The numerical control processing and jig of Strengthen the plank part are designed
Abstract : M5-5 Strengthen the plank part some aviation products one of frame thin wall part, it need certain intensity and rigidity to play a supporting role mainly, it adopts the aluminium alloy material of LC9, can meet its performance demand . Aviation products single piece light to produce in batches generally, is it adopt numerical control process production to suit. Aviation products single piece light to produce in batches generally, is it adopt numerical control process production to suit. This graduation project design of subject content mainly including M6-6 little floor part numerical control process and hole with make up jig assemble two parts. Numerical control process part for entity foundation , numerical control processing technology rules make , cutter , cut consumption and choice , main shaft of rotational speed of model of part, and artificial numerical control of part process, utilize UG software turn into corresponding numerical control of process process the procedure automatically. Foundation, entity of model to utilize UG existing piece , round cylinder , cone , spheroid 4 kinds of simple entity models, is it set out to demand through modeling rationality and parameter , is it accord with the entity model processed in numerical control to establish according to M5-5 Strengthen the plank characteristic of part. According to thick, principle that finish machining separate work out the processing technology rules of numerical control rationally. And choose the suitable cutter and cutting consumption with the lathe according to the work piece material. Making the jig up has overall design which makes the jig up , relevant choices of making the jig component up to assemble mainly, orient the basic choice and choice of clamping the method and process the analysis of precision of error.
Keyword: Entity's modeling Numerical control is processed Craft rules Rotational speed of the main shaft
目录
引言--------------------------------------------------------------1
2.钻孔用组合夹具拼装设计------------------------------------------2
2.1组合夹具的特性--------------------------------------------2
2.2 组合夹具的元件及其作用 -----------------------------2
2.3 加强板零件钻孔组合夹具总体设计-------------------- 6
2.3.1组合夹具的元件选择---------------------------- 6
2.3.2组合夹具的拼装方案设计------------------------7
2.4组合夹具的误差分析及计算--------------------------------8
2.4.1导向误差计算 -------------------------------------8
2.4.2 定位元件的误差分析-------------------------------8
2.4.3钻削力---------------------------------------------9
3.加强板零件的数控加工 -------------------------------------10
3.1 加强板零件实体模型的建立与编辑 --------------------10
3.1.1 加强板零件实体模型的建立与编辑
3.1.1.1实体模型的概念 ----------------------------10
3.1.1.2实体模型术语--------------------------------10
3.1.1.3 实体模型的概念------------------------------11
3.2.1 实体模型基本体素-----------------------------------11
3.2.1.1 圆柱体---------------------------------------11
3.2.1.2长方体----------------------------------------11
3.2.1.3球体------------------------------------------11
3.3.1 扫描特征-------------------------------------------12
3.3.1.1拉伸体---------------------------------------12
3.4.1基准轴---------------------------------------------12
3.5.1布尔操作-------------------------------------------12
3.6.1成型特征-------------------------------------------13
3.6.1.1成型特征用于模型的细节设计-----------------13
3.6.1.2 孔--------------------------------------------14
3.7.1操作特征 -------------------------------------------15
3.7.1.1边倒圆 ---------------------------------------16
3.7.1.2修剪实体--------------------------------------17
3.8.1草图------------------------------------------------17
3.2零件的数控加工工艺基础----------------------------------- 20
3.3数控加工方案的确定-----------------------------------------21
3.4 加强板零件的UG数控加工程序的生成 ------------------21
3.5 加强板零件的数控加工的加工方式及参数确 ------------22
3.5.1切削用量及刀具的选择----------------------------22
3.5.2数控加工坐标选择--------------------------------24
3.6仿真加工软件简介-------------------------------------------24
4.总结----------------------------------------------------------------26
参考文献 -------------------------------------------------------------27
致谢 -----------------------------------------------------------------28