Euromac Punching Machine Software
• Affordable price • Intuitive and user friendly interface • A simple transfer method of one or multiple machine parameters into a program • Ability to generate NC code for unlimited number of machines from a single workstation • Code programming and editing by the workstation engineer • Nesting – algorithm of part allocation on a metal sheet in the most efficient way • Generation of reports and machine setup lists • Compatibility with the most popular CAD/CAM packages and TopPunch formats (*.nc, *.sht) • Ability to use standard TopPunch geometric objects. RoburCAM is compatible with the most popular CAD software packages (AutoCAD, SolidWorks) and allows viewing and editing drawings in the following formats: *.prt (RoburCAM native format), *.dxf (AutoCAD), *.sht (TopPunch objects).
CNC Punching (EUROMAC. Software; Quality. EUROMAC is one of the largest builders of punching equipment in the world. The machines are manufactured in Italy.
While creating a toolpath in RoburCAM, both automatic and manual parametric punching can be chosen along with various nibbling settings. Punch positioning can be set using magnetic equilibrium points. During the NC code generation, an engineer can choose from a wide range of punching tools – standard or custom, specifically created for a certain part configuration. RoburCAM allows choosing a tool after a certain shape or pick it directly from the popular TopPunch tool library that is an integral part of RoburCAM. One of the most significant RoburCAM functions is nesting – algorithm of part allocation on a metal sheet in the most efficient way. Many nesting parameters and conditions (like nesting direction, minimal part gap, etc.) can be chosen freely by the manufacturer.
Due to impressive functionality of the RoburCAM system it is possible to collect various process statistics and generate specific setup lists for each machine individually. Before running the program on a press brake, RoburCAM can verify correctness of the punching process and precision of the NC code (as an alternative to running it on TopPunch). Simulation speed and working surface layer (geometry, technologic process, sheet movements, etc.) transparency can be set there and, in addition, manual toolpath editing is available at this stage. Electronics 2nd Edition Hambley Pdf here.
In principle, it does not matter whether you want to process: sheet metal, plastics, cardboard, textiles or foils. Do you want: closed or open cuts, forming cuts (even/planar and solid cut edges), single or several piercing holes with one stroke or Piercing + feeding + calibrating with one stroke? Our devotion to quality results in maximal benefit for you: • Clean cut edges • Precise tool guidance • Minimal installation space due to integrated damping of cutting impact • Quick and quiet • Optimal scrap management. Shearing is the most frequently used process in industries, it is very productive and of great commercial prominence. This process is realized by two cutting wedges moving (at least one) against each other. The material parts of the cutting surface are shifted against each other. This process needs three steps: • elastic deflection • plastic flowing • cracking Due to the employed cutting force, the sheet elastically deflects, is then plastically deformed and starts flowing. Finally cracking takes place and the material breaks i.e.
When shearing, generally a difference is made between the opened and the closed cut. An example for the open cut is the cutting off of a metal strip (like cutting with scissors). If the total cutting line is within the piece part, this will be a closed cut.