Wessling (Germany), 11 January, 2012 – OPEN MIND Technologies AG offers high-performance CAD/CAM technologies for tool and mould making. The integrated hyperCAD®/hyperMILL® system supports tool- and mould-makers every step of the way, from importing item data to NC program postprocessing. The current version of hyperMILL® 2011 includes several useful and high-performance functions.
Practically from the beginning, OPEN MIND Technologies AG has developed machining strategies for its hyperMILL® CAM system that are also very helpful for tool and mould making. Following head of development Dr. Josef Koch’s motto, “tools and moulds are our passion,” today’s hyperCAD®/hyperMILL® CAD/CAM system supports the entire process chain in the tool and mould industry, thereby contributing significantly to the competitiveness of companies that use our products.
External CAD models can be used for stock definition
Before actual machining begins, hyperMILL® helps the user with its intelligent and dynamic stock definition. Stock contours can be generated from the surface models and solids of any CAD model. Surface models can now be used for stock definition in the 2011 version in the context of arbitrary stock roughing and material removal simulation.
The new version of the CAM software permits quick and simple collision checks for clamps. Clamps are managed as a separate element within the job list and can be managed and imported independently of the part model. As a result, clamps can be checked for collisions early in the machining calculation process.
hyperMILL®’s pocket feature recognition now also detects grooves in open and closed pockets with bottoms. In practice, this means that parallel walls are recognised as grooves, and their centre contour is displayed.
Even faster roughing
In addition to endmills or bullnose endmills, conical tools can now also be used for arbitrary stock roughing.
Efficient collision avoidance ensures that the tools are checked completely against the model, machine and clamps.
“For all tasks that might include ‘shelling’ roughing, or machining with a tool shank, our new hyperMAXX® can be used”, explains Peter Brambs, head of the Global Engineering Service Group at OPEN MIND. The new model, which is also used from the hyperMILL® interface, generally allows higher cutting speeds while reducing wear and tear on both the tools and the machine.
With this new 5axis shape offset roughing and finishing machining strategies, curved surfaces can be machined with a consistent offset. This strategy enables very easy programming of complex geometries, such as engine housing parts or tyre moulds. “In combination with hyperMAXX®, this strategy enables very fast roughing”, says Peter Brambs.
Powerful for cavities
For typical tool and mould making geometries, such as deep cavities, and high and steep walls, hyperMILL® provides 5axis strategies that enable reliable machining with short tool lengths in these areas. Proven 3D strategies such as Z-level finishing, profile finishing, equidistant finishing or rest machining were updated with 5axis tool positions. Thanks to fully automatic calculation of tool positions, these machining tasks can be programmed in a way familiar to those who have worked with 3D machining.
Complete finishing is another strategy that has been customised for the requirements of tool and mould making. By combining Z-level finishing and profile finishing, this strategy can automatically adapt machining to the requirements of individual areas of a model. In accordance with the angle of slope defined, machining is divided automatically between steep and flat areas, which can both be processed in a spiral pattern.
Automatic rest machining
In the finishing cycle, automatic rest machining detects remaining stock machined areas. After defining the reference tool and the machining area, the requisite rest machining is automatically executed.
The consideration of multiple allowances is a new feature. The multiple allowances defined for specific milling areas are now also available for rest machining.
Last but not least, hyperMILL® 2011 has enhanced its automatic 5axis approach and retract macros. Within the 5axis cycles, the approach and retract paths use 5axis simultaneous motion. This allows all of the axes of the machine to already be moving when the cutter approaches the part, and avoids sudden accelerations when the cutter is in contact with the part. This results in smoother overall machine movement and cleaner transitions at the start and end of each milling movement. These automatic 5axis approach and retract strategies ensure greater quality and less programming time.
About OPEN MIND Technologies AG
OPEN MIND Technologies AG is a leading developer of CAD/CAM software and postprocessors for designing and manufacturing complex moulds and parts. OPEN MIND offers an extensive range of products from 2D feature-oriented solutions for milling standard parts through to software for 5axis simultaneous machining.
With their hyperMILL® software, which is used in the automotive, tool and mould manufacturing, mechanical engineering, medical and aerospace, and watch and jewellery industries, OPEN MIND Technologies AG is represented in all the important markets in Asia, Europe and North America.
OPEN MIND Technologies AG is a Mensch und Maschine company ( www.mum.de).
Additional information is available upon request or from our website at www.openmind-tech.com.
OPEN MIND Technologies UK Ltd., Oxford
Units 1 and 2
Bicester Business Centre
Telford Road
Bicester
Oxfordshire OX26 4LD
England
Phone: +44 1869 290 003
Fax: +44 1869 369 429
E-mail: Email Contact
OPEN MIND Technologies USA, Inc.
214 Garden Street, Unit 2
Needham MA 02492
USA
Phone: +1 888 516 1232
Fax: +1 270 912 5822
E-mail: Email Contact
Head office:
OPEN MIND Technologies AG, Argelsrieder Feld 5, 82234 Wessling, Germany
Phone: +49 8153 933-500, Fax: +49 8153 933-501
E-mail: info@openmind-tech.com, website:
www.openmind-tech.com
Press contact:
HighTech communications GmbH
Brigitte Basilio
Grasserstrasse 1c
80339 Munich, Germany
Phone: +49 89 500778-20
Fax: +49 89 500778-78
E-mail:
Email Contact
Website: www.htcm.de