目录
摘要..........................................................................I Abstract.....................................................................II 设计原始数据 ................................................................. 1 第一章 传动装置总体设计方案 .................................................. 1
1.1 传动方案 ............................................................................................................................ 1 1.2 该方案的优缺点 ................................................................................................................ 1 第二章 电动机的选择 .......................................................... 3
2.1 计算过程 ............................................................................................................................ 3
2.1.1 选择电动机类型 ..................................................................................................... 3 2.1.2 选择电动机的容量 ................................................................................................. 3 2.1.3 确定电动机转速 ..................................................................................................... 3 2.1.4 二级减速器传动比分配 ......................................................................................... 4 2.1.5 计算各轴转速 ......................................................................................................... 4 2.1.6 计算各轴输入功率、输出功率 ............................................................................. 5 2.1.7 计算各轴的输入、输出转矩 ................................................................................. 5 2.2 计算结果 ............................................................................................................................ 6 第三章 带传动的设计计算 ...................................................... 7
3.1 已知条件和设计内容 ........................................................................................................ 7 3.2 设计步骤 ............................................................................................................................ 7 3.3 带传动的计算结果 ............................................................................................................ 9 第四章 齿轮传动的设计计算 ................................................... 10
4.1高速级齿轮传动计算 ....................................................................................................... 10 4.2低速级齿轮传动计算 ....................................................................................................... 14 第五章 轴的结构设计及校核 ................................................... 19
5.1 轴的材料选择及最小直径的估算 .................................................................................. 19 5.2 高速轴的结构设计与计算 .............................................................................................. 19
5.2.1 高速轴的结构设计 ............................................................................................... 19 5.2.2轴强度的校核计算 ................................................................................................ 21 5.2.3键联接选择与强度的校核计算 ............................................................................ 23 5.3 中间轴的结构设计与计算 .............................................................................................. 23
5.3.1 中间轴的结构设计 ............................................................................................... 23 5.3.2轴强度的校核计算 ................................................................................................ 24 5.3.3 键联接选择与强度的校核计算 ........................................................................... 30 5.4 低速轴的结构设计与计算 .............................................................................................. 31
5.4.1 低速轴的结构设计 ............................................................................................... 31 5.4.2 轴强度的校核计算 ............................................................................................... 32 5.4.3 键联接选择与强度的校核计算 ........................................................................... 34 5.5轴承的选择及校核 ........................................................................................................... 34
5.5.1轴承的选择 ............................................................................................................ 34 5.5.2轴承的校核 ............................................................................................................ 35 5.6 联轴器的选择 .................................................................................................................. 36 第六章 箱体的结构设计以及润滑密封 ........................................... 37
6.1 箱体的结构设计 .............................................................................................................. 37 6.2 轴承的润滑与密封 .......................................................................................................... 37 6.3 减速器润滑方式 .............................................................................................................. 38 设计小结.................................................................... 39 参考文献.................................................................... 40
摘要
本设计主要是关于带式运输机上的二级展开式圆柱斜齿轮减速器的设计与计算,严格按照设计要求对减速机进行设计选型。
第一章主要讲的是传动装置总体设计方案,和该方案的优缺点。第二章主要主要讲的是,电动机的选择。第三章主要讲的是带传动的设计计算。第四章讲的是齿轮传动的设计计算。第五章讲的是轴的结构设计及校核。第六章讲的是箱体的结构设计以及润滑密封。
Abstract
This design is mainly the two stage expansions of cylindrical helical gear reducer design and calculation for a belt conveyor, in strict accordance with the design requirements of the design and selection of speed reducer.
The first chapter is mainly about the general design scheme of the driving device, and the
advantages and disadvantages of the scheme. The second chapter is mainly about the, the choice of motor. The third chapter is mainly about the design and calculation of belt drive. The fourth chapter is about the design and calculation of gear transmission. The fifth chapter is about the structure design and check the shaft. The sixth chapter is about the structure design of box sealing and lubrication.
设计原始数据
参数 滚筒直径 运输带速度 运输带工作扭矩 运输带工作拉力 符号 D V T F=1000T/0.5D 单位 MM m/s N·m N 数值 300 1 980 6533.333 第一章 传动装置总体设计方案
1.1 传动方案
传动方案已给定,外传动为V带传动,减速器为二级展开式圆柱齿轮减速器。
方案简图如1.1所示。
图 1.1传动装置简图
展开式由于齿轮相对于轴承为不对称布置,因而沿齿向载荷分布不均,故要求轴有较大的刚度。
1.2 该方案的优缺点
该工作机有轻微振动,由于V带有缓冲吸振能力,采用 V带传动能减小振动带来的影响,并且该工作机属于小功率、载荷变化不大,可以采用V 带这种简单的结构,并且价格便宜,标准化程度高,大幅降低了成本。
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