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目 录
1 概述..............................................................1
1.1型煤发展方向.....................................................1
1.1.1发展型煤产业的重要性..........................................1
1.1.2型煤产业及技术的现状..........................................1
1.2国内外型煤发展概况..............................................2
1.2.1国外型煤概况..................................................2
1.2.2 国内型煤概况.................................................4
1.3对辊成型机的发展概况............................................4
1.3.1对辊成型机的发展展状况........................................4
1.3.2对辊成型机的成型机理..........................................5
2.基本参数的确定....................................................7
2.1选择电动机......................................................7
2.1.1选择电动机的类型和结构形式....................................7
2.1.2选择电动机的容量..............................................7
2.2.1传动装置的总传动比............................................8
2.2.2分配各级传动比................................................9
3.V带设计计算......................................................10
3.1确定计算功率....................................................10
3.2选择带型........................................................10
3.3确定带轮基准直径................................................10
3.4验算带的速度....................................................11
3.5初定中心距......................................................11
3.6确定基准长度.....................................................11
3.7确定实际轴间距...................................................11
3.8验算小带轮包角..................................................12
3.9单根V带的基本额定功率...........................................12
3.10V带的根数......................................................12
3.11单根V带的预紧力................................................13
3.12带轮的结构和尺寸...............................................13
4.基本参数计算.....................................................14
4.1各轴的转速......................................................14
4.2各轴功率........................................................14
4.3各轴转矩........................................................14
5.减速器设计计算....................................................15
5.1 I轴齿轮设计计算................................................15
5.1.1选择齿轮材料...................................................15
5.1.2初定齿轮主要参数..............................................15
5.1.3校核齿面接触疲劳强度..........................................17
5.2Ⅱ轴齿轮设计计算................................................20
5.2.1选择齿轮材料...................................................20
5.2.2 初定齿轮主要参数.............................................21
5.2.3校核齿面接触疲劳强度..........................................23
5.3Ⅲ轴齿轮设计计算................................................26
5.3.1选择齿轮材料...................................................26
5.3.2 初定齿轮主要参数.............................................26
5.3.3 校核齿面接触疲劳强度.........................................28
6 减速器轴的设计计算...............................................32
6.1Ⅰ轴的设计计算..................................................32
6.1.1选择轴的材料..................................................32
6.1.2初步估算轴的的直径............................................32
6.1.3轴上零部件的选择和轴的结构设计................................33
6.1.4轴的受力分析..................................................34
6.1.5轴的强度计算..................................................37
6.2Ⅱ轴的设计计算..................................................38
6.2.1选择轴的材料....................................................38
6.2.2初步估算轴的的直径............................................38
6.2.3轴上零部件的选择和轴的结构设计................................38
6.2.4轴的受力分析..................................................39
6.2.5轴的强度计算..................................................40
6.3 Ш轴的设计计算.................................................43
6.3.1选择轴的材料..................................................43
6.3.2初步估算轴的的直径............................................43
6.3.3轴上零部件的选择和轴的结构设计................................43
6.3.4轴的受力分析..................................................44
6.3.5轴的强度计算..................................................45
6.4Ⅳ轴的设计计算..................................................48
6.4.1 选择轴的材料.................................................48
6.4.2初步估算轴的的直径............................................49
6.4.3轴上零部件的选择和轴的结构设计................................49
6.4.4轴的受力分析..................................................50
6.4.5轴的强度计算..................................................51
7 减速器键的校核...................................................55
7.1 I轴键的校核....................................................55
7.2Ⅱ轴键的校核....................................................55
7.3Ⅲ轴键的校核....................................................55
7.4Ⅳ轴键的校核....................................................56
8 减速器轴承的校核.................................................56
8.1验算Ⅰ轴承寿命..................................................56
8.2验算Ⅱ轴承寿命..................................................57
8.3验算Ⅲ轴承寿命...................................................58
8.4验算Ⅳ轴承寿命...................................................59
9.减速器箱体设计计算...............................................60
9.1 箱体设计.......................................................60
10 对辊机构的设计计算..............................................61
10.1型辊轴的设计计算...............................................61
10.1.1选择轴的材料.................................................61
10.1.2初步估算轴的的直径...........................................62
10.1.3轴上零部件的选择和轴的结构设计...............................62
10.1.4 轴的受力分析................................................62
10.1.5轴的强度计算.................................................66
10.2验算轴承寿命....................................................66
10.3型辊轴键的校核.................................................67
10.4辊型及型板的设计...............................................67
10.5 压辊的支撑装置(轴承)........................................69
10.6 给料系统......................................................70
10.7 承压支架......................................................71
10.8 同步驱动齿轮系................................................71
10.8.1选择齿轮材料.................................................71
10.8.2初定齿轮主要参数.............................................72
10.8.3校核齿面接触疲劳强度.........................................73
10.9液压施压系统及润滑.............................................76
结论...............................................................78
参考文献...........................................................79
翻译部分...........................................................81
英文原文...........................................................81
中文译文...........................................................87
致 谢...........................................................92
摘 要
型煤加工对于有效地利用粉煤资源和保护环境是十分重要的,在我国的能源构成中,煤炭占有十分重要的地位。据统计,在我国能源生产和消费中,煤炭约占总量的75%左右。但是,随着采煤机械化程度的不断的提高,粉煤在原煤中所占的比例也越来越大。粉煤比例的增加不仅降低了散煤的燃烧效率,而且严重地污染了环境。发展型煤是提高粉煤利用率和减少环境污染的重要途径,研究表明,工业锅炉,窑炉使用型煤后可比烧散煤节煤10%~27%,烟尘排放量可减少50%~60%,添加固硫剂后,二氧化硫的排放量可减少35%~50%。因此,发展型煤对我国具有十分重要的现实意义。
本设计为一种用于煤炭成型加工的高压对辊成型机,包括有机架,定对辊轴和动对辊轴设置在机架中部,动对辊轴的两端设置有加压装置,通过加压装置,动对辊轴能移动一定距离,在定对辊轴的轴端有同步外挂齿轮与联轴装置及三级设计减速器相连,在定对辊轴和动对辊轴上方的机架上安置有加料装置。该机采用强制加料方式,液压加载和使用安全联轴器,从而使其型煤产品满足生产要求。
关键词:型煤; 型煤加工; 粉煤; 对辊成型机
ABSTRACT
Coal processing for the effective use of coal resources and environmental protection is very important, Coal occupy a very important position in our energy mix. According to statistics, China's energy production and consumption, coal accounts for about 75% of total. However, as the mining mechanization of a continuous increase in coal pulverized coal as a proportion is also growing. Coal proportion of the increase not only reduced the casual coal combustion efficiency, but also seriously polluted the environment. Development of coal briquette is to improve utilization and reduce environmental pollution in important ways, the study shows that industrial boilers, Kiln use briquette after comparable saving coal burning coal powder 10% ~ 27%, soot emissions can be reduced 50% ~ 60%. After the addition of sorbent , and sulfur dioxide emissions can be reduced 35% ~ 50%. Therefore, the development of China's coal is of great practical significance.
The design of the coal used in a high-pressure molding and processing of roll forming machines, including rack, set to roll axis and move on roller shaft installed in the central rack, moving to the ends of roller shaft equipped with pressure device, through compression devices, move to roll axis can move a certain distance. In determining the roll axis of the shaft to keep pace with the pylon gear coupling device design and three-reducer, In determining the roll axis and move right side of the roll axis rack placed on the feeder. The aircraft introducing compulsory feeding, hydraulic loading and the use of safety coupling, thus briquette products meet production requirements.
Keywords : briquette; Coal processing; Coal; Right roll forming machine
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