Water-jet cutting
The nJet module for Nespert CAM provides tools for setting up different cutting qualities on the separate contours of a part, and functions for management of speed and acceleration according to their shape. In addition it provides compensation of the bevel created by the conical cutting beam.
Tangential knife cutting
Cutting non-metallic sheet parts on special knife-cutting plotters has its own specific requirements.
The nKnife module was created for cutting deformable materials like foam (initially developed by us in the context of insulation for the HVAC manufacturing), and allows the creation of nesting layouts for cutting all parts with a single lead-in from the edge and no piercing.
Plasma cutting
Nespert CAM programs all types of plasma cutting machines, without limitation on the type of the plasma source.
Provides advanced capabilities for programming the processing of both metals with normal thickness and thick metals.
Bevel compensation???
Uses the Technological Datasets Base to automatically assign the processing parameters according to the grade and thicknes of the material,
Creates nesting layouts with special cutting technologies: Special types of lead-ins/lead-outs; Pre-piercing; Chain cutting, including with circumventing; Cutting with bridges, with pseudo-bridges; Deviding a path into segments, and others.
Manages test points for setting an NC program for cutting on an UR,
Creates pricing, taking into account orders and types of UR, scrap and burnout.
Pipe cutting 2D
Nespert Pipe is used for cutting pipe parts from pipe blanks on oxy-fuel or plasma CNC machines programmed in 2D cartesian or polar coordinates.
While the import of flat pipe patterns from CAD files is the main source of nesting data for projects of high complexity, our module for parametric design pipe connections is also included, reducing the need of a universal CAD system.
Oxy-fuel cutting
Nespert CAM programs all types of oxy-fuel cutting machines. It an be used for both machines with manual and automatic piercing control. Can program both static parallel torches and such with variable count and spacing.
Provides advanced capabilities for programming the processing of both metals with normal thickness and thick metals.
Performs automatic and interactive true shape nesting with on-line control against overlapping.
Uses Technological Datasets Base for defining the proccessing parameters according to the grade and thickness of the material,
Creates nesting layouts with special cutting technologies, such as: Special types of lead-in/lead-outs; Pre-piercing; Cutting with common cuts; Chain cutting; Cutting with bridges, with pseudo-bridges; Deviding the path into segments, Reversing the dirrection of the path or of a segment of it.
Nests on usable remnants (UR), taking into account the margins on UR, defines a remnant to an order,provides functions for slicing the scrap skeleton.
Creates nesting layouts for: Cutting parallel torches; Cutting a zone on zones; With variable parallel torch count and spacing (Advanced Multi Torch).
Manages test points for setting an NC program for cutting on an UR,
Laser cutting
Laser cutting of sheet material is a process in which contours are cut from sheet material (metal, plastic, wood, ..), using high energy laser beam and high-pressure gas jet.
The CNC machines for laser cutting use different cutting methods, depending on the material and the cutting gas, such as reactive cutting, vaporisation cutting and melt and blow (aka. Fusion cutting). The used laser source can be CO2, solid-state (Nd: YAG), fiber laser or diode laser. The different machines can have different degree of automatic control of the processing process through the NC program.
Nespert CAM programs all types of industrial laser cutting systems for sheet parts with high quality.
Performs multi-plate automatic and interactive nesting; provides advanced tools for automatic and/or interactive enagement of the processing technology for parts without limitation of the complexity of the contours; defines the cutting conditions according to the material grade and thickness, the contour type and the required processing quality.
Nests on whole plates and/or usable remnants; programs different processing types – cutting, engraving, evaporation.
Generates NC programs with both a linear structure and with subroutines with translation and rotation using open-source Postprocessors.
Transfers NC program from one CNC machine to another with a single press of a button.
Vintech RCAM 11 is completed with a pricing and offering module, with a module for precise time reporting and an NC program verification utility.
Bevel cutting
Bevel cutting is the most sophisticated technology for true shape nesting of sheet parts, in which the system for tracking the height from the plate during cutting is the decisive factor.
The programming of bevel cutting requires thorough knowledge of the capabilities of the tracking system and significant practical experience.
Nespert CAM programs various bevel heads, equipped with capacitive, mechanical, voltage or laser tracking height control systems.
With the help of nBevel module, it is possible to program any paths for bevels and chamfers with constant or variable bevel angles along the contour.
Today Nespert CAM is the proven professional solution for true shape nesting programming of plasma bevel cutting machines with 5 to 8 axis control.
Drill-boring
Nespert CAM has advanced capabilities for managing the cutting technology for holes in sheet parts from nesting layouts.
The processing of pipe grids with thermal cutting combined with drilling and boring at one set shortens the production cycle of similar parts from weeks to hours.
The combined processing dramatically reduces the impact of temperature deformations and internal stresses on the flatness of parts with multiple holes.
nDrill extends the tool set, regimes and processing sequences for through and stepped, smooth and threaded holes, for milling of contours or stepped holes, for combining plasma cutting of a through hole with counter-boring or boring of its steps, in the Technological Datasets Base
Heavy duty cutting
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Marking
Nespert CAM provides full set of Marking functionalities for any types of marking process within the nesting environment. Marking can be done with the cutting tool, or additional vector or raster marking tool. It can be based on information imported with the CAD model or defined directly by the nesting data (i.e. the sheet number, part number, order number, etc.). In the second case , marking can be done on a specific place of the part or in a specifically aligned order, to optimise the performance of marking (i.e. when the head is one directional raster head, such as a jet printer). It can be programmed as a pre, post or within cutting operation.