Eureka Robot

Eureka Robot allows for offline simulation and programming of industrial robots. This technology combines the flexibility of robots with the capabilities of modern CNC machining centers.

Eureka Robot – solution description

Thanks to Eureka Robot, robot programming becomes really simple, and it is much faster than traditional programming at the workstation.

Roboris, the manufacturer of this solution, has been a leader in the field of milling robot applications for many years, and the program itself has found wide application in many industries, not only manufacturing, but also artistic and prototyping.

Eureka Robot works by converting the neutral APT code generated by CAM systems into a program for a robot cell with 6 or more axes. During this process, the program calculates the optimal trajectory of the robot arm and external axes, additionally allowing simulation of every aspect of processing. The 64-bit version allows for processing files of unlimited size. Importantly, the program is adapted to all industrial robots available on the market: ABB, Kuka, Fanuc, Motoman, Kawasaki, Staubli, Comau, Universal Robots.

Typical uses of the program include:

  • Milling,
  • Painting,
  • Welding,
  • Grinding,
  • Robot cutting,
  • Object manipulation.

Selected program functions

3D scan

If you don't have a CAD model, 3D scanning will allow you to obtain the toolpath directly from the actual part.

Analysis and comparison of machining results

Monitor axes and speed, estimate machining time, compare machined material with theoretical model, record machined material.

Support for every
robot configuration

Automatic tool changing, multiple spindles, common motors or fixed tools and robot parts are supported.

Cutting
with a robot

Eureka can manage all degrees of freedom to maintain correct blade positioning.

Programming
CAD/CAM

Use your own 3D CAM system model to create and customize toolpaths as you see fit.

Collision detection

Real-time material removal simulation enables full collision detection with the workpiece material.

Customized parameters

Eureka lets you use custom command macros for quick and easy programming.

Optimization of work
of external axes

Extended workspace using external axes. Eureka automatically optimizes axis position.

Optimization and path repair

Detect inconsistencies and collisions of all kinds, then fix them in Eureka with powerful yet easy-to-use tools.

Processing
any path

Use your favorite CAM system, thanks to no program size limits. Millions of points are well supported using 64-bit technology.

Comparison with the target
model

Analyzes and compares the digital model to the material being machined, identifying areas below or above tolerance.


Paint application simulation

Spray paths can be simulated and calibrated, providing an accurate estimate of the thickness of material applied.

Manually
creating a path

Eureka allows you to manually select a tool path.

Advanced track editing capabilities

The toolpath can be edited directly in Eureka. Filters and interpolation directions can be easily applied.

Is your company interested in cooperation?Contact us!

17 741 53 50

SOLIDEXPERT INNOVATION Spółka z ograniczoną odpowiedzialnością
ul. Gabrieli Zapolskiej 44, 30-126 Kraków
fax. 17 741 53 50, biuro@innovation-se.com
REGON: 368027904, NIP: 6772423873

  • We have the best engineers and experts on the market among us

  • We are winners of many industry awards

  • We have numerous certificates confirming our competences

    The administrator of personal data is SOLIDEXPERT Innovation z o.o based in Cracow. We will use your personal data to call you back or write back to answer your inquiry. We will process the data in accordance with the Privacy Policy. Tick the consent below if you want to receive promotions, newsletter from us. We will then process your data also for marketing purposes. You can withdraw your consent at any time by writing to biuro@innovation-se.com

    Strona solidexpert.com zbiera dane użytkownika, personalizuje działania marketingowe z pomocą internetowych plików Cookies. Dowiedz się więcej