Flexible automation of
welding, milling and cutting

"Changing or reconfiguring a robotics installation is expensive and time consuming"

Industrial processes such as welding, milling and cutting within the metalworking industry have successfully applied robotics automation within the last 20 years (think of the car industry). However, the success is limited to companies that benefit from many-of-a-kind productions.

The reason is simple: "Changing or reconfiguring a robotics installation is expensive and time consuming". Either you need on-site expertise in robotics, CAD(CAM and automation, or you need subcontractors with that expertise. Both limit the feasibility of current automation solutions for few-of-a-kind productions.

US $10 Billion

estimated in USA in yearly labour cost for manual welding tasks


of all manufacturing companies are SME's


of all robot installations perform welding

Our solution

CorePath Robotics combine both online and offline programming methods, in order to create a teach-in of welding tasks that is faster than if you would do manually welding. By exploiting state of the art line scanners in combination with robot kinematics, we allow floor operators to do fast and coarse programming of the task by simply sweeping the robot over the workspace. Our software analyses the sensor data and generates precise robot paths for the task.

  • Very fast online programming
  • Tight tolerances
  • High quality
  • High uniformity in output
  • Removes the need for expensive subcontractors or experts



Manufacturing companies especially SME’s, adapting to user needs, have an increasing number of small batch sizes. Cost effective automation of welding in these few-of-a-kind productions require fast re-programming and no dependency on external experts.


Most milling processes require post-processing in the form of deburring. This can often be programmed directly into the CAD/CAM systems however, due to the high cost of a milling machine, it is more cost-effective to perform manual deburring or simply let a cheap robot do it.

Plasma cutting

Traditional machines for plasma cutting are able to cut sheet metal and in some cases hollow rods. However, plasma cutting is also used after bending or similar deformation process which requires the flexibility of manual labor or a robot.

Our team

Jimmy Alison Jørgensen
CEO, Director

Jimmy has over 11 years of experience within advanced robotics control, modelling, simulation and programming. He furthermore has experience in project management and application writing both from his time as researcher and self-employed consultant at JAR Tech. Jimmy holds a PhD in Robotics Systems Engineering from the University of Southern Denmark.

Sabina Kethelz
Business Developer Officer
Julian Jørgensen
UX Designer
Jeshith Damsbo Anandasubramaniam
Robotics Software Engineer
Morten Agerbæk Riber
Communications Consultant

Board of Directors

Gustaf Iuel-Brockdorff, Chairman, Co-Founder, SDTI

Gustaf has been working in SDTI since October 2004. For several years he worked at "Forskningsrådenes Instrument Tjeneste" where he purchased scientific equipment, primarily via the EU licensing rounds. Gustaf started his career at the patent bureau IPB.

Jens Kristian Damsgaard, Co-Founder, Director, scienceventures

Jens Kristian Damsgaard has been involved in business development and the supply of capital for several companies with roots in the University of Southern Denmark, Odense University Hospital, Denmark’s Technological University, Risø National Laboratory. He has negotiated several licence agreements between research institutions and companies - both at home and abroad


Looking for engineers, designers and business professionals.
If you are Interested in a future at CorePath Robotics, send an email to:


RoboBusiness 2015

CorePath Robotics attended RoboBusiness Pitchfire 2015 in San Jose, California. Read more »

CorePath Robotics founded

CorePath Robotics founded the 13-08-2015 with Science Ventures Denmark and Syddansk Teknologisk Innovation as investors Read more »