First, training objectives

1, now engaged in the numerical control industry, want to improve their talent in design and programming.

2. Talents engaged in mechanical design and product development want to improve their software level.

3. Students who have just graduated from school and have theories, but want to improve their actual combat ability.

Second, the basic application of UG processing module

1, end milling: Understand the application occasions, cutting methods, setting and mastering of main parameters of end milling.

2. Face milling: Understand the application and classification of face milling, the feeding methods of different workpieces, and the setting and mastering of main parameters.

3. Cavity milling: commonly used for rough machining of workpieces. When the workpiece size is different, we should learn to choose a reasonable tool. Cavity milling generally adopts the method of following the periphery, setting and mastering the main parameters.

4. Re-chamfering of cavity milling: mainly dealing with the residue after rough machining by upper cutter; Setting and mastering of main parameters.

5. Profile copying milling: it is often used for finishing the side slip of the workpiece. When choosing a tool, we should choose a reasonable tool according to the size of the R angle at the bottom of the workpiece, set and master the main parameters, explain examples and practice surface milling in combination with the subject, which is often used for surface finishing of the workpiece. Generally, ball end mills are selected for surface milling. The setting and mastering of main parameters are illustrated with examples and combined with lessons.

Third, CNC numerical control programming

UG installation and interface settings, layers, analysis, views, items, etc. , UG 2D curve operation, surface design, 3D modeling, solid modeling, UG 2D machining, point hole, drilling, face milling, plane milling, UG 3D machining, cavity milling, contour milling, fixed axis surface milling, 3D lettering, etc. Knowledge of die electrode removal and die structure.

Parts, electrodes, inserts, sliders, inclined tops, die core machining programming and drawing, example explanation, die machining skills, boundary trimming, auxiliary entities, tool length detection and tool collision inspection, UG settings, shortcut keys, machining templates, electrodes, post-processing and a large number of factory workpiece exercises are all programmed and processed by the factory.