8:["$","$L22",null,{"documentTextVersion":{"pageTexts":["The Possibility Of\nConnection\nselected works 2018-2021\n\nDesigner / CHI YU CHENG\nDept. of Architecture ,Feng Chia University\narchitecture portfolio","I\nN\nF\nO","紀侑成\nCHI YU CHENG\n\n/ 出生年月日\n\n/ 得獎作品\n\n/ 國籍\n\n/ 2020 年度 BUILD UP! 建築青年圓夢計畫 - 入選\n\n87/01/23\n\n台灣\n\n/ 連絡電話\n\n0910255346\n\n/ Email\n\nmacoto.yucheng.chi@gmail\n\n// FabriCasting - 實驗性構築計畫\n/ 2019 立邦亞洲青年設計師大獎賽 - 佳作\n// Urban Market\n/ 2019 新北市建築師公會學生競圖【新北景讚】- 優選\n// Spatial Rental System\n\n/ 學歷\n\n逢甲大學建築學系 2017-2021\n\n/ 語言能力\n\n中文、英文、台語\n\n/ 建模能力\n\nSketchup / Rhino / Grasshopper\n\n/ 製圖能力\n\nAutocad / Illustrator / Photoshop\nIndesign\n\n/ 2018 年臺中市政府住宅發展工程處與戴育澤建築師事\n務所、台灣大方廣人文美學協會合辦之「育賢樹屋國際\n學生競圖」- 佳作\n// 城市中的藝隅 - 對話於角落","C\nO\nN\nT\nE\nN\nT","Project\nFabricasting : Tectonic Study of GRC in Fabric Formwork\n\n2021\n\n空間租借系統 Spatial Rental System\n\n2019\n\n城市中的藝隅 Corner of the City\n\n2018\n\n[X/(50+20)]*[Y/(50√3)] ≒ Z\n\n2018\n\nUnstable City\n\n2020\n\n再視．文化\n\n2019\n\nWorkshop Experience\nA AVS OSAKA - Skilled and Advanced Wood Design\n\n2019\n\nFCU Dynamic Prototype Workshop - Feng Chia University\n\n2019\n\nDynamic Molding Workshop - ROSOCOOP\n\n2020","Fabricasting :\nTectonic Study of GRC in Fabric\nFormwork","","Fabricasting : Tectonic Study of GRC in Fabric Formwork\n\n當今建築產業經過工業化後材料與建\n造體系的變革，建造系統以「專業人\n士」設計與執行為主流，無論是在材\n料系統或者建造系統上多以線性的思\n維運作，而這一套封閉的系統對於工\n業發展至後工業時期科技的介入後不\n再是以往社會所追求的線性設計邏輯\n生成，對於建造過程中所重視的有別\n於傳統建築單純思考物件如何被組構\n後的「最終狀態」，然而更多的價值\n展現是在生成過程中的放樣、校位、\n材料系統加工與施工等一系列的調控\n過程。\n\n標準化\n\n因此在這後工業時期我們應該重新思\n考建築的主體性質，空間中會因應不\n同的使用者有不同的空間需求而有彈\n性調整，考慮可能的社會與技術變\n化、適應建築主體生命週期，以非線\n性邏輯來重新塑造製造與材料的體\n系，因此我們試圖透過這次的構築過\n程去思考標準化與非標準化在材料與\n工法間的表述，並在最終階段的實體\n模型上以雙層皮層的建築應用來做工\n法的初步實踐。\n\nGL±0\n\n// 構築計畫 ( 右圖 )\n我們架構了這一系列的構築策略圖。\n目的在於思考如何透過構築的過程來\n進一步完善標準化與非標準化的目\n標。首先我們設定透過在電腦裡做立\n面模擬並將曲面數據輸出。再來透過\n實際框架上的水平與垂直放樣。最後\n透過調整控制點垂直長度來形塑出不\n同的單元。\n\nELEMENT A\n\nX\nY\nX\n\nZ\nX\n\nX\n\nX\n\nELEMENT","T D\n\n非標準化\n\nELEMENT B\n\nELEMENT C\n\nELEMENT E","Fabricasting : Tectonic Study of GRC in Fabric Formwork\n\nThrough a series of model simulations to establish the influence factors of unit changes (inc\nphysical simulation of cloth, climatic simulation of facade thermal radiation and sunlight hours,\nlation of unit stress and deformation). These factor are also sorted out for form-finding and an\nthrough algorithm (environmental factors, material factors).\n\n30\n\n50\n\n.6\n\n.6\n\n15\n\n0\n\n.6\n\n16\n\n16\n\n16\n\n30\n30\n30\n30\n\n(cm)\n\nSET UNIT SIZE\n(1500x500mm)\n\nSTEP 2.\n\nCREATE CONTROL POINTS\nON SURFACE\n(EXCEPT FOR SHORT SIDE)\n\nSTEP 3.\n\nMOVE C\nZ DIREC\nSURFAC\n\nSTEP 8.\n\nSET S\nFRONT\n\n150\n\nSTEP 1.\n\n(cm)\n\n(cm)\n50\n\nSTEP 6.\n\nTENSILE STRUCTURE SIMULATION\n(KANGAROO PHYSICS)\n\nSTEP 7.\n\nSET FIRST LAYER SIZE\n(1500*500mm)","cluding\n, simunalysis\n\nCONTROL POINTS IN\nCTION TO SHAPE THE\nCE\n\nSECOND LAYER\nOF FIRST LAYER\n\nSTEP 4.\n\nCREATE TRIANGLE PANEL STEP 5.\nON SURFACE / AND DEFINE\nFIXED POINTS INSIDE\n\nDEFINE FIXED POINTS ON\nNAKED CURVES\n\nSUPPORT\n\nLOAD\n\nSITE : TAICHUNG\nANALYSIS PERIOD : 1,JUNE,06:00 - 31,AUGUST,18:00\n\nIN\n\nSTEP 9.\n\nSET WEATHER DATA AND STEP 10.\nANALYSIS PERIOD\n(LADYBUG)\n\nSUPPORT\n\nSET SUPPORT POINTS\nAND LOAD POINTS\n(KARAMBA STRUCTURAL\nANALYSIS)","$23","$24","Fabricasting : Tectonic Study of GRC in Fabric Formwork\n\n// 構築計畫 ( 下圖 )\n我們選用現今產業裡應用建築結構最廣泛的混凝土作為這次的研究材料，混凝土作為一具相變材\n料，在幾何的生成狀態裡具有流動性以及可自由塑形的特性，相對於其他材料較不受設計形式上\n的限制，我們透過分析現有混凝土澆築曲面的製造方式來發想一套具有可調適特性的澆築系統。\n在混凝土的建造過程中，模具是建造成本上最高的項目也是工法最核心的環節，我們分析現有的\n模具建造工法，大致分為三種方式，而我們最關注在 Flexible mold 裡面以布料作為模具，因為\n在成形的過程當中彈性的模具具有相當大的潛力在生產變動性高的元件。\n\nPrototype F3 - F8\n\n1.8cm\n\n混凝土自\n/布料彈\n\n定位固定件\n\n布料 : 胚布\n尺寸 : 50 cm * 150 cm\n\n角料\n( 邊界控制 )\n\n懸吊構建 : 棉繩 (童軍繩)\n\n布料收邊方式\n(以防止木料與\n\n0.9cm 0.9cm\n\n懸吊固定件 : 螺絲 / 螺帽 / 吊帽\n邊界固定件 : 角料 3.3 * 2.7 cm / 鋼棒\n水灰比 : 0.4\n摻料 : 玻璃纖維(106 : 113 : 125 = 3 : 2 :1)\n灌注方式 : 灌注\n預計厚度 :1 cm\n\n套管\n\nCNC雷","布料\n角料\n\n邊界鎖固\n\n木板\n\nstep 1\n\n卸下纜索/繩索\n\nstep 2\n\n取出模塊\n\nstep 3\n\n拆模\n\nstep 4\n\n置入構架\n\nstep 5\n\n重複使用\n\n可變動幅度\n\n懸吊定位點\n\n懸吊拉力\n\n自重\n彈性\n\n布料\n\n角料\n\n混凝土板\n\n繩索\n\n孔洞木板\n\n鋼棒(繩索固定)\n\n式\n與水泥接觸)\n\n雷切木板\n\ni\n五金件","Fabricasting : Tectonic Study of GRC in Fabric Formwork\nThermal insulation\n/ 第二層立面做於內側\n10 ~ 20 CM\n\n7~12 CM\n\n1~2 CM\n\n空調\n可透光\n聚碳酸酯板材\nInside\n\nOutside\n\nOutside\n\nInside\n\nInside\n\nOutside\n\nOutside\n\nInside\n\n隔熱石綿\n\n排氣窗\n\n雙層窗\n\n雙層玻璃窗\n\n盒狀通風複式立面\n\n雙層帷幕牆面\n\n/ 第二層立面做於外側\n\nhot\n\ncold\n\nOutside\n\nInside\n\n多層通風複式立面\n\n第二層立面\n無隔斷\n水平隔斷\n垂直隔斷\n\nhot\n\ncold\n\n> 180 CM\n\n80 ~ 150 CM\n\n單坡面溫室\n\n玻璃涼廊\n\n兩側通風\n無通風\n單側通風\n\n中空熱緩衝複式立面\n\nCurtain type of Energy-efficient\nCW(Climate Wall)\n氣候調節牆\n\nDSF(Double Skin)\n複式帷幕\n\nOVF(OPAQUE VEN\n不透光通\n\n空氣層\n支持層\n\n單層玻璃\n\n隔熱\n\n機械通風\nInside\n\nOutside\n\nworm ai\n\nInside\nInside\n\nOutside\n\n內牆體 / 斷熱\n\n外牆層\ncold air\n\n雙層玻璃\n\n20-100CM\n\n外層採用雙層玻璃,室內採單層玻璃幃幕, 兩層之間採用\n機械通風。\n\n內外層帷幕皆可使用雙層或者單層,並利用機械或者自然通\n風,同時雙層之間常設置遮陽系統以減少直射熱,視雙層之間\n為動態濾網\n\nFunction :提升隔熱防水耐久隔音防結露遮陽\n\n以不透光之傳導蓄熱牆應","Sunshade\nE\n\n/ 內遮陽\n\n較無效\n\nS\nN\n\n/ 外遮陽\n南/北部--水平遮陽\n\nW\n\n春分 /秋分\n\n--阻擋中午時分過量光線\n\nE\nS\n\na.植栽式\nb.百葉\nc.帆篷式\nd.出挑式\ne.出挑板+百葉\n\nN\n\n東西開口部--垂直遮陽\n-太陽輻射角度較低之東西立面上\n--早上及下午日照時間較長\n\nW\n\n夏至\n\n方式:\n\nE\nS\nN\n\na.垂直百葉式遮陽\nb.垂直板式遮陽\nC.穿透性板式\nD.植栽式\n\nW\n\n冬至\n\nNTILATED FACADE)\n通風立面\n\nLIGHT SHELF\n導光板\n\nSW(SWINDOW)\n智慧通風窗\n\n水平轉軸窗\n\n透射率高玻璃\n\nir\n\nOutside\n\nInside\n\nOutside\n\nInside\n\nOutside\n\n外層玻璃\n混凝土牆面\n\n應用,以通風設計為主。\n\n不同性質玻璃\n\n基本組構為水平轉軸窗, 藉由風壓平衡桿控制進氣量與\n排氣量。\n\n導光板將窗戶分為上下兩部分,上下兩部分依不同性能\n採取不同性質玻璃。","Fabricasting : Tectonic Study of GRC in Fabric Formwork\n\nE\n\nB\n\nC\n\nA","A\n\n龍骨(直向料)\n\nB\n\nC\n\n建築外牆(鋼構框架)\n\n以面寬170cm高度200cm深度50cm的鋼構\n框架來模擬建築外牆，鋼構框架以\n60*30*2mm及30*30*2mm的角鋼組成。\nE\n\n副龍骨(橫向料)\n\n以兩段30*30*2mm角鋼模擬L型鋼，一端固\n定於龍骨上，另一端供角度調節器固定。\n\n以兩段30*30*2mm角鋼模擬C型鋼，C行開\n口背向副龍骨，另一面以兩片L型鋼鎖固四\n個點以上固定於框架上。\n\nD\n\n組構\n\n實體模型的外掛皮層與龍骨總重約77公斤\n，因此在鋼構框架外加斜撐做輔助支撐，\n\nGRC皮層(雙層皮層)\n\n以三片GRC單元皮層組構，尺寸為長\n150cm寬50cm厚度0.9cm，單一片重量為\n20公斤，總重量為60公斤。\n組構方式以點式固定(分別預留於距離短邊5\n公分處)，共以6個固定點安裝一片單元。\n鎖固點接觸GRC處以橡膠墊片做減震。\n\nD","Fabricasting : Tectonic Study of GRC in Fabric Formwork\n\n單元下端固定細部\n龍骨(角鋼)\n副龍骨(角鋼)\n\nM8螺絲\n金屬墊片\n橡膠墊片\nPVC套管\n橡膠墊片*2\nL型角鐵\n多角度調節器\n\n多角度調節器\nM8螺絲\n金屬墊片\n橡膠墊片\nPVC套管\n橡膠墊片*2\nL型角鐵\n\n副龍骨(角鋼\n龍骨(角鋼","單元上端固定細部\n\n皮層與外牆固定細部\n\n伸縮縫\n\n鋼)\n鋼)\n\nRC外牆\n膨脹螺栓\n金屬固定件(L型)\nM8螺絲\n龍骨(角鋼)","空間租借系統\nSpatial Rental System","$25","空間租借系統 Spatial Rental System\nSTATISTICS ABOUT TYPES OF HOUSES IN TA IWAN\na cco rding to Ta iwan C onstruction And Planning Agency\n\nAPART ME N T\nCOMP LE X\n11.65%\n\nFARMHOUSE\n0.78%\n\nM U LTI -FA M I LY\nD W E LLI N G S\n19.18%\n\nTOWNHO U S E\n49.2%\n\nAPART ME N T\n19.2%\n\nDISTRIBUTION OF [HOUSE]\n\nH ORIZ ON TAL\n(tow nhouse )\n\nVERTICAL\n( apar tment complex)\n\nCOMMUNICATION ANALYSIS\nROOMS\n\nFLO O RS\n\nEven people live in the\nsame house, they still\nseldom communicate to each\nother in different rooms.\n\nEven people live in the\nsame building, they still\nseldom communicate to each\nother in different floors.","Site Analysis\n200 m\n\n100m\n\n0m\n\n100 m\n\n200 m\n\n200 m\n\n100 m\n\n0m\n\n100 m\n\nSIT E\nPEOPL E\nBUILDING\n\nOV ER 12 F LO OR S\n\nRIVE R\nTRANSPOT AT IO N\n\nT Y P ES O F A R C H I T ECT U R E\n\nN AT U RE S OF A RC HIT E C T U R\n\nT he r e a r e multi- family dwellings in the West of site an d\ntranditional dwellings in the East of site.\n\nR e si d e n t i al an d co m m e rci al m i xe d u se i n t hi s are a.","空間租借系統 Spatial Rental System\nCut the site\nA ccording to the network of tra n sp o r t , I cu t t he si t e i n t o f o u r p i e ce s. A n d an al y z e t he f o u r\npieces in order t o f i n d t he e xact l y p l ace o f t he se b u i l d i n g s.\n\nS ITE PL AN/VOLUME PROGRESS\n\nS TE P 1\n\nA c c o r d i n g t o th e d istricts d i vi d e d ,s etbac k 2 meter s\nf r o m t h e e d ge o f th e d istricts to pr ev ent a better\nactivity space.\n\nSTEP 2\n\nAc c or ding to qu al i t at i v e and q u ant i t i v e t o p l an t he\nBUILD ING123.\nPAR T A/ Mos tly f o r Ent ranc e O ri e nt e d\nPAR T B/ Mos tly f o r p ri v ac y s p ac e\nPAR T C/ Mos tly f o r p u b l i c are a\nPAR T D / Near t he b u s i ne s s d i s t ri c t\n\nS T EP 3\n\nT he s t ru c t u re i n t he who l e b u i l d i ng i s b a s e d on t h e\nm at ri x whi c h are d i v i d e d b y a s q u are ( 5 * 5 m e t e r s ) .","PART3 FLOOR PL AN\n\nStructure in grasshopper\n\nS TE P 4\n\nAcco r d i n g t o th e ma trix to p l a n s ite , after that, div ide\nt h e d i s t r i c t s b y V ORON OI to g e t ev er y s ingle unit and\ntheir position.\n\nSTEP 5\n\nAfter analy zing t he are a o f e v e r y s i ng l e u ni t , d e s i g ni ng\nthe units lar ger t han t he av e rag e are a as t he p u b i c\ns pac e at low f l o o r; d e s i g ni ng t he u ni t s\n\nS T EP 6\n\nCo nne c t i ng t he mat ri x ho ri z o nt al l y. Fi n a l l y, s e t t i n g t h e\nho ri z o nt al s t ru c t u re ac c o rd i ng t o t he h e i gh t of u n i t s .","空間租借系統 Spatial Rental System\nSTRUCTURAL SYSTEM\nTake par t 3 for example, the whol e b u i l d i n g w as su p p o r t e d b y t he co l u m n , b e am s an d an g l e\nbraces. Final l y p l u g i n g t he sp ace s i n t he b u i l d i n g .\n\nB A SIS\n\nC O LUMN\n\nB EA M\n\nANG L E BRA C E\n\nF LO ORS\n\nLOW FLO O RS\n\nM I D D L E F LO O R S\n\nHIG H F LOORS\n\nPART3 A-A` SECTION\n\nPART3 B -B` SECTION\n\nWEST ELEVATION","SOUTH ELEVATION","城市中的藝隅\nCorner of the City","In such a fast-changing big city, pursuing\none's own position has become a shortterm, long-term, life-long goal for many\npeople. We are trying to propose a scale\nfor a corner plan for people in this area.\nUsers can communicate, think in the tree\nhouse.\nIn the corner, the established space is cut\ninto small fields that are small in size and\nclose to users. There are many stories,\nbehaviors, and moods in each small\nfield. Perhaps if these users have another\nchances to come to the same place, we\nthink that they will choose the same corner\nthat belongs to them. So we can agree that\nthese corners are emotional and warm to\nthese users.\nThe site is located in the northeast corner\nand the southwest corner of the block. It\nis also the gateway to the entrance and\nexit. Based on this, we believe that: \"Warm\nresidents, Warm the space, Warm the city,\nLet’s start from warming the corner\".","$26","STAIRS PROCESS\nT he sta ir s a r e made up of a single unit in a 45- degree rot at i o n f o r e ach st e p o f t he ce n t ral axi s. T he n , acco rd i n g t o t he t re e ho u se f u n ct i o n ,\nthe sta ir spacing and the thickness of the stairs are ad j u st e d , an d t he n t he t y p e 3 i s se l e ct e d as t he m ai n m o v i n g l i n e o f t he t re e ho u se .\n\nTYPE 1\n\nP E RSPEC TIVE\n\nSE C TION\n\nP L AN\n\nTYPE 2\n\nTYPE 3","城市中的藝隅 Corner of the City\nCONSTRUCTION\nMATERIAL\nT RE E H O U S E A\n\nT RE E HOU S E B\n\ng la s s\n\nw ooden v eneer\n\nCorrugated galvanised\np la s tic\n\nb a mboo\n\nw ooden v eneer\n\ns teel","TREE HOUSE A\nFLOOR PL AN\n\nTREE HOUSE B\nFLOOR PL AN","[X/(50+20)]*[Y/(50√3)] ≒ Z","In order to show cultural diversity and\nrichness on the façade, from the current\nsituation analysis to unit planting.\nWe propose a set of formulas that can be\napplied to any old residential renovation\nin Taiwan. In this formula, we can treat the\nexisting building facade as a plane, XY is\nthe side length of the plane, and Z will be\nthe transformation. The number of units\nrequired for the facade.\nWe also tried to improve the aging\nstreetscape with a simple system. In order\nto preserve the cultural diversity, we\ndesigned a cortical system with hexagons\nas the unit, and calculated the distance\nbetween the unit and the event point on\nthe old façade. This is the basis for the unit\nto adjust the mechanism according to the\nuser.","[X/(50+20)]*[Y/(50√3)] ≒ Z\n\nPAT TERN\n\nWe t r i ed to f i n d the mo s t e f f i c i e nt pat tern wh ich\nadapted to the facade. Hexagon is the most\nefficient and best way to stack and save the\nmate r i a l of con str uc ti o n. T he s ha p e will be u sed\na s a u n i t whi c h i s l a i d o n the facade.\n\nFUNCTION\n\nAccording to the interaction between the\nfacade and the residents, the unit is set to be\nu s e d f reel y a dj us te d ty p e of d e ma n d. And also,\nu n it s wi l l sprea d o n the f a c a d e w i t h t h e level of\ni mp ro ve me nt i n d e ma nd.","$27","250m\n\n200m\n\n150m\n\nUnstable City\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\nL E G E N D\nHARDNESS\n\n200m\n\n6\n\n4.5\n\n3\n\n1.5\n\n30℃\n\n25℃\n\n18℃\n\n14℃\n\nTEMPERATURE\n\nSAFETY\n12.5M\n\n6M\n\n14M\n\n5.5M\n\nTREE\n\n250m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m","The development of the city has created\nthe complex appearance of today. In this\ndensely populated area, we are used to\ndistinguish and cut the space by functions.\nHowever, as a ‘’HYBRID” affected by many\ndifferent factors, there should have been a\nset of strategies to analyze it.\nTherefore, I propose to look at the city from\nthe perspective of conditions. It contains\nvarious conditions to quantify perception.\nThen use these conditions to find a suitable\nspace to place the device components I\ndesigned.","$28","LE CITY\nPROPOSAL\n\nTIONS\n\ne\n\nprivacy\n\nsafety\n\n46800ntd/month\n\n0.8month/family\n\nX=\n\ntype of\nstreetlight\n\nradius of light\n\nMERCURY\nLAMP\n\n12.5m\n\nY\n\nstreet width\n\nZ\n\nbuilding height\n\nformula\n\nCHEAP\n\nX>\n\nbrightness\n\nX=number of\nstreetlight(coverd)\n\naverage rent\naverage salar y\nSAFE\n\nL\n\nscale of street\n\n6m\n\nLED\n\n38470ntd/family\n\nvolume\n\nX=\n\nY\nZ\n\nNORMAL DANGEROUS\n\n3\n\n>X>\n\n1\n\n>X\n\nHIGH\n\nNORMAL\n\nLOW\n\nmercury\n\naccordind to\nIlluminance Index\nby CNS\n\nLED\n\n0.6\n\nX>\n\n>X\n\nX=number of\nwindows\n\nNORMAL\n\nCLOSED\n\n80%↑\n\n10\n\n>X>\n\n4\n\nX=Lux/㎡\n\n65%\n\n50%\n\n35%\n\n20%↓\n\nsafe\narea\n\nX>\n\ndangerous\narea\n\nX>\n\n>X\n\n12.5M\n\n6M\n\nPUBLIC\n\n1\n\n>X\n\n140dB\n\nair plane\n\n100dB\n\nmotor\n\naccordind to\nEnvironmental Protection\nAdministration\n\n85dB\n\ncar\n\n65dB\n\nchatting\n\n40dB\n\nrefrigerator\n\n30dB\n\nrustle(leaves)\n\nZE\nNOISY\n\nX>\n\nNORMAL\n\n70dB\n\n>X>\n\nSILENT\n\n45dB\n\n>X\n\n1500\n\n>X>\n\n750\n\n>X>\n\n300\n\n>X>\n\n150\n\n>X","Unstable City\n2000m\n\n1500m\n\nCEMETERY\nRIVER\nSTATION\nRESIDENTIAL\nFACTORY\nTEMPLE/CHURCH\nPORT\nSITE\n\n1000m\n\n500m\n\n0m","500m\n\n1000m\n\n1500m\n\n2000m\n\n2500m\n\n1000m\n\n500m\n\n0m\n\n500m\n\n1000m\n\n1500m","Unstable City\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\nL E G E N D\nHARDNESS\n\n200m\n\n6\n\n4.5\n\n3\n\n1.5\n\n30℃\n\n25℃\n\n18℃\n\n14℃\n\nTEMPERATURE\n\nSAFETY\n12.5M\n\n6M\n\n14M\n\n5.5M\n\nTREE\n\n250m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m","250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\n200m\n\n250m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\n200m\n\n250m\n\n300m\n\n350m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\n200m\n\n250m\n\n300m\n\n350m","Unstable City\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\nL E G E N D\n\n75m\n\nVOLUME\n75dB\n\n200m\n\n60dB\n\n45dB\n\n30dB\n\n50m\n\nSCALE OF\nSTREET\n1\n\nDENSITY\n0.4㎡\n\n2.4㎡\n\n6.0㎡\n\n25m\n\n15㎡\n\n250m\n\n0m\n\n25m\n\n50m\n\n75m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m","250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\n75m\n\n200m\n\n50m\n\n25m\n\n250m\n\n0m\n\n25m\n\n50m\n\n75m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\n75m\n\n200m\n\n50m\n\n25m\n\n250m\n\n0m\n\n25m\n\n50m\n\n75m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m\n\n50m\n\n100m\n\n150m\n\n75m\n\n200m\n\n50m\n\n25m\n\n250m\n\n0m\n\n25m\n\n50m\n\n75m\n\n300m\n\n350m\n\n300m\n\n250m\n\n200m\n\n150m\n\n100m\n\n50m\n\n0m","Unstable City\n\nCONDITION RADAR CHART\nSEPERATE THE WHOLE SITE INTO MANY DIFFERENT\nAREAS. THEN ANALYSIS THE CONDITION IN EACH\nAREA. COMPARING WITH ALL OF THEM TO FIND THE\nSIMILARITY AND DIFFERENCE ON PART OF AREA.\n\nA D M I N I S T R AT I V E\nAREA\n\nCOMMERCIAL AREA\n\nCYCLING AREA\n\nCONDITION RADAR CHART\n\nCONDITION RADAR CHART\n\nCONDITION RADAR CHART\n\nE AT I N G A R E A\n\nEXERCISING AREA\n\nPA R K I N G A R E A\n\nCONDITION RADAR CHART\n\nCONDITION RADAR CHART\n\nCONDITION RADAR CHART\n\nP L AY I N G A R E A\n\nCONDITION RADAR CHART\n\nREADING AREA\n\nCONDITION RADAR CHART\n\nWORKING AREA\n\nL E G E N D\n\nCONDITION RADAR CHART\n\n0\n\nSUNLIGHT HOUR\n\n0\n\nHARDNESS\n\n0\n\nSAFETY\n\n0\n\nVOLUME\n\n0\n\nDENSITY OF SPACE\n\n0\n\nSCALE OF STREET\n\n60m\n\n30m\n\n0m\n\n30m\n\n60m","$29","Unstable City\n\nPROTOTYPE FORMFINDING\n\nBENDING LINE\n\nS T R U C T U R E PAT T E R N\n\nR I G I D PA RT\n\nR I G I D PA RT\n\nCUTTING LINE\n\nS M O OT H PA RT\n\nS M O OT H PA RT\n\nPATTERN TEST\n\nSTRUCTURE PERSPECTIVE VIEW\n\ndecagon / layer:12 / r=100\n\noctagon / layer:14 / r=100\n\ndecagon / layer:10 / r=100\n\noctagon / layer:10 / r=100\n\ndecagon / layer:8 / r=100\n\noctagon / layer:8 / r=100\n\ndecagon / layer:6 / r=100\n\noctagon / layer:6 / r=100","PATTERN ANALYSIS\nDECAGON\n\nOCTAGON\n\nHEXAGON\n\nPENTAGON\n\nSELECTED PATTERN\n\nhexagon / layer:12 / r=100\n\npentagon / layer:12 / r=100\n\nhexagon / layer:10 / r=100\n\npentagon / layer:10 / r=100\n\nhexagon / layer:8 / r=100\n\npentagon / layer:8 / r=100\n\nhexagon / layer:6 / r=100\n\npentagon / layer:6 / r=100","Unstable City\n\nPATTERN TEST 2\nA\nhexagon / layer=4 / r=50cm\ninner r=22.5cm / gap index=7\n\nA\nhex\ninn\n\nA-1\nhexagon / layer=4 / r=50cm\ninner r=22.5cm / gap index=16\n\nB-1\nhex\ninn\n\nA-2\nhexagon / layer=4 / r=50cm\ninner r=22.5cm / gap index=3\n\nB-2\nhex\ninn\n\n48.45\n\n.45\n\n48\n\nL AYER 1 / L:20.22cm\nL AYER 2 / L:23.89cm\nL AYER 3 / L:27.57cm\nL AYER 4 / L:31.25c m","xagon / layer=4 / r=50cm\nner r=22.5cm / gap index=7\n\nA\nhexagon / layer=4 / r=50cm\ninner r=22.5cm / gap index=7\n\n1\nxagon / layer=4 / r=50cm\nner r=15cm / gap index=7\n\nC-1\nhexagon / layer=6/ r=50cm\ninner r=22.5cm / gap index=10\n\n2\nxagon / layer=4 / r=50cm\nner r=27.5cm / gap index=7\n\nC-2\nhexagon / layer=8 / r=50cm\ninner r=22.5cm / gap index=10\n\nSELECTED PROTOTYPE\nhexag o n / la ye r =4 / r =5 0\ni nn er r= 2 7.5 c m / ga p index =7\nUPPER MOLD\n\nFORCE\n\nALUMINUM SHEET\nWITH LAZER CUT\n\nFORCE\n\nMANUFACTURE\nLOWER MOLD","Unstable City\n\nDEVICE A\n\nN Y LO N R O P E PAT H\nC O N T R O L PAT H\nF I X E D PAT H\n\nM O VA B LE S T R U C T U R E\n\nS TE EL PIPE φ30*2. 5\n\nS TE E L S H EE T T: 10\nS TE E L S H EE T T: 2. 5\n\nCONCRE TE BA S E","34.42\n\n17.21\n\n17.21\n\nCONNECTION Y(connect pipe and element)\naluminum sheet /thick:0.25cm\n\nCONNECTION V\n(connect pipe and CONNECTION Y)\nSCREW /stainless steel\n\naluminum sheet /thick:0.25cm\n\nSTEEL PIPE\n30x2.5mm\n\ncm","Unstable City\n\nDEVICE B\n\nD E TA IL O F J O IN T S\n\nD E TA IL O F B A S IS\n\nS TE EL P IP E φ30* 2. 5\n\nPAT T ER N\nS TE E L S H EE T T: 1 0\nCO N C R E TE BA S E\n\nPOSITION//\n1.BLOCK THE VIE W FRO M ROAD\n2.ALLOW THE VIE W FROM PEDESRTR I A N A R E A IN O R D ER TO C R E ATE A SA FER A R E A\n3.CRE ATING LIMIT TO SAFE AR E A\n\nP L AN","SCREW /stainless steel\n\nCONNECTION (one side)\naluminum sheet /thick:0.25cm\nmanufacture:bending\n\nelement 1\n\nelement 2\nCONNECTION (double side)\naluminum sheet /thick:0.25cm\nmanufacture:bending\n\n43.30\n\n37.63\n\n20.00\n\n37.63\n\n43.30\n\n181.87\n\nSCREW /stainless steel\n\nSTEEL PIPE\n30x2.5mm\n\nCONNECTION U (connect pipe and connection Y)\naluminum sheet /thick:0.25cm\n\nCONNECTION Y (connect screw and element)\naluminum sheet /thick:0.25cm\n\n12.00\n4.00\n\n26.09\n\n34.42\n\n26.09\n\n86.60\n\ncm","Unstable City\n\nDEVICE C\n\nDE TA IL OF J OIN TS\n\nPL AN\n\nP O S IT IO N/ /\n1 . C R E AT I N G A S M O OT HE R S U R FAC E IN OR D ER TO SLOW D OWN P ED ESTR IANS’SPEED\n2 . C R E AT IN G F LOAT IN G E X P ER I EN C E OF WALK ING\n3 . D EF O R M AT IO N S C AN B E S EE N AS A DATA COLLECTION\n\nSECT IO N","SCREW /stainless steel\n\nCONNECTION (SAME LEVEL)\naluminum sheet /thick:0.25cm\n\n74.68\n\n13.96\n\n46.77\n\n13.96\n\n3.46\n\nelement 1\n\nelement 2\n\nCONNECTION\n(SAME LEVEL)\nCONNECTION\n(DIFFERENT LEVEL)\n\nUPPER ELEMENT\n\nUPPER ELEMENT\n\nLOWER ELEMENT\n\n77 . 9\n\nLOWER ELEMENT\n\n24 . 25\n\n46 .77\n\n2 4.2 5\n\n77 .9\n\n95.26\n\n77. 9\n\ncm","Unstable City\n\nM AT E R I A L L I S T\nA\n\nx 75\n\nSUNLIGHT HOUR<8.8\nHARDNESS<3\n\n96.91\n\nx 50\n\nx 25\n\nB\n\nx 104\n\nSUNLIGHT\nDENSITY OF\n\nDEVICE A\n\n96.91\n\nx 96\n\nDEVICE C\n\nx 96\n\nSUNLIGHT\n\nDENSITY OF\n\nC\n\nx 90\n\nDEVICE B\n\n193.81\n\nx 107","ACCORDING TO THE INFORMATION\nMAP WE NEED TO FIND THE\nCONDITION THAT WE WANT TO\nCHANGE. THEN BASED ON THE\nDEVICE RESEARCH / DESIGN\n(POSITIONS) WE CAN CHOOSE\nWHAT KIND OF DEVICES TO APPLY\nIN THE SITE.\nFINALLY, WE CAN COMPARE THE\nCONDITIONS BEFORE AND AFTER\nI N O R D E R T O C R E AT I N G T H E\nUNSTABLE SPACES FOR DIFFERENT\nFUNCTIONS OR ACTIVITIES\n\nSUNLIGHT HOUR<8.8\nHARDNESS<3\n\nDENSITY OF SPACE<20㎡\nHARDNESS<3\n\nDENSITY OF SPACE<6㎡\nHARDNESS<3\n\nHOUR<8.8\n10:00AM~08:00PM\n\nSPACE<20㎡\n\nT HOUR<11\n\nF SPACE<20㎡\n\n08:00PM~06:00AM\n\nSUNLIGHT HOUR<7.7\nDENSITY OF SPACE<12㎡\nHARDNESS<5\n\nSUNLIGHT HOUR<11\nSAFETY>2\nDENSITY OF SPACE<12㎡\n\nSAFETY>2\n\nSUNLIGHT HOUR<11\n\nDENSITY OF SPACE<12㎡\n\nDENSITY OF SPACE<12㎡\n\nWEEKDAY\n\nWEEKEND\n\nDENSITY OF SPACE<12㎡\nHARDNESS<3\n\nSUNLIGHT HOUR<11\nDENSITY OF SPACE<20㎡","再視 ‧ 文化","勤美生活圈，近年已漸漸轉變為高品質\n生活圈，過度以「高品質生活」作為生\n活模式藍本，創造了許多平民美學式的\n生活信仰，卻也造成本該多樣性呈現的\n都市生活被一種必須到達某種程度的制\n約所統一化，亦或是本無高低層級區分\n的生活模式被新置入此區域的異質生活\n圈所排斥；可從基地周遭現況攫取出許\n多元素觀察到此現象：舊屋改造後的網\n紅餐廳、風潮所促成的季節性市集、為\n填充人群網絡討論話題所產出的噱頭性\n地標…等，就連單純的都市開放空間—\n公園，也逐漸被各自打著吸引人群響亮\n名號的強制嵌入性文化展演所佔據\n文化本質由碰撞所形成，因此由單一角\n度的標準去審視文化甚至改變文化將會\n扼殺文化的產生，當都市中原本只在某\n區域裡發生的文化及生活模式，聚集至\n同一場域裡，存在於都市裡的開放空間\n融合體扮演著甚麼樣的角色便顯得至關\n重要，也許它能形成對立造成許多文化\n碰撞；也許它能導致融合以一拼貼手法\n的形式呈現；不能否認它能造成對話\n因此透過此棟高層建築試圖將人、文化\n聚集以重新討論多樣化的生活狀態，大\n樓機能著重在文化表達，設計四個文化\n傳達型態應用於大樓期盼引起都市的人\n們思考自身的文化，四種型態依低樓層\n至高樓層分別為工作坊、展廊、商場、\n劇院，工作坊—以過程為導向，讓人們\n直接性地參與文化產出過程；展廊—以\n靜態展示形式，為匯集、統整後的呈現；\n商場—以較商業性的樣貌，藉由通俗行\n為與人們對話；劇院—以動態展示形式\n且較單一面向做文化呈現","再視．文化\n\n// 結構系統\n大樓主要結構支撐來自四個角落的大柱，大柱以六根圓柱所組成，接收來自各樓層的\n力；次要結構以圓鋼管組成，作用在於分散主結構所承受樓板的力；將所有垂直動線以\n及管線整合在大柱裡頭；4/9/14/19 樓層為結構層，主要以 vierendeel truss 組成的格子\n結構，將結構層上的樑柱系統以及結構層下的懸吊系統傳導至大柱再傳導至地面；樓板\n為 40cm 厚的無樑板組成，樓板中包含 H Beam 組成的格子樑系統以及內層樓板架高；\n每層樓層往內 2m 設置玻璃帷幕，保留半戶外廊道空間也將樓層內空間以及活動作為皮\n層直接地呈現建築情緒\n大柱\n\n圓管\n\n電梯\n\nvierende","eel truss\n\n樓板\n\n鋼棒\n\n玻璃帷幕","再視．文化\n結構爆炸圖 / 材料說明\n\n玻璃 /T=0.0\n- 皮層\n\n鋼棒 /R=0.12m/L=1\n/C=140\n- 懸吊系統\nH Beam/H*B*t1*t2\n=600*400*13*21\n- 結構層\nH Beam/H*B*t1*t2\n=400*600*10*20mm\n- 結構層\ncore- 垂直動線\n\n鋼管 /R=0.2m/L=4m/\nA=1008\n- 次要結構\n\n圓柱 (RC)/R=0.6m/L=92m\n/A=24\n- 主結構","力傳導\n柱樑系統以及懸吊系統將樓板載重力傳導至桁架結構層，桁架結構\n層再將力傳導至主要結構—大柱上 ( 次要結構分散主要結構受單一\n結構層載重力之傳導 )，大柱將所有力垂直導向至地面\n\n02m/3*3.5m\n\n11.3m\n\n力傳導方向\n\n次要結構形變分析\n分析於每樓層間輔助主要結構的次要結構，由於點位上的錯置以及結構連線的隔空選取，次要結構主要負\n責分擔主結構所承受來自樓板的力，材料選取為鋼管，因此可以由 karamba 模擬出的結構變形得知，每\n個單元的次要結構變形將會由上方的點位向內偏移，加上鋼管本身材料特性以及鋼管的旋轉角度，形變將\n會如下圖呈現\n\nA\n\nB\n\nC","再視．文化\n\n全區配置圖\n1/300 N","27.03\n\n14.92\n\n6\n\n5\n\n16.34\n\n7\n\n24.04\n\nUP\n\nUP\n\n1\n\n2\n\n24.04\n\nDN\n\n4\n8\n\nUP\n\n9\n\n22.60\n\n3\n\n1.core1\n2.core2\n3.core3\n4.core4\n5. 掃具間\n6. 休息室\n7. 廁所\n8. 設備間\n9. 倉庫\n\n11\n\n4.77\n\n6.73\n\n8.80\n\nUP\n\n8.80\n\n8.80\n\n8.80\n\nUP\n\n10.29\n\n4.90\n\nB1 平面圖\n1/200 N\n\n5.49\n\n5.64\n\n8.80\n\n8.80\n\n8.80\n\n8.80\n\n8.80\n\n8.80\n\nB2-B3 平面圖\n1/200 N","再視．文化\n\n3\n\n+0.40\n\nUP\n\nDN\n\n5\n\n+1.00\n\n1\n\n6\n\n7\n\nUP\n\nDN\n\n2\n\n4\n\n1. 演講區\n2. 共作廣場\n3. 工作室\n( 個人 )\n4. 倉庫\n5. 廁所\n6. 共讀區\n7. 機具室\n\n±0.00\n\n1 層平面圖 ( 工作坊 )\n1/200 N\n\n9.01\n\nF\n\n12.00\n\nUP\n\nDN\n\nE\n\nF\n\n+8.80\n\n1\n\n+7.80\n\n12.00\n\n2\n\n12.00\n\n3 層平面圖 ( 工作坊 )\n1/200 N\n\nA\nC\n\n12.00\n\n12.00\n\n12.00\n\nDN\n\n3.97\n\nB\n\n5.50\n\n1. 演講區\n2. 工作室\n( 開放 )\n3. 茶水間\n\nA\n\n1\n\n2\n\n12.00\n\n11.57\n\nUP\n\nB\n\n6.0012.00\n\nD\n\nUP\n\nDN\n\nC\n\nUP\n\n3\n\nDN\n\nE\n\n12.00 9.01\n\nD\n\n3\n\n4\n\n5\n\n6","9.01\n\nF\n\nUP\n\n12.00\n\nDN\n\nE\n\n12.00\n\nD\n\n12.00\n\nUP\n\nDN\n\nC\n\n5.50\n\nB\n\nA\n\n12.00\n\n12.00\n\n1\n\n12.00\n\n2\n\n8 層平面圖 ( 商場 )\n1/200 N\n\n11.57\n\n3\n\n4\n\n5\n\n6.00\n\nI\n\n3.01\n\nJ\n\nUP\n\nDN\n\n6.00\n\nH\n\n6.00\n\nG\n\n6.00\n\nF\n\n6.00\n\nE\n\nUP\n\nDN\n\n6.00\n\nD\n\n6.00\n\nC\n\nB\n\n5.50\n\n9 層平面圖 ( 商場 )\n1/200 N\n\nA\n\n3.47\n\n1\n\n6.00\n\n2\n\n6.00\n\n3\n\n6.00\n\n4\n\n6.00\n\n5\n\n6.00\n\n6\n\n6.00\n\n7\n\n6.00\n\n8\n\n5.57\n\n9\n\n10","再視．文化\nTOP\nEL +85500\n\nROOT\nEL +81900\n\nFLOOR 21\nEL +78000\n\nFLOOR 20\nEL +74100\n\nFLOOR 19\nEL +70400\n\nFLOOR 18\nEL +66300\n\nFLOOR 16\nEL +58500\n\nFLOOR 15\nEL +54600\n\nFLOOR 14\nEL +50900\n\nFLOOR 13\nEL +46800\n\nFLOOR 11\nEL +39000\n\nFLOOR 10\nEL +35100\n\nFLOOR 9\nEL +31400\n\nFLOOR 8\nEL +27300\n\nFLOOR 6\nEL +19500\n\nFLOOR 5\nEL +15600\n\nFLOOR 4\nEL +11900\n\nFLOOR 3\nEL +7800\n\nG.L.\nEL +0.00\n\n22' 剖面圖\n1/200","11' 剖面圖\n1/200","UP\n\nDN\n\nUP\n\nDN\n\n再視．文化\n\n樓板細部大樣\n大樓樓板為配合結構大柱以及大跨距均採用無樑板，樓\n板內部為 I BEAM 所組成的格子樑系統作為樓板荷載力\n的傳導路徑，格子樑下方以鋼板和室內天花裝修做搭接；\n格子樑上方夾層為鋼板後搭接浪板再鋪以薄層水泥，最\n後以木板作為室內地板收邊，樓板邊緣以拱狀欄杆直接\n承載於樓板內的 I BEAM 上，最後以鋁板收邊至玻璃帷\n幕的節點上\n\n柱位\n依據結構荷載力分布，設置結構層、樑柱層以及懸吊層的柱\n位，柱位也將會形成各自的矩陣系統去切割樓板內的使用空\n間，不同大小的矩陣系統也意味著能產生不同性質的空間活\n動。\n\n11.61\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n3.47\n\n5.61\n\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n3.01\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n12.00\n\n6.00\n\n6.00\n\n12.00\n\n0.20\n\n5.50\n\n5.50\n\n6.00\n\n6.00\n\n6.00\n\n0.40\n\n6.00\n\n0.40\n\n0.20\n\n6.00\n\n6.00\n6.00\n\n6.00\n\n2.71\n\n12.00\n\n樑柱層 1/300\n\n結構層 1/3","300\n\nUP\n\nDN\n\nUP\n\nDN\n\n12.00\n\n12.00\n\n12.00\n\n11.61\n6.00\n\n6.00\n\n6.00\n\n6.00\n\n9.01\n\n3.01\n\n5.61\n\n6.00\n\n6.00\n\n12.00\n\n12.00\n\n6.00\n\n12.00\n\n6.00\n\n0.60\n\n6.00\n5.50\n\n懸吊層 1/300\n\n0.20\n\n6.00\n\n12.00\n\n6.00\n\n12.00\n\n6.00\n\n5.50\n\n6.00\n\n樓板立面圖 1/50\n\n0.60\n\n0\n\n樓板細部大樣圖 1/50\n\n0.20","再視．文化\n\n放樣節點\n(鋼)\n\n木板\n薄層水泥\n鋼板 ( 焊接 )\nH 型鋼 (200*100*7*10)\n鋼板 ( 焊接 )\n矽酸鈣板 ( 天花 )\n\n次要結構節點\n細部大樣圖\n1/10\n\n北向立面圖\n1/200","墊片 ( 鋼 )\n螺栓\nL 型角鐵\n\n節點細部大樣圖\n1/5\n\n西向立面圖\n1/200"]},"initialDocumentData":{"document":{"access":"PUBLIC","contentRating":{"isAdsafe":true,"isExplicit":false,"isReviewed":true},"description":"Architecture Portfolio 2018-2021\n\nDesigner : CHI YU 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