【摘要】：隨著國民經(jīng)濟的快速發(fā)展,我國的基礎(chǔ)設(shè)施建設(shè)逐步得到完善,特別是以城鎮(zhèn)化建設(shè)為主導(dǎo)的建筑施工工程正在出現(xiàn)較大變革。裝配式建筑的出現(xiàn),改變了人們對傳統(tǒng)建筑施工的認識,因為其不僅快速、高效,同時也具有很好的施工質(zhì)量。建筑施工領(lǐng)域已經(jīng)基本實現(xiàn)混凝土和大型模板商品化、產(chǎn)業(yè)化,而鋼筋工程仍然處于現(xiàn)場制作、手工現(xiàn)場綁扎鋼筋的落后階段,制約了我國建筑施工行業(yè)的標準化、機械化和產(chǎn)業(yè)化發(fā)展。為了克服這一難題,本文基于TRIZ研發(fā)了一種全新形式的鋼筋骨架機—MSF1200型變螺旋多肢箍鋼筋骨架成形機,其端部支撐是核心部件,本文主要是對其進行研究。結(jié)合PLM構(gòu)建了新型鋼筋骨架機端部支撐的全生命周期模型,新型鋼筋骨架機端部支撐的全生命周期管理需求模型矩陣E為的和21EE并集,即21(28)EEE?。通過對端部支撐模型矩陣的分析,有效的提高了信息管理的過程,真正做到了以客戶為中心的產(chǎn)品實施。然后基于產(chǎn)品設(shè)計原則,確定了新型鋼筋骨架機端部支撐的設(shè)計目標。利用TRIZ技術(shù)系統(tǒng)進化法則對新型鋼筋骨架機端部支撐的技術(shù)路線進行分析,考慮到端部支撐的主要功能為定位與夾緊,我們選用了維數(shù)增加、減少人的介入、結(jié)構(gòu)合并、分割路線、時間合并等進化路線,對新型鋼筋骨架機端部支撐進行研究,為其設(shè)計指明了方向。在具體的方案設(shè)計中,結(jié)合動態(tài)性法則、提高理想度法則、完備性法則以及協(xié)調(diào)性法則,分別設(shè)計出了滑動式縱筋定位裝置、導(dǎo)軌式全尺寸縱筋定位裝置、氣動機械手和縱筋夾頭等一系列方案,并利用發(fā)明原理對其進一步改進與優(yōu)化。通過收集和分析鋼筋骨架機端部支撐的相關(guān)專利,運用專利數(shù)量曲線、專利等級曲線、性能參數(shù)曲線以及利潤曲線等4個尺度變量,分析了端部支撐技術(shù)系統(tǒng)所處的S曲線位置,確定了新型鋼筋骨架機端部支撐的成熟度。
[Abstract]:With the rapid development of national economy, the infrastructure construction of our country has been gradually improved, especially the construction engineering which is dominated by urbanization is undergoing great changes. The appearance of prefabricated architecture has changed people's understanding of traditional construction, because it is not only fast, efficient, but also has good construction quality. The construction field has basically realized the commercialization and industrialization of concrete and large-scale formwork, while the steel bar engineering is still in the field of production, and the backward stage of manual field binding of steel bars has restricted the standardization of the construction industry in our country. Development of mechanization and industrialization. In order to overcome this problem, a new type of reinforcement skeleton machine based on TRIZ is developed in this paper. The end support of this machine is the core part. This paper mainly studies it. Combined with PLM, the whole life cycle model of end support of new reinforcement skeleton machine is constructed. The whole life cycle management requirement model E of end support of new reinforcement skeleton machine is combined with 21EE, that is, 21 (28) EEE?.. Through the analysis of the end support model matrix, the process of information management is improved effectively, and the customer-centered product implementation is really achieved. Then, based on the product design principle, the design goal of the end support of the new steel frame machine is determined. Based on the systematic evolution rule of TRIZ technology, the technical route of end support of new steel skeleton machine is analyzed. Considering that the main function of end support is positioning and clamping, we choose to increase dimension, reduce human intervention, and merge structure. This paper studies the end support of a new type of steel skeleton machine and points out the direction of its design. In the concrete scheme design, combining with the dynamic rule, improving the ideal degree rule, the completeness rule and the coordination rule, the sliding longitudinal reinforcement positioning device and the guide rail full-size longitudinal reinforcement positioning device are designed respectively. A series of schemes, such as pneumatic manipulator and longitudinal bar chuck, are further improved and optimized by the invention principle. By collecting and analyzing the relevant patents of the end support of the reinforcing steel skeleton machine, the paper applies four scale variables, such as patent quantity curve, patent grade curve, performance parameter curve and profit curve. The S curve position of the end support system is analyzed, and the maturity of the end support of the new steel skeleton machine is determined.
【學(xué)位授予單位】：山東建筑大學(xué)
【學(xué)位級別】：碩士
【學(xué)位授予年份】：2017
【分類號】：TU649

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本文編號：2394628