One welder/operator can manage 3 to 4 robotstations.
Operational Principle:
Load the 3D model of the part
01
Define the required weld type
02
Automatically generate the welds
03
Select the welds you want to execute
04
Adjust the approach angle of the welding gun
05
Position the raw workpiece
06
Robot scans the partusing a laser scanner
07
Robot welds the part
08
Robot motion algorithms, combined withproprietary calibration modes and measurementequipment, ensure the highest accuracy.
Available Welding Technologies:
• Hand-Eye Calibration
• Robot Tool AutoCalibration
Robot Tool Auto Calibration
Avalible Welding Technologies:
Robot motion algorithms coupled with self-developed calibration modes and measurement equipment to ensure the accuracy of the robots.
Multi-layer & Multi-pass Welding
Torch-to-work tracking uses measurements from the center of the weave pattern, while cross-seam tracking relies on side measurements. Corrections are based on stick-out differences between the sides.
Minimum swing for tracking: 1 mm
Swing Arc Tracking
Manual groove preparation often results in poor quality and assembly errors.
Deformation during assembly can cause uneven gaps.
Tack welds, holes, gaps, and similar features require precise adjustments to the welding gun position and process.
All these adjustments are handled automatically using
Adaptive Welding
• Place the weldment in the robot operating area
• Let robot Scan the Part
• Start defining welds in the generated 3D model.
• No need for a pre-existing 3D model–advancedtechnologies take care of it!
No need for 3D model
Advanced Technologies
Our contacts
OMD OÜ
Reg. code 11468255 VAT EE101260778
+372 5336 4352 omdrobots@omdrobots.eu Sinilille tee 6/1, office 9, 75312 Peetri, Estonia
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