毕业设计说明书
题目:QTZ40塔式起重机总体及臂架设计
目 录
第1章 前言··········································································1
1.1 概述·············································································1 1.2 发展趋势·······································································1
第2章 总体设计····································································2 2.1 概述············································································2 2.2 确定总体设计方案····························································2
2.3 总体设计原则································································29 2.4 平衡臂与平衡重的计算······················································30 2.5 起重特性曲线·································································32 2.6 塔机风力计算································································33 2.7 整机的抗倾覆稳定性计算···················································43 2.8 固定基础稳定性计算························································49
第3章 吊臂的设计计算························································50 3.1 分析单吊点与双吊点的优缺点··············································50
3.2 吊臂吊点位置选择···························································51 3.3 吊臂结构参数参数···························································52 3.4 有限元模型建立过程的几点简化···········································53 3.5 吊臂结构的有限元分析计算·················································54 3.6 计算结果分析·································································69 3.7吊臂强度校核·································································76 3.8 吊臂稳定性校核······························································76
毕业设计小结······································································87 致谢··················································································88 参考文献············································································89
设计项目 计算与说明 结果 设计项目 前言 概述 总体设计 概述 计算与说明 结果 第1章 前言 1.1 概述 塔式起重机是我们建筑机械的关键设备,在建筑施工中起着重要作用,我们只用了五十年时间走完了国外发达国家上百年塔机发展的路程,如今已达到发达国家九十年代末期水平并跻身于当代国际市场。 QTZ40型塔式起重机简称QTZ40型塔机,是一种结构合理,性能比较优异的产品,比较国内同规格同类型的塔机具有更多的优点,能够满足高层建筑施工的需要,可用于建筑材料和预制构件的吊运和安装,并能在市内狭窄地区和丘陵地带建筑施工。高层建筑施工中,它的幅度利用率比其他类型起重机高,其幅度利用率可达全幅度的80%。 QTZ40型塔式起重机是400kN·m上回转自升式塔机。上回转自升塔式起重机是我国目前建筑工程中使用最广泛的塔机,几乎是万能塔机。它的最大特点是可以架得很高,所以所有的高层和超高层建筑、桥梁工程、电力工程,都可以用它去完成。这种塔式起重机适应性很强,所以市场需求很大。 发展趋势 1.2 发展趋势 塔式起重机是在第二次世界大战后才真正获得发展的。在六十年代,由于高层、超高层建筑的发展,广泛使用了内部爬升式和外部附着式塔式起重机。并在工作机构中采用了比较先进的技术,如可控硅调速、涡流制动器等。进入七十年代后,它的服务对象更为广泛。因此,幅度、起重量和起升高度均有了显著的提高。 就工程起重机而言,今后的发展主要表现在如下几个方面:①整机性能:由于先进技术和材料的应用,同种型号的产品,整机重量要轻20%左右;②高性能、高可靠性的配套件,选择余地大、适应性好,性能得到充分发挥;③电液比例控制系统和智能控制显示系统的推广应用;④操作更方便、舒适、安全,保护装置更加完善;⑤向吊重量大、起升高度、幅度更大的大吨位方向发展。 第2章 总体设计 2.1 概述 设计项目 确定总体设计方案 塔机金属结构 塔顶 计算与说明 总体设计是毕业设计中至关重要的一个环节,它是后续设计的基础和框架。只有在做好总体设计的前提下,才能更好的完成设计。它是对满足塔机技术参数及形式的总的构想,总体设计的成败关系到塔机的经济技术指标,直接决定了塔机设计的成败。 总体设计指导各个部件和各个机构的设计进行,一般由总工程师负责设计。在接受设计任务以后,应进行深入细致的调查研究,收集国内外的同类机械的有关资料,了解当前的国内外塔机的使用、生产、设计和科研的情况,并进行分析比较,制定总的设计原则。设计原则应当保证所设计的机型达到国家有关标准的同时,力求结构合理,技术先进,经济性好,工艺简单,工作可靠。 结果 2.2 确定总体设计方案 QTZ40塔式起重机是上回转液压自升式起重机。尽管其设计型号有各种各样,但其基本结构大体相同。整台的上回转塔机主要由金属结构,工作机构,液压顶升系统,电器控制系统及安全保护装置等五大部分组成。 2.2.1 金属结构 塔式起重机金属结构部分由塔顶,吊臂,平衡臂,上、下支座,塔身,转台等主要部件组成。对于特殊的塔式起重机,由于构造上的差异,个别部件也会有所增减。金属结构是塔式起重机的骨架,承受塔机的自重载荷及工作时的各种外载荷,是塔式起重机的重要组成部分,其重量通常约占整机重量的一半以上,因此金属结构设计合理与否对减轻起重机自重,提高起重性能,节约钢材以及提高起重机的可靠性等都有重要意义。 1. 塔顶 自升塔式起重机塔身向上延伸的顶端是塔顶,又称塔帽或塔尖。其功能是承受臂架拉绳及平衡臂拉绳传来的上部载荷,并通过回转塔架、转台、承座等的结构部件或直接通过转台传递给塔身结构。 自升式塔机的塔顶有直立截锥柱式、前倾或后倾截锥柱式、人字架式及斜撑式等形式。截锥柱式塔尖实质上是一个
QTZ40塔式起重机总体及臂架设计_毕业设计说明书(含图纸)
