查詢結果分析
來源資料
相關文獻
- 裝配程序產生法則的探討
- Combined Grey Relational Analysis/Differential Dynamic Programming for Short-Term Hydro Generation Scheduling
- Association between Price Limit and Stock Returns: Influences and Implication for Market-Based Research
- 韋伯「官僚化」理論之研究
- A Chinese User Interface Database Design Tool Based on the Entity-Relationship Model
- Applying Hashing Search and Fuzzy Fault-Tolerant Algorithms for the Fast Recognition of Multi-Font Printed Chinese Characters
- 德國強制罪第二項可非難性概念之研究
- Approximated Clustering via Grey Mountain Clustering Method
- Providing an Object-Relational Interface for a Relatioanl Database
- 影響原住民職業訓練意願之灰色關聯分析
頁籤選單縮合
題名 | 裝配程序產生法則的探討=On the Generation Method of Assembly Sequence |
---|---|
作者姓名(中文) | 鄧志堅; 朱大明; | 書刊名 | 技術學刊 |
卷期 | 15:2 2000.06[民89.06] |
頁次 | 頁213-222 |
分類號 | 448.946 |
關鍵詞 | 關聯; 產品幾何限制式; 產品迴圈限制式; 非連結性零件; Liaison; Geometric constraints; Looping constraints; Unconnected parts; |
語文 | 中文(Chinese) |
中文摘要 | 一般新產品的開發,皆較少考慮到製程中半成品的檢驗,以及售後維修的容易度。殊不知若可以經由事先產品組裝程序的規劃,就可以將以上的問題予預避免;若再配合機器的加工限制及產品零件的特性,則更可省生產的成本。本文即針對上述問題探討如何來產生出產品(以旅行用刮鬍刀為例)的所有組裝順序。我們採用的主題方法是De Fazio和Whitney 的簡化的組裝順序產生法,但是其中我們提出一個演算法來如何有系統的使用De Fazio和Whitney的方法,這演算法De Fazio等並沒有提供。我們的演算法使得De Fazio等的方法非常容易來使用。 我們分析組裝順序的步驟是經由分析產品各別零件間關聯的組裝先後順序來得出組裝程序的幾何限制式,並藉由零件間關聯所形成的關聯圖來分析出組裝程序的迴圈限制式,並藉由零件間關聯所形成的關聯圖來分析出組裝程序的迴圈限制式,藉此二種限制式即可分析出產品的所有組裝順序。但幾乎每一種產品的組裝順序皆有非常多種,故本文以非連結性零件的觀念來加以縮減。非連結性零件並不是縮減組裝順序的唯一方法,我們尚可加入機器的限制、生產人員的喜好、生產線的佈置及主官管的意見來加以考量,如此將使產品的生產方式更為彈性。本文的組裝順序是以Java所撰寫的程式來完成的。 |
英文摘要 | Rarely is thought put on the inspection of works in process and maintainability of the product during its development. Planning out the assembly sequences in advance, we can solve the problem above. Moreover, considering the machining constraints and the geometric features of the product, we can further reduce the production cost. This paper deals with the generation of the assembly sequences of a product using a portable using a portable razor as an example. We first analyze the precedence constraints of the liaisons, then build the liaison diagram and the looping constraints to generate all possible assembly sequences. Due to the enormous possible number of routes of assembling the product, we further add the unconnected parts constraint to reduce the solution size. The unconnected part constraint is not the only choice for trimming down the solution size. We may add more constraints such as machining, production layout and preference of the job site managers to make the production adaptable. Our program is written in JAVA. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。