毕业设计 zs1842斜线振动筛设计.zip

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毕业设计 zs1842斜线振动筛设计,毕业设计 zs1842斜线振动筛设计论文说明书共50页,字数总计:15700资料简介:a0-减速器.dwga0-压片机总装配图.dwga1-壳体二.dwga2-v型带轮.dwga2-大齿轮.dwga2-低速轴.dwga2-高速轴.dwga2-壳体三.dwga2-壳体一.dwga2-料筛凸轮.dwga2-下冲头凸轮0.d...
编号:65-287076大小:2.02M
分类: 论文>机械工业论文

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毕业设计 ZS1842斜线振动筛设计
论文说明书共50页,字数总计:15700
资料简介:
A0-减速器.dwg
A0-压片机总装配图.dwg
A1-壳体二.dwg
A2-V型带轮.dwg
A2-大齿轮.dwg
A2-低速轴.dwg
A2-高速轴.dwg
A2-壳体三.dwg
A2-壳体一.dwg
A2-料筛凸轮.dwg
A2-下冲头凸轮0.dwg
A2-下冲头凸轮.dwg
A2-中速轴.dwg
A3-压片机运动线图及运动循环图.dwg
毕业论文:ZS1842斜线振动筛设计.doc
机械加工介绍(中英文对照).doc
开题报告.doc
实习报告.doc
摘要
随着国民经济的发展和工业的快速发展,在矿山、建材环卫等行业中,对物料的筛分、脱水脱介的处理的质量要求越来越高。现有的市场确不能够提供此类振动筛。在原有圆振动筛的设计基础上,对其主要的参数和机械性能进行了优化设计,并在其底座上设计了移动小车,以及在应用中需要注意的问题。激振器采用新乡威猛生产的筒式激振器,重量轻激振效果好。主弹簧采用橡胶复合弹簧,噪声小,减振效果好、运行安全可靠。采用普通的钢板筛面,筛分效果好,分级颗粒较好。
关键词:振动筛 移动小车 激振器 筛面 筛分
Abstract
Along with the national economy national economy development and the industry fast development, in profession and so on mine, building materials environmental sanitation, to the material screening, the dehydration escapes the processing quality requirement which lies between to be more and more high. The existing market cannot provide this kind of shaker firmly. Sieves in the original circular oscillation in the design foundation, has carried on the optimized design to its main parameter and the machine capability, and designed on its foundation moved the car, as well as question which needed to pay attention in the application. The driver uses the Hsinhsiang barrel type driver, the weight light excitation effect is good. The main spring uses the rubber compound spring, the noise small, reduces inspires the effect well, the movement safe is reliable. Uses the ordinary steel plate screening surface, the screening effect good, the graduation pellet is good.
Key word: Vibration Screen, The car driver, Screening, Screen Separation
目录
1 绪论…………………………………………………………………………1
2 运动参数的选择…………………………………………………………4
2.1筛面倾角………………………………………………………………5
2.2振动方向角……………………………………………………………5
2.3振幅……………………………………………………………………6
2.4振动次数………………………………………………………………6
2.5物料的速度……………………………………………………………6
3 振动工艺参数的计算 …………………………………………………8
3.1生产率的计算…………………………………………………………8
3.2筛面长和宽的确定……………………………………………………9
3.3筛面的设计 …………………………………………………………10
3.4 筛面开孔率的计算 …………………………………………………11
3.5 筛分效率计算 ………………………………………………………11
4 动力学分析和参数计算 ………………………………………………13
4.1振动筛动力学分析……………………………………………………13
4.2单轴振动筛的工作状态………………………………………………17
4.3隔振弹簧的确定 ……………………………………………………19
4.4激振器偏心质量偏心距………………………………………………20
5 电动机的选择 ……………………………………………………………22
6 筛箱的设计……………………………………………………………… 26
6.1侧板和横梁……………………………………………………………26
6.2筛箱结构的焊接 ……………………………………………………26
6.3筛面的固定方法………………………………………………………27
7 V型带的设计 ……………………………………………………………28
8 激振器轴承的选用及校核 ……………………………………………32
8.1振动筛轴承的选择……………………………………………………31
8.2轴承的校核……………………………………………………………33
9 移动小车的设计…………………………………………………………36
9.1实现功能………………………………………………………………36
9.2结构设计………………………………………………………………36
9.3设计中的注意事项……………………………………………………38
10 振动筛安装与维护 ……………………………………………………39
10.1 安装及调试 …………………………………………………………40
10.2操作要点 ……………………………………………………………41
10.3维护与检修 …………………………………………………………42
11 结论 ………………………………………………………………………43
致谢 ………………………………………………………………………44
参考文献 …………………………………………………………………45