ABSTRACT
ABSTRACT
Concrete mixer is the key device of construction machinery and equipment. It has product quality and production efficiency, which direct impacts on the construction quality and progress of construction. Compulsory mixer is the most common and the highest utilization rate of concrete mixers。Double horizontal shaft mixer is a new-style mixer, which is widely used in many conditions because of the high mixing quality and productivity.
This paper begins with the mechanism and purpose of mixing. The materials leaves along the spiral of mobile on the work. Because of the two axis of rotation opposite direction, the materials between the two axis produces extrusion rolling and scrubbing, in order to meet the stirring mixed effect. It has been proved in the long-term production, through the horizontal coaxial mixer surface of the leaf structure and shape of a reasonable layout and design, concrete’s quality and production efficiency will be greatly improved.
Combining with the advantages of three leaves, Concrete is going to mix as much as possible in the limited time through their orderly rational layout. I do some theoretical analysis and a number of tests for the leaf-surface’s shape. Though the new design test, it overcomes shortcomings of traditional mixer, and notes that the new design may cause new problems. Though the theoretical analysis of the mixing process and concretely explicating the parametric design .Finally, it gives conclusions and suggestions.
Key words: Concrete mixer; Double horizontal shaft; Leaf
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目录
目录
摘要 ................................................................................................................................................ I ABSTRACT .............................................................................................................................. II 绪论 ................................................................................................................................................ 1 1 总述 .......................................................................................................................................... 2
1.1搅拌机的作用 .................................................................................................................... 2
1.1.1 混凝土的组成 ....................................................................................................... 2 1.1.2 混凝土搅拌机的的任务 ....................................................................................... 3 1.1.3 合理的混凝土搅拌机的机理 ............................................................................... 3 1.2 混凝土搅拌机的类型 ....................................................................................................... 3 1.3 JS1000强制式混凝土搅拌机.......................................................................................... 6 1.3 国内外混凝土搅拌机的发展状况 ................................................................................. 15 1.4 本文的内容和方法 ......................................................................................................... 15
2.总体设计方案确定及动力元件选择 ................................................................... 17
2.1总体设计方案 .................................................................................................................. 17 2.2 电动机的选型 ................................................................................................................. 18 2.3 减速器的选型 ................................................................................................................. 20 2.4 联轴器的选择与计算 ..................................................................................................... 24
3. 叶片的设计与计算 ...................................................................................................... 26
3.1叶片的布置 ...................................................................................................................... 26 3.2叶片的主要参数 .............................................................................................................. 27 3.3.主轴转速的确定 ............................................................................................................. 32 3.4搅拌轴尺寸的确定 .......................................................................................................... 32 3.5叶片螺旋面的成型 .......................................................................................................... 35 3.6 裹轴现象......................................................................................................................... 36
4.轴的设计与计算 .............................................................................................................. 38
4.1轴的设计方法 .................................................................................................................. 38 4.2轴的设计与计算 .............................................................................................................. 38
4.2.1、计算轴上转矩和齿轮作用力 ........................................................................... 38 4.2.2、选择轴的材料和热处理方式 ........................................................................... 39 4.2.3、初算轴的最小轴径 ........................................................................................... 39 4.2.4、选择联轴器 ....................................................................................................... 39 4.2.5、初选轴承 ........................................................................................................... 40 4.2.6、轴的结构设计 ................................................................................................... 40
III
目录
4.2.7 作轴的受力简图 ............................................................................................... 42 4.2.8、按安全系数校核 ............................................................................................... 45 4.3轴与叶片的安装方法的设计 .......................................................................................... 46
5.混凝土搅拌机的使用和说明 ................................................................................... 48
5.1使用要点和安全操作 ...................................................................................................... 48 5.2技术维护.......................................................................................................................... 49
结论 .............................................................................................................................................. 51 致谢 .............................................................................................................................................. 52 参考文献 ................................................................................................................................... 53 论文原创性声明
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绪论
绪论
混凝土搅拌机是施工机械装备中的重要设备,其产品质量和生产效率直接影响着建筑施工质量和建筑施工进度。强制式搅拌机是应用最普遍、使用率最高的混凝土搅拌机。双卧轴搅拌机是新型搅拌机型,因其搅拌质量好,生产率高,被广泛用于各种搅拌场合。混凝土搅拌站主要由搅拌主机、物料称量系统、物料输送系统、物料贮存系统和控制系统等5大系统和其他附属设施组成。作为被强迫的双重水平轴键入混凝土搅拌机, JS系列混凝土搅拌机带有双重优势,是唯一独立和组合作用与PL系列负担机器一起使用,为拌和楼也提供配比的引擎,因此它适用于各种各样大,中间,并且小规模并且产业的预制组分工厂和象高速公路铁路桥灌溉工作的民用建筑靠码头得等等。 这个机器可以被应用于各种各样材料,例如苛刻具体塑料具体轻量级聚集具体和其他。合理的结构、新奇布局和容易的运行和维护,我们可以根据适应顾客需要的特别要求做设计。产品特征: 象先进的设计合理的结构可靠的表现高质量短时间低能源消耗量的特点,这个机器采取标度板和混合的刀片的高坚硬和固执耐磨的合金铸件,因此整体机器有长的有用的生活。
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总述
1 总述
JS1000混凝土搅拌机适用于各类预制构件厂及水利、道路、桥梁等工业及民用建筑工程施工部门搅拌干硬性混凝土、流动性混凝土、轻骨料混凝土及各种砂浆。既可独立作业,又可与相应配料机组合成简易搅拌站。本机主要具有结构合理、搅拌质量好、时间短、能耗低、噪声小等特点。衬板、搅拌叶片均采用高硬度、高韧性的耐磨合金铸钢,使用寿命长。电器控制系统主件均采用进口元件,性能优良,可靠性高。 本机卸料高度分别为2.7m、3.8m二种(或用户自定)用户可自配翻斗车或混凝土搅拌输送车配套使用。
强制式搅拌机按结构形式分为主轴行星搅拌机、单卧轴搅拌机和双卧轴搅拌机。而其中尤以双卧轴强制式搅拌机的综合使用性能最好。该系列搅拌站全部采用双卧轴强制式搅拌机。
本产品说明:本产品使用方便,自动电力,只需一人操作,节省人力,本产品容量大,产量高,利润大,是企业的理想选择!
1.1搅拌机的作用
搅拌机的作用不外乎:①搅拌机使物料混合均匀。②使气体在液相中很好地分散。③使固体粒子(如催化剂)在液相中均匀地悬浮。④搅拌机使不相溶的另一液相均匀悬浮或充分乳化。⑤强化相间的传质(如吸收等)。⑥搅拌机强化传热。对于均匀相反应,主要是①、⑥两点。混合的快慢,均匀程度和传热情况好坏,都会影响反应结果。至于非均相系统,则还影响到相界面的大小和相间的传质速度,情况就更复杂,所以搅拌情况的改变,常很敏感地影响到产品的质量和数量。生产中的这种例子几乎比比皆是。搅拌机在溶液聚合和本体聚合的液相聚合反应装置中,搅拌的主要作用是:促进釜内物料流动,搅拌机使反应器内物料均匀分布,增大传质和传热系数。在聚合反应过程中,往往随着转化率的增加,聚合液的粘度也增加。如果搅拌机搅拌情况不好,就会造成传热系数下降或局部过热,物料和催化剂分散不均匀,影响聚合产品的质量,也容易导致聚合物粘壁,使搅拌机聚合反应操作不能很好地进行下去。
JS1000型混凝土搅拌机的作用是将石子(粗骨料)、砂子(细骨料)、水泥、水和某种添加剂搅拌成均匀混合料。
1.1.1 混凝土的组成
普通混凝土(简称混凝土)的基本组成材料:水泥、砂子、石子和水所组成。搅拌机容积一般是指出料容积。就拿混凝土搅拌机为例吧,进料容积一般是特质
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