设计简介
摘 要
本课题设计了变速箱箱体钻孔工位移动工作台卧式组合机床多轴箱。在设计中,根据被加工的零件图计算确定了箱体的尺寸大小,通过钻孔工序切削用量的确定,再计算出钻孔工序的切削参数,进而计算动力参数,由动力参数选择了动力箱。然后制定传动方案。根据传动方案及设计需求选定所用的轴、轴承、齿轮、油泵和其它与之配套的零件,并计算出主轴和传动轴的坐标。最后对本设计选用的轴、轴承、齿轮进行了校核。通过本设计实现钻孔在同一机床上加工,同时使用多把刀具并在几个方面对工件进行加工,达到较高的工序集中程度,从而获得较高的生产率。多轴箱是组合机床的核心部件。它是选用通用零件,按专用要求进行设计的,在组合机床设计的过程中,是工作量较大的部件之一。它是根据工序图和加工示意图所确定的工件加工孔的数量和位置,切削用量和主轴类型设计的传递各主轴运动的动力部件。其动力来自通用的动力箱,与动力箱一起安装于进给滑台,可完成钻,绞等加工工序。本设计可实现了多孔的一次加工完成,提高了工作效率。
关键词:组合机床;多轴箱;钻孔;齿轮;轴
Abstract
This subject has certain parts design of drilling horizontal combination machine tools moving workbench workstation Multi-axle Box. In the design, according to the calculated by processing components determines the size of the box, through the drilling process of cutting parameter determination, then calculates the cutting parameters of drilling process, and then calculating dynamic parameters of the dynamic parameter selection, power box. Then driving scheme. According to the transmission scheme and design requirements of shaft, selected bearings, gears, pumps and other ancillary components, and calculate transmission shaft and the coordinates. Through the design on the same machine processing drilling tools, use more in aspects of the work piece machining, achieve high concentration process, so as to achieve higher productivity.Multi-axle box is a combination of the core components of machine tools. It is the choice of generic parts, according to specific design requirements, in combination of machine tool design process, is the workload of one of the larger components. It is based on processes and process schematic diagram of the work piece determined by the number and location of holes, cutting consumption and spindle type of design momentum of our campaign to pass the spindle parts. Its power comes from a common power boxes and power boxes are installed on the feed slide units, to be completed by drilling, twisting and other manufacturing processes. This design can be achieved through a porous enough for processing and increase working efficiency.
Key words :Modular machine tool;Multi-axle Box;Drilling;Gear;Axis
目 录
摘 要 II
Abstract 1
1 绪论 4
1前 言 4
1.1 本课题研究现状、研究目的 4
1.2 国内外状况 5
1.2 本课题主要研究内容及意义 7
1.3 主要技术指标 7
2.1 组合机床的组成 8
2.2 组合机床的特点 9
2.3 组合机床的工艺范围 9
2.4 组合机床的配置形式及多工位组合机床 9
2 组合机床的总体设计 11
2.1 组合机床方案的制定 11
2.1.1制定工艺方案 11
2.1.2确定组合机床的配置形式和结构方案 12
2.2 确定切削用量及选择刀具 13
2.2.1确定工序间余量 13
2.2.2选择切削用量 13
2.2.3确定切削力、切削扭矩、切削功率 14
2.2.4选择刀具结构 15
2.3 钻孔组合机床总设计“三图一卡”的编制 15
2.3.1 被加工零件工序图 15
2.3.2 加工示意图 16
2.3.3机床联系尺寸图 20
2.3.4生产率计算卡 23
3 多轴箱的设计 25
3.1 绘制多轴箱设计原始依据图 25
3.2齿轮模数选择 26
3.3多轴箱的传动设计 26
3.4绘制传动系统图 28
4 传动元件的校核 30
4.1 验算传动轴的直径 30
4.2 传动轴的校核及其配件校核 31
4.2.1 轴的弯扭强度校核 31
4.2.2 轴承的校核: 35
4.2.3 齿轮的校核 37
5 夹具设计 41
5.1 研究原始质料 41
5.2 定位、夹紧方案的选择 41
5.3切削力及夹紧力的计算 41
5.4 误差分析与计算 47
5.5 夹具设计及操作的简要说明 49
结 论 50
致谢 51
参考文献 52
