卧式钢筋切断机设计
摘 要
此次课题设计主要是建筑上广泛使用的卧式钢筋切断机,它主要的工作原理是:应用电动机经一级三角带传动,二级齿轮传动减速后,带动曲轴旋转,曲轴推动连杆使滑块以及动刀片在切断机机座的滑道中作往复直线运动,因此使活动刀片和固定刀片相错而切断钢筋。
与此同时应根据电机的工作环境选择电动机类型,采用卧式安装方式,防护式电机,鼠笼式三相异步电动机。选择三级减速,先是一级带减速,再采用两级齿轮减速。一级带传动具有缓冲、吸振、运行平稳、噪声小、合过载保护等优点,并安装张紧轮。两级齿轮减速的主要优点是齿轮传动可用来传递空间任意两轴间的动力和运动,并且具有功率范围大,传动比准确,传动效率高,使用寿命长,工作安全可靠等一系列特点。动力由电动机输出,通过减速系统传动,把动力输入到执行机构。由于传动系统作 的是回转运动,而钢筋切断机的执行机构需要的直线往复运动,为了实现这种转换,可以采用曲柄滑块机构,盘行凸轮移动滚子从动件机构,齿轮齿条机构。本课题采用曲柄滑块机构作为本机械的执行机构 。
关键词:建筑 切断 齿轮 钢筋 曲柄滑
卧式钢筋切断机设计
Abstract
The article introduces a kind of architectural lie type steel cutting machines. Its operating principles are: It use electric motors level triangle belt transmission and secondary gear transmission to slowdown. Then, it drives the crank rotate, The crank connected to slide block and moving blades in the slippery way make the back and forth straight line sport, makes the moving blades and the fixed blade shear and cut steel.
According to the working environment choice the type of electric motors, using horizontal installation, protection of the electrical, squirrel-cage three-phase asynchronous motor. Option three slowdown,
first level belt slowdown, followed by the secondary gear deceleration. First level with the introduction of automated, because it has a buffer, absorb shock and operate smoothly, small noise, and can protect the over loading. Then introduce a secondary gear deceleration slowdown, because gear transmission can be used to transmit arbitrary space between the two axis movement and momentum, and the scope of power, transmission efficient transmission accurately, long using life, such as safe and reliable character. Power output by electric motors through slow down transmission system to import power to the executive body. As the system make rotation movement, The steel cutting machine needs the back and forth straight line sport ,in order to achieve this transformation, we can use c slider-crank institutions or gear and rack. I decided to consider realistic conditions using slider-crank as the executing machinery.
Key words :cutting architectural reinforcing steel dar gear slider-crank
卧式钢筋切断机设计
目 录
中文摘要……………………………………………………………………….1 英文摘要……………………………………………………………………….2 引言……………………………………………………………………………..3
1.1 概述..................................................................................................................................1
1.2 题目的选取......................................................................................................................1 1.3 钢筋切断机的原理..........................................................................................................1
第2章 电机选择........................................................................................................................2
2.1 切断钢筋需用力计算......................................................................................................2
2.2 功率计算..........................................................................................................................3
第3章 传动结构设计................................................................................................................5
3.1 基本传动数据计算..........................................................................................................5 3.1.1分配传动比.....................................................................................................................5 3.1.2 计算机构各轴的运动及动力参数 ........................................................................ 5 3.2 带传动设计.......................................................................................................................6 3.2.1带型的确定.....................................................................................................................6 3.2.2带轮基准直径.................................................................................................................6 3.2.3带速的确定.....................................................................................................................6 3.2.4中心距、带长及包角的确定.........................................................................................6 3.2.5确定带的根数.................................................................................................................7 3.2.6张紧力............................................................................................................................ 7 3.2.7作用在轴上的载荷.........................................................................................................7 3.2.8带轮结构与尺寸见零件图.............................................................................................7 3.3 齿轮传动设计...................................................................................................................8 3.3第一级齿轮传动设计......................................................................................................8 3.3.第二级齿轮传动设计.....................................................................................................12 3.4 轴的校核..........................................................................................................................15 3.4.一轴的校核.....................................................................................................................15 3.4.三轴的校核.....................................................................................................................19 3.5 平键的校核.......................................................................................................................22 3.6 轴承的校核 ...................................................................................................................23 3.6.初选轴承型号.................................................................................................................23 3.6.寿命计算.........................................................................................................................24
第4章 总结..............................................................................................................................27 参考文献...................................................................................................................................28 致谢............................................................................................................................................29
卧式钢筋切断机设计
卧式钢筋切断机设计
引言
1.1 概述
钢筋切断机是钢筋在加工的过程中必不可少的设备,它主要用于房屋建筑、桥梁、隧道、电站、大型水利等工程中对钢筋的定长切断。钢筋切断机与其他切断设备相比,主要具有重量轻、耗能少、工作可靠、效率高等特点,因此近年来逐步被机械加工和小型轧钢厂等广泛采用,在国民经济建设的各个领域发挥了重要的作用。
国内外切断机的对比:由于切断机技术含量低、易仿造、利润不高等原因,所以厂家几十年来基本维持现状,发展不快,与国外同行相比具体有以下几方面差距。
全球经济建设的快速发展为建筑行业,特别是为建筑机械的发展提供了一个广阔的发展空间,为广大生产企业提供一个展示自己的舞台。面对竞争日益激烈的我国建筑机械市场,加强企业的经营管理,加大科技投入,重视新技术、新产品的研究开发,提高产品质量和产品售后服务水平,积极、主动走向市场,使企业的产品不断地满足用户的需求,尽快缩短与国外先进企业的差距,无疑是我国钢筋切断机生产企业生存与发展的必由之路。
1.2 选题
本次毕业设计的任务是卧式钢筋切断机的设计。要求所要切断钢筋的最大直径15mm,切断速度为16次/分。
在本次毕业论文设计中通过计算和考虑实际情况来选择合适的结构及参数,从而达到设计要求,同时尽可能的降低设计成本,从而达到一个综合运用所学专业知识的过程。毕业设计是对三年大学所学知识的一个总结和综合运用,也是走上工作岗位前的一次模拟训练。
1.3 卧式钢筋切断机的工作原理
工作原理:采用电动机经一级三角带传动,二级齿轮传动减速,带动曲轴旋转,曲轴推动连杆使滑块和动刀片在机座的滑道中作往复直线运动,使活动刀片和固定刀片相错而切断钢筋。
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