應用QFD與DSM設計模組化3D列印機

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姓名

陳彥儒(Yan-Ru Chen) 查詢紙本館藏

畢業系所

工業管理研究所

論文名稱

應用QFD與DSM設計模組化3D列印機
(Applying QFD and DSM to Design Modular 3D Printers)

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摘要(中)

3D列印的概念最早出現於20世紀末，但至2000年後這項技術才廣為世界所知以及應用。因其於製程上不用開模以及快速成型的特性，目前也被多國列為發展重點，可望在未來的製造及生產上能有所突破。
目前已有許多專家學者提出對於3D列印產業的服務系統以及供應模式，的確能在整個3D列印產業上有許多助益，然而要推動整個產業鏈，除了良善的流程以外，3D列印機的效能也是一項很重要的因子，所以希望能找到讓3D列印機更為普及或是更加靈活的方法。為因應使用者對於精確度、生產效率、成品強韌度及成品尺寸等不同需求，將3D列印機分為數個主要部位檢視。透過模組化的生產方式，來滿足不同客戶的需求，也能夠避免不必要的成本支出以及浪費。
本研究主要利用品質機能展開(Quality Function Deployment, QFD)來分析顧客對於產品的需求，而後利用設計結構矩陣(Design Structure Matrix, DSM)將對於機能有明顯影響的部位模組化，並完成產品架構，增進3D列印機的客製化程度以及開發效率。

摘要(英)

Since 2000, the technology of additive manufacturing has been widely used and developed. Additive manufacturing has another name, known as 3D printing.
Compared with traditional manufacturing process, 3D printing can produce product without mold and construct quickly. Some countries have already focused on this technology and try to make a breakthrough in manufacturing and producing.
There have already existed lots of journal about the supply chain or application of 3D printers. In order to make process more efficient, I thought that 3D printers must be more flexible and wiser. To fulfill users′ requirement, like precision, productivity, size and toughness of products, we can separate our machines into parts and analyze them. Find relation between function and section, then design our machine by module, so that we can decrease our cost and avoid unnecessary waste.
The research mainly uses QFD to clarify customers′ requirements and use DSM to modularize 3D printers. Try to design our machine with highly customized and more efficiently as our goal.

關鍵字(中)

★ 新產品開發
★ 模組化設計
★ 品質機能展開
★ 設計結構矩陣
★ 3D列印

關鍵字(英)

★ New Product Development
★ Co-design
★ Modular Design
★ Quality Function Deployment
★ Design Structure Matrix
★ 3D printing

論文目次

中文摘要 i
Abstract ii
目錄 iii
圖目錄 vi
表目錄 vii
第一章緒論 1
1-1 研究背景及動機 1
1-2 研究目的與方法 1
1-3 研究架構 2
第二章文獻探討 3
2-1 新產品開發 3
　2-1-1 新產品開發之定義 3
　2-1-2 新產品開發的流程 3
　2-1-3 新產品開發的六大策略 5
2-2 協同設計 6
　2-2-1 協同設計之定義 6
　2-2-2 協同設計之目標 7
　2-2-3 執行協同設計的注意事項 7
2-3 模組化設計 8
　2-3-1 模組化設計之簡介 8
　2-3-2 模組化設計的案例－以單眼相機為例 9
2-4 3D列印 9
　2-4-1 3D列印的簡介 9
　2-4-2 3D列印的歷史 10
　2-4-3 3D列印產業的產品供應鏈 10
　2-4-4 3D列印於各產業的應用 11
　2-4-5 3D列印之市場價值 12
第三章研究方法與架構 13
3-1 方法架構 13
3-2 品質機能展開 14
　3-2-1 品質機能展開之簡介 14
　3-2-2 品質屋 15
　3-2-3 品質機能展開的四個層面 16
3-3 設計結構矩陣 17
　3-3-1 設計結構矩陣之簡介 17
　3-3-2 設計結構矩陣之構造 17
　3-3-3 四種類型的設計結構矩陣 19
　3-3-4 兩種型態之設計結構矩陣 19
　3-3-5 設計結構矩陣之分析方法 19
第四章實例應用 21
4-1 3D列印機介紹 21
　4-1-1 3D列印的加工製法 21
　4-1-2 擠壓型3D列印機的構造 23
4-2 3D列印機之顧客需求分析 24
　4-2-1 第一階品質機能展開－將顧客需求轉為技術需求 24
　4-2-2 第二階品質機能展開－將技術性需求轉為零組件需求 25
4-3 3D列印機之模組化產品設計 27
　4-3-1 建立初始設計結構矩陣 27
　4-3-2 將初始設計結構矩陣進行集群化 28
4-4 提出模組化產品架構 30
第五章結論與未來研究方向 31
5-1 結論 31
5-2 未來研究方向 32
參考文獻 33

參考文獻

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指導教授

高信培(Hsing-Pei Kao)

審核日期

2018-7-20

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