進階搜尋


   電子論文尚未授權公開,紙本請查館藏目錄
(※如查詢不到或館藏狀況顯示「閉架不公開」,表示該本論文不在書庫,無法取用。)
系統識別號 U0026-2108201515225400
論文名稱(中文) 結合BIM及精實營建改善帷幕牆工程之興建及製造作業
論文名稱(英文) Incorporating BIM and Lean Concepts to Improve the Processes of the Curtain Wall Construction Project
校院名稱 成功大學
系所名稱(中) 土木工程學系
系所名稱(英) Department of Civil Engineering
學年度 103
學期 2
出版年 104
研究生(中文) 吳孟寰
研究生(英文) Mong-Huan Wu
電子信箱 mhwu87@hotmail.com
學號 N66021529
學位類別 碩士
語文別 中文
論文頁數 89頁
口試委員 指導教授-馮重偉
口試委員-楊智斌
口試委員-林建良
中文關鍵字 帷幕牆  建築資訊模型  精實營建  營建管理 
英文關鍵字 Curtain wall  BIM  IIS  Lean construction  Construction management 
學科別分類
中文摘要 二十世紀末的人口膨脹,使得都市化的建築型態逐漸朝空中發展,高樓層建築如雨後春筍般出現,同時也促進了輕量化的帷幕牆快速發展。而隨著科技的進步、營建工程型態的轉變以及施工技術的日新月異,各類型帷幕牆結構的使用率日益增加,也因為設計者的喜愛,越來越多的建築外觀都是以帷幕牆來表現其意象與設計概念。
在現今的營建工程中,帷幕牆的作業往往並非由營造廠執行,而是將業務分包,與主體工程分開執行,因此在帷幕牆工程未納入管理範圍的狀況下,導致工程中的整合問題層出不窮。然而在過去的帷幕牆相關的研究中,絕大部分是針對帷幕牆的結構、耐久、防火或是建築特性等等面向進行探討,缺乏管理與整合性的深入研究,也因此帷幕牆既有的管理缺失,如設計不符需求、不良的製造流程、資訊的錯誤,或是與主體結構分開的設計及圖面繪製等等,始終未獲得改善。此外在過去的營建管理研究中,大多的都是著眼於主體結構與土建工程,而帷幕牆工程卻沒有較深入的討論,同時較新的管理技術如建築資訊模型(BIM),主要也是針對主體結構或是機電工程(MEP)等層面來討論,而忽略了帷幕牆的重要性。
本研究針對帷幕牆工程於營建工程中的管理狀況,及製造過程中的情形,以及臺灣整體帷幕牆產業的生態,透過DSM、IIS等資訊分析法,分析在帷幕牆生命週期中可能發生的資訊衝突與潛在風險,進而了解現今帷幕牆工程環境中的困境,再透過精實營造等現代化的營建管理技術,辨識既有流程中的浪費及其形式,制定對應的改善方法,減少其資源和時間上的浪費,並且以BIM、Rhinoceros等新時代的科技軟體,提供3D模型的輔助來提升圖面的正確性,降低錯誤施工的可能性,不僅如此,經由3D模型所快速輸出之2D圖面,可以大大改善了傳統圖面繪製的方法,最終達到提高帷幕牆工程於整體營建工程中的整合性與效益。
英文摘要 Curtain wall has been applied in many modern constructions. In Taiwan, curtain wall has been increasingly used for building façades. However, in construction management, the use of curtain wall has been problematic. The reason is that: it is difficult to integrate with other segments within the same project, also, it often involves complicated information exchange. In other words, a project that consists of curtain wall construction requires deliberate planning and managing approaches. In order to propagate a better work flow for curtain wall projects, the research takes unit system aluminum curtain wall as a case study, and use IIS (Information Integration Sphere) to analyze the information exchange between stakeholders and locate precarious sections within the construction process. Subsequently, we use Lean concepts to modify the processes, for the purpose of eliminate the waste of time and material. In addition, BIM is applied in this research as an inspection system to ensure the efficiency and accuracy while exporting drawings, which were lacking in traditional methods. The following results show that this research has provided a new framework that would improve the performance of curtain wall projects: (1) curtain wall processes can be more efficient when Lean Construction is applied; (2) with information analysis, the exchange of information between stakeholders in curtain wall projects will be clearer; (3) the use of BIM in exporting drawings is more precise for later steps of the project—manufacturing and construction; (4) the project manager can integrate curtain wall construction into the overall project more easily.
論文目次 摘要 I
Abstract II
誌謝 V
目錄 VII
圖目錄 IX
表目錄 XI
第1章緒論 1
1.1 研究背景與動機 1
1.2 研究目的 2
1.3 研究範圍 3
1.4 研究流程 3
1.5 研究內容與架構 5
第2章研究問題陳述與文獻回顧 6
2.1 研究問題陳述 6
2.2 帷幕牆工程 7
2.2.1 帷幕牆之功能 7
2.2.2 帷幕牆流程與資訊傳遞 9
2.2.3 帷幕牆發展趨勢 10
2.3. 專案改進與提升 11
2.3.1 精實製造改善生產 11
2.3.2 精實製造導入營建工程 12
2.4. Building Information Modeling(BIM) 13
2.4.1 BIM發展現況 13
2.4.2 BIM改善工程圖面 13
2.4.3 BIM應用於帷幕牆工程之現況與優點 14
第3章 研究方法 16
3.1 IDEF0分析法 17
3.2 設計結構矩陣 19
3.3 精實生產 23
3.4 精實營建 25
3.5 IIS資訊整合模式 30
3.6 BIM建模工具 34
第4章以BIM為基礎建構帷幕牆改善架構 36
4.1 解析帷幕牆工程 37
4.1.1 分析帷幕牆工程類型 37
4.1.2 分析帷幕牆作業工項 41
4.2 帷幕牆工程資訊分析 43
4.2.1 帷幕牆工程資訊需求 43
4.2.2 利益關係人之資訊傳遞 44
4.3 帷幕牆工程改進 48
4.3.1 設立改善目標 48
4.3.2 建立改進措施與流程調整 51
4.4 帷幕牆工程之圖面改善 58
4.4.1 繪製帷幕牆模型 58
4.4.2 圖面正確性改善 62
4.4.3 圖面輸出改善機制 64
第5章 案例驗證 67
5.1 案例驗證 67
5.1.1 案例背景 67
5.1.2 案例改善方法 68
5.2 建築資訊模型改善模擬 70
5.2.1 模型繪製 70
5.2.2 圖面輸出 75
第6章結論與建議 81
6.1 結論 81
6.2 未來建議 83
參考文獻 84
附錄A 帷幕牆資訊流DSM整理表格 88
參考文獻 英文文獻
[1] Ballard, G. “Positive VS Negative Iteration In Design.”8th International Conference on Lean Construction, Brighton. (2000).
[2] Browing, T.R. “Applying the Design Structure Matrix to System Decomposition and Integration Problem: A Review and New Directions.” Transactions on Engineering Management, IEEE. (2001).
[3] Bertelsen, S. & Koskela, L. “Managing The Three Aspects of Production in Construction.”10th International Conference on Lean Construction, Gramado, Brazil. (2002).
[4] Bertelsen, S. “Bridging The GAPS – Towards a Comprehensive Understanding of Lean Construction.”10th International Conference on Lean Construction, Gramado, Brazil. (2002).
[5] Ballard, G. “Construction: One Type of Project Production System.”13th International Conference on Lean Construction. Sydney, Australia. (2005).
[6] Caoo, J., Lario, F.C. & Hospitaler, A. “Lean Production in the Construction Supply Chain.” Second World Conference on POM and 15th Annual POM Conference. Cancun, Mexico. (2004).
[7] Elfving, J. A., Tommelein,I.D. & Ballard, G. ”Improving The Delivery Process for Engineered – to – Order Products – Lessons Learned Form Power Distribution Equipment.” 4th International Conference on Lean Construction, Birmingham, UK. (2004).
[8] Eastman, C., Teicholz, P., & Liston, K. “BIM Handbook: John Wiley & Sons, Inc., New york”. (2011).
[9] Fattaleh, O. “The BIM-based Information Integration Sphere for Construction Project.” National Cheng Kung University International Program in Civil Engineering and Management Master’s Thesis. (2011).
[10] FIP. “INTEGRATION DEFINITION FOR FUNCTION MODELING (IDEF0).” Federal Information Processing Standards Publications. (1993).
[11] Garas, G. L., Anis, A. R. & EL Gammal, A. E. “Material waste in the Egyptian construction industry.” 9th International Conference on Lean Construction. Singapore, Singapore. (2001).
[12] Han, S. W., Lee, T. H. & Ko, Y. H. “Implement of Construction Performance Database Prototype for Curtain Wall Operation in High-Rise Building Construction”. Journal of Asian Architecture and Building Engineering. Vol. 13, pp. 149-156. (2014).
[13] Kusiak, A., Wang, J., He, D.W. & Feng, C. “A structured approach for analysis of design processes.” IEEE Transactions on Components, Packaging, and Manufacturing Technology, Volume 18(3), pp. 664-673. (1995).
[14] Koskela, L. “We need a theory of construction.” INTRODUCTION The guidelines for White Paper for Berkeley – Stanford CE&M workshop. (1999).
[15] Koskela, L. & Bertelsen, S. “Construciton Beyond Lean: A New Understanding of Construction Management.” 12th International Conference on Lean Construction, Helsingor, Denmark. (2004).
[16] Koerckel, A. & Ballard, G. “Return on investment in construction innovation – a lean construction case study.” 13th International Conference on Lean Construction, Sydney, Australia. (2005).
[17] Knaack, U., Klein, T., Bilow, M & Auer, T. “Facades – Principle of Construction”. Switzerland: Birkhauser Verlag AG. (2007).
[18] Klein, T. “Integral Façade Construction-Toward a new architecture for curtain walls.” pp. 104-106. Netherlands: Architecture and the Built environment. (2013).
[19] Moya, Q., Pons, O. “Improving the design and production data flow of a complex curvilinear.” Automation in Construction. Vol 38. Pp. 45-58. (2014).
[20] Non-Ferrous Extrusion & Scrap Metal, Inc. http://www.non-ferrous.com/website/. (2015).
[21] Polat, G., & Ballard, G. “Waste in Turkish Construction: Need For Lean Construction Techniques.” 12th International Conference on Lean Construction, Helsingor, Denmark. (2004).
[22] Patterson, M. R. “Structural Glass Façade: A Unique Building Technology.” (2008).
[23] Steward, D.V. “Partitioning and tearing system of equations.” Journal on Numerical Analysis. (1965).
[24] Simchi-levi, D. & Zhao, Y. “The value of Information Sharing in a Two-stage Supply Chain with Production Capacity Constraints.” Naval Research Logistics, 50, pp. 888-916. (2003).

中文文獻
[1] 大野耐一,豐田生產方式,中衛發展中心,(2001)。
[2] 王思琳,從資訊流建立規劃設計作業程序最佳化之模式,國立成功大學碩士論文,(2005)。
[3] 內政部建築研究所,帷幕牆風雨試驗檢測發展策略之研究,內政部研究所,(2007)。
[4] 李則威,建構以BIM為基礎之橋梁工程成本管理模式,國立成功大學碩士論文,(2014)。
[5] 施宇,IIS為基礎建立導入BIM於工程管理之資訊架構,國立成功大學碩士論文,(2014)。
[6] 郭炳宏,帷幕牆簡介與帷幕牆系統設計概念,品贊有限公司,(2009)。
[7] 黃政家,新時代帷幕牆發展的BIM技術運用,衛武資訊,(2014)。
[8] 黃政家,新時代帷幕牆BIM模型建置方法,衛武資訊,(2014)。
[9] 葉祥海,金屬帷幕牆製造作業技術手冊之編訂,內政部建築研究所,(2004)。
[10] 賴俊杰,精簡營建應用於鋼構工程供應鏈之研究,國立中央大學營建管理研究所碩士論文,(2006)。
論文全文使用權限
  • 同意授權校內瀏覽/列印電子全文服務,於2020-08-26起公開。


  • 如您有疑問,請聯絡圖書館
    聯絡電話:(06)2757575#65773
    聯絡E-mail:etds@email.ncku.edu.tw