枣 庄 学 院
机械设计课程设计计算说明书
题 目 用于带式运输机的展开式 二级直齿圆柱齿轮减速器 院 别 机 电 工 程 学 院
专业班级 13级机电一体化技术 设 计 人 陈天宇 学 号 201315210101 原始数据 (数据编号 A4 )指导教师 尹相雷
成绩
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目 录
1. 设计任务书···························································································(3) 2. 设计方案·····························································································(4) 3.传动装置的总体设计········································································(5) 3.1 电机选择·························································································(5) 3.2 传动装置的总传动比及分配····················································(7) 3.3传动装置各轴的运动及动力参数··············································(7) 4.传动件的设计·······················································································(9) 4.1 V带的设计·····················································································(9) 4.2 齿轮的设计··················································································(11) 5.轴及轴上零件的设计·······································································(22) 5.1 高速轴的设计············································································(22) 5.2 中速轴的设计·············································································(24) 5.3 低速轴的设计············································································(26) 5.4 中间轴的校核············································································(28) 6.箱体结构的设计··············································································(32) 7.润滑及密封类型的设计··································································(32) 8.其他附件的设计··············································································(33) 9.参考文献····························································································(34) 10.课程设计心得··················································································(34)
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1. 设计任务书
一、课程设计的目的
机械设计课程设计是《机械设计基础》课程最后一个重要的实践性教学环节,也是工科院校机械类专业学生第一次全面的机械设计训练。课程设计的目的为:
1、综合运用机械设计课程及其它先修课程的理论和生产实际知识进行机械设计训练,从而使这些知识得到进一步的巩固、加深和扩展。
2、在课程设计实践中学习和掌握通用机械零部件、机械传动及一般机械设计的基本方法与步骤,培养学生工程设计能力,分析问题、解决问题的能力以及创新能力。
3、提高学生在计算、制图、运用设计资料、进行经验估算、考虑技术决策等机械设计方面的基本技能。
二、课程设计的内容与题目
课程设计的内容包括:电动机的选择;计算传动装置的运动和动力参数;传动零件、轴的设计计算;轴承、联轴器、润滑、密封和连接件的选择及校核计算;箱体结构及附件的设计;绘制装配工作图及零件工作图;编写设计计算说明书。
在规定的学时数内,要求每个学生在设计中完成以下工作: ①减速器装配图一张(A1号图纸);
②零件工作图2张(A3号图纸,轴一张、齿轮一张); ③只对中间轴进行校核计算; ④设计说明书1份,5000~6000字。
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题目2:设计用于带式运输机的展开式二级直齿圆柱齿轮减速器
由于班级序号为13,故题号:F2,运输带工作拉力F/N:1600,运输带工作速度v (m/s):1.15,卷筒直径D(mm):230,
工作条件:连续单向运转,工作时有轻微振动,使用期限10年,小批量生产,两班制工作,运输带工作速度允许误差为±5%。
2. 设计方案·
根据任务书有以下设计方案:
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3.传动装置的总体设计
3.1 电机选择
设计内容 1、选择电动机的类型 2、选择电动机的容量 5
计算及说明 按工作要求和工作条件选,选用用三相笼型异步电动机,其机构为封闭式结构,电压为380V,Y型。 工作机的有效功率为: PW== 结 果 从电动机到工作机输送带间的总效率为: 式中:传动效率。 取=0.96,, (滚子轴承),所以: 分别为带PW=1.84kW 传动、轴承、齿轮传动、联轴器和转筒的所以电动机所需的功率: Pd Pd=2.36kW