environment or space we can develop.
People desire to have their ideal space, from finding caves to create free form architec tural space, we believe as time goes by we can increase the resolusion of design due to new construction methods.
Project Year : 4th year undergraduate (2017)
School of Architecture, Feng Chia University POTENTIAL ABSTRACT YANG,CHIH-HSU School of Architecture, Feng Chia University 014 PORTFOLIO 20142022
Cohese Force
Separate Force
Align Force
View Force
Vision Radius Multiplier i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1 i<1 i=1 i>1
Vision
Angle Multiplier Weight Multiplier force multiplytrigger angle multiplytrigger radius multiply
When triggered, agents tend to come close to each other.
When triggered, agents tend to keep away from each other.
When triggered, agents tend to change moving direction into average vector between each other.
When triggered, agents tend to move away from agents who blocked their vision(trigger area).
Least
points 015 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Align Force
When triggered, agents tend to change moving direction into aver age vector between each other.
agent quantity = 3 initial velocity = (0.1,0.1,0.1) view radius = 0.1 view angle = 30
Seperate Force
When triggered, agents tend to keep away from each
i=1
Cohese Force
When triggered, agents tend to come to each other.
agent quantity = 3 initial velocity = (0.1,0.1,0.1) view radius = 0.1 view angle = 30
i=1
agent quantity = 3 initial velocity = (0.1,0.1,0.1) view radius = 0.1 view angle = 30
i<1 i=1
Disabled Disabled
Enabled Enabled Enabled
i = 0.01 i = 0.01
other.
i>1
i = 0.01 i = 1 i = 1 i = 1 i = 2 i = 2 i = 2 i<1
i>1 i<1
i>1
Disabled SYSTEM
YANG,CHIH-HSU School of Architecture, Feng Chia University 016 PORTFOLIO 20142022
0%87.5% 50%93.75% 75%100% PointLinear2D Planar3D Surface3D Volume Boundary box mass Frame Boundary box-Environment Ratio(%) Fit line length Average distance from points to fit line Pipe volume Pipe-Environment Ratio(%) Pipe-Boundary Ratio(%) 0.00416 0.290676 0.000154 0.058093 0.00307 0.000102 0.66497 03253128160 8.234016 4.874072 0.274467 0.228852 0.797318 0.026577 0.096832 16.27566 6.576563 0.542522 0.454996 4.253789 0.141793 0.261359 121.678294 9.809556 4.055943 0.686242 14.433312 0.48111 0.118619 226.64815 12.755956 7.55494 1.158284 53.484949 1.782832 0.235982 0%87.5% 50%93.75% 75% 017 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Solution 1
Connect points between frames Add circle structure in center point
Radius determined by varies of
Add fabric to hold the structure
Fabric boundary length determined by catenary
frame distances.
curve Increase scale to create structrual assembly parts Create path by connecting frames
Agent cordinates Structure Catenary curve frame distance
Force FABRICATION YANG,CHIH-HSU School of Architecture, Feng Chia University 018 PORTFOLIO 20142022
SECTION PLAN 019 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Project Year : 5th year undergraduate (2018-2019) School of Architecture, Feng Chia University YANG,CHIH-HSU School of Architecture, Feng Chia University 020 PORTFOLIO 20142022
4.0
Who, What, Where, Why, How
In the past dacade, human operation is described to be taken over by machines, people have the same question asked during the industial revolution. As we take full management by cyber-physical systems to products and productivity, what’s the basic needs or definition of work?
Work
Cyber Physical Systems take over, “What’s the value of human opera tion?”
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WORK-PLACE
complementary for both, making networking work-places important in the first place.
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Connectivity Field Network n = 6 Chosen Units ( Project Base Co-op) Connectivity Count ( Between Points ) Network ( Minimize Travel Distance ) Inner Network ( Step + Connectivity ) Arrangment ( Path + Unit Aggregation ) n = 5 n = 4 n = 3 n ≤ 2 Step Count ( From Average Point) 023 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
0.90 0.90 0.90 0.90 0.90m 0.90 0.90 0.90 0.90 0.90 0.90 0.90 0.90m 0.90m 0.90m 0.90 0.9 0.90 0.90m 0.90m 0.90m 0.90m 0.90m 1.80 1.80m 1.80m 1.80m .80m 1.80m 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 1.80 UNIT NETWORK LAYOUT PLAN YANG,CHIH-HSU School of Architecture, Feng Chia University 024 PORTFOLIO 20142022
OA WORKING UNITS MR SIMULATION BASE UNIT SECTIONSERVERS (FACILITIES) 025 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
REBUILD
A variety of construction methods can be implement to rebuilding existing workplaces. However, cost and impact of the neighborhood can be unexpectably high. To reduce the disadvantage and increase the value of new workplace modification, the construction method should be simple and expandable.
?
- Influenced Citizens - Traffic Control - Construction Safety - Reduced Influence to Citizens - No Traffic Control - Low Risk Construction Safety NEW BUILDING WITHOUT FLEXIBILITY HIGH COST CAPITALIZED METHOD HIGH COSTOMIZED METHOD WITH LOW COST INFLUENCE TO DISTRICT FACILITIES NEEDS CONSTRUCTION METHOD COMPARISION IMPLEMENTING UNITS FOR TEMPORARY USE YANG,CHIH-HSU School of Architecture, Feng Chia University 026 PORTFOLIO 20142022
Traditional
New Carrier
Scaffold low efficincy / high labor cost Manual Alignment (Time Consuming) Single Unit Material & Cost Construction Steps Construction Steps Auto Alignment (Autonomous Built) high efficincy / low labor cost
Step 02 : Base Unit Membrane Step 01 : Base Unit Frame Structure Step 03 : Vertical Unit Structure Construction Workers = 16 (minimum) Traditional Scaffold = 16 units / cell Basic Unit = 4 units / cell Step 02 : Base Unit Positioning Step 01 : Unit + Frame Pre-fabricate Step 03 : Autonomous Orient Units Construction Workers = 8 (minimum) Carrier + Unit = 4 units / cell 027 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
STRUCTURAL ANALYSIS COMPONENTS Stress [kN/cm2] Plan Deformation 0% 20% Elevation Deformation 0% 20% YANG,CHIH-HSU School of Architecture, Feng Chia University 028 PORTFOLIO 20142022
40% 60% 80% 40% 60% 80% 0_226 4_175 8_144 4_157 5_176 11_177 5_103 5_31 5_29 7_217 7_216 _200 7_115 13_219 7_35 12_72 9_10 6_101 6_100 6_27 20_19 16_196 14_181 1_136 1_161 16_59 15_149 11_192 21_221 24_212 24_57 2_78 24_210 15_20820_20 20_180 5_4020_178 20_51 17_92 23_86 029 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
The experimental construction method for the newly built turenscape academic school is a composite bamboo and concrete shell structure. By combining the local traditional fabric with replaceable bamboo, we create the unique texture with the gravity framework method, challenging the integration between parametric and localized design.
Composite of Bamboo and Concrete Shell Stucture Design Make Festival Turenscape
Project Year : 4th B. Arch (2017) G-Form Wall Xixinanzhen, Anhui China
YANG,CHIH-HSU School of Architecture, Feng Chia University 030 PORTFOLIO 20142022
PLANE CONFLICT FLEXIBILITY 1/3 2/3 1/3 + 1/9 = 3/9 + 1/9 = 4/9 Phase 1 1/3 2/3 1/3 + 1/9 = 3/9 + 1/9 = 4/9 Phase 1 1/3 2/3 1/3 + 1/9 = 3/9 + 1/9 = 4/9 Phase 1 031 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
A 1 2 3 4 section 1 section part 3 part 2 part 1 B C D section B section A surface surface surface surface section C section D Interpolate Curve with Tangency Section created by curves Surface & Volume y x section A curve Constrain pointTangent vector Original line x=1.330 y=0.577 900mm part 1 900mm 900mm part 3part 2 450mmx=0.628 216mm y=1.741 y=0 x=1 y=0 x=1 section B curve Tangent vector Original line y=0 x=0 900mm 900mm 900mm 450mm 216mm 5mm x=1y=0 x=1 x=1 part 1 part 3part 2 y=0 y=0 section C curve Tangent vector Original line y=1 x=1 y=1 x=1 900mm 900mm 900mm 450mm 200mm 217mm 104mm 147mm x=1y=0 x=1 x=1 part 1 part 3part 2 y=0 y=0 section D curve Tangent vector Original line y=1 x=1 900mm 900mm 900mm 450mm158mm x=1y=0 x=1 part 1 part 3part 2 y=1 x=1 y=0 x=1 SURFACE & VOLUME YANG,CHIH-HSU School of Architecture, Feng Chia University 032 PORTFOLIO 20142022
A A D B C E F G H Top A Bottom A Top D Bottom D Top F Bottom F Top C Bottom C Top E Bottom E Top H Bottom H Top B Bottom B Top G Bottom G D F C E H B G [ FABRIC DRAWING ] FRONTA FRONTB FRONTCBACKA BACKB BACKC FRONTA FRONTB FRONTC SEGMENT03 SEGMENT03 BACKA BACKB Bamboo Density Fabric Allocation Local Bamboo Construction Method Local Fabric TYPOLOGY 033 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Commercial 18015
Work in Progress
Taichung, 2019 Taiwan Tai Architect and Associates YANG,CHIH-HSU School of Architecture, Feng Chia University 034 PORTFOLIO 20142022
035 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Computational Integrated Design from FAR evaluation to detailed facade optimization. The integration of 3D modeling (Rhino 3D) and BIM (Revit) was a challenge for coordinating between firms. We have developed a method using Rhino.Inside as foundation to bridge between different professional in order to make realtime modifications and decisions.
YANG,CHIH-HSU School of Architecture, Feng Chia University 036 PORTFOLIO 20142022
037 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
1FL 0 30 2FL 9 10 3FL 13 10 4FL 17 10 5FL 21 10 6FL 25 10 9FL 37 10 GL 0 00 B1F 3 65 7FL 29 10 8FL 33 10 B2F 7 05 B3F 10 45 B4F 13 85 X0 X1 X2 X2 1 X3 X4 X5 1MFL 5 50 10FL 40 70 11FL 44 30 12FL 47 90 13FL 51 50 14FL 55 10 15FL 58 70 16FL 62 30 17FL 65 90 18FL 69 90 R1FL 73 90 R2FL 76 60 R3FL 79 30 RFL 82 00 270.0 270.0 270.0 400.0 400.0 360.0 360.0 360.0 360.0 360.0 360.0 360.0 360.0 400.0 400.0 400.0 400.0 400.0 400.0 400.0 360.0 520.0 30.0 365.0 340.0 340.0 340.0 810.0 7390.0 1385.0 Founda ion 16 45 室內停車空間 室內停車空間 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 電梯 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 廁所 廁所 電梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 電梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 緊急昇降梯 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 梯廳 排煙室 +8290 82 90 590 0 977 5 535 0 440 0 850 0 540 0 建 築 線 ▽ 1 A04 02 核准 校 核 設 計 日期 APR.BY CHECKED BY DESIGN BY DATE 戴 育 澤 建 築 師 事 務 所 地 址 : 台 中 市 文 心 路 段 8 號 4 之 張號 圖號業 主 CLIENT工 程 名 稱 圖 名 PROJECTDRAWINGT E L : 2 4 7 5 0 9 9 8 F A X : 2 4 7 3 0 1 4 6 E m : 3 0 0 @ m n n 修 改 內 容 DESCRIPTION 日 期 DATE核 准 APRVD. BY 繪 圖DRAWN BY業務編號PROJECT NOREMARKS 二維條碼圖框位置 A1 = 做為指示 C:\Users\t0026\Documents\18015-20200603_t0026.rvt 二次變更項目 20200521 ApproverCheckerDesigner 10/16/19 A04-02 新 力 旺 開 發 建 設 股 份 有 限 公 司 台中市南屯區惠智段 49 企業總部暨辦公室新建工程地號A 梯 東 西 向 剖 面 圖 Approver Author18015 A 梯東西向剖面圖 A04-02 1 : 200 東西向剖面圖 A梯1 80496 1202069187 804961202069187 YANG,CHIH-HSU School of Architecture, Feng Chia University 038 PORTFOLIO 20142022
Y5 Y4 Y3 Y2 Y1 Y0 X0 X1 X2 X2-1 X3 X4 X5 0 2 3 5 0 7 8 2 0 590.0 977.5 535.0 440.0 850.0 540.0 3932.5 緊急升降機 P17-150 兼行動不便電梯 NO.1 緊急升降機 廁所 梯廳 廁所 甲梯 無障礙樓梯 茶水間 乙梯(特別安全梯) 陽台 梯廳 (排煙室 辦公室 露臺 170.0 D11 170.0 D02 90.0 105.0 D05 60A 100.0 D05 D09 100.0 制震器 制 震 器 W01 R900 陽台 制震器 200.0 Y3 X2 緊急升降機 P17-150 兼行動不便電梯 NO.1 緊急升降機 廁所 廁所 甲梯 無障礙樓梯 乙梯(特別安全梯) 梯廳 排煙室 D11 105.0 100.0 D05 60A 100.0 D05 D09 100.0 制震器 W01 0 陽台 制震器 FL 155 1005100 15.56 m²18.19 m² N 核准 校 核 設 計 日期 戴育澤建築師事務所 張號圖號 業 主 CLIENT 工程名稱 圖 名 DRAWING 2 0998 2 30 6 3 0 @ 修 改 內 容 日 期 核 准 繪 圖 業務編號 PROJECT NO REMARKS 二維條碼圖框位置 排煙室及昇降機間面積檢討圖 □ 依技術規則第93,95條檢討 □ 依技術規則第93,95條檢討 單元 單元步行距離檢討 重複步行距離檢討 防火區劃檢討: (建築技術規則建築設計施工篇83 86條) 區劃範圍內,如備有效自動滅火設備者得免 計算其有效範圍樓地面板面積之二分之一。 本案全棟各層均設置自動滅火設施且分戶牆 設置具一小時以上防火時效,符合規定。 單元防火區劃面積檢討 直通樓梯檢討: 第 95 條直通樓梯數量檢討 供前三目以外用途之使用其樓地板面積於避難層,需設置二座以上之直通樓梯達避難層或地面 本案當層樓地板面積皆大於240㎡;故設置設置2座樓梯OK. 第 96 條 直通樓梯之構造檢討 通達六層以上,十四層以下或通達地下二層之各樓層,應設置安全梯;通達十五層以上或地下三層以下之各樓層,應設置戶外 安全梯或特別安全梯。 本案為地上十八層地下四層,地下一 四層並無居室,按規定設置一般安全梯及特別安全梯。地上18層一高層建築檢討兩座特 別安全梯,其中一座經由陽台出入,另一座與緊急升降機共用排煙室....OK. 第 97 條 特別安全梯之構造檢討 樓梯間及排煙室,應設有緊急電源之照明設備。其開設採光用固定窗戶或在陽臺外牆開設之開口,除開口面積在一平方公尺以 內並裝置具有半小時以上之防火時效之防火設備者,應與其他開口相距九十公分以上。....OK 建築物達十五層以上或地下層三層以下者,各樓層之特別安全梯,如供建築物使用類組 A 1 B 1 B B 3 D 1 或 D 2 組使用者,其樓梯間與排煙室或樓梯間與陽臺之面積,不得小於各該層居室樓地板面積百分之五;如供其他使用,不得小於各 該層居室樓地板面積百分之三。....OK 樓梯構造檢討 建築技術規則建築設計施工篇33條 特別安全梯實設淨寬:125cm >120cm (o.k.) 樓梯級深:24cm ≧ 24cm (o.k.) 樓梯級高:20cm < 20cm (o.k.) 第 107 條 緊急升降機檢討 107條 三)、出入口應具有一個小時以上之防火門。除開向特別安全梯外,限設一處,且不得直接連接居室。 本案緊急升降機間設有一個小時以上之防火門,並未直接連接至居室。...........OK 107條 六)、每座升降機間之樓地板面積不得小於十平方公尺。 本案緊急升降機間接大於10平方公尺詳排煙室及緊急升降機間面積檢討圖 ...........OK 排煙窗面積檢討: 建築技術規則施工篇 第 107 條 (2.2*2.05)+(2.85*4.7) 17.905 17.905m ≧ 10m ......OK 建築技術規則施工篇 第 102 條 有效開窗面積須為天花板高度二分之一以上範圍 (1+1)*1.532 3.064 > 3m ......OK 特別安全梯面積檢討: A1 = 做為指示 C:\Users\t0026\Documents\18015-20200603_t0026.rvt 二次變更項目 Approver Checker Designer 10/03/19 A02-08 新力旺開發建設股份有限公司 企業總部暨辦公室新建工程 參層平面圖 Approver Author 18015 參層平面圖A02-08 5.13 1490 2.90 甲梯 14.90+9.41 = 24..31 m < 50 m...OK 乙梯 m...OK B 14.90 m<25 m...OK 6.80 9 5 B 甲梯 9.5+6.80+5.13+9.41 = 1.02 50 m...OK 乙梯 9.50+6.80+2.90 = 19.20 m < 50 m...OK m...OK 建築技術規則施工篇 第 條 樓梯間與排煙室或樓梯間與陽臺之面積,不得小於各該層居室 樓地板面積百分之五 ////////(1+1)*1.532 59447 - 12020691754 59447 12020691754 梯廳 29.69 m² 其它非居室面積 373.67 m² 浴廁 3.71 m² 浴廁 5.20 m² 浴廁 2.78 m² 安全梯 12.65 m² 特別安全梯 15.56 m² 緊急升降機 6.37 m² 緊急升降機 5.88 m² 梯廳 18.19 m² 免計容積陽台 19.83 m² 停車空間(地下室停車空間) 免計容積陽台 其它非居室面積 安全梯 居室 屋突面積 挑空 梯廳 浴廁 特別安全梯 管道間 管道間(機械) 緊急升降機 走廊 露台 正在計算 露台 41.90 m² 1.8 2.6 2.4 4.0 2.9 0.7 1.2 0.7 3.1 0.7 2.5 0.8 2.6 1.52.22.6 0.7 1.3 1.4 5.0 1.3 4.8 5.0 1.8 2.6 2.13.1 3.3 1.81.62.90.9 2.4 0.4 1.3 3.1 11 81 6 1 8 9 2 16 4 3 3 9.5 0 2 核准 校 核 設 計 日期 APR.BY CHECKED BY DESIGN BY DATE 戴育澤建築師事務所 地址 台中市文心路 段 1 號 F之 張號圖號 業 主 工程名稱 圖 名 PROJECT 24750998 24730146 修 改 內 容 DESCRIPTION 日 期 DATE 核 准 APRVD. BY 繪 圖 業務編號 PROJECT NO 二維條碼圖框位置A1 = 做為指示 C:\Users\t0026\Documents\18015-20200603_t0026.rvt 二次變更項目20200521 批准者 審圖員 設計者 12/11/19 A02-35 新力旺開發建設股份有限公司 台中市南屯區惠智段49地號 企業總部暨辦公室新建工程 參層單線平面圖 批准者 作者 18015 參層單線平面圖A02-35 單線圖-3FL 面積檢討 樓層 名稱 算式 面積 3FL 免計容積陽台 11.8*(1.6+1.8)*0.5= 19.83 m² 3FL 其它非居室面積 ½ 13.2 10.0+½ * 13.2 * 9.4+½ * 2.3 0.4+½ * 2.3 15.8+½ 5.9 2.6+½ 5.9 * 13.3+½ * 3.0 * 1.2+½ 3.0 1.1+½ 2.2 * 2.4+½ * 2.0 14.8+½ 2.0 1.7+½ 7.7 * 2.8+½ * 7.7 3.1+½ 4.7 * 8.3+½ * 4.7 * 6.7+½ * 3.7 4.8+½ 3.7 * 4.3+½ * 4.0 * 4.4+½ * 4.0 4.1+½ 3.1 * 2.2+½ * 3.1 * 4.7+½ * 3.5 0.8+½ 0.4 * 3.4½ 0.4 0.4+½ * 1.1 3.2+½ 1.1 * 0.3+½ * 3.9 * 2.5+½ * 3.9 2.9+½ 1.8 * 1.0+½ * 1.8 * 6.6+½ * 3.8 2.2+½ 3.8 * 3.8+½ * 2.1 * 4.4+½ * 4.0 6.5+½ 4.0 * 2.3= 373.67 m² 3FL 安全梯 0.7*0.7*0.5*2+1.2*0.7+3.1*2.6+1.5*1.8+0.8* 0.8*0.5= 12.65 m² 3FL 梯廳 2.1*3.1+3.1*4.8+3.3*2.6= 29.69 m² 3FL 梯廳 2.8*5+1.8*2.2= 18.19 m² 3FL 浴廁 0.4*2.4+2.1*1.7= 3.71 m² 3FL 浴廁 2.9*1.8= 5.20 m² 3FL 浴廁 1.6*1.8= 2.78 m² 3FL 特別安全梯 (1.3+1.4)*1.2*0.5+5*2.6+1.2*0.7+0.7*0.7*0. 5*2= 15.56 m² 3FL 管道間 1.8*0.9+0.3*0.3*0.5= 1.57 m² 3FL 管道間 機械)(1.3+0.6)*0.7*0.5*2+0.6*1.2= 2.16 m² 3FL 緊急升降機 2.6*2.5= 6.37 m² 3FL 緊急升降機 2.5*2.3= 5.88 m² 3FL 露台 9.2*3.2*0.5+16.4*3.2*0.5+9.5*0.2*0.5= 41.90 m² 總計 14 539.18 m² 1 50 3FL-非居室面積 48225 - 02020691759 48225 - 02020691759 039 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
1FL 0 30 2FL 9 10 3FL 13 10 4FL 17 10 5FL 21 10 6FL 25 10 9FL 37 10 GL 0 00 B1F 3 65 7FL 29 10 8FL 33 10 B2F 7 05 B3F 10 45 B4F 13 85 Y5 Y4 Y3 Y2 Y1 Y0 1MFL 5 50 10FL 40 70 11FL 44 30 12FL 47 90 13FL 51 50 14FL 55 10 15FL 58 70 16FL 62 30 17FL 65 90 18FL 69 90 R1FL 73 90 R2FL 76 60 R3FL 79 30 RFL 82 00 810.0 7390.0 1385.0 Foundat on 16 45 室內停車空間 室內停車空間 辦公室 辦公室 辦公室 辦公室 辦公室 辦公室 挑空 挑空 挑空 辦公室 挑空挑空 挑空 挑空 挑空 挑空 挑空 挑空 挑空 挑空 排煙室 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 甲梯 (特別安全梯 無障礙樓梯 +8290 82 90 380 2 374 8 650 0 730 0 585 0 建 築 線 ▽ 360.0 360.0 360.0 360.0 360.0 400.0 400.0 400.0 400.0 400.0 400.0 400.0 360.0 520.0 30.0 365.0 340.0 340.0 340.0 260.0 360.0 270.0 270.0 400.0 400.0 360.0 360.0 360.0 206 252 268 309 甲梯 特別安全梯 無障礙樓梯 1 A04 01 核准 校 核 設 計 日期 APR.BY CHECKED BY DESIGN BY DATE 戴 育 澤 建 築 師 事 務 所 地 址 : 台 中 市 文 心 路 段 號 4 之 張號 圖號業 主 CLIENT工 程 名 稱 圖 名 PROJECTDRAWINGT E L : 2 4 7 5 0 9 9 8 F A X : 2 4 7 3 0 1 4 6 E m : 3 0 0 @ m n n 修 改 內 容 DESCRIPTION 日 期 DATE核 准 APRVD. BY 繪 圖DRAWN BY業務編號PROJECT NOREMARKS 二維條碼圖框位置 A1 = 做為指示 C:\Users\t0026\Documents\18015-20200603_t0026.rvt 二次變更項目 20200521 ApproverCheckerDesigner 10/16/19 A04-01 新 力 旺 開 發 建 設 股 份 有 限 公 司 台中市南屯區惠智段 49 企業總部暨辦公室新建工程地號A 梯 南 北 向 剖 面 圖 Approver Author18015 A 梯南北向剖面圖 A04-01 1 : 200 南北向剖面圖 A梯1 825243202069186 825243202069186 YANG,CHIH-HSU School of Architecture, Feng Chia University 040 PORTFOLIO 20142022
Y5 Y4 Y3 Y2 Y1 Y0 X0 X1 X2 X2-1 X3 X4 X5 3 7 8 6 3 5 0 7 590.0 977.5 535.0 440.0 850.0 540.0 兼行動不便電梯 升降機 P17-150 NO.2 無障礙樓梯乙梯(特別安全梯) 陽台 辦公室 梯廳 排煙室 辦公室 挑空 100.0 D07 170.0 D11 100.0 D05 100.0 60A SD04 SD04 0R9 陽台 梯廳 200.0 FL 155 Y4 Y3 X2 X2-1 兼行動不便電梯 升降機 P17-150 NO.2 甲梯 無障礙樓梯乙梯(特別安全梯) 梯廳 排煙室 D07 100.0 D05 100.0 60A D09 W01 00R9 陽台 18.11 m² N 核准 校 核 設 計 日期 APR.BY CHECKED BY DESIGN BY DATE 戴育澤建築師事務所 地址 台中市文心路 段 號 之 張號圖號 業 主 CLIENT 工程名稱 圖 名 PROJECT DRAWING TEL 24750998 FAX 24730146 3 0 @ 修 改 內 容 DESCRIPTION 日 期 核 准 繪 圖 DRAWN BY 業務編號 REMARKS 二維條碼圖框位置 排煙室及昇降機間面積檢討圖 □ 依技術規則第93,95條檢討 □ 依技術規則第93,95條檢討 單元 單元步行距離檢討 重複步行距離檢討 防火區劃檢討: (建築技術規則建築設計施工篇83 86條) 區劃範圍內,如備有效自動滅火設備者得免 計算其有效範圍樓地面板面積之二分之一。 本案全棟各層均設置自動滅火設施且分戶牆 設置具一小時以上防火時效,符合規定。 單元防火區劃面積檢討 直通樓梯檢討: 第 條直通樓梯數量檢討 供前三目以外用途之使用其樓地板面積於避難層,需設置二座以上之直通樓梯達避難層或地面 本案當層樓地板面積皆大於240㎡;故設置設置2座樓梯OK. 第 條 直通樓梯之構造檢討 通達六層以上,十四層以下或通達地下二層之各樓層,應設置安全梯;通達十五層以上或地下三層以下之各樓層,應設置戶外 安全梯或特別安全梯。 本案為地上十八層地下四層,地下一 四層並無居室,按規定設置一般安全梯及特別安全梯。地上18層一高層建築檢討兩座特 別安全梯,其中一座經由陽台出入,另一座與緊急升降機共用排煙室....OK. 第 條 特別安全梯之構造檢討 樓梯間及排煙室,應設有緊急電源之照明設備。其開設採光用固定窗戶或在陽臺外牆開設之開口,除開口面積在一平方公尺以 內並裝置具有半小時以上之防火時效之防火設備者,應與其他開口相距九十公分以上。 建築物達十五層以上或地下層三層以下者,各樓層之特別安全梯,如供建築物使用類組 A 1 B 1 B B 3 D 1 或 D 2 組使用者,其樓梯間與排煙室或樓梯間與陽臺之面積,不得小於各該層居室樓地板面積百分之五;如供其他使用,不得小於各 該層居室樓地板面積百分之三。....OK 樓梯構造檢討 建築技術規則建築設計施工篇33條 特別安全梯實設淨寬:125cm >120cm (o.k.) 樓梯級深:24cm ≧ 24cm (o.k.) 樓梯級高:20cm < 20cm (o.k.) 第 條 緊急升降機檢討 107條 三)、出入口應具有一個小時以上之防火門。除開向特別安全梯外,限設一處,且不得直接連接居室。 本案緊急升降機間設有一個小時以上之防火門,並未直接連接至居室。...........OK 107條 六)、每座升降機間之樓地板面積不得小於十平方公尺。 本案緊急升降機間接大於10平方公尺詳排煙室及緊急升降機間面積檢討圖 ...........OK 排煙窗面積檢討: 建築技術規則施工篇 第 107 條 (2.2*2.05)+(2.85*4.7) 17.905 17.905m ≧ 10m ......OK 建築技術規則施工篇 第 102 條 有效開窗面積須為天花板高度二分之一以上範圍 (1+1)*1.532 3.064 3m ......OK 特別安全梯面積檢討: A1 = 做為指示 C:\Users\t0026\Documents\18015-20200603_t0026.rvt Approver Checker Designer 10/03/19 A02-19 新力旺開發建設股份有限公司 企業總部暨辦公室新建工程 拾肆層平面圖 Author 18015 拾肆層平面圖A02-19 1492 7.15 A B 甲梯 14.92+7.15 = 22.08 m < 50 m...OK 乙梯 A 14.92 m<25 m...OK 1 0.74 866 4.27 甲梯 8.66+1.92+4.27+7.15 = 22.00 50 m...OK 乙梯 8.66+1.92+0.74 = 11.32 m < 50 m...OK 建築技術規則施工篇 第 97 條 樓梯間與排煙室或樓梯間與陽臺之面積,不得小於各該層居室 樓地板面積百分之五 ////////(1+1)*1.532 3.064 3m ......OK////// 57807 - 32020691756 57807 - 32020691756 免計容積陽台 19.83 m² 梯廳 18.19 m² 特別安全梯 15.56 m² 緊急升降機 6.37 m² 緊急升降機 5.88 m² 安全梯 12.65 m² 梯廳 11.68 m² 管道間 2.91 m² 浴廁 8.37 m² 浴廁 4.39 m² 浴廁 5.49 m² 挑空 58.07 m² 居室 50.79 m² 居室 154.93 m² 停車空間(地下室停車空間) 免計容積陽台 其它非居室面積 安全梯 居室 屋突面積 挑空 梯廳 浴廁 特別安全梯 管道間 管道間(機械) 緊急升降機 走廊 露台 正在計算 1.8 2.6 2.4 4.0 2.9 0.7 3.1 0.7 2.5 0.8 2.6 1.52.2 1.3 5.0 1.8 10 5 5.6 2.1 0.12.6 2.5 1.8 2.1 0.13.3 0.12.5 1.40.6 0.2 0.5 1 6 2 2 1.2 1.3 1.4 5.0 核准 校 核 設 計 日期 戴育澤建築師事務所 地址 台中市文心路 段 號 之 張號圖號 業 主 CLIENT 工程名稱 圖 名 修 改 內 容 日 期 DATE 核 准 APRVD. BY 繪 圖 業務編號 PROJECT NO 二維條碼圖框位置A1 = 1 100 C:\Users\t0026\Documents\18015-20200603_t0026.rvt 二次變更項目 批准者 審圖員 設計者 12/11/19 A02-46 新力旺開發建設股份有限公司 台中市南屯區惠智段49地號 企業總部暨辦公室新建工程 拾肆層單線平面圖 批准者 作者 18015 拾肆層單線平面圖A02-46 單線圖-14FL 面積檢討 樓層 名稱 算式 面積 14FL 免計容積陽台 10.5*(1.6+2.2)*0.5= 19.83 m² 14FL 安全梯 0.7*0.7*0.5*2+1.2*0.7+3.1*2.6+1.5*1.8+0 .8*0.8*0.5= 12.65 m² 14FL 居室 ½ 2.7 1.9+½ * 2.7 * 5.5+½ * 1.0 * 1.7+½ * 2.3 * 2.1+½ 3.0 0.9+½ * 3.0 * 1.5+½ * 0.9 * 6.1+½ 5.6 4.0+½ * 5.6 * 3.5+½ * 1.0 * 1.7+½ 1.0 2.1+½ * 0.6 * 0.2+½ * 0.6 * 2.6+½ 2.3 5.0+½ * 2.3 * 1.6= 50.79 m² 14FL 居室 ½ 2.6 4.2+½ * 2.6 * 4.9+½ * 4.4 * 5.2+½ * 4.4 * 8.0+½ 0.6 6.6+½ * 0.6 * 0.2+½ * 3.2 * 4.6+½ 3.2 2.8+½ * 4.8 * 4.6+½ * 4.8 * 2.8+½ 4.6 8.6+½ * 8.6 * 10.0+½ * 8.6 * 4.6= 154.93 m² 14FL 挑空 ½ 9.0 2.0+½ * 9.0 * 4.2+½ * 5.3 * 4.1+½ * 5.3 * 5.8+½ 1.4 6.1= 58.07 m² 14FL 梯廳 5*2.8+2.2*1.8= 18.19 m² 14FL 梯廳 5.6*2.1= 11.68 m² 14FL 浴廁 3.3*2.5+0.1*2.5*0.5= 8.37 m² 14FL 浴廁 2.5*1.8+0.1*1.8*0.5= 4.39 m² 14FL 浴廁 2.6*2.1+0.1*2.1*0.5= 5.49 m² 14FL 特別安全梯 (1.3+1.4)*1.2*0.5+5*2.6+1.2*0.7+0.7*0.7 *0.5*2= 15.56 m² 14FL 管道間 3*0.7+1.4*0.6*0.5+0.4*0.2*0.5+0.029*0.5 *0.5= 2.91 m² 14FL 管道間 機械)(1.3+0.6)*0.7*0.5*2+0.6*1.2= 2.16 m² 14FL 緊急升降機 2.6*2.5= 6.37 m² 14FL 緊急升降機 2.3*2.5= 5.88 m² 總計 15 377.27 m² 1 100 14FL-居室空間-02 1 100 14FL-居室空間-01 1 100 14FL-挑空面積 41849 - 0202069181 41849 - 0202069181 041 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
Residence 19013
Work in Progress
Taichung, 2020 Taiwan Tai Architect and Associates YANG,CHIH-HSU School of Architecture, Feng Chia University 042 PORTFOLIO 20142022
043 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
YANG,CHIH-HSU School of Architecture, Feng Chia University 044 PORTFOLIO 20142022
GL0.00 1FL0.40 2FL6.40 3FL9.55 1MFL3.60 220.060.0200.0 95.0 205.3269.3 向下 向上 向上 10 UP UP UP 向上 87654321 UP Y2 Y0 Y3 Y1 X0 X1 X2 X3 120 319.5 100 175.5 232 202.11088.779.1697.6 145.3 736.9 297.5 465 127.5 100 195 495.6 202 359.9 220 18 T0045/大彥 2020/06/08 1/MFL-小梁未給尺寸 T0045 19 T0045/大彥 2020/06/08 1/MF電梯梁超過容移線 T0045 20 T0045/大彥 2020/06/08 MF店舖前懸臂小樑能否刪除 T0045 660.0 930.0 1090.0 2680.0 820.0 890.0 870.0 2580.0 150 15 Y1 297.5 465 150 核准 APR.B Y FAX:24730146 二維條碼圖框位置 排煙室及昇降機間面積檢討圖 □ 依技術規則第93,95條檢討 □ 依技術規則第93,95條檢討 單元 步行距離檢討單元 重複步行距離檢討 防火區劃檢討: (建築技術規則建築設計施工篇83 86條) 區劃範圍內,如備有效自動滅火設備者得免計算其 有效範圍樓地面板面積之二分之一。 本案全棟地下層及11層以上均設置自動滅火設施且 分戶牆設置具一小時以上防火時效,符合規定。 單元防火區劃面積檢討 直通樓梯檢討: 第 95 條直通樓梯數量檢討 供集合住宅使用且該樓層之樓地板面積超過240㎡者,需設置二座以上之直通樓梯達避難層或地面。 本案當層樓地板面積皆大於240㎡;故設置設置2座樓梯OK. 第 96 條 直通樓梯之構造檢討 通達六層以上,十四層以下或通達地下二層之各樓層,應設置安全梯;通達十五層以上或地下三層以下之各樓層,應設置戶外 安全梯或特別安全梯。 本案為地上十三層地下四層,地下一 四層並無居室,按規定設置特別安全梯。地上13層檢討設置兩座一般安全梯,其中一座 經由梯廳出入,另一座與緊急升降機共用排煙室....OK. 第 97 條 特別安全梯之構造檢討 樓梯間及排煙室,應設有緊急電源之照明設備。其開設採光用固定窗戶或在陽臺外牆開設之開口,除開口面積在一平方公尺以 內並裝置具有半小時以上之防火時效之防火設備者,應與其他開口相距九十公分以上。....OK 建築物達十五層以上或地下層三層以下者,各樓層之特別安全梯,如供建築物使用類組 A 1 B 1 B 2 B 3 D 1 或 D 2 組使用者,其樓梯間與排煙室或樓梯間與陽臺之面積,不得小於各該層居室樓地板面積百分之五;如供其他使用,不得小於各 該層居室樓地板面積百分之三。....OK 樓梯構造檢討 (建築技術規則建築設計施工篇33條 特別安全梯實設淨寬:125cm >120cm (o.k.) 樓梯級深:24cm ≧ 24cm (o.k.) 樓梯級高:20cm < 20cm (o.k.) 第 107 條 緊急升降機檢討 107條 三)、出入口應具有一個小時以上之防火門。除開向特別安全梯外,限設一處,且不得直接連接居室。 本案緊急升降機間設有一個小時以上之防火門,並未直接連接至居室。...........OK 107條 六)、每座升降機間之樓地板面積不得小於十平方公尺。 本案緊急升降機間接大於10平方公尺詳排煙室及緊急升降機間面積檢討圖 ...........OK 排煙窗面積檢討: 建築技術規則施工篇 第 107 條) 2.28*6.6 15 048 15 048 ≧ 10m ......OK 建築技術規則施工篇 第 102 條) 有效開窗面積須為天花板高度二分之一以上範圍 (1+1)*1.532 3.064 3m2......OK A1 = 1 : 100 批准者 一層平面圖 A02 05 045 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022
2021.6 - BIM Coordinator
Samsung C&T, Taoyuan, Taiwan
- Dedicated for Taoyuan Airport Terminal 3 Project
- BIM Management
- Develop and maintain BEP / MIDP (Model Information Delivery Plan) / BIM Monthly & Annual Reports
YANG,
No.
- 2021.5
- Manage RFI log / Drawing submission log / Workfront & Progress Review log - Establish and Maintain BIM Room facilities and systems
- Coordination between DC BIM team, other tender packages, Design teams (Architecture, Structure, Facade, Civil, MEP), Off-site teams to ensure all requirements are implemented in BIM models.
- Establish and maintain WIP exchange protocol and platform via BIM 360 for all parties (Client, GC, DC, Sub-con, Other Contractors, Internal teams)
- Establish and maintain tracking spreadsheets for all parties requests to reduce unnecessary miscommunications and increase efficiency between all parties - Devlop BIM Room facilities with emerging technology, such as MR, AR, Physical Model
- BIM Coordination
- Develop clash detection ruleset / Resolve BIM coordination problems (CSD & SEM) / Automations in BIM Managing (SEM automation)
- Establish and maintain smooth coordination procedure under project baseline schedule between on-site and off-site teams to ensure BIM model health and quality for drawing productions and submissions - Distribute works and provide technical support for both on-site and off-site teams - Establish and maintain work reminder and progress checking spreadsheets for BIM consultant
- Establish construction information requirement with WBS under baseline tasks / Managing sub-contractor deliverables
- 4D Construction Simulation
- Maintain 4D progress monthly basis with project control team, including field survey for actual progress - Produce detailed 4D construction simulation as requested - Maintain overall construction information to meet WBS of P6 from control team - Produce comparision materials between actual, panned, baselines via 4D for construction plans (ex. For CIP meeting, Weelky Progress Meeting) - Support On-site requirement for catchup plans
- 5D Construction Quantity Takeoffs
- Evaluate 5D QTO methods with conmercial, control and design teams for progress tracking - Produce QTO table for alignment of BIM model and BOQ WBS items - Maintain BIM model construction information to meet requirements for QTOs from other teams (structure team, control Team...etc.)
- Technical support for other teams regarding QTO requirements via BIM
BIM Engineer
TaiwanBIM Technology, Taipei, Taiwan
- Responsible for Commercial and Academic projects. - BIM Deliveries (Architectural, Structural, MEP) from construction stage to as-built stage - Resolve BIM Coordination Problems (CSD & SEM) / BIM Achievement Reports / Tender
Automations in BIM Managing
Monthly
2019.6 - 2020.11
Project Architect / BIM Coordinator
TAI Architect & Associates, Taichung, Taiwan
- Responsible for mixed-use residential, Commercial, Academic projects. - Special geometry and parametric optimization for façade design (modular splitting, VMU etc.)
- Tender Phase / Design Proposal / National Urban Design Review / Coordination with Subcontractors (Structure & MEP) / Project management (evaluate and maintain MS project schedules) - Responsible for developing BIM Standards for the Office / Modifying BEP - SD & DD Drawings / Maintain Quantification Schedules / Clash Analysis/ 3D Print Components Proposal for Subcontractors (Façade & Interior)
EXPERIENCE 2020.11
Projects / Maintain Assets / Develop
/
Report for Invoice
CHIH-HSU 楊之序 INFORMATION
10-100, Haifengpo, Dayuan Dist., Taoyuan City 337004 , Taiwan (R.O.C.) mr.seanyang85@gmail.com chihhsu.yang@samsung.com +886-9-7312-5690 +86-134-3915-4387 https://www.linkedin. com/in/chih-hsu-ybb64851a4
YANG,CHIH-HSU School of Architecture, Feng Chia University
EDUCATION
Architect
Turenscape
HQ), Beijing, China
Special geometry public service centers and bridge designed based on
urban design
structural engineers and material supplier
Arch
Architect
Architects, Taichung,
residential buildings
Building
of Architecture, Feng Chia University, Taiwan
HONOURS & AWARDS
BIM Hero, Token of Appreciation, BIM Coordinators Submit, awarded by Pinnacle Infotech
MOE Scholarship Program for Overseas Study in Art and Design, Awarded by Ministry of Education, Taiwan
Slow City - Inner Town, 2nd Price, Awarded by Taichung City Government Urban Development Bureau
Settlement, 1st Price, Campus Renovation Competition, awarded by Feng Chia University
President’s Entrance Scholarship, Awarded by Feng Chia University
SKILLS
Professional with proven skills and diverse experience of over 5 years in BIM.
Managing Architectural, Structural and MEP projects using the Building Information
(BIM) process as BIM Coordinator.
Develop BEPs (BIM Execution Plan) / RFP and RFQ for sub-con
Implementing quality control procedures.
Coordinating with other disciplines and design team.
Client communication.
Experienced in developing, coordinating and implementing BIM in projects ranging from commercial, Residential, Warehouses and Mixed-use large-scale developments etc.
Specializing parametric design and automation in modeling.
a team of technical professionals in BIM project execution / Facilitating and
technical training of BIM professionals.
Managing and executing BIM projects involving coordination with multiple trades.
Developing a BIM model from design documents and provide required quantities takeoff.
Managing team on reviewing and validating BIM models.
Reviewing extracted shop drawings with respect to laid out standards.
tasks to the BIM team.
047 YANG,CHIH-HSUSchool of Architecture, Feng Chia University PORTFOLIO 20142022 YANG, CHIH-HSU 楊之序
2016.2 - 2018.2 Assistant
謝華洋建築事務所 Xie Hua-Yang
Taiwan - Mainly focus on individual industrial factories and
units. - Coordination with MEP Contractor to meet local regulations - Design Proposal (3D Development & Rendering) / DD Drawings /
Permit Drawings 2018.3 - 2018.9 Assistant
Internship,
(Beijing
-
parametric design. - Participated in
proposals. - Design Coordination between
(architectural finish & tiling) - Design Proposal / DD Drawings / Report to Design Manager 2014.9 - 2019.6 B.
School
聚の落
2022 2018 2016 2015 2014 •
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Modeling
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• Leading
coordinating
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• Allocating
Software platforms: - Revit (Architecture and MEP) - Dynamo - AutoCAD - Tekla - Navisworks - MS Office - Primavera P6 - Synchro 4D - BIM360 - Rhino 3D (Rhino.Inside) - Grasshopper
YANG,CHIH-HSU School of Architecture, Feng Chia University 048 PORTFOLIO 20142022
