Michael Deckel GmbH
NUMRoto tool grinding software now allows use of a production clamping system for profile inserts in the 3-D simulator.

Tool Grinding Software Simplifies Complex Geometries

March 27, 2014
Using sub-nano interpolation Define core path geometry Optimizing the chip transport Defining machine cutting parameters Define form cutters Simplify programming for ultra-high-efficiency grinders

The expanding challenges of grinding and servicing new generations of complex-geometry drills and end mills are resolved in a new release, according to the developers of a tool grinding software package. Version 3.8 of NUM's NUMRoto software automates multi-helical and variable flute grinding, and introduces a form cutter function for profile inserts. It is available to existing NUMRoto users as an update.

Launched by NUM in 1987, NUMRoto has been updated frequently according to the many improvements and innovations in machine tool design. The software runs on NUM’s Flexium+ CNC system, which has some specific advantages, including the use of sub-nano interpolation to ensure high quality surfaces, with short cycle times to allow fast 5-axis movement – even if the part program contains a high density of ISO sequences.

Flexium+ supports all the current standard safety functions of today’s high-performance CNC machines, and can be operated easily using the same type of ‘dual touch’ gestures that are employed with modern smartphones.

Fifteen different manufacturers of CNC tool grinding machines now incorporate NUMRoto software in their products, and as a result it is used on more than 40 different types of machine.

Many of the high-performance end mills now used for precision machining applications (e.g., producing aerospace and aircraft parts in specialty alloys or composites) are multi-helix tools designed for use at speeds up to 30,000 RPM. Producing these types of tools cost-effectively is demanding, requiring increasingly complex grinding capabilities.

End Mill Production Techniques

NUMRoto automates production of complex geometry machine tools, such as this corner radius cutter featuring differential helical edges with constant land width.

For example, to help prevent vibration, each of a tool’s cutting edges is twisted at a different angle – and with differential helix designs, the twist angle of each individual cutting edge also changes along the length of its body, from the tip of the tool to the shaft. Furthermore, the width of the flute area of these tools can vary considerably, demanding precise positioning of the grinding wheel to ensure that the land width on the back of the tooth is correct.

By harnessing the speed and computational capabilities of state-of-the-art PCs, the new version of NUMRoto is able to handle the extremely complex path calculations necessary to create these sophisticated flutes. Users can define the core path geometry of flutes on end mills easily and accurately.

Designers and manufacturers also seek this functionality when optimizing the chip transport characteristics of high-performance machine tools, because the rate at which chips are removed from the cutting face has a major bearing on the tool’s cutting speed and efficiency.

By allowing the core path of each flute to be defined individually, NUMRoto makes it possible for tool designers to compensate for any potential imbalance caused by irregular helices or asymmetric cutting blades. Additionally, by enabling the entry point of the grinding wheel to follow the corner radius of the cutting edge, the software facilitates grinding of a defined rake angle on complex body forms and on cutting edges which pass from the body of the tool to its tip – a task that was previously extremely difficult to achieve.

Increasing Control Flexibility

NUM contends that the level of control flexibility provided by NUMRoto’s new update for creating flutes will be a key enabling factor for manufacturers seeking to develop the next generations of machine tools.

Complex geometry machine tools, such as this full radius cutter with differential helical edges and a constant land width, can be produced easily by NUMRoto tool grinding software.

Currently, the cutting edges of most machine tools are ground from tungsten carbide. Small rotary tools are usually manufactured from a single piece of carbide, whereas larger rotary tools and the majority of non-rotary tools feature individual cutting blades in the form of carbide inserts, which are retained in a holder made from a less expensive material.

Until relatively recently, the inserts were soldered or cemented to the holder prior to being ground, which sometimes made it very difficult or impossible to produce or maintain such tools on a CNC tool grinding machine – due to their size and complexity. Another disadvantage of this approach is that it requires the manufacturer to define the complete assembly as a rotary tool in the CNC program, demanding time-consuming and expensive programming.

Working with several tool manufacturers and tool sharpening companies, NUM has developed NUMRoto's form cutter function to simplify insert grinding significantly. Users can define a form cutter as a rotary tool or as a standalone profile insert. Holders with soldered or cemented inserts can still be defined as rotary tools, and the position of each insert can be probed individually, allowing any mounting inaccuracies to be detected and compensated for automatically during the grinding process.

Many of the latest cutting tools employ user-replaceable profile inserts, which are ground as physically separate blades on a CNC grinding machine. Instead of being fixed to a holder during grinding, the insert is held in a production clamping system that has an optimized geometry for efficient grinding, with unobstructed working space for the grinding wheel.

NUMRoto’s new profile insert function simplifies the programming of the new types of ultra high-efficiency CNC tool grinding machines now coming into service. After selecting the profile insert form cutter, users are presented with an easy-to-understand menu from which to specify whether the part to be ground is held in a fixed or adjustable collet, or by clamping plates.

The software supports different mounting plate arrangements to allow the insert to be oriented in any of three planes, and provides a simple method for specifying parameters such as transverse and longitudinal offset values.

NUMRoto also now supports 3-D models for the production clamping system, which means it can be visualized during 3-D simulation and monitored for collisions with the grinding wheel; the insert itself is displayed as a cube-shaped blank.

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