The CNC 2 machine programming laboratory conducts laboratory classes in machining technology (including machining programming) and the construction of numerically controlled machines.
The laboratory is equipped with modern machines and devices:
- DMG DMC 635 V DECKEL MAHO 3-axis milling center with Heidenhain iTNC 530 control system
The machine is designed for 3-axis machining. It enables the execution of part features such as holes, external and internal threads, pockets, grooves, contours, complex surfaces, etc. The control programs for the Heidenhain iTNC 530 control system can be made on the basis of DIN/ISO code or in own Heidenhain code. SmartNC dialog programming is also possible.
- NEF 400 GILDEMEISTER 3-axis lathe with Sinumerik 840D control system
The machine configuration includes 2 straight axes (X, Z) and a rotary axis (C axis) as well as a hydraulic tailstock with the possibility of in-feed control. This kinematics of the machine tool enables turning and milling with the use of driven tools. Taking into account the available tooling on the machine tool, the features of the parts such as rotary surfaces, holes whose axis lies in the axis of rotation of the spindle and outside the axis (parallel to the spindle axis) on the workpiece face or holes whose axes intersect the spindle axis and are perpendicular to it can be made , pockets, grooves, threads, etc. The control programs for the Sinumerik 840D can be created on the basis of the DIN/ SO code or via dialogue in the ShopTurn module.
- The Mahr numerically controlled adjuster
The adjuster enables automatic measurement of tool geometry necessary to define control systems in the tool corrector table.
- HAIMER Tool Dynamic 2009 balancing machine
The device is used to balance the holder-rotary tool set, which is used for machining at high rotational speeds.
- Device for clamping tools in ThermoGrip shrink holders
The device is used for mounting tools in heat shrinkable holders with HSK 63 and HSK 32 cones.
As part of the classes conducted in the laboratory, students can learn about the construction of numerically controlled machines, the basic principles of their setting (arming and determining the zero point shifts), SmartNC dialog programming for the Heidenhain system and ShopTurn for the Sinumerik system.