ZPG-LC-500x1500轮齿式破碎机转子及减速滑动端机构设计+CAD图纸_毕业论文

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ZPG-LC-500x1500轮齿式破碎机转子及减速滑动端机构设计+CAD图纸

摘要:这次设计的是ZPG-LC-500x1500轮齿式破碎机转子及减速滑动端机构设计。主要研究的内容是:减速机的结构设计以及齿辊的设计。这次设计主要从减速机开始入手,确定各级的传动比从而得出各轴的转矩以及功率,进而设计出各齿轮,大致估出机座整体的长度和宽度后,设计出机座,然后根据机座,确定破碎机主要各个零部件的设计。在主要零部件的设计中,包括各根轴的设计,齿板的设计,轴承以及键的选择。其中最为重要的就是轴的设计,因此对于高速轴,选用40Cr调质处理,提高它的耐用度。另外,在设计过程中,还计算了零部件的最大使用寿命,并对轴,齿轮,轴承以及键都进行了相应的校核。这对提高破碎机的使用寿命起着至关重要的作用。 纸上得来终觉浅,觉知此事要躬行,还有很多问题相信要通过亲身的实践才能得以理解体会。37182
毕业论文关键词: 轮齿式破碎机;减速机;结构;计算校核
ZPG-LC-500X1500 wheel type crusher rotor and its reducer structure design
Abstract: The design is ZPG-LC-500X1500 wheel type crusher rotor and its reducer structure design. It mainly content the structure design of the reducer and the tooth roll. So i start from the reducer. First, i determine the levels of transmission ration so as to have the torque and power of every shafts, then i design the corresponding gears. After these, i roughly estimate the length and width in order to design the engine base. Having the size of engine base, it is easy to design the other parts and components of the crusher. Among these, include the design of each axis and tooth plate and the choice of bearings and keys. One of the most important is the design of the shafts. For example, to the high-speed shaft, we choose the 40Cr as material because it can improve its durability. In addition,during the design, i also calculate and check the maximum service time of the components. There is no doubt that it plays an important role in improving the service time of crusher. I believe there are still many questions remained to be solved by our practice.
Key words:  wheel type crusher; reducer; structure; calculate
目  录
绪论    1
1 背景意义    2
2 轮齿式破碎机的发展    3
3 轮齿式破碎机的工作原理    5
4 减速机的方案设计    6
5 ZPG-LC-500xx1500轮齿式破碎机参数    7
6 确定各轴的功率以及转矩    8
6.1 确定机械传动的效率    8
6.2 分配各级的传动比    8
6.3 计算传动装置的运动和动力参数    8
6.3.1 各轴转速 n (r/min)    8
6.3.2 各轴的输入功率 P (kw)    9
6.3.3 各轴的输出功率 P (kw)    9
6.3.4 各轴输入转矩 T (N•m)    9
6.3.5 各轴输出转矩T (N•m)    10
7 活动齿辊主轴的相关设计计算    12
7.1 初步估算主轴的最小直径    12
7.2 活动齿辊主轴的结构工艺    12
7.3 活动齿辊主轴的设计计算及强度校核    12
7.4 活动齿辊主轴轴承选择及寿命计算    16
7.5 活动齿辊主轴键的选择及校核    17
7.5.1 初选键    17
7.5.2 键的校核    17
7.6 T型螺栓的强度校核    18
7.7 齿环应力分析    19
8 高速轴的相关设计计算    21
8.1 初步估算高速轴的最小直径    21
8.2 高速轴的设计计算及强度校核    21
8.3 高速轴I轴齿轮的传动设计    24 (责任编辑:qin)