Maximum productivity and consistent quality are critical in automated welding processes. This requires robust, high-precision sensors that perform path planning, distance control, and quality inspections, says Glenn Wedgbrow, Business Development Manager at Micro-Epsilon UK.
Path Planning
3D Scan of Components Before Laser Cladding
With laser cladding, the component surface is melted by a laser beam and joined to form a new, pore-free layer by adding a powdered filler material. Prior to laser processing, the components are scanned with a scanCONTROL laser scanner from several directions. The core task of the scanners is detecting free forms and recognizing form deviations. Regardless of the reflection properties of the material, the scanners provide stable measurement values. The raw data is transferred directly to the user’s software, assembled into a 3D model, and used for the path planning of the laser welding head. The welding nozzle is then placed at the correct distance from the surface and guided along the calculated path.
Fully Automatic 3D Repair Welding
scanCONTROL laser scanners are also used for repair welding of large parts to determine the welding track and the robot path. First, the surface of the defective area is scanned by a laser scanner, which is guided over the surface by a robot. The 3D data of the worn area, together with the position data of the robot, are generated. The measuring points determined are inserted into the CAD target model of the component. Therefore, the difference in volume between the high-resolution measurement values and the target contour is obtained. Based on this difference, the required welding track is calculated and then transmitted to the robot control.
Calculation of Welded Paths on Gas Valves
The position of the welding head relative to the welded seam is a decisive factor in the quality of automated welding processes. Even minor deviations can affect the welding result and lead to manual rework or rejection of the component. scanCONTROL laser profile sensors are used for profile measurements and provide precise profile information of the seam, even on difficult surfaces. The calculated paths eliminate deviations from the component tolerance in such a way that the welding head is positioned over the desired seam at all times.
Welding Head Control
Distance Control with Fully Automatic Laser Welding
In fully automatic welding units, welding head positioning is crucial for the quality of the welded joint. To position the welding head at the correct distance, optoNCDT 1900 laser sensors are used. These measure the distance from the steel plates with high accuracy and dynamics. As they offer the highest insensitivity to ambient light in their class, the laser sensors are ideal for the distance control of welding heads.
Focal Point Control in Additive Manufacturing
With additive manufacturing methods such as selective metal melting, the focal point control of the laser is crucial for process speed and quality. To determine the distance between the print head and the powder surface and to control the laser focal point, optoNCDT 1900 laser sensors are used. Their high measuring rate and repeatability enable fast and reliable distance measurements regardless of the respective alloy.
Displacement Measurement of Electrodes in Resistance Welding
In resistance welding processes, various parameters must be monitored. In automated welding machines, eddy current sensors from Micro-Epsilon ensure high-quality welded joints while measuring the travel of the electrodes. The non-contact displacement sensors detect the axial displacement, which is influenced by thermal and mechanical factors. These robust sensors are insensitive to welding currents, vibrations, and fluctuating temperatures, which means they operate reliably in harsh environmental conditions. High resolution and frequency response allow for the electrode position to be dynamically controlled while enabling repeatable quality of the welding joints.
Quality Assurance
3D Inspection of Weld Seams Using Laser Scanners
Laser scanners from Micro-Epsilon are used for quality assurance and the documentation of weld seams. Their high resolution enables the scanners to detect three-dimensional shapes and extremely fine details and structures. The 3D View software from Micro-Epsilon allows quick and easy visualisation of the evaluated readings. Moreover, multiple interfaces can be used to integrate the scanner into common image processing environments.
Sheet Edge Measurement with Laser Welding
Automated robotic welding cells monitor the quality of pipes with longitudinal welding on the basis of several points. First, the edge position must be known along the sheet edge length while also ensuring the optimal alignment of the sheet edge. Laser scanners from Micro-Epsilon, which process several measurement programs in the integrated controller, are used for monitoring. The scanCONTROL SMART sensors do not require an additional controller, which considerably simplifies the installation procedure.
Measurement of Cooling Time in Welding Units
Documentation of welding parameters such as cooling time is achieved using high-performance pyrometers from Micro-Epsilon. These short-wave temperature sensors enable precise measurements of metallic surfaces. The pyrometers are equipped with a double laser sighting to view the exact position of the measurement spot. The recording of the cooling time is performed between freely adjustable limit values. Depending on the pyrometer model, different measurement distances and measurement spot sizes are available.
Weld Seam Tracking in Pipeline Inspection
For the maintenance of pipelines, inspection of the outer weld seam is a critical factor. For this reason, pipes are inspected in a test station under extreme climatic conditions. To automate the inspection process, the test facility is positioned precisely over the seam. The scanCONTROL laser scanner detects the position of the weld seam and outputs this to the control system, which readjusts the test unit. The laser scanner automatically adapts the exposure time to surface changes (e.g., moisture, dirt, or corrosion).
Colour Sensors for Presence Check of Weld Seams
When welding gear parts, the weld seam is automatically inspected for quality assurance purposes. Here, CFO100 colour sensors from Micro-Epsilon are used, which detect the entire seam while the component is rotating. As the weld seam has a different colour than the surrounding materials, the presence of the seam can be reliably inspected. The multi-teach function enables teach-in of the colour shades of the weld seam. If there is no seam, a switching signal is output.
Diameter Measurement of Welding Wires
To monitor the thickness of welding wires, optical micrometers from Micro-Epsilon are used. The X-Frame measuring system continuously measures the diameter of the wire. Two laser micrometers detect the wire diameter with high resolution and measuring rate. The X-Frame configuration enables the measurement of different wire thicknesses, while digital interfaces transmit the measurement data to the control system.
Optical Weld Seam Inspection Using Industrial Endoscopes
Rigid and video endoscopes are ideal for the inspection of weld seams in difficult-to-access places. This inspection can be performed before, during, and after the welding process. Parameters such as wear, cleanliness, shape, and surface are examined visually. For automatic evaluation, the endoscopes can also be integrated into image processing solutions.
Colour Sensors for Automatic Detection of Weld Spots
Brass strips are joined using the spot-welding method. CFO colour sensors are used to automatically recognise the weld spots before further processing. The multi-teach function allows for the colour shades of the shiny weld spots to be taught into colour groups. When the sensor recognises a weld spot, an output signal is sent to the control system to initiate further processing.
Automated welding is revolutionising manufacturing by improving precision, efficiency, and quality. Advanced sensor technologies from Micro-Epsilon enhance process control and ensure consistency, making automated welding a game-changer in modern production environments.
For more information, please visit Micro-Epsilon, call the Micro-Epsilon sales department on +44 (0)151 355 6070 or email mailto:info@micro-epsilon.co.uk
