设计简介
摘要
当前,在地面上铺设瓷砖满足了人们追求美感的目的,可是,在地面铺设瓷砖却价格贵,这时,花费少且又不失美感的混凝土地面渐渐进入人们的视野,混凝土地面的需求日渐上升,也更能满足人们的需求,但是混凝土地面在铺设时会出现地面不平的现象,这时需要打磨机来对地面进行打磨,目前,人们使用的打磨机大多采用定轴或同步带传动,在此我想设计一款由行星传动的地面打磨机,因为行星齿轮传动与普通定轴齿轮传动相比较、具有质量小、体积小、传动比小、承载能力大以及传动平稳和传动效率高等优点。
首先针对地面打磨机进行总体方案设计,进而确定地面打磨机的总体布局,其次设计打磨机的传动过程,合理选择传动参数,进行计算,根据计算结果合理分配各级行星传动比,最后,得到合理的设计方案,此次设计提高了地面打磨机的工作效率。
关键词:行星传动 地面打磨机 轴 齿轮
ABSTRACT
At present, the laying of tiles on the ground to meet the purpose of the pursuit of beauty, but the laying of tiles on the ground but expensive, then, less costly and without losing the beauty of the concrete floor gradually into the people's vision, the demand for concrete floor , But also better meet people's needs, but the concrete floor in the laying of the ground will appear when the phenomenon of uneven, then need to grind the ground to polish the ground, people use grinding machines are mostly used fixed or synchronous belt drive I would like to design a planetary transmission of the ground grinding machine, because the planetary gear drive and ordinary fixed gear gear compared to a small, small size, small transmission ratio, carrying capacity and smooth transmission and transmission efficiency advantages.
First of all, the overall design of the ground grinding machine, and then determine the overall layout of the ground grinding machine, followed by the design of the grinding machine transmission process, a reasonable choice of transmission parameters, calculated, according to the calculation results reasonable allocation of planetary gear ratio at all levels, and finally, Of the design, the design to improve the efficiency of the ground grinding machine.
Keywords: Planetary drive; Ground grinding machine; axis; gear
目录
1 绪论 1
1.1 概述 1
1.2 课题研究的目的和意义 1
1.3 国内外研究现状 1
1.4 地面打磨机的特点 2
1.5 本设计的主要内容 3
2. 总体方案设计 4
2.1 传动方案确定 4
2.2 传动方案设计 5
2.3 主要参数 6
3 齿轮的设计 7
3.1 各级行星的传动比计算 7
3.2 高速级齿轮设计 7
3.3 低速级 10
3.4 输出轴的设计计算及校核 12
3.4.1 轴的基本要求 12
3.5 输出轴的设计 12
3.6 轴承寿命校核 14
3.6.1 轴承的选择 14
3.7 轴承的寿命校核 15
4 磨头的设计 16
4.1 研磨机外形 16
4.2 旋转方向设计 16
4.3磨具选择与输出轴扭矩 17
4.4输出端及磨盘连接方式选择 17
5 润滑和密封的选择 19
5.1 润滑 19
5.2 密封 19
6结论 19
参考文献 20
致 谢 32
当前,在地面上铺设瓷砖满足了人们追求美感的目的,可是,在地面铺设瓷砖却价格贵,这时,花费少且又不失美感的混凝土地面渐渐进入人们的视野,混凝土地面的需求日渐上升,也更能满足人们的需求,但是混凝土地面在铺设时会出现地面不平的现象,这时需要打磨机来对地面进行打磨,目前,人们使用的打磨机大多采用定轴或同步带传动,在此我想设计一款由行星传动的地面打磨机,因为行星齿轮传动与普通定轴齿轮传动相比较、具有质量小、体积小、传动比小、承载能力大以及传动平稳和传动效率高等优点。
首先针对地面打磨机进行总体方案设计,进而确定地面打磨机的总体布局,其次设计打磨机的传动过程,合理选择传动参数,进行计算,根据计算结果合理分配各级行星传动比,最后,得到合理的设计方案,此次设计提高了地面打磨机的工作效率。
关键词:行星传动 地面打磨机 轴 齿轮
ABSTRACT
At present, the laying of tiles on the ground to meet the purpose of the pursuit of beauty, but the laying of tiles on the ground but expensive, then, less costly and without losing the beauty of the concrete floor gradually into the people's vision, the demand for concrete floor , But also better meet people's needs, but the concrete floor in the laying of the ground will appear when the phenomenon of uneven, then need to grind the ground to polish the ground, people use grinding machines are mostly used fixed or synchronous belt drive I would like to design a planetary transmission of the ground grinding machine, because the planetary gear drive and ordinary fixed gear gear compared to a small, small size, small transmission ratio, carrying capacity and smooth transmission and transmission efficiency advantages.
First of all, the overall design of the ground grinding machine, and then determine the overall layout of the ground grinding machine, followed by the design of the grinding machine transmission process, a reasonable choice of transmission parameters, calculated, according to the calculation results reasonable allocation of planetary gear ratio at all levels, and finally, Of the design, the design to improve the efficiency of the ground grinding machine.
Keywords: Planetary drive; Ground grinding machine; axis; gear
目录
1 绪论 1
1.1 概述 1
1.2 课题研究的目的和意义 1
1.3 国内外研究现状 1
1.4 地面打磨机的特点 2
1.5 本设计的主要内容 3
2. 总体方案设计 4
2.1 传动方案确定 4
2.2 传动方案设计 5
2.3 主要参数 6
3 齿轮的设计 7
3.1 各级行星的传动比计算 7
3.2 高速级齿轮设计 7
3.3 低速级 10
3.4 输出轴的设计计算及校核 12
3.4.1 轴的基本要求 12
3.5 输出轴的设计 12
3.6 轴承寿命校核 14
3.6.1 轴承的选择 14
3.7 轴承的寿命校核 15
4 磨头的设计 16
4.1 研磨机外形 16
4.2 旋转方向设计 16
4.3磨具选择与输出轴扭矩 17
4.4输出端及磨盘连接方式选择 17
5 润滑和密封的选择 19
5.1 润滑 19
5.2 密封 19
6结论 19
参考文献 20
致 谢 32
