本研究透過建築資訊模型（Building Information Modeling, BIM）之應用，研析日式軸組木造建築之施工流程及特殊榫接構法，並以臺灣科技大學永續智慧校園資訊展示中心為例。

本個案使用12種榫接構法，透過Revit建立BIM參數化木構元件及施工流程，記錄木構造之特性、榫頭型式、與接合工法等，彙整木構造建築之圖面及相關資料於建築資訊模型內，減少過往圖資與工法紀錄不全之缺失。

透過實際操作，此研究以BIM建築資訊可視化及參數化記錄建築整體資訊，將原本2D既有建築照片及文字圖檔轉換為模型及參數化元件，利於建築後續使用及維護管理。於個案應用，本論文的木構造BIM除了可使維護者精準掌握待修護處之毀損狀態，為使修繕增加其效率，亦能將協作資訊透過雲端平台分享予各參與修繕之團隊，使其能即時掌握建築現況。BIM模型施工與維護紀錄之基礎，能有效達成建築物使用後續維護修繕並延長其建築生命週期，促進永續之效益。

Through the application of Building Information Modeling, this research analyzes the construction procedure and tenon and mortise construction methods of the post and beam wooden buildings of Japanese-style, taking the Sustainable Smart Campus Information Exhibition Center in Taiwan University of Science and Technology as an example.

In the research, the parameter wood components and construction procedure were established through Revit, recorded the characteristics of wood structure, tenon type, and joining method, integrated the drawing of wood structure building and construction-related data in the building information model to reduce the past drawing resources lack of incomplete records related to construction methods.

Through the practical operation, it is proposed that the visualization and parameterization of building information can be used to record the overall information of buildings, which is conducive to maintenance. The experience of this thesis can be used as the basis for BIM model construction and maintenance records in the future, assist the building to maintain and extend its life cycle after completion and promote sustainable benefits.

外文文獻

[F1]木の研究会（2012）。世界で一番くわしい 15木材。株氏会社エクスナレッジ。
[F2]山辺豊彦（2011）。世界で一番くわしい 6木構造。株氏会社エクスナレッジ。
[F3]富樫新三（2013）。木造建築の継手と仕口。オーム社。
[F4]Volk, R., Stengel, J., Schultmann, F. (2014) “Building Information Modeling
(BIM) for existing buildings – Literature review and future needs”
[F5]Apollonio, F. I., Gaiani, M., and Sun, Z. ( 2013 ) 3D MODELING AND DATA
ENRICHMENT IN DIGITAL RECONSTRUCTION OF ARCHITECTURAL HERITAGE.
[F6]Murphy, M, McGovern, E & Pavia, S 2009, 'Historic Building Information
Modelling (HBIM)', Structural Survey, vol. 27, no. 4, pp.311 – 27.
[F7]Open Geospatial Consortium Inc. 2008, OpenGIS® City Geography Markup
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中文文獻

[C1]翁郁琇（2018）。小型木構造構築過程紀錄與碳足跡探討-以臺灣科技大學永續智慧校園資訊展示
中心為例。台灣科技大學建築研究所論文。
[C2]施國隆等編輯（2012）。台灣日式木構造建築榫接工具及製作技術手冊。文化部文化資產局。
[C3]王松永（2005）。樑柱工法木構造建築物(住宅)之施工技術手冊。
[C4]山辺豊彥（2014）。圖解木構造：110個木造概念與技法，讓憧憬的木質感在現代住宅中實現(張正
瑜，譯)。易博士文化，城邦文化出版。
[C5]郭榮欽（2012）。從幾個Revit術語初探其BIM模型元件組構技術。營建知訊348期。

[C6]郭榮欽（2018）。透過案例演練學習BIM.元件篇。台大出版中心出版。
[C7]林玫君（2016）。BIM輔助傳統木構造修復設計之可行性研究。國立成功大學碩士論文。

網路文獻

[W1]木構造建築物設計及施工技術規範第四章 材料及容許應力
https://www.cpami.gov.tw/filesys/file/chinese/publication/law/lawdata/rule4-
2.pdf(2020.07)
[W2]框組壁式木構造房屋在節能減碳上的表現
https://www.coa.gov.tw/ws.php?id=20182&print=Y (2020.07)
[W3]軸組構法 http://i-zukan.net/ic/st_jikugumi.htm#p_1 (2020.07)
[W4]ビー球が転がらない家造り
http://www13.plala.or.jp/nagaokakoumuten/newpage6.htm(2020.07)
[W5]大入れ蟻落し仕口の納め方 http://www.hi-ho.ne.jp/shaka/ari1.html (2020.07)
[W6]ウッドデッキの継手と仕口 http://www.hi-ho.ne.jp/shaka/kouhou.html (2020.07)
[W7]木造軸組構法の構造の基本
https://sumai.panasonic.jp/sumu2/fusezu/content01/1_02.html (2020.07)
[W8]木造住宅の仕口・継手 https://iplusi.exblog.jp/13734525/ (2020.07)
[W9]日本の建物づくりを支えてきた技術－３１・・・・継手・仕口（１５）
https://blog.goo.ne.jp/gooogami/e/eea0d74ff8e53bf7a59664a789f2785f (2020.07)